CN113003131B - A conveyer for green building assembled wall body - Google Patents

Abstract

The invention discloses a transportation device for an assembly wall body of a green building, which comprises a plurality of modularized transportation bottom plates and a plurality of universal wheels symmetrically arranged at the bottom of each modularized transportation bottom plate, wherein the plurality of modularized transportation bottom plates are freely spliced to be used for transporting assembly wall bodies with different sizes.

Description

A conveyer for green building assembled wall body

Technical Field

The invention relates to the technical field of assembled wall body transportation, in particular to a transportation device for an assembled wall body of a green building.

Background

The building has the advantages of being green, namely in the whole life cycle, saving resources, protecting the environment, reducing pollution, providing healthy, applicable and efficient use space for people, and furthest realizing the high-quality building with harmonious and symbiotic symbiosis between people and nature, and the purpose of green building is reflected by the construction of the assembled wall body, thereby not only reducing flying dust, but also saving multiple energy sources such as water, electricity and the like.

The assembly wall is prefabricated in a factory and then transported to a construction site, the wall is assembled in a reliable connection mode to form a building, the wall needs to be transported to the construction site through a related transporting device in the construction site, the wall is generally transported through a cart carrying the assembly wall and is transported through U-shaped side plate fixing cavities on two sides, but the existing cart is generally of an integral structure, occupies a large space when the cart is stored and transported, the storage utilization rate of the storage space is low, the limitation on the size of the transported wall is large when the cart is used, the carts of various sizes need to be prepared in the use process, and a large area of site is occupied, so that the transporting device for the green building assembly wall needs to be designed.

Disclosure of Invention

The invention aims to provide a transportation device for a green building assembly type wall body, and solves the problems that the existing cart is large in occupied space and low in space storage utilization rate when being transported and stored, and the transportation wall body size is greatly limited, so that a plurality of carts are required to occupy a large using area.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a transportation device for green building assembly type walls comprises a plurality of modular transportation bottom plates and a plurality of universal wheels symmetrically arranged at the bottom of each modular transportation bottom plate, wherein the modular transportation bottom plates are freely spliced for transporting assembly walls with different sizes;

the modularization transportation bottom plate includes square bearing bottom plate and symmetry setting square bearing bottom plate bottom edge is used for with other two connection module group that square bearing bottom plate goes on connecting the assembly, the top of square bearing bottom plate is provided with the movable assembly spare, the last symmetry of movable assembly spare is installed and is used for placing the side fixed plate that the assembly wall body goes on fixing the transportation, and is a plurality of the universal wheel sets up square bearing bottom plate bottom, it is a plurality of square bearing bottom plate freely splices through connecting module group to dismantle through the adjustment of movable assembly spare when the concatenation the side fixed plate forms and places the space fixed the assembly wall body.

As a preferred scheme of the invention, the connection module group comprises two strip-shaped connection seats symmetrically arranged at the bottom edge of the square bearing bottom plate along the length direction and two first T-shaped slots which are arranged on two opposite side walls of the two strip-shaped connection seats along the length direction and extend to one side to be communicated with the outside, two corresponding first T-shaped slots on the two square bearing bottom plates are commonly inserted with a strip-shaped i-shaped plate, the end part of each strip-shaped connection seat communicated with the first T-shaped slots is provided with a limiting fixing part, the strip-shaped i-shaped plate is inserted into the two corresponding first T-shaped slots to connect the two square bearing bottom plates, and the strip-shaped i-shaped plate is limited from being disconnected from the first T-shaped slots by the two limiting fixing parts.

As a preferred scheme of the invention, the limiting fixing member comprises two strip-shaped sliding grooves symmetrically arranged at the end part of the strip-shaped connecting seat and two side brackets slidably connected in the corresponding strip-shaped sliding grooves, a limiting support plate is fixedly connected between the two side brackets, a limiting screw is in threaded connection with the limiting support plate, a movable limiting plate is movably connected at the end part of the limiting screw close to the first T-shaped slot, the movable limiting plate is adjusted to the end part of the first T-shaped slot through the strip-shaped sliding grooves, and the movable limiting plate is driven by the limiting screw to slide along the inner wall of the first T-shaped slot and abut against the end part of the strip-shaped I-shaped plate to limit the strip-shaped I-shaped plate to be disconnected from the first T-shaped slot.

As a preferable scheme of the present invention, magnetic attraction portions that attract each other are provided between the bottom of the movable limiting plate and the end of the bar-shaped i-shaped plate, and the bar-shaped i-shaped plate is attracted and detached from the first T-shaped slot by magnetic attraction between the magnetic attraction portions when the position limitation of the bar-shaped i-shaped plate by the movable limiting plate is released.

As a preferred scheme of the invention, the side walls of the strip-shaped connecting seats are flush with the side walls of the square bearing bottom plate, and the distance between two corresponding strip-shaped connecting seats is the same as the length of the strip-shaped connecting seats.

As a preferable scheme of the invention, the maximum distance between the strip-shaped chute on one strip-shaped connecting seat and the end part of the adjacent strip-shaped connecting seat is smaller than the maximum distance between the limiting screw rod and the end part of the corresponding strip-shaped connecting seat.

As a preferable scheme of the invention, a plurality of positioning columns are arranged on two adjacent side walls of the square bearing bottom plate at equal intervals along a horizontal straight line, a plurality of positioning grooves are arranged on the other two adjacent side walls of the square bearing bottom plate at the same height as the positioning columns and at equal intervals along the horizontal straight line direction, and the plurality of positioning columns on one square bearing bottom plate are matched and connected with the positioning grooves on the other square bearing bottom plate to position the two strip-shaped connecting seats.

As a preferable scheme of the present invention, the movable assembly includes a plurality of second T-shaped slots symmetrically disposed on both sides of the top of the square load-bearing bottom plate and communicated with the side wall, and a locking screw rod disposed in one of the second T-shaped slots and penetrating through the side fixing plate to the other side, and the side fixing plate is slidably connected to the corresponding second T-shaped slots, a through hole for the locking screw rod to pass through is formed in the side fixing plate, an internal thread adjusting rotating handle in threaded connection with the locking screw rod is rotatably connected to the inside of the through hole, and the position of the side fixing plate is adjusted and fixed by the internal thread adjusting rotating handle.

As a preferable scheme of the invention, a plurality of reinforcing rib plates are arranged at equal intervals on one side of the side fixing plate close to the edge of the square bearing bottom plate, and each reinforcing rib plate is located between two adjacent second T-shaped slots and abuts against the top of the square bearing bottom plate.

As a preferable scheme of the present invention, one of the side fixing plates where the vertical narrow edge is located is provided with a sliding groove, the sliding groove is connected with a positioning reinforcing plate in a sliding manner, the positioning reinforcing plate is connected with an adjusting bolt in a threaded manner, the sliding groove is provided with a plurality of limiting grooves corresponding to the adjusting bolt along the sliding direction of the positioning reinforcing plate, one side of the side fixing plate provided with a reinforcing rib plate is provided with a linear groove for the adjusting bolt to perform linear motion, the other side of the side fixing plate where the vertical narrow edge is located is provided with a connecting groove corresponding to the positioning reinforcing plate, and the positioning reinforcing plate on one of the side fixing plates is connected with the connecting groove on the adjacent side fixing plate in a matching manner to limit the synchronous adjustment and fixation of the positions of the two side fixing plates, and the positions of the positioning reinforcing plates are fixed by the adjusting bolt.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the assembled wall body is transported by splicing the plurality of modular transportation bottom plates to form transportation sizes with different sizes, the transportation sizes are spliced according to use requirements, so that a site with more carts occupying a larger area in a construction site is avoided, secondly, the single modular transportation bottom plate occupies a smaller space, the utilization rate of the space during storage and transportation is higher, the modular transportation bottom plates can be independently used, the assembled wall body is borne by the square bearing bottom plate and is fixed by the side fixing plates, and the transportation stability of the assembled wall body is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

FIG. 1 is a schematic structural diagram of a transportation device for green building fabricated wall bodies according to an embodiment of the invention;

FIG. 2 is a schematic top view of a transportation device for green building assembled wall bodies according to an embodiment of the present invention;

FIG. 3 is an enlarged view of the portion A shown in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure of portion B shown in FIG. 1 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of a structure of a portion C shown in fig. 2 according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-modular transport floor; 2-universal wheels;

101-a square load floor; 102-connection module group; 103-an activity assembly; 104-side fixing plate; 105-bar shaped connecting seats; 106-a first T-slot; 107-bar I-shaped board; 108-a spacing fixture; 109-strip-shaped chutes; 110-a side support; 111-a limit support plate; 112-a limit screw; 113-a movable limiting plate; 114-a magnetic attraction part; 115-locating posts; 116-a positioning groove; 117-second T-slot; 118-a locking screw; 119-a via; 120-internal thread adjusting rotating handle; 121-a reinforcing floor; 122-a sliding groove; 123-positioning a reinforcing plate; 124-adjusting bolts; 125-a limiting groove; 126-connecting groove; 127-straight groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in FIG. 1 and FIG. 5, the invention provides a transportation device for green building assembly type walls, which comprises a plurality of modular transportation bottom plates 1 and a plurality of universal wheels 2 symmetrically arranged at the bottom of each modular transportation bottom plate 1, wherein the modular transportation bottom plates 1 are freely spliced for transporting assembly walls with different sizes.

The modular transportation bottom plate 1 comprises a square bearing bottom plate 101 and two connection module groups 102 which are symmetrically arranged at the bottom edge of the square bearing bottom plate 101 and used for being connected with other square bearing bottom plates 101 for assembly, a movable assembly part 103 is arranged at the top of the square bearing bottom plate 101, side fixing plates 104 used for fixing and transporting a placed assembly wall are symmetrically arranged on the movable assembly part 103, a plurality of universal wheels 2 are arranged at the bottom of the square bearing bottom plate 101, the square bearing bottom plates 101 are freely spliced through the connection module groups 102, and the side fixing plates 104 are adjusted and detached through the movable assembly part 103 to form a placement space fixed assembly wall when being spliced.

When the invention is used, the plurality of square bearing bottom plates 101 are spliced according to actual use requirements, the plurality of square bearing bottom plates 101 are spliced through the connecting module group 102, and the position of the side fixing plate 104 is adjusted through the movable assembly part 103, so that two parallel rows are formed between the side fixing plates 104 after the plurality of square bearing bottom plates 101 are spliced, and the assembled wall is placed and fixed.

The plurality of modular transportation bottom plates 1 are spliced through the connecting module group 102, the transportation assembly wall bodies with corresponding sizes can be spliced according to actual use requirements, the situation that the transportation of assembling the wall bodies by using various trolleys with different sizes on a construction site is caused to occupy larger site area to influence use is avoided, then the utilization rate of the smaller modular transportation bottom plates 1 to the space is higher when the transportation and the storage are carried out, and the transportation and storage cost is reduced.

The square bearing bottom plate 101 is used for bearing an assembly wall body and is transported through the universal wheels 2, the position of the side fixing plate 104 on the square bearing bottom plate 101 needs to be adjusted when splicing is conducted, otherwise the assembly wall body is interfered to be placed, and therefore the movable assembly part 103 is arranged to be used for flexibly adjusting and disassembling the side fixing plate 104.

The connection module group 102 includes two bar-shaped connection seats 105 symmetrically arranged at the bottom edge of the square bearing bottom plate 101 along the length direction and two first T-shaped slots 106 arranged on two opposite side walls of the two bar-shaped connection seats 105 along the length direction and extending to one side to communicate with the outside, two first T-shaped slots 106 corresponding to the two square bearing bottom plates 101 are jointly inserted with a bar-shaped I-shaped plate 107, the end portion of each bar-shaped connection seat 105 communicated with the first T-shaped slot 106 is provided with a limit fixing member 108, the bar-shaped I-shaped plate 107 is inserted into the two corresponding first T-shaped slots 106 to connect the two square bearing bottom plates 101, and the two limit fixing members 108 jointly limit the bar-shaped I-shaped plates 107 to be disconnected from the first T-shaped slots 106.

When the connecting module set 102 splices the two square bearing bottom plates 101, the positions of the two square bearing bottom plates 101 are aligned with each other, and the corresponding strip-shaped connecting seats 105 are abutted and aligned.

Insert two first T type slots 106 with bar worker word board 107 simultaneously, inside the T type part at both ends inserted the first T type slot 106 that corresponds, link together two bar connecting seats 105 through bar worker word board 107, fix bar worker word board 107 in two first T type slots 106 through limit fixing 108 simultaneously, guarantee that bar worker word board 107 is located inside first T type slot 106 all the time in the use, guarantee the stability of two square bearing bottom plate 101 concatenations promptly.

The limiting fixing piece 108 is arranged at one end of the first T-shaped slot 106 communicated with the end part of the strip-shaped connecting seat 105, and the limiting fixing piece 108 limits the movement path of the strip-shaped I-shaped plate 107 at the communication position so as to complete the limitation of the position of the strip-shaped I-shaped plate 107.

The bar connecting seat 105 is along square bottom edge setting of bearing bottom plate 101 for closely offset between two adjacent bar connecting seats 105, and make the square lateral part that bears bottom plate 101 offset, make the concatenation inseparabler between the modularization transportation bottom plate 1.

Spacing mounting 108 sets up two bar spouts 109 and two side supports 110 in corresponding bar spout 109 at bar connecting seat 105 tip including the symmetry, common fixedly connected with limit support plate 111 between two side supports 110, threaded connection has stop screw 112 on the limit support plate 111, stop screw 112 is close to the tip swing joint of first T type slot 106 and has movable limiting plate 113, and movable limiting plate 113 adjusts the tip to first T type slot 106 through bar spout 109, and the tip that slides along first T type slot 106 inner wall and bar I-shaped board 107 through stop screw 112 drive limits bar I-shaped board 107 and first T type slot 106 disconnection.

When the bar I-shaped plate 107 is fixedly limited by the limiting fixing part 108, the two side supports 110 slide to the end parts of the first T-shaped slots 106 along the bar sliding grooves 109, the movable limiting plate 113 is driven by the rotary limiting screw 112 to enter the first T-shaped slots 106, when the bottom of the movable limiting plate 113 abuts against the end parts of the bar I-shaped plate 107, the rotary limiting screw stops rotating, the rotary limiting screw 112 and the movable limiting plate 113 are supported by the limiting supporting plate 111, and the position limitation of the bar I-shaped plate 107 is completed.

When the position limitation of the bar-shaped I-shaped plate 107 needs to be removed, the two spliced modular transportation bottom plates 1 are detached, the movable limiting plate 113 is driven by the reversely rotating limiting screw 112 to be away from the bar-shaped I-shaped plate 107 to the outside of the first T-shaped slot 106, the side support 110 is pushed to slide along the bar-shaped sliding groove 109 to the movable limiting plate 113 to be away from the end part of the first T-shaped slot 106, and the bar-shaped I-shaped plate 107 is enabled not to interfere with the movable limiting plate 113, the side support 110 and the limiting supporting plate 111 when being separated from the first T-shaped slot 106.

And the tip of two bar connecting seats 105 all carries out the position to bar I board 107 through activity limiting plate 113 and prescribes a limit to for bar I board 107 is higher at the use of modularization transportation bottom plate 1 in positional stability, and two square concatenation stability of bearing between the bottom plate 101 are higher promptly.

Magnetic attraction parts 114 attracting each other are arranged between the bottom of the movable limiting plate 113 and the end part of the strip-shaped I-shaped plate 107, and the strip-shaped I-shaped plate 107 is attracted and attracted to be disconnected from the first T-shaped slot 106 through magnetic force between the magnetic attraction parts 114 when the position limitation of the strip-shaped I-shaped plate 107 is released by the movable limiting plate 113.

Secondly, consider that bar I word board 107 is whole to be located inside two first T type slots 106, when needs are relieved the concatenation between two square bearing bottom plate 101, be difficult to take out, consequently all be provided with magnetism portion 114 at bar I word board 107 and movable limiting plate 113's tip for movable limiting plate 113 drives bar I word board 107 synchronous motion through magnetic attraction when breaking away from first T type slot 106, make the tip motion of bar I word board 107 outside the taking out of being convenient for to first T type slot 106.

The side walls of the strip-shaped connecting seats 105 are flush with the side walls of the square bearing bottom plate 101, and the distance between two corresponding strip-shaped connecting seats 105 is the same as the length of the strip-shaped connecting seats 105.

The lateral wall of bar connecting seat 105 flushes with square bottom plate 101 lateral wall that bears, make two square volume concatenation connections between bearing the bottom plate 101 inseparabler more stable, secondly, the length of the longer long-term first T type slot 106 that sets up of length when bar connecting seat 105 is also longer, the length of inside bar worker word board 107 also can set longer length to use, make two bar connecting seats 105 can resist the upper limit improvement of external force through the concatenation department of bar worker word board 107, it is more stable to connect, consequently, set up the interval between two bar connecting seats 105 and be the length of bar connecting seat 105 promptly, the length of bar connecting seat 105 is the longest this moment, and do not interfere the normal use of other bar connecting seats 105.

The maximum distance between the strip-shaped chute 109 on one strip-shaped connecting seat 105 and the end part of the adjacent strip-shaped connecting seat 105 is smaller than the maximum distance between the limiting screw rod 112 and the end part of the corresponding strip-shaped connecting seat 105.

Secondly, considering that the interference between the limiting fixing parts 108 may occur, the maximum distance between the bar-shaped sliding groove 109 of one of the bar-shaped connecting seats 105 and the end of the adjacent bar-shaped connecting seat 105 is smaller than the maximum distance between the limiting screw 112 and the end of the corresponding bar-shaped connecting seat 105, when the distance between the side bracket 110 and the first T-shaped slot 106 is the minimum, the adjacent side bracket 110 is located at the end of the first T-shaped slot 106, the distance between the side bracket 110 and the adjacent 5 bar-shaped connecting seats 105 is greater than the length of the side bracket 110, and the interference can be avoided by adjusting the positions of the two limiting fixing parts 108.

A plurality of positioning columns 115 are arranged on two adjacent side walls of the square bearing bottom plate 101 at equal intervals along a horizontal straight line, a plurality of positioning grooves 116 are arranged on the other two adjacent side walls of the square bearing bottom plate 101 at the same height as the positioning columns 115 and at equal intervals along the horizontal straight line direction, and the positioning columns 115 on one square bearing bottom plate 101 are matched and connected with the positioning grooves 116 on the other square bearing bottom plate 101 to position the two strip-shaped connecting seats 105.

Considering the convenience of splicing, two strip-shaped connecting seats 105 need to be aligned when splicing so that the strip-shaped I-shaped plate 107 is inserted into two first T-shaped slots 106, and at the moment, the two square bearing bottom plates 101 and the two strip-shaped connecting seats 105 are aligned and spliced inside the corresponding positioning grooves 116 through the positioning columns 115 on the side walls of the two square bearing bottom plates 101.

The movable assembly part 103 comprises a plurality of second T-shaped slots 117 symmetrically arranged on two sides of the top of the square bearing bottom plate 101 and communicated with the side wall and a locking screw 118 arranged in one of the second T-shaped slots 117 and penetrating through the side fixing plate 104 to the other side, the side fixing plate 104 is slidably connected in the corresponding second T-shaped slots 117, a through hole 119 for the locking screw 118 to pass through is formed in the side fixing plate 104, an internal thread adjusting rotating handle 120 in threaded connection with the locking screw 118 is rotatably connected in the through hole 119, and the position of the side fixing plate 104 is adjusted and fixed through the internal thread adjusting rotating handle 120.

The movable assembly part 103 is used for movably mounting the side fixing plates 104 on the square bearing bottom plate 101, and when the square bearing bottom plates 101 are spliced, the corresponding side fixing plates 104 are detached and the positions are adjusted to form a placing space of the assembly wall body, and meanwhile, the assembly wall body is fixed.

Inside side fixing plate 104 bottom sliding connection is in a plurality of second T type slots 117 of square load-bearing bottom plate 101 top one side, locking screw 118 simultaneously with pass through with internal thread regulation turning handle 120 threaded connection, restrict the displacement of side fixing plate 104 along vertical direction through a plurality of second T type slots 117, increase the stability of fixed assembly wall body simultaneously, secondly adjust turning handle 120 and locking screw 118's threaded connection through the internal thread and restrict the displacement of side fixing plate 104 along the horizontal direction, accomplish the rigidity to side fixing plate 104, fix the position of assembly wall body through the position of two fixed side fixing plate 104.

Secondly, the side fixing plate 104 can be driven to slide along the second T-shaped slot 117 for position adjustment by rotating the internal thread adjusting rotating handle 120, so as to fix the assembly wall, and meanwhile, the fixing position is adjusted according to the size of the assembly wall, so as to fix the assembly walls with different sizes, and avoid splicing more modular transportation base plates 1.

And the internal thread adjusting rotating handle 120 is rotated to drive the side fixing plate 104 to move until the locking screw 118 is disconnected from the internal thread adjusting rotating handle 120, and at this time, the side fixing plate 104 can be directly slid to be separated from the second T-shaped slot 117 to complete the disassembly.

Every modularization transportation bottom plate 1 includes two side dead plates 104, and when two modularization transportation bottom plates 1 splice, one of two side dead plates 104 on square load-bearing bottom plate 101 near the concatenation department needs to advance to dismantle, otherwise the assembly wall body can not be placed and get into square load-bearing bottom plate 101 on and transport.

In this embodiment, can set up a plurality of bordures board along vertical direction on the side fixed plate 104 and be used for restricting the assembly wall body and take place to empty when vertical placing, secondly put into the edge to the assembly wall body and protect.

A plurality of reinforcing ribs 121 are arranged at equal intervals on one side of the side fixing plate 104 close to the edge of the square load-bearing bottom plate 101, and each reinforcing rib 121 is located between two adjacent second T-shaped slots 117 and abuts against the top of the square load-bearing bottom plate 101.

Considering that the assembled wall body can generate pressure on the side fixing plate 104 during transportation, so that the side fixing plate 104 generates pressure on the locking screw 118, resulting in the risk of damage to the locking screw 118, and secondly resulting in the side fixing plate 104 being prone to toppling and damage, a reinforcing rib plate 121 is arranged on one side of the side fixing plate 104, and is used for providing supporting force for the side fixing plate 104 from the outside, improving the stability of the side fixing plate 104 during transportation, and secondly avoiding causing damage to the locking screw 118.

One side wall where the vertical direction narrow edge is located on the side fixing plate 104 is provided with a sliding groove 122, the sliding groove 122 is connected with a positioning reinforcing plate 123 in a sliding manner, the positioning reinforcing plate 123 is connected with an adjusting bolt 124 in a threaded manner, the sliding groove 122 is provided with a plurality of limiting grooves 125 corresponding to the adjusting bolt 124 along the sliding direction of the positioning reinforcing plate 123, one side of the side fixing plate 104 provided with a reinforcing rib plate 121 is provided with a linear groove 127 for the adjusting bolt 124 to perform linear motion, the other side wall of the vertical direction narrow edge on the side fixing plate 104 is provided with a connecting groove 126 corresponding to the positioning reinforcing plate 123, and the positioning reinforcing plate 123 on one side fixing plate 104 is connected with the connecting groove 126 on the adjacent side fixing plate 104 in a matching manner to limit the position synchronization adjustment and fixation of the two side fixing plates 104, and the position of the positioning reinforcing plate 123 is fixed by the adjusting bolt 124.

When a plurality of square bearing bottom plates 101 are spliced, a plurality of side fixing plates 104 on the same side should be located at the same position, and the synchronization should be kept at the adjusting position, so as to ensure the consistency and stability of fixing the assembled wall.

When the two side fixing plates 104 are spliced, the adjusting bolt 124 is rotated to make the end part of the adjusting bolt separate from the limiting groove 125, at this time, the positioning reinforcing plate 123 is driven by the adjusting screw 124 to be inserted into the corresponding connecting groove 126 on the other side fixing plate 104 in a sliding manner, the adjusting bolt 124 slides along the linear groove 127, the adjusting bolt 124 is rotated to make the end part of the adjusting bolt be clamped into the other limiting groove 125, the positioning of the two side fixing plates 104 is completed, and the position of the side fixing plates 104 is kept consistent when being adjusted.

When the side fixing plates 104 are spliced, the positioning reinforcing plates 123 on the side fixing plates 104 on the two sides are hidden in the sliding grooves 122, so that damage to the side fixing plates is avoided.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (8)

1. The utility model provides a conveyer that is used for green building assembled wall body which characterized in that: the assembly wall comprises a plurality of modular transportation bottom plates (1) and a plurality of universal wheels (2) symmetrically arranged at the bottom of each modular transportation bottom plate (1), wherein the plurality of modular transportation bottom plates (1) are freely spliced for transporting assembly walls with different sizes;

the modular transportation bottom plate (1) comprises a square bearing bottom plate (101) and two connecting module groups (102) which are symmetrically arranged at the bottom edge of the square bearing bottom plate (101) and used for being connected and assembled with other square bearing bottom plates (101), a movable assembly part (103) is arranged at the top of the square bearing bottom plate (101), side fixing plates (104) used for fixedly transporting the placed assembly wall body are symmetrically arranged on the movable assembly part (103), a plurality of universal wheels (2) are arranged at the bottom of the square bearing bottom plate (101), the square bearing bottom plates (101) are freely assembled through the connecting module groups (102), and the side fixing plates (104) are adjusted and disassembled through the movable assembly part (103) during assembling to form a placing space for fixing the assembly wall body;

the connecting module group (102) comprises two strip-shaped connecting seats (105) symmetrically arranged at the bottom edge of the square bearing bottom plate (101) along the length direction and two first T-shaped slots (106) which are arranged on two opposite side walls of the two strip-shaped connecting seats (105) along the length direction and extend to the outside to be communicated with one side, two first T-shaped slots (106) which are positioned on the two square bearing bottom plates (101) are jointly inserted with a strip-shaped I-shaped plate (107), the end part of each strip-shaped connecting seat (105) communicated with the first T-shaped slot (106) is provided with a limiting fixing piece (108), the strip-shaped I-shaped plate (107) is inserted into the two corresponding first T-shaped slots (106) to connect the two square bearing bottom plates (101), and the strip-shaped I-shaped plate (107) and the first T-shaped slots (106) are jointly limited by the two limiting fixing pieces (108);

spacing mounting (108) set up including the symmetry two bar spout (109) and the sliding connection of bar connecting seat (105) tip correspond two side support (110) in bar spout (109), two common fixedly connected with limit support board (111) between side support (110), threaded connection has stop screw (112) on limit support board (111), stop screw (112) are close to the tip swing joint of first T type slot (106) has activity limiting plate (113), just activity limiting plate (113) pass through bar spout (109) are adjusted extremely the tip of first T type slot (106), and pass through stop screw (112) drive is followed first T type slot (106) inner wall slide with the tip counterbalance restriction of bar worker word board (107) with first T type slot (106) break away from the connection.

2. A transportation device for green building fabricated wall bodies as claimed in claim 1, wherein: the bottom of the movable limiting plate (113) and the end part of the bar-shaped I-shaped plate (107) are both provided with magnetic suction parts (114) which are attracted mutually, and the movable limiting plate (113) releases the position limitation of the bar-shaped I-shaped plate (107) and is attracted through the magnetic suction between the magnetic suction parts (114) when the position limitation of the bar-shaped I-shaped plate (107) is released, the bar-shaped I-shaped plate (107) is disconnected with the first T-shaped slot (106).

3. A transportation device for green building fabricated wall bodies as claimed in claim 1, wherein: the side wall of the strip-shaped connecting seats (105) is flush with the side wall of the square bearing bottom plate (101), and the distance between the two corresponding strip-shaped connecting seats (105) is the same as the length of the strip-shaped connecting seats (105).

4. A transportation device for green building fabricated wall bodies as claimed in claim 3, wherein: the minimum distance between the strip-shaped sliding groove (109) on one strip-shaped connecting seat (105) and the end part of the adjacent strip-shaped connecting seat (105) is larger than the maximum distance between the limiting screw rod (112) and the end part of the corresponding strip-shaped connecting seat (105).

5. A transportation device for green building fabricated wall bodies as claimed in claim 4, wherein: the utility model discloses a square bearing bottom plate (101) is characterized in that a plurality of reference columns (115) are equidistantly arranged along horizontal straight line on two adjacent lateral walls of square bearing bottom plate (101), on two other adjacent lateral walls of square bearing bottom plate (101) with reference column (115) co-altitude and be equidistantly arranged along horizontal straight line direction a plurality of constant head tanks (116), and one of them a plurality of reference columns (115) and another on square bearing bottom plate (101) constant head tank (116) cooperation on square bearing bottom plate (101) is connected two bar connecting seat (105) are fixed a position.

6. A transportation device for green building assembled walls according to claim 5, characterized in that: the movable assembly part (103) comprises a plurality of second T-shaped slots (117) which are symmetrically arranged on two sides of the top of the square bearing base plate (101) and communicated with the side wall and a locking screw rod (118) which is arranged in one of the second T-shaped slots (117) and penetrates through the side fixing plate (104) to the other side, the side fixing plate (104) is connected in the corresponding second T-shaped slots (117) in a sliding manner, a through hole (119) for the locking screw rod (118) to pass through is formed in the side fixing plate (104), an internal thread adjusting rotating handle (120) which is connected with the locking screw rod (118) in a threaded manner is rotatably connected in the through hole (119), and the position of the side fixing plate (104) is adjusted and fixed through the internal thread adjusting rotating handle (120).

7. A transportation device for green building fabricated wall bodies as claimed in claim 6, wherein: a plurality of reinforcing ribs (121) are arranged on one side, close to the edge of the square bearing bottom plate (101), of the side fixing plate (104) at equal intervals, and each reinforcing rib (121) is located between two adjacent second T-shaped slots (117) and abuts against the top of the square bearing bottom plate (101).

8. A transportation device for green building fabricated wall bodies as claimed in claim 7, wherein: the side fixing plate structure comprises side fixing plates (104), a sliding groove (122) is formed in one side wall where a vertical narrow edge is located on each side fixing plate (104), a positioning reinforcing plate (123) is connected in the sliding groove (122) in a sliding mode, an adjusting bolt (124) is connected to each positioning reinforcing plate (123) in a threaded mode, a plurality of limiting grooves (125) are formed in the sliding groove (122) along the sliding direction of the positioning reinforcing plates (123) corresponding to the adjusting bolt (124), a linear groove (127) for the adjusting bolt (124) to conduct linear motion is formed in one side of each side fixing plate (104) where a reinforcing rib plate (121) is arranged, a connecting groove (126) is formed in the other side wall where the vertical narrow edge is located on each side fixing plate (104) corresponding to each positioning reinforcing plate (123), the positioning reinforcing plate (123) on one side fixing plate (104) is connected with the connecting groove (126) on the adjacent side fixing plate (104) in a matched mode to limit synchronous position adjustment and fixation of the two side fixing plates (104), and the position of the positioning reinforcing plates (123) is fixed through the adjusting bolt (124).

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