CN107391830B - Building block layout method, system, storage medium and terminal - Google Patents

Abstract

The invention provides a building block layout method, a building block layout system, a storage medium and a terminal, wherein the terminal comprises: the input device is used for inputting the vertical layout condition and the vertical layout related parameters of the building blocks and the horizontal layout condition and the horizontal layout related parameters; a memory storing a computer program for implementing the block layout method; the processor is in communication connection with the input device and the memory respectively and is used for operating the computer program to carry out vertical and horizontal layout on the building blocks of the wall body; and the display is in communication connection with the processor and outputs the building block layout result of the wall body. The method can automatically design the optimal block arrangement result according to the size of the wall, has high design speed and short time consumption, and can greatly improve the construction efficiency.

Description

Building block layout method, system, storage medium and terminal

Technical Field

The invention belongs to the technical field of building construction, relates to a construction method for building a wall body, and particularly relates to a building block layout method, a building block layout system, a storage medium and a terminal.

Background

The building construction refers to production activities in the engineering construction implementation stage, is a construction process of various buildings, and can also be a process of changing various lines on a design drawing into a real object at a specified place. The method comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like. The site of the construction work is called a "construction site" or "job site", also called a worksite. In the foundation engineering construction, the masonry engineering foundation construction is an important link, and the wall building is a work content of the masonry engineering foundation construction.

In the construction process, test block arrangement is carried out on site before the wall is built, the block arrangement principle is that the blocks are staggered vertically, the overlapping length of the blocks is not smaller than 1/3 of the length of the blocks, and when the overlapping length is insufficient, tie bars are placed in mortar joints; the vertical mortar joint thickness of the building block is preferably 15 mm and not more than 20mm, the horizontal mortar joint thickness can be determined according to the height of the wall and the building block, but not more than 15 mm and not less than 10 mm, the mortar joint is required to be horizontal and vertical, and the mortar is full; the arrangement of the building blocks should adopt main specifications as far as possible, and the positions of local brick adjusting building blocks which need to be arranged are symmetrically arranged so as to ensure that the masonry is uniformly stressed; indulge horizontal wall and wholly sting the raft and build by laying bricks or stones, be interrupted temporarily and can drag oblique raft, when connecing the raft, should clear up the basic level earlier, water moist, then spread the thick liquid and connect the building to accomplish that the mortar joint is full. It follows that the above numerous requirements need to be met with just one block arrangement, not only, but also with strict quality requirements, such as: 1) the wall masonry material must meet the national quality standard and design requirements; 2) the arrangement of the building blocks is reasonable and correct, the reserved branches conform to the regulations, the branches are firm and smooth, and the thickness of mortar joints conforms to the requirements; 3) the positions and the sizes of the reserved holes and the embedded parts are accurate; 4) different masonry materials are constructed according to different relevant specifications and standard regulations.

In actual operation, because the structure type of wall body is nimble changeable, every wall body all needs constructor comprehensive consideration all factors to carry out building block overall arrangement and adjustment, and the wall body in house is not independent, has the correlation between the wall body, and this has increased very big degree of difficulty for the design of building block overall arrangement undoubtedly, also can consume a large amount of operating time of constructor simultaneously, is unfavorable for improving the efficiency of construction.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide a method and a system for laying out building blocks, a storage medium, and a terminal, which are used to solve the problems of difficult design, long time consumption, and unfavorable improvement of construction efficiency of the existing wall masonry test block.

To achieve the above and other related objects, the present invention provides a block layout method, including: acquiring the height H1 of a wall body and the vertical layout condition of building blocks; if the vertical layout condition of the building blocks is no cross beam, obtaining an adjusting height T1; the unit of T1 is millimeter; if T1 is greater than or equal to 100+ SPHFG, then T1 is the height of the row of cut bricks; if T1 is less than 100+ SPHFG and T1 belongs to [1, 20], then T1 is the height of the caulking adjustment; if T1 is less than 100+ SPHFG and T1 belongs to [21, 50], then T1 is the sum of the height of the caulking adjustment and the height of the guide wall adjustment; if T1 is less than 100+ SPHFG and T1 belongs to [51, 111], then T1+ QKG is the height of the two rows of cut bricks; acquiring the length L of the wall body and the transverse layout condition of the building blocks; judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range; when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers; when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0; when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

The invention also provides a building block layout method, which comprises the following steps: acquiring the height H2 of a wall body and the vertical layout condition of building blocks; if the vertical layout condition of the building blocks is that a cross beam is arranged, and the cross beam is a waist beam, the adjusting height T2 is obtained; the unit of T2 is millimeter; if T2 is greater than or equal to 100+ SPHFG, then T2 is the height of the row of cut bricks; if T2 is less than 100+ SPHFG and T2 belongs to [1, 30], then T2 is the adjusted height of the wale; if T2 is less than 100+ SPHFG and T2 belongs to [31, 50], then T2 is the sum of the height of the wale adjustment and the height of the caulking adjustment; if T2 is less than 100+ SPHFG and T2 belongs to [51, JXZG + XZHFG-1], then T2 is the sum of the adjusted height of the waist rail, the adjusted height of the caulking and the adjusted height of the guide wall; JXZG is the height of the small brick, and XZHFG is the height of the mortar joint of the small brick; if T2 is less than 100+ SPHFG and T2 is equal to JXZG + XZHFG, then T2 is the height of the plus tile; if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +1, JXZG + XZHFG +30], then T2 is the sum of the height of the plus tile and the height of the wale adjustment; if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +31, JXZG + XZHFG +50], then T2 is the sum of the height of the plus tile, the height of the wale adjustment and the height of the caulking adjustment; if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +51, JXZG + XZHFG +111], then T2 is the sum of the height of the small added brick, the height of the wale adjustment, the height of the caulking adjustment and the height of the guide wall adjustment; the elevation of the bottom of the waist beam is determined according to the height of the whole brick, and the whole brick under the waist beam is 5-6 sheets; acquiring the length L of a wall body of a beam upper wall or a beam lower wall and the transverse layout condition of building blocks; judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range; when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers; when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0; when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

The invention also provides a building block layout method, which comprises the following steps: acquiring vertical layout conditions of the building blocks; the vertical layout condition of the building blocks is that a cross beam is arranged, and the cross beam is a windowsill beam; acquiring the height H32 of the lower wall of the windowsill beam and the adjusting height T32 below the windowsill beam; the unit of T32 is millimeter; if T32 is greater than or equal to 100+ SPHFG, then T32 is the height of the row of cut bricks; if T32 is less than 100+ SPHFG and T32 belongs to [1, 30], then T32 is the height adjusted by the sill beam; if T32 is less than 100+ SPHFG and T32 belongs to [31, 60], then T32 is the sum of the height adjusted by the sill beam and the height adjusted by the guide wall; if T32 is less than 100+ SPHFG and T32 belongs to [61, JXZG + XZHFG-1], then T32 is the sum of the height adjusted by the windowsill beam, the height adjusted by the guide wall and the height adjusted by the mortar joint of the last two bricks under the windowsill beam; JXZG is the height of the added small brick, and XZHFG is the height of the mortar joint of the small brick; if T32 is less than 100+ SPHFG and T32 is equal to JXZG + XZHFG, then T32 is the sum of the height of the plus brick and the height of the mortar joint of the small bricks; if T32 is less than 100+ SPHFG and T32 belongs to [ JXZG + XZHFG +1, 95], then T32 is the sum of the height of the added tile and the height of the sill beam adjustment; if T32 is less than 100+ SPHFG and T32 belongs to [96, 111], T32 is the sum of the height of the added small brick, the height of the sill beam and the height of the guide wall; acquiring the height H31 of the upper wall of the windowsill beam and the adjusting height T31 above the windowsill beam; the unit of T31 is millimeter; if T31 is greater than or equal to 100+ SPHFG, then T31 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height; if T31 is less than 100+ SPHFG and T31 belongs to [1, 20], then T31 is the height of the caulking adjustment; if T31 is less than 100+ SPHFG and T31 belongs to [21, 111], then T31+ QKG is the height of the two rows of cut bricks; acquiring the length L of a wall body of a beam upper wall or a beam lower wall and the transverse layout condition of building blocks; judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range; when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers; when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0; when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

The invention also provides a layout system of the building blocks, which comprises: the vertical layout parameter acquisition module is used for acquiring vertical layout conditions and vertical layout related parameters of the building blocks; if the vertical layout condition of the building blocks is no cross beam, executing a first vertical layout mode of a first vertical layout module; if the vertical layout condition of the building block is that a cross beam exists and the cross beam is a waist beam, executing a second vertical layout mode of a second vertical layout module; if the vertical layout condition of the building blocks is that a cross beam exists and the cross beam is a windowsill beam, executing a third vertical layout mode of a third vertical layout module; the transverse layout parameter acquisition module is used for acquiring transverse layout conditions and transverse layout related parameters of the building blocks; the transverse layout related parameters comprise the length L of the wall body and the standard length S of the building block; the wall type judging module is used for judging the threshold range of the length L of the wall; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range; the first transverse layout module is used for laying bricks with odd number skins in the wall body according to the length L of the wall body, namely when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, and if the transverse layout condition is a single-side serrated racking, the length of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; l and S are both positive numbers; a second transverse layout module, wherein when the length L of the wall body belongs to a second threshold range, that is, L is greater than S-2K and less than or equal to S, if the transverse layout condition is a single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, that is, bricks with odd number skins are adjustment blocks with length L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a third transverse layout module, wherein when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins in the wall body are composed of two adjusting building blocks, one adjusting building block is S/3, and the other adjusting building block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a fourth transverse layout module, wherein when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + a) -a; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a fifth transverse layout module, wherein if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a sixth transverse layout module, wherein when the length L of the wall body belongs to a sixth threshold range, that is, the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins in the wall body comprise 2 adjusting blocks and N complete blocks, one adjusting block has a length of 2S/3, and the other adjusting block has a length of L-2S/3-N (S + a) -a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a seventh transverse layout module, configured to, when the length L of the wall belongs to a seventh threshold range, that is, a remainder of division of L by S is [2S/3, 5S/6), if the transverse layout condition is a bilateral serrated racking, lay out the length of odd-numbered bricks in the wall as L, that is, odd-numbered bricks include 1 adjusting block and N +1 complete blocks, and one adjusting block has a length of L- (N +1) (S + a); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; an eighth transverse layout module, configured to, when the length L of the wall belongs to an eighth threshold range, that is, a remainder of division of L by S is [5S/6, S ], if the transverse layout condition is a bilateral serrated racking, lay out the length of odd-numbered bricks in the wall as L, that is, odd-numbered bricks include 1 adjusting block and N +1 complete blocks, and one adjusting block has a length of L- (N +1) (S + a); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; a ninth transverse layout module, wherein when the length L of the wall body belongs to a ninth threshold range, that is, the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + a) -a; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0; or/and a tenth transverse layout module, when the length L of the wall body belongs to a tenth threshold range, that is, the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins in the wall body are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) × (S + a) -a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

The invention also provides a storage medium storing a computer program which, when executed by a processor, implements the method of laying out the building blocks described above.

The present invention also provides a terminal, including: the input device is used for inputting the vertical layout condition and the vertical layout related parameters of the building blocks and the horizontal layout condition and the horizontal layout related parameters; a memory storing a computer program for implementing the block layout method; the processor is in communication connection with the input device and the memory respectively and is used for operating the computer program to carry out vertical and horizontal layout on the building blocks of the wall body; and the display is in communication connection with the processor and outputs the building block layout result of the wall body.

As described above, the block layout method, system, storage medium and terminal of the present invention have the following advantages:

the method can automatically design the optimal block arrangement result according to the size of the wall, has high design speed and short time consumption, and can greatly improve the construction efficiency. The arrangement result of the building blocks obtained by the invention not only completely meets the complex standard and requirement, but also is very beautiful, and can ensure that the mortar joints of the adjacent bricks are uniformly staggered.

Drawings

Fig. 1 is a schematic flow chart of an implementation of the block layout method according to the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an implementation of a block layout system according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an implementation of the storage medium according to the embodiment of the present invention.

Fig. 4 is a schematic diagram illustrating an implementation structure of the terminal according to the embodiment of the present invention.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

Referring to fig. 1, an embodiment of the present invention provides a method for laying out building blocks, where the method for laying out building blocks includes:

s101, acquiring the height of a wall body and the vertical layout condition of building blocks;

s102, if the vertical layout condition of the building blocks is no beam, executing a first vertical layout mode, namely: obtaining an adjusting height T1; the unit of T1 is millimeter;

if T1 is greater than or equal to 100+ SPHFG, then T1 is the height of the row of cut bricks; the horizontal mortar joint height SPHFG is adjustable, 10< SPHFG < 12.

If T1 is less than 100+ SPHFG and T1 belongs to [1, 20], then T1 is the height of the caulking adjustment; the caulking height QFG is adjustable, 30< - > QFG < - > 50.

If T1 is less than 100+ SPHFG and T1 belongs to [21, 50], then T1 is the sum of the height of the caulking adjustment and the height of the guide wall adjustment; the guide wall height DQG is adjustable, 200< -DQG < -230.

If T1 is less than 100+ SPHFG and T1 belongs to [51, 111], then T1+ QKG is the height of the two rows of cut bricks; 1/2QKG < (the height of the cut brick < (QKG).

S103, if the vertical layout condition of the building blocks is that a cross beam exists and the cross beam is a waist beam, executing a second vertical layout mode, namely: the adjustment height T2 is obtained. The unit of T2 is millimeters.

If T2 is greater than or equal to 100+ SPHFG, then T2 is the height of the row of cut bricks; the horizontal mortar joint height SPHFG is adjustable, 10< SPHFG < 12.

If T2 is less than 100+ SPHFG and T2 belongs to [1, 30], then T2 is the adjusted height of the wale; the adjustment of the waist rail means that the height of the waist rail is adjusted within an allowable range, for example: the fixed height of the waist rail is 120mm, in this example, the fixed height can be adjusted by 30mm, and then the height of the adjusted waist rail is 150 mm.

If T2 is less than 100+ SPHFG and T2 belongs to [31, 50], then T2 is the sum of the height of the wale adjustment and the height of the caulking adjustment; the caulking height QFG is adjustable, 30< - > QFG < - > 50.

If T2 is less than 100+ SPHFG and T2 belongs to [51, JXZG + XZHFG-1], then T2 is the sum of the adjusted height of the waist rail, the adjusted height of the caulking and the adjusted height of the guide wall; JXZG is the height of the small brick, and XZHFG is the height of the mortar joint of the small brick; the small brick is generally added on the last whole brick.

If T2 is less than 100+ SPHFG and T2 is equal to JXZG + XZHFG, then T2 is the height of the plus tile;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +1, JXZG + XZHFG +30], then T2 is the sum of the height of the plus tile and the height of the wale adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +31, JXZG + XZHFG +50], then T2 is the sum of the height of the plus tile, the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +51, JXZG + XZHFG +111], then T2 is the sum of the height of the small added brick, the height of the wale adjustment, the height of the caulking adjustment and the height of the guide wall adjustment; the guide wall height DQG is adjustable, 200< -DQG < -230.

The elevation of the bottom of the waist beam is determined according to the height of the whole brick, and the whole brick under the waist beam is 5-6 sheets;

s104, if the vertical layout condition of the building blocks is that a beam exists and the beam is a windowsill beam, executing a third vertical layout mode, namely: acquiring the height H32 of the lower wall of the windowsill beam and the adjusting height T32 below the windowsill beam; the unit of T32 is millimeters.

If T32 is greater than or equal to 100+ SPHFG, then T32 is the height of the row of cut bricks; the horizontal mortar joint height SPHFG is adjustable, 10< SPHFG < 12.

If T32 is less than 100+ SPHFG and T32 belongs to [1, 30], then T32 is the height adjusted by the sill beam; the height mark of the windowsill beam is the height mark of the beam top of the windowsill beam by the height mark of the designed window bottom, and the bricks on the beam and on the beam of the windowsill beam are separately considered.

If T32 is less than 100+ SPHFG and T32 belongs to [31, 60], then T32 is the sum of the height adjusted by the sill beam and the height adjusted by the guide wall; the guide wall height DQG is adjustable, 200< -DQG < -230.

If T32 is less than 100+ SPHFG and T32 belongs to [61, JXZG + XZHFG-1], then T32 is the sum of the height adjusted by the windowsill beam, the height adjusted by the guide wall and the height adjusted by the mortar joint of the last two bricks under the windowsill beam; JXZG is the height of the added small brick, and XZHFG is the height of the mortar joint of the small brick; wherein, the mortar joint adjusting height of the last two bricks under the windowsill beam refers to the respective mortar joint height of the last two bricks.

If T32 is less than 100+ SPHFG and T32 is equal to JXZG + XZHFG, then T32 is the sum of the height of the plus brick and the height of the mortar joint of the small bricks; in this case, the small bricks are generally added on the guide wall, i.e. the small bricks are added between the guide wall and the first leather brick.

If T32 is less than 100+ SPHFG and T32 belongs to [ JXZG + XZHFG +1, 95], then T32 is the sum of the height of the added tile and the height of the sill beam adjustment;

if T32 is less than 100+ SPHFG and T32 belongs to [96, 111], T32 is the sum of the height of the added small brick, the height of the sill beam and the height of the guide wall;

the sill beam upper wall height H31 and the adjusted height above the sill beam T31 are obtained. The unit of T31 is millimeters.

If T31 is greater than or equal to 100+ SPHFG, then T31 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height; the horizontal mortar joint height SPHFG is adjustable, 10< SPHFG < 12.

If T31 is less than 100+ SPHFG and T31 belongs to [1, 20], then T31 is the height of the caulking adjustment; the caulking height QFG is adjustable, 30< - > QFG < - > 50.

If T31 is less than 100+ SPHFG and T31 belongs to [21, 111], then T31+ QKG is the height of the two rows of cut bricks; 1/2QKG < (the height of the cut brick < (QKG).

S105, acquiring the length L of the wall body of the beam upper wall or the beam lower wall and the transverse layout condition of the building blocks;

judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

s106, when the length L of the wall body belongs to a first threshold range, executing a first transverse layout mode; when L is smaller than or equal to S-2K, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting building blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers;

s107, when the length L of the wall body belongs to a second threshold value range, executing a second transverse layout mode; when L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s108, when the length L of the wall body belongs to a third threshold range, executing a third transverse layout mode; namely the remainder of dividing L by S is [0, S/6), and when L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length layout of the bricks with odd number skin in the wall body is L, namely the bricks with odd number skin are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s109, when the length L of the wall body belongs to a fourth threshold range, executing a fourth transverse layout mode; namely, when the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is double-side serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s110, if the length L of the wall body belongs to a fifth threshold range, executing a fifth transverse layout mode; namely the remainder of dividing L by S is [ S/3, S/2), and when L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length layout of the bricks with odd number skin in the wall body is L, namely the bricks with odd number skin comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s111, when the length L of the wall body belongs to a sixth threshold range, executing a sixth transverse layout mode; namely, when the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s112, when the length L of the wall body belongs to a seventh threshold range, executing a seventh transverse layout mode; namely, when the remainder of dividing L by S is [2S/3, 5S/6), if the transverse layout condition is double-side serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s113, when the length L of the wall body belongs to an eighth threshold range, executing an eighth transverse layout mode; namely, when the remainder of dividing L by S is [5S/6, S), if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

s114, when the length L of the wall body belongs to a ninth threshold range, executing a ninth transverse layout mode; namely, the remainder of dividing L by S is [0, S/6), and when L is more than 2S, if the transverse layout condition is double-side serrated racking, the length layout of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) ((S + A) -A); the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

s115, when the length L of the wall body belongs to a tenth threshold range, executing a tenth transverse layout mode; namely, the remainder of dividing L by S is [ S/3, S/2), and when L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

The protection scope of the block layout method according to the present invention is not limited to the execution sequence of the steps listed in this embodiment, and all the solutions implemented by the steps addition, subtraction, and step replacement in the prior art according to the principle of the present invention are included in the protection scope of the present invention.

The invention also provides a layout system of building blocks, which can realize the layout method of the building blocks, but the realization device of the layout method of the building blocks of the invention comprises but is not limited to the structure of the layout system of the building blocks listed in the embodiment, and all structural modifications and substitutions of the prior art made according to the principle of the invention are included in the protection scope of the invention.

Referring to fig. 2, an embodiment of the present invention provides a block layout system, where the block layout system 200 includes: the system comprises a vertical layout parameter obtaining module 201, a first vertical layout module 202, a second vertical layout module 203, a third vertical layout module 204, a horizontal layout parameter obtaining module 205, a wall type judging module 206, a first horizontal layout module 207, a second horizontal layout module 208, a third horizontal layout module 209, a fourth horizontal layout module 210, a fifth horizontal layout module 211, a sixth horizontal layout module 212, a seventh horizontal layout module 213, an eighth horizontal layout module 214, a ninth horizontal layout module 215 and a tenth horizontal layout module 216.

The vertical layout parameter obtaining module 201 obtains vertical layout conditions and vertical layout related parameters of the building blocks; if the vertical layout condition of the building blocks is no cross beam, executing a first vertical layout mode of a first vertical layout module 202; if the vertical layout condition of the building block is that a cross beam exists and the cross beam is a waist beam, executing a second vertical layout mode of a second vertical layout module 203; if the vertical layout condition of the building blocks is that a cross beam exists and the cross beam is a windowsill beam, executing a third vertical layout mode of a third vertical layout module 204;

the first vertical layout mode realized by the first vertical layout module is as follows:

obtaining an adjusting height T1; the unit of T1 is millimeter;

if T1 is greater than or equal to 100+ SPHFG, then T1 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T1 is less than 100+ SPHFG and T1 belongs to [1, 20], then T1 is the height of the caulking adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [21, 50], then T1 is the sum of the height of the caulking adjustment and the height of the guide wall adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [51, 111], then T1+ QKG is the height of the two rows of cut bricks;

the second vertical layout mode realized by the second vertical layout module is as follows:

obtaining an adjusting height T2; the unit of T2 is millimeter;

if T2 is greater than or equal to 100+ SPHFG, then T2 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T2 is less than 100+ SPHFG and T2 belongs to [1, 30], then T2 is the adjusted height of the wale;

if T2 is less than 100+ SPHFG and T2 belongs to [31, 50], then T2 is the sum of the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [51, JXZG + XZHFG-1], then T2 is the sum of the adjusted height of the waist rail, the adjusted height of the caulking and the adjusted height of the guide wall; JXZG is the height of the small brick, and XZHFG is the height of the mortar joint of the small brick;

if T2 is less than 100+ SPHFG and T2 is equal to JXZG + XZHFG, then T2 is the height of the plus tile;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +1, JXZG + XZHFG +30], then T2 is the sum of the height of the plus tile and the height of the wale adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +31, JXZG + XZHFG +50], then T2 is the sum of the height of the plus tile, the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +51, JXZG + XZHFG +111], then T2 is the sum of the height of the small added brick, the height of the wale adjustment, the height of the caulking adjustment and the height of the guide wall adjustment;

the elevation of the bottom of the waist beam is determined according to the height of the whole brick, and the whole brick under the waist beam is 5-6 sheets;

the third vertical layout mode realized by the third vertical layout module is as follows:

acquiring the height H32 of the lower wall of the windowsill beam and the adjusting height T32 below the windowsill beam; the unit of T32 is millimeter;

if T32 is greater than or equal to 100+ SPHFG, then T32 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T32 is less than 100+ SPHFG and T32 belongs to [1, 30], then T32 is the height adjusted by the sill beam;

if T32 is less than 100+ SPHFG and T32 belongs to [31, 60], then T32 is the sum of the height adjusted by the sill beam and the height adjusted by the guide wall;

if T32 is less than 100+ SPHFG and T32 belongs to [61, JXZG + XZHFG-1], then T32 is the sum of the height adjusted by the windowsill beam, the height adjusted by the guide wall and the height adjusted by the mortar joint of the last two bricks under the windowsill beam; JXZG is the height of the added small brick, and XZHFG is the height of the mortar joint of the small brick;

if T32 is less than 100+ SPHFG and T32 is equal to JXZG + XZHFG, then T32 is the sum of the height of the plus brick and the height of the mortar joint of the small bricks;

if T32 is less than 100+ SPHFG and T32 belongs to [ JXZG + XZHFG +1, 95], then T32 is the sum of the height of the added tile and the height of the sill beam adjustment;

if T32 is less than 100+ SPHFG and T32 belongs to [96, 111], T32 is the sum of the height of the added small brick, the height of the sill beam and the height of the guide wall;

acquiring the height H31 of the upper wall of the windowsill beam and the adjusting height T31 above the windowsill beam; the unit of T31 is millimeter;

if T31 is greater than or equal to 100+ SPHFG, then T31 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T31 is less than 100+ SPHFG and T31 belongs to [1, 20], then T31 is the height of the caulking adjustment;

if T31 is less than 100+ SPHFG and T31 belongs to [21, 111], then T31+ QKG is the height of the two rows of cut bricks;

the transverse layout parameter obtaining module 205 obtains transverse layout conditions and transverse layout related parameters of the building blocks; the transverse layout related parameters comprise the length L of the wall body and the standard length S of the building block;

the wall type determination module 206 determines a threshold range to which the length L of the wall belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

the first horizontal layout mode executed by the first horizontal layout module 207 is as follows: when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; l and S are both positive numbers;

the second horizontal layout mode executed by the second horizontal layout module 208 is as follows: when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the third horizontal layout mode executed by the third horizontal layout module 209 is as follows: when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the fourth horizontal layout mode executed by the fourth horizontal layout module 210 is: when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the fifth horizontal layout mode executed by the fifth horizontal layout module 211 is as follows: if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the sixth horizontal layout mode executed by the sixth horizontal layout module 212 is as follows: when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the seventh horizontal layout mode executed by the seventh horizontal layout module 213 is as follows: when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the eighth horizontal layout mode executed by the eighth horizontal layout module 214 is as follows: when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

the ninth horizontal layout mode executed by the ninth horizontal layout module 215 is as follows: when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

the tenth horizontal layout mode executed by the tenth horizontal layout module 216 is as follows: when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

Referring to fig. 3, an embodiment of the present invention further provides a storage medium 300, which stores a computer program, and when the computer program is executed by a processor, the computer program implements the method for laying out the building blocks.

Referring to fig. 4, an embodiment of the present invention further provides a terminal, where the terminal 400 includes: input device 410, memory 420, processor 430, display 440. The input device 410 is used for inputting vertical layout conditions and vertical layout related parameters and horizontal layout conditions and horizontal layout related parameters of the building blocks; the memory 420 stores a computer program for implementing the above-described block layout method; the processor 430 is in communication connection with the input device 410 and the memory 420 respectively, and is configured to run the computer program to perform vertical and horizontal block layout on the wall; the display 440 is connected with the processor 430 in a communication way, and outputs the block layout result of the wall body.

The terminal 400 includes any intelligent device such as a PC, a notebook, a smart phone or/and a tablet computer.

In the present invention, the standard length, width and height of the block are all in mm (millimeters), and the standard size of the block is 200 (height) 200 (thickness) 600 (length). And all values in the present invention are also in units of mm (millimeters). The odd number of the brick is: the lowest layer of bricks laid firstly in the wall body is first bricks; a layer of bricks laid on the first bricks is second bricks; thus, first skin, third skin … … are odd-numbered skins and second skin, fourth skin … … are even-numbered skins.

The method can automatically design the optimal block arrangement result according to the size of the wall, has high design speed and short time consumption, and can greatly improve the construction efficiency.

The block arrangement result obtained by the invention not only completely meets the complex standard and requirement, but also is very beautiful, the overlapping length of the blocks can be ensured to be larger than the length of 1/3 standard blocks, the mortar joint of the upper skin block is positioned in the middle of the lower skin block, and the mortar joints of the blocks are uniformly staggered.

In addition, the invention is suitable for the arrangement of the building blocks of the wall bodies with any size, and has universal applicability and universality.

In conclusion, the present invention effectively overcomes various disadvantages of the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. A method for laying out building blocks is characterized by comprising the following steps:

acquiring the height H1 of a wall body and the vertical layout condition of building blocks;

if the vertical layout condition of the building blocks is no cross beam, obtaining an adjusting height T1; the unit of T1 is millimeter;

if T1 is greater than or equal to 100+ SPHFG, then T1 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T1 is less than 100+ SPHFG and T1 belongs to [1, 20], then T1 is the height of the caulking adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [21, 50], then T1 is the sum of the height of the caulking adjustment and the height of the guide wall adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [51, 111], then T1+ QKG is the height of the two rows of cut bricks; QKG is the standard height of the building block;

acquiring the length L of the wall body and the transverse layout condition of the building blocks;

judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers;

when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

2. A method for laying out building blocks is characterized by comprising the following steps:

acquiring the height H2 of a wall body and the vertical layout condition of building blocks;

if the vertical layout condition of the building blocks is that a cross beam is arranged, and the cross beam is a waist beam, the adjusting height T2 is obtained; the unit of T2 is millimeter;

if T2 is greater than or equal to 100+ SPHFG, then T2 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T2 is less than 100+ SPHFG and T2 belongs to [1, 30], then T2 is the adjusted height of the wale;

if T2 is less than 100+ SPHFG and T2 belongs to [31, 50], then T2 is the sum of the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [51, JXZG + XZHFG-1], then T2 is the sum of the adjusted height of the waist rail, the adjusted height of the caulking and the adjusted height of the guide wall; JXZG is the height of the small brick, and XZHFG is the height of the mortar joint of the small brick;

if T2 is less than 100+ SPHFG and T2 is equal to JXZG + XZHFG, then T2 is the height of the plus tile;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +1, JXZG + XZHFG +30], then T2 is the sum of the height of the plus tile and the height of the wale adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +31, JXZG + XZHFG +50], then T2 is the sum of the height of the plus tile, the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +51, JXZG + XZHFG +111], then T2 is the sum of the height of the small added brick, the height of the wale adjustment, the height of the caulking adjustment and the height of the guide wall adjustment;

the elevation of the bottom of the waist beam is determined according to the height of the whole brick, and the whole brick under the waist beam is 5-6 sheets;

acquiring the length L of a wall body of a beam upper wall or a beam lower wall and the transverse layout condition of building blocks;

judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers;

when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

3. A method for laying out building blocks is characterized by comprising the following steps:

acquiring vertical layout conditions of the building blocks; the vertical layout condition of the building blocks is that a cross beam is arranged, and the cross beam is a windowsill beam;

acquiring the height H32 of the lower wall of the windowsill beam and the adjusting height T32 below the windowsill beam; the unit of T32 is millimeter; if T32 is greater than or equal to 100+ SPHFG, then T32 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T32 is less than 100+ SPHFG and T32 belongs to [1, 30], then T32 is the height adjusted by the sill beam;

if T32 is less than 100+ SPHFG and T32 belongs to [31, 60], then T32 is the sum of the height adjusted by the sill beam and the height adjusted by the guide wall;

if T32 is less than 100+ SPHFG and T32 belongs to [61, JXZG + XZHFG-1], then T32 is the sum of the height adjusted by the windowsill beam, the height adjusted by the guide wall and the height adjusted by the mortar joint of the last two bricks under the windowsill beam; JXZG is the height of the added small brick, and XZHFG is the height of the mortar joint of the small brick;

if T32 is less than 100+ SPHFG and T32 is equal to JXZG + XZHFG, then T32 is the sum of the height of the plus brick and the height of the mortar joint of the small bricks;

if T32 is less than 100+ SPHFG and T32 belongs to [ JXZG + XZHFG +1, 95], then T32 is the sum of the height of the added tile and the height of the sill beam adjustment;

if T32 is less than 100+ SPHFG and T32 belongs to [96, 111], T32 is the sum of the height of the added small brick, the height of the sill beam and the height of the guide wall;

acquiring the height H31 of the upper wall of the windowsill beam and the adjusting height T31 above the windowsill beam; the unit of T31 is millimeter; if T31 is greater than or equal to 100+ SPHFG, then T31 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T31 is less than 100+ SPHFG and T31 belongs to [1, 20], then T31 is the height of the caulking adjustment;

if T31 is less than 100+ SPHFG and T31 belongs to [21, 111], then T31+ QKG is the height of the two rows of cut bricks;

acquiring the length L of a wall body of a beam upper wall or a beam lower wall and the transverse layout condition of building blocks;

judging a threshold range to which the length L of the wall body belongs; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, if the transverse layout condition is a single-side serrated racking, the length layout of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; s is the standard length of the building block; l and S are both positive numbers;

when the length L of the wall body belongs to a second threshold range, namely L is larger than S-2K and smaller than or equal to S, if the transverse layout condition is single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is double-side serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a sixth threshold range, namely the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 2 adjusting blocks and N complete blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-N (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a seventh threshold range, namely the remainder of dividing L by S is [2S/3, 5S/6 ], if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 1 adjusting building block and N +1 complete building blocks, and the length of one adjusting building block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to an eighth threshold range, namely the remainder of dividing L by S is [5S/6, S ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise 1 adjusting block and N +1 complete blocks, and the length of one adjusting block is L- (N +1) × (S + A); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

when the length L of the wall body belongs to a ninth threshold range, namely the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + A) -A; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

when the length L of the wall body belongs to a tenth threshold range, namely the remainder of dividing L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length of odd-numbered bricks in the wall body is L, namely the odd-numbered bricks are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + A) -A; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

4. A block layout system, comprising:

the vertical layout parameter acquisition module is used for acquiring vertical layout conditions and vertical layout related parameters of the building blocks; if the vertical layout condition of the building blocks is no cross beam, executing a first vertical layout mode of a first vertical layout module; if the vertical layout condition of the building block is that a cross beam exists and the cross beam is a waist beam, executing a second vertical layout mode of a second vertical layout module; if the vertical layout condition of the building blocks is that a cross beam exists and the cross beam is a windowsill beam, executing a third vertical layout mode of a third vertical layout module;

the first vertical layout mode realized by the first vertical layout module is as follows:

obtaining an adjusting height T1; the unit of T1 is millimeter;

if T1 is greater than or equal to 100+ SPHFG, then T1 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T1 is less than 100+ SPHFG and T1 belongs to [1, 20], then T1 is the height of the caulking adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [21, 50], then T1 is the sum of the height of the caulking adjustment and the height of the guide wall adjustment;

if T1 is less than 100+ SPHFG and T1 belongs to [51, 111], then T1+ QKG is the height of the two rows of cut bricks;

the second vertical layout mode realized by the second vertical layout module is as follows:

obtaining an adjusting height T2; the unit of T2 is millimeter;

if T2 is greater than or equal to 100+ SPHFG, then T2 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T2 is less than 100+ SPHFG and T2 belongs to [1, 30], then T2 is the adjusted height of the wale;

if T2 is less than 100+ SPHFG and T2 belongs to [31, 50], then T2 is the sum of the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [51, JXZG + XZHFG-1], then T2 is the sum of the adjusted height of the waist rail, the adjusted height of the caulking and the adjusted height of the guide wall; JXZG is the height of the small brick, and XZHFG is the height of the mortar joint of the small brick;

if T2 is less than 100+ SPHFG and T2 is equal to JXZG + XZHFG, then T2 is the height of the plus tile;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +1, JXZG + XZHFG +30], then T2 is the sum of the height of the plus tile and the height of the wale adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +31, JXZG + XZHFG +50], then T2 is the sum of the height of the plus tile, the height of the wale adjustment and the height of the caulking adjustment;

if T2 is less than 100+ SPHFG and T2 belongs to [ JXZG + XZHFG +51, JXZG + XZHFG +111], then T2 is the sum of the height of the small added brick, the height of the wale adjustment, the height of the caulking adjustment and the height of the guide wall adjustment;

the elevation of the bottom of the waist beam is determined according to the height of the whole brick, and the whole brick under the waist beam is 5-6 sheets;

the third vertical layout mode realized by the third vertical layout module is as follows:

acquiring the height H32 of the lower wall of the windowsill beam and the adjusting height T32 below the windowsill beam; the unit of T32 is millimeter;

if T32 is greater than or equal to 100+ SPHFG, then T32 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T32 is less than 100+ SPHFG and T32 belongs to [1, 30], then T32 is the height adjusted by the sill beam;

if T32 is less than 100+ SPHFG and T32 belongs to [31, 60], then T32 is the sum of the height adjusted by the sill beam and the height adjusted by the guide wall;

if T32 is less than 100+ SPHFG and T32 belongs to [61, JXZG + XZHFG-1], then T32 is the sum of the height adjusted by the windowsill beam, the height adjusted by the guide wall and the height adjusted by the mortar joint of the last two bricks under the windowsill beam; JXZG is the height of the added small brick, and XZHFG is the height of the mortar joint of the small brick;

if T32 is less than 100+ SPHFG and T32 is equal to JXZG + XZHFG, then T32 is the sum of the height of the plus brick and the height of the mortar joint of the small bricks;

if T32 is less than 100+ SPHFG and T32 belongs to [ JXZG + XZHFG +1, 95], then T32 is the sum of the height of the added tile and the height of the sill beam adjustment;

if T32 is less than 100+ SPHFG and T32 belongs to [96, 111], T32 is the sum of the height of the added small brick, the height of the sill beam and the height of the guide wall;

acquiring the height H31 of the upper wall of the windowsill beam and the adjusting height T31 above the windowsill beam; the unit of T31 is millimeter;

if T31 is greater than or equal to 100+ SPHFG, then T31 is the height of the row of cut bricks; SPHFG is horizontal mortar joint height;

if T31 is less than 100+ SPHFG and T31 belongs to [1, 20], then T31 is the height of the caulking adjustment;

if T31 is less than 100+ SPHFG and T31 belongs to [21, 111], then T31+ QKG is the height of the two rows of cut bricks;

the transverse layout parameter acquisition module is used for acquiring transverse layout conditions and transverse layout related parameters of the building blocks; the transverse layout related parameters comprise the length L of the wall body and the standard length S of the building block;

the wall type judging module is used for judging the threshold range of the length L of the wall; the threshold range includes: a first threshold range, a second threshold range, a third threshold range, a fourth threshold range, a fifth threshold range, a sixth threshold range, a seventh threshold range, an eighth threshold range, a ninth threshold range, or/and a tenth threshold range;

the first transverse layout module is used for laying bricks with odd number skins in the wall body according to the length L of the wall body, namely when the length L of the wall body belongs to a first threshold range, namely L is smaller than or equal to S-2K, and if the transverse layout condition is a single-side serrated racking, the length of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L + K, namely the bricks with the even number of bricks are the adjusting blocks with the length of L + K; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of bricks is distributed to be L +2K, namely the bricks with the even number of bricks are adjusting blocks with the length of L +2K or complete blocks with the length of S; wherein K is the length of the serrated racking; l and S are both positive numbers;

a second transverse layout module, wherein when the length L of the wall body belongs to a second threshold range, that is, L is greater than S-2K and less than or equal to S, if the transverse layout condition is a single-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, that is, bricks with odd number skins are adjustment blocks with length L; the length of the bricks with the even number of the skins is distributed to be L + K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is S/2, and the length of the other adjusting building block is L + K-S/2-A; when the transverse layout condition is a left serrated raft, the adjusting building blocks with the length of S/2 are laid on the left side, and the adjusting building blocks with the length of L + K-S/2 are laid on the right side; when the transverse layout condition is right serrated racking, the adjusting building blocks with the length of S/2 are laid on the right side, and the adjusting building blocks with the length of L + K-S/2 are laid on the left side; if the transverse layout condition is double-side serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins are adjusting blocks with the length of L; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting blocks, the length of one adjusting block is S/2, and the length of the other adjusting block is L + 2K-S/2-A; the adjusting building blocks with the length of S/2 are distributed on the left side, and the adjusting building blocks with the length of L +2K-S/2-A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a third transverse layout module, wherein when the length L of the wall body belongs to a third threshold range, namely the remainder of dividing L by S is [0, S/6), and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length layout of bricks with odd number skins in the wall body is L, namely the bricks with odd number skins in the wall body are composed of two adjusting building blocks, one adjusting building block is S/3, and the other adjusting building block is L-S/3-A; the adjusting building block with the length of S/3 is positioned on the left side; the adjusting building block with the length of L-S/3-A is positioned on the right side; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins are composed of two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/3, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/3) -A; the adjusting building blocks with the length of K + S/3+ A + S/3 are distributed on the left side, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/3) -A are distributed on the right side; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a fourth transverse layout module, wherein when the length L of the wall body belongs to a fourth threshold range, namely the remainder of dividing L by S is [ S/6, S/3 ], if the transverse layout condition is bilateral serrated racking, the length of the odd-numbered bricks in the wall body is L, namely the odd-numbered bricks comprise two adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3-N (S + a) -a; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise two adjusting building blocks, the length of one adjusting building block is K + S/3+ A + S/2, and the length of the other adjusting building block is L +2K- (K + S/3+ A + S/2) -N (S + A) -A; the adjusting building blocks with the length of K + S/3+ A + S/2 are distributed on the first left side of the even number skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2) -N (S + A) -A are distributed on the first right side of the even number skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a fifth transverse layout module, wherein if the length L of the wall body belongs to a fifth threshold range, namely the remainder of dividing L by S is [ S/3, S/2 ], and L is less than or equal to 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, namely the bricks with odd number skins comprise 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3-a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-A is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the barks is distributed to be L +2K, the bricks with the even number of the barks comprise 3 adjusting building blocks, the length of one adjusting building block is S/3+ K, the length of the other adjusting building block is 2S/3, and the length of the third adjusting building block is L +2K- (S/3+ K + A) - (2S/3+ A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of 2S/3 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (S/3+ K + A) - (2S/3+ A) are distributed on the first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a sixth transverse layout module, wherein when the length L of the wall body belongs to a sixth threshold range, that is, the remainder of dividing L by S is [ S/2, 2S/3 ], if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins in the wall body comprise 2 adjusting blocks and N complete blocks, one adjusting block has a length of 2S/3, and the other adjusting block has a length of L-2S/3-N (S + a) -a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3-N (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/3, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on the first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on the second block on the left side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) - (S/3+ S/2+ A) -N (S + A) are distributed on the first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer greater than or equal to 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a seventh transverse layout module, configured to, when the length L of the wall belongs to a seventh threshold range, that is, a remainder of division of L by S is [2S/3, 5S/6), if the transverse layout condition is a bilateral serrated racking, lay out the length of odd-numbered bricks in the wall as L, that is, odd-numbered bricks include 1 adjusting block and N +1 complete blocks, and one adjusting block has a length of L- (N +1) (S + a); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins comprise 3 adjusting building blocks and N complete building blocks, the length of one adjusting building block is K + S/2, the length of the other adjusting building block is S/3+ S/2, and the length of the third adjusting building block is L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/2 are arranged on a first block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (S/3+ S/2+ A) -N (S + A) are arranged on a first block on the right side of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

an eighth transverse layout module, configured to, when the length L of the wall belongs to an eighth threshold range, that is, a remainder of division of L by S is [5S/6, S ], if the transverse layout condition is a bilateral serrated racking, lay out the length of odd-numbered bricks in the wall as L, that is, odd-numbered bricks include 1 adjusting block and N +1 complete blocks, and one adjusting block has a length of L- (N +1) (S + a); the adjusting building block with the length of L- (N +1) × (S + A) is positioned on the first block on the right side of the odd skin; the length of the bricks with the even number of the skins is distributed to be L +2K, the bricks with the even number of the skins comprise 2 adjusting building blocks and N +1 complete building blocks, the length of one adjusting building block is K + S/2, and the length of the other adjusting building block is L +2K- (K + S/2+ A) - (N +1) × (S + A); the adjusting building blocks with the length of K + S/2 are distributed on the first left block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/2+ A) - (N +1) × (S + A) are distributed on the first right block of the even skin; when L is less than or equal to 2S, N ═ 0; when L is greater than 2S, N is greater than or equal to 1; n is a positive integer including 0; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers;

a ninth transverse layout module, wherein when the length L of the wall body belongs to a ninth threshold range, that is, the remainder of dividing L by S is [0, S/6), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is S/3, and the length of the other adjusting block is L-S/3- (N +1) × (S + a) -a; the adjusting building block with the length of S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 3 adjusting blocks, the length of one adjusting block is K + S/3+ A + S/2, the length of the other adjusting block is S/3+ S/2, and the length of the third adjusting block is L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A); the adjusting building blocks with the length of K + S/3+ A + S/2 are arranged on the first left block of the even skin, the adjusting building blocks with the length of S/3+ S/2 are arranged on the second right block of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A + S/2+ A) -N (S + A) - (S/3+ S/2+ A) are arranged on the first right block of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers; n is a positive integer greater than or equal to 0;

or/and

a tenth transverse layout module, wherein when the length L of the wall body belongs to a tenth threshold range, that is, the remainder of division of L by S is [ S/3, S/2), and L is greater than 2S, if the transverse layout condition is bilateral serrated racking, the length layout of the bricks with odd number skins in the wall body is L, that is, the bricks with odd number skins are composed of N +1 complete blocks and 2 adjusting blocks, the length of one adjusting block is 2S/3, and the length of the other adjusting block is L-2S/3- (N +1) (S + a) -a; the adjusting building block with the length of 2S/3 is positioned on the first block on the left side of the odd skin; the adjusting building block with the length of L-2S/3- (N +1) × (S + A) -A is positioned on the first block on the right side of the odd skin; the length of the bricks with even number of skins is distributed to be L +2K, the bricks with even number of skins are composed of N complete blocks and 4 adjusting blocks, the length of one adjusting block is K + S/3, the length of the other adjusting block is S/3+ S/2, the length of the third adjusting block is S/3+ S/2, and the length of the fourth adjusting block is L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A); the adjusting building blocks with the length of K + S/3 are distributed on a first block on the left side of an even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the left side of the even skin, the adjusting building blocks with the length of S/3+ S/2 are distributed on a second block on the right side of the even skin, and the adjusting building blocks with the length of L +2K- (K + S/3+ A) -2(S/3+ S/2+ A) -N (S + A) are distributed on a first block on the right side of the even skin; wherein K is the length of the serrated racking; a is the width of the mortar joint; l, S, K and A are positive numbers, and N is a positive integer greater than or equal to 0.

5. A storage medium, characterized by: the storage medium stores a computer program which, when executed by a processor, implements the method of laying out the building blocks of any one of claims 1-3.

6. A terminal, characterized in that the terminal comprises:

the input device is used for inputting the vertical layout condition and the vertical layout related parameters of the building blocks and the horizontal layout condition and the horizontal layout related parameters;

a memory storing a computer program implementing the layout method of the block according to any one of claims 1 to 3;

the processor is in communication connection with the input device and the memory respectively and is used for operating the computer program to carry out vertical and horizontal layout on the building blocks of the wall body;

and the display is in communication connection with the processor and outputs the building block layout result of the wall body.

7. The terminal of claim 6, wherein: the terminal comprises a PC, a notebook, a smart phone or/and a tablet computer.

Images