CN114776039B - Construction auxiliary device for civil engineering construction energy-saving wall - Google Patents

Abstract

The invention relates to the technical field of wall construction, in particular to a construction auxiliary device for a civil engineering construction energy-saving wall, which comprises a first U-shaped frame, a moving part, an intermittent feeding part and a mounting part, wherein the first U-shaped frame is arranged on the first U-shaped frame; the existing construction auxiliary device has the following problems: the device can not ensure the placement state of the energy-saving wall parts and can not realize continuous feeding of the energy-saving wall parts; the device does not relate to the assembly of the energy-saving wall body parts, so that the energy-saving wall body parts are assembled manually or by adopting external assembly equipment, and the working procedure and the construction cost are increased; the intermittent feeding part can intermittently convey the energy-saving wall body to the left side into the mounting part so as to facilitate intermittent continuous feeding of the energy-saving wall body; according to the installation part disclosed by the invention, the push plate is used for assembling a plurality of energy-saving walls in an extrusion mode, so that the energy-saving walls can be continuously assembled and constructed after being placed, unnecessary processing procedures can be reduced, and the construction efficiency can be improved.

Description

Construction auxiliary device for civil engineering construction energy-saving wall

Technical Field

The invention relates to the technical field of wall construction, in particular to a construction auxiliary device for an energy-saving wall for civil engineering construction.

Background

The variety of the wall body is more, the wall body is made of a single material, the wall body is made of a composite material, and generally, in order to improve the heat preservation and insulation capability of the wall body, people can generally adopt various novel wall body materials to manufacture an energy-saving wall body, and in the civil engineering construction process, the energy-saving wall body needs to be assembled.

The Chinese patent application with publication number of CN110761571A provides a corresponding solution for the assembly and construction of energy-saving walls, and discloses a construction auxiliary device for building energy-saving walls, which drives a concave placement plate of the wall to move up and down through a lifting cylinder and a vertical buffering external thread support rod, so that the wall part to be energy-saving is conveniently lifted to a construction working surface for assembly and construction.

However, the construction auxiliary apparatus provided by the above patent has the following problems: a. the auxiliary device mainly places the energy-saving wall body parts on the concave placement plate of the wall body, and cannot ensure the placement state of the energy-saving wall body parts, so that workers are required to adjust the energy-saving wall body parts on the concave placement plate of the wall body, the concave placement plate of the wall body is required to frequently perform lifting movement, the operation is complex, and continuous feeding of the energy-saving wall body parts cannot be realized.

b. The auxiliary device only relates to the feeding of the energy-saving wall parts, but not relates to the assembly of the energy-saving wall parts, so that the energy-saving wall parts are required to be assembled manually or by adopting external assembly equipment, and the working procedure and the construction cost are increased.

Disclosure of Invention

1. The technical problems to be solved are as follows: the construction auxiliary device for the civil engineering construction energy-saving wall body can solve the problems pointed out in the background technology.

2. The technical scheme is as follows: in order to achieve the above purpose, the invention adopts the following technical scheme that the construction auxiliary device for the civil construction energy-saving wall body comprises a first U-shaped frame, a moving part, an intermittent feeding part and a mounting part, wherein an opening of the first U-shaped frame is upwards arranged, the lower end of the first U-shaped frame is provided with the moving part, the intermittent feeding part is arranged at the opening of the first U-shaped frame, the lower end of the first U-shaped frame is provided with the mounting part, and the mounting part is positioned at the left side of the moving part.

The movable part comprises a connecting frame, a movable wheel, a rotating shaft and a first intermittent motor, wherein: four connecting frames which are arranged in a matrix are arranged at the bottom of the first U-shaped frame, a groove is formed in the lower end of each connecting frame, moving wheels are rotatably arranged in the groove, rotating shafts are arranged between the moving wheels on the left side and the right side of the first U-shaped frame, the rotating shafts are connected through belt transmission, a first motor is arranged on one side, far away from the rotating shaft, of any connecting frame through a motor base, and an output shaft of the first motor penetrates through the connecting frames and then is connected with the moving wheels; the moving part can drive the first U-shaped frame to intermittently move along the construction site, so that the intermittent feeding part can sequentially put the energy-saving wall into the appointed site.

Intermittent type material loading portion includes back shaft, conveyer belt, supporting seat, second intermittent type motor and guide assembly, wherein: the front end of the first U-shaped frame is provided with a second intermittent motor through a motor frame, an output shaft of the second intermittent motor penetrates through the first U-shaped frame and then is connected with any one of the supporting shafts, and a guide assembly is arranged at the left end of the first U-shaped frame; the intermittent feeding part can intermittently convey the energy-saving wall body to the left side into the mounting part so as to facilitate the sequential feeding of the energy-saving wall body.

The installation department includes locating plate, connecting block, second U type frame, U type guide cylinder, location cylinder and push pedal, wherein: the lower end of the first U-shaped frame is provided with a positioning plate close to the left side of the first U-shaped frame, the left end of the positioning plate is provided with a second U-shaped frame through a connecting block, an opening of the second U-shaped frame is arranged backwards, a U-shaped guide cylinder is arranged at the opening of the second U-shaped frame, the opening of the U-shaped guide cylinder is arranged backwards, the front end of the U-shaped guide cylinder is provided with a positioning cylinder through a supporting seat, and the telescopic end of the positioning cylinder penetrates through the U-shaped guide cylinder and is connected with a push plate; the installation department leads energy-conserving wall body through U type guide cylinder for energy-conserving wall body is accurate puts into appointed place, and can make the push pedal assemble a plurality of energy-conserving wall bodies through the extruded mode, thereby is convenient for carry out continuous assembly construction to energy-conserving wall body.

As a preferred technical solution of the present invention, the support base includes a positioning strip, a first support plate and a second support plate, wherein: the outer wall of the conveying belt is provided with positioning strips at equal intervals, the positioning strips are of U-shaped structures, the openings of the positioning strips are arranged towards one side far away from the supporting shaft, the openings of the positioning strips are symmetrically provided with a first supporting plate and a second supporting plate, and an included angle between the first supporting plate and the second supporting plate is 90 degrees; the energy-saving wall body can be supported by the first supporting plate and the second supporting plate, so that the energy-saving wall body can intermittently move leftwards along with the conveying belt.

As a preferred technical solution of the present invention, the guiding assembly includes a loop-shaped frame, a receiving hopper and a straight cylinder, wherein: the square frame is arranged at the left end of the first U-shaped frame through a connecting block, a receiving hopper is arranged at the upper end of the square frame, a straight cylinder is arranged at the lower end of the square frame, and the inner side wall of the straight cylinder is level with the inner side wall of the square frame; the guide assembly can guide the energy-saving wall body sliding along the first supporting plate into the return frame and the straight cylinder through the receiving hopper, and the energy-saving wall body can be adjusted to be in a vertical state through the straight cylinder.

As a preferable technical scheme of the invention, a plurality of jacking blocks which are staggered with the supporting shafts are arranged on opposite sides of the opening of the first U-shaped frame at equal intervals from left to right, the jacking blocks are positioned between two adjacent supporting shafts, and the jacking blocks are in sliding fit with the inner side walls of the conveying belt; the lifting block can play a supporting role on the conveying belt, so that the conveying belt can conveniently drive the energy-saving wall body to move leftwards through the bearing seat, and the phenomenon that the energy-saving wall body is toppled over due to bending and deformation of the conveying belt is avoided.

As a preferable technical scheme of the invention, a baffle is arranged at the left end of the receiving hopper, the right side wall of the baffle is level with the inner side wall of the left end of the return frame, and a correction plate is arranged at the lower half part of the right end of the baffle in a manner of being connected through a torsion spring and a hinge; the energy-saving wall body can be blocked through the baffle plate and the correction plate, so that the energy-saving wall body can fall into the receiving hopper smoothly.

As a preferable technical scheme of the invention, the distance between the left and right side walls of the upper half part of the U-shaped guide cylinder is gradually reduced from top to bottom, the U-shaped guide cylinder is positioned below the straight cylinder, and the distance between the left and right side walls of the top part of the U-shaped guide cylinder is larger than the distance between the left and right side ratios of the straight cylinder; the upper half part of the U-shaped guide cylinder is convenient for guiding the energy-saving wall body falling from the straight cylinder, so that the energy-saving wall body falling from the straight cylinder can accurately fall into the U-shaped guide cylinder.

As a preferable technical scheme of the invention, the lower half part of the U-shaped guide cylinder is of a vertical structure, and rotating columns are arranged on the left side wall and the right side wall of the lower half part of the U-shaped guide cylinder at equal intervals in a rotating way from top to bottom; the energy-saving wall body can be secondarily adjusted through the lower half part of the U-shaped guide cylinder, so that the energy-saving wall body is in a vertical state, and the friction force between the energy-saving wall body and the energy-saving wall body can be reduced through the rotating column, so that the energy-saving wall body can be smoothly placed in a designated place.

As a preferable technical scheme of the invention, the width of the second supporting plate is larger than that of the first supporting plate so as to apply supporting force to the right side wall of the energy-saving wall body, so that the energy-saving wall body is prevented from toppling over in the conveying process, and a plurality of balls are uniformly rotatably arranged on one side of the first supporting plate, which is close to the second supporting plate; friction force between the energy-saving wall and the bottom of the energy-saving wall can be reduced through the balls, so that the energy-saving wall can smoothly slide into the receiving hopper from the first supporting plate.

3. The beneficial effects are that: 1. the intermittent feeding part provided by the invention can intermittently convey the energy-saving wall body to the left side into the mounting part so as to facilitate intermittent continuous feeding of the energy-saving wall body; the installation part provided by the invention can enable the push plate to assemble a plurality of energy-saving walls in an extrusion mode, so that the energy-saving walls can be continuously assembled and constructed after being placed, unnecessary processing procedures can be reduced, and the construction efficiency can be improved; the U-shaped guide cylinder provided by the invention can guide the energy-saving wall body, and can carry out secondary adjustment on the energy-saving wall body, so that the energy-saving wall body is in a vertical state, and the friction force between the energy-saving wall body and the energy-saving wall body can be reduced through the rotating column, so that the energy-saving wall body can be smoothly placed in a designated place.

2. The bearing bracket provided by the invention can support the bottom and the right side of the energy-saving wall body so as to ensure the stability of the energy-saving wall body in the conveying process, and the friction force between the bearing bracket and the bottom of the energy-saving wall body can be reduced through the balls, so that the energy-saving wall body can smoothly slide into the receiving hopper from the first supporting plate.

3. The guide assembly provided by the invention can guide the energy-saving wall body sliding along the first supporting plate into the return frame and the straight cylinder through the receiving hopper, and the energy-saving wall body can be adjusted to be in a vertical state through the straight cylinder.

4. The lifting block can support the conveying belt, so that the conveying belt can conveniently drive the energy-saving wall body to move leftwards through the bearing seat, and the phenomenon that the conveying belt bends and deforms to cause the energy-saving wall body to topple over is avoided.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is an isometric view of the present invention.

Fig. 2 is a schematic bottom perspective view of the present invention.

Fig. 3 is a cross-sectional view (from front to back) of the present invention.

Fig. 4 is a partial enlarged view of fig. 3D of the present invention.

Fig. 5 is a partial cutaway view of the support shaft, conveyor belt and bearing bracket of the present invention.

Fig. 6 is a partial cutaway view of the guide assembly of the present invention.

Fig. 7 is a partial cutaway view of the mounting portion of the present invention.

In the figure: 1. a first U-shaped frame; 2. a moving part; 21. a connecting frame; 22. a moving wheel; 23. a rotating shaft; 24. a first intermittent motor; 3. an intermittent feeding part; 31. a support shaft; 311. a jacking block; 32. a conveyor belt; 33. a support bracket; 331. a positioning strip; 332. a first support plate; 333. a second support plate; 334. a ball; 34. a second intermittent motor; 35. a guide assembly; 351. a return-type frame; 352. a receiving hopper; 353. a straight cylinder; 354. a baffle; 355. a correction plate; 4. a mounting part; 41. a positioning plate; 42. a connecting block; 43. a second U-shaped frame; 44. a U-shaped guide cylinder; 441. a spin column; 45. positioning a cylinder; 46. a push plate; 5. energy-saving wall.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1, fig. 2 and fig. 3, a construction auxiliary device for civil construction energy-saving wall body comprises a first U-shaped frame 1, a moving part 2, an intermittent feeding part 3 and a mounting part 4, wherein an opening of the first U-shaped frame 1 is upwards arranged, the moving part 2 is arranged at the lower end of the first U-shaped frame 1, the intermittent feeding part 3 is arranged at the opening of the first U-shaped frame 1, the mounting part 4 is arranged at the lower end of the first U-shaped frame 1, and the mounting part 4 is positioned at the left side of the moving part 2.

Referring to fig. 2, the moving part 2 includes a connecting frame 21, a moving wheel 22, a rotating shaft 23, and a first intermittent motor 24, wherein: four connecting frames 21 which are arranged in a matrix are arranged at the bottom of the first U-shaped frame 1, grooves are formed in the lower ends of the connecting frames 21, movable wheels 22 are rotatably arranged in the grooves, rotating shafts 23 are arranged between the movable wheels 22 on the left side and the right side of the first U-shaped frame 1, the rotating shafts 23 are connected through belt transmission, a first motor is arranged on one side, far away from the rotating shafts 23, of any connecting frame 21 through a motor base, and an output shaft of the first motor penetrates through the connecting frames 21 and then is connected with the movable wheels 22; in the assembly and construction process of the energy-saving wall body 5, a mounting groove is required to be dug out at a construction site, and then the energy-saving wall body 5 is sequentially placed in the mounting groove, so that the energy-saving wall body 5 is convenient to assemble; when the energy-saving wall body energy-saving device specifically works, the first intermittent motor 24 is firstly turned on, the first intermittent motor 24 drives the rotating shaft 23 to rotate, the rotating shaft 23 drives the moving wheel 22 to rotate, the moving wheel 22 is matched with the connecting frame 21 to drive the first U-shaped frame 1 to move to a construction site, and then the first U-shaped frame 1 intermittently moves along an installation groove of the construction site, so that the intermittent feeding part 3 can put the energy-saving wall body 5 into the installation groove in sequence; after the energy-saving wall 5 is installed, the first intermittent motor 24 drives the first U-shaped frame 1 to move to the front side by one station through the rotating shaft 23 and the moving wheel 22, and the moving distance of the first U-shaped frame 1 is larger than the distance between the front side wall and the rear side wall of the energy-saving wall 5, so that the energy-saving wall 5 is placed in the installation groove again.

Referring to fig. 2 and 3, the intermittent feeding part 3 includes a support shaft 31, a conveyor belt 32, a bearing bracket 33, a second intermittent motor 34, and a guide assembly 35, wherein: the opening of the first U-shaped frame 1 is provided with a plurality of supporting shafts 31 in a rotating manner at equal intervals along the length direction, a conveying belt 32 is sleeved between the supporting shafts 31, the outer side wall of the conveying belt 32 is provided with bearing brackets 33 at equal intervals, the opposite side of the opening of the first U-shaped frame 1 is provided with a plurality of jacking blocks 311 which are staggered with the supporting shafts 31 from left to right at equal intervals, the jacking blocks 311 are positioned between two adjacent supporting shafts 31, and the jacking blocks 311 are in sliding fit with the inner side walls of the conveying belt 32; the lifting block 311 can support the conveying belt 32, so that the conveying belt 32 can drive the energy-saving wall 5 to move leftwards through the bearing bracket 33, and the energy-saving wall 5 is prevented from being toppled over due to bending and deformation of the conveying belt 32; the front end of the first U-shaped frame 1 is provided with a second intermittent motor 34 through a motor frame, an output shaft of the second intermittent motor 34 penetrates through the first U-shaped frame 1 and then is connected with any one of the supporting shafts 31, and the left end of the first U-shaped frame 1 is provided with a guide assembly 35.

Referring to fig. 4 and 5, the bearing bracket 33 includes a positioning bar 331, a first support plate 332 and a second support plate 333, wherein: the outer wall of the conveyer belt 32 is provided with the positioning strips 331 at equal intervals, the positioning strips 331 are of U-shaped structures with openings distributed to one side far away from the supporting shaft 31, and the bottoms of the positioning strips 331 are flexible structures capable of deforming, so that when the positioning strips 331 move along with the conveyer belt 32, corresponding deformation can be carried out along with the outline of the conveyer belt 32, the openings of the positioning strips 331 are symmetrically provided with the first supporting plate 332 and the second supporting plate 333 left and right, and an included angle between the first supporting plate 332 and the second supporting plate 333 is 90 degrees; the width of the second support plate 333 is greater than that of the first support plate 332, so as to apply a supporting force to the right side wall of the energy-saving wall 5, so as to avoid toppling over of the energy-saving wall 5 during the conveying process, and a plurality of balls 334 are uniformly rotatably disposed on one side of the first support plate 332, which is close to the second support plate 333; the balls 334 can reduce friction with the bottom of the energy-saving wall 5, so that the energy-saving wall 5 can slide from the first support plate 332 into the receiving hopper 352 smoothly.

In specific operation, the second intermittent motor 34 is turned on first, the second intermittent motor 34 drives the conveying belt 32 to intermittently move through the supporting shaft 31, then the energy-saving wall 5 to be processed is placed between the first supporting plate 332 and the second supporting plate 333, the bottom of the energy-saving wall 5 is abutted against the first supporting plate 332, the right end of the energy-saving wall 5 is abutted against the second supporting plate 333, the energy-saving wall 5 can be supported through the first supporting plate 332 and the second supporting plate 333, so that the conveying belt 32 drives the energy-saving wall 5 to intermittently convey to the left side through the supporting seat 33 (as shown in fig. 3), and then the conveying belt 32 conveys the energy-saving wall 5 at the leftmost side of the top of the energy-saving wall 5 into the guiding assembly 35, so that the energy-saving wall 5 is placed in the installation part 4.

Referring to fig. 3 and 6, the guide assembly 35 includes a loop-shaped frame 351, a receiving hopper 352, and a straight barrel 3533, wherein: the square frame 351 is arranged at the left end of the first U-shaped frame 1 through a connecting block 42, a receiving hopper 352 is arranged at the upper end of the square frame 351, a straight cylinder 3533 is arranged at the lower end of the square frame 351, and the inner side wall of the straight cylinder 3533 is flush with the inner side wall of the square frame 351; a baffle 354 is arranged at the left end of the receiving hopper 352, the right side wall of the baffle 354 is level with the left end inner side wall of the return frame 351, and a correction plate 355 is arranged at the lower half part of the right end of the baffle 354 in a manner of torsional spring and hinge connection; the torsion spring always applies tension to the correction plate 355, so that a certain angle is reserved between the correction plate 355 and the baffle 354; when the energy-saving wall body 5 is conveyed to the leftmost side of the energy-saving wall body by the conveying belt 32, the included angle between the first supporting plate 332 and the second supporting plate 333 is increased along with the energy-saving wall body 5, the first supporting plate 332 is gradually inclined downwards from right to left (as shown in fig. 3), the energy-saving wall body 5 slides along the first supporting plate 332 and falls into the receiving hopper 352, at the moment, the energy-saving wall body 5 can be blocked by the baffle 354, then the left end of the energy-saving wall body 5 abuts against the correcting plate 355, so that the energy-saving wall body 5 smoothly falls into the receiving hopper 352 under the action of the baffle 354 and the correcting plate 355, and then the energy-saving wall body 5 moves downwards along the returning frame 351 and is adjusted to be in a vertical state under the action of the straight cylinder 3533, so that the energy-saving wall body 5 smoothly falls into the mounting part 4.

Referring to fig. 2, 3 and 7, the mounting portion 4 includes a positioning plate 41, a connecting block 42, a second U-shaped frame 43, a U-shaped guide cylinder 44, a positioning cylinder 45 and a push plate 46, wherein: the lower end of the first U-shaped frame 1 is provided with a positioning plate 41 near the left side of the first U-shaped frame, the left end of the positioning plate 41 is provided with a second U-shaped frame 43 through a connecting block 42, the opening of the second U-shaped frame 43 is backwards arranged, the opening of the second U-shaped frame 43 is provided with a U-shaped guide cylinder 44, the opening of the U-shaped guide cylinder 44 is backwards arranged, the front end of the U-shaped guide cylinder 44 is provided with a positioning cylinder 45 through a supporting seat, and the telescopic end of the positioning cylinder 45 penetrates through the U-shaped guide cylinder 44 and is connected with a push plate 46; the distance between the left and right side walls of the upper half of the U-shaped guide cylinder 44 is gradually reduced from top to bottom, the U-shaped guide cylinder 44 is positioned below the straight cylinder 3533, and the distance between the left and right side walls of the top of the U-shaped guide cylinder 44 is greater than the distance between the left and right side ratios of the straight cylinder 3533; the energy-saving wall body 5 falling from the straight cylinder 3533 is conveniently guided through the upper half part of the U-shaped guide cylinder 44, so that the energy-saving wall body 5 falling from the straight cylinder 3533 can accurately fall into the U-shaped guide cylinder 44; the lower half part of the U-shaped guide cylinder 44 is of a vertical structure, the bottom of the U-shaped guide cylinder 44 is not contacted with the ground, and rotating columns 441 are arranged on the left and right side walls of the lower half part of the U-shaped guide cylinder 44 at equal intervals from top to bottom in a rotating manner; the energy-saving wall 5 can be secondarily adjusted through the lower half part of the U-shaped guide cylinder 44 so as to ensure that the energy-saving wall 5 is in a vertical state, and the friction force between the energy-saving wall 5 and the energy-saving wall 5 can be reduced through the rotating column 441, so that the energy-saving wall 5 can smoothly fall into the mounting groove.

When the energy-saving wall body 5 is placed in the guide assembly 35 by the intermittent feeding part 3, the energy-saving wall body 5 moves downwards to the U-shaped guide cylinder 44 under the action of the guide assembly 35 and the action of gravity, so that the U-shaped guide cylinder 44 guides the energy-saving wall body 5, the energy-saving wall body 5 is accurately placed in the installation groove, the positioning cylinder 45 is opened, the telescopic end of the positioning cylinder 45 drives the push plate 46 to move backwards, the push plate 46 is used for assembling the energy-saving wall body 5 on the rear side of the installation groove in an extrusion mode, so that the assembly construction of the energy-saving wall body 5 is completed, and then the moving part 2 drives the first U-shaped frame 1 to move forwards by one station, so that the energy-saving wall body 5 on the conveying belt 32 is continuously placed in the installation groove; and repeating the steps to finish the continuous assembly construction of the energy-saving wall body 5.

The working process of the invention is as follows: the first step: firstly, the first U-shaped frame 1 is moved to a construction site, secondly, the conveying belt 32 intermittently moves, then the energy-saving wall 5 to be processed is placed on the supporting seat 33, the supporting seat 33 drives the energy-saving wall 5 to intermittently convey leftwards, then the conveying belt 32 conveys the leftmost energy-saving wall 5 at the top of the energy-saving wall 5 into the receiving hopper 352, and the energy-saving wall 5 moves downwards along the return frame 351 and is adjusted to be in a vertical state under the action of the straight cylinder 3533.

And a second step of: the energy-saving wall body 5 moves downwards into the U-shaped guide cylinder 44 along the straight cylinder 353, so that the U-shaped guide cylinder 44 guides the energy-saving wall body 5, and the energy-saving wall body 5 is accurately placed into the mounting groove.

And a third step of: the positioning cylinder 45 is opened, and the positioning cylinder 45 assembles the energy-saving wall 5 to the energy-saving wall 5 at the rear side of the installation groove through the push plate 46, so that the assembly construction of one energy-saving wall 5 is completed.

Fourth step: the first intermittent motor 24 is started, the first intermittent motor 24 drives the first U-shaped frame 1 to move to the front side by one station through the rotating shaft 23 and the moving wheel 22 so as to place the energy-saving wall 5 into the mounting groove again, and the continuous assembly construction of the energy-saving wall 5 can be completed by repeating the steps.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a construction auxiliary device of energy-conserving wall body of civil engineering construction, includes first U type frame (1), removal portion (2), intermittent type material loading portion (3) and installation department (4), its characterized in that: the utility model provides a U type frame, including first U type frame (1), first U type frame (1) opening upwards sets up, and the lower extreme of first U type frame (1) is provided with movable part (2), and intermittent type material loading portion (3) are installed to the opening part of first U type frame (1), and the lower extreme of first U type frame (1) is provided with installation department (4), and installation department (4) are located the left side of movable part (2), wherein:

the moving part (2) comprises a connecting frame (21), a moving wheel (22), a rotating shaft (23) and a first intermittent motor (24), wherein: four connecting frames (21) which are arranged in a matrix are arranged at the bottom of the first U-shaped frame (1), grooves are formed in the lower ends of the connecting frames (21), moving wheels (22) are rotatably arranged in the grooves, rotating shafts (23) are arranged between the moving wheels (22) on the left side and the right side of the first U-shaped frame (1), the rotating shafts (23) are connected through belt transmission, a first motor is arranged on one side, far away from the rotating shafts (23), of any connecting frame (21), through a motor base, and an output shaft of the first motor penetrates through the connecting frames (21) and then is connected with the moving wheels (22);

intermittent feeding portion (3) are including back shaft (31), conveyer belt (32), supporting seat (33), second intermittent type motor (34) and guide subassembly (35), wherein: the novel U-shaped frame comprises a first U-shaped frame body (1), a plurality of supporting shafts (31) are rotatably arranged at the opening of the first U-shaped frame body at equal intervals along the length direction of the first U-shaped frame body, a conveying belt (32) is sleeved between the supporting shafts (31), bearing brackets (33) are arranged on the outer side wall of the conveying belt (32) at equal intervals, a second intermittent motor (34) is arranged at the front end of the first U-shaped frame body through a motor frame, an output shaft of the second intermittent motor (34) penetrates through the first U-shaped frame body (1) and then is connected with any supporting shaft (31), and a guide assembly (35) is arranged at the left end of the first U-shaped frame body;

the installation department (4) is including locating plate (41), connecting block (42), second U type frame (43), U type guide cylinder (44), location cylinder (45) and push pedal (46), wherein: the lower extreme of first U type frame (1) just is close to its left side and installs locating plate (41), and the left end of locating plate (41) is provided with second U type frame (43) through connecting block (42), and second U type frame (43) opening backward sets up, and U type guide cylinder (44) are installed in the opening part of second U type frame (43), and the opening backward setting of U type guide cylinder (44), and locating cylinder (45) are installed through the supporting seat to the front end of U type guide cylinder (44), are connected with push pedal (46) after the flexible end of locating cylinder (45) passes U type guide cylinder (44).

2. The construction auxiliary device for civil engineering construction energy-saving wall body according to claim 1, wherein: the bearing seat (33) comprises a positioning strip (331), a first supporting plate (332) and a second supporting plate (333), wherein: the outer wall equidistant location strip (331) of installing of conveyer belt (32), location strip (331) are U-shaped structure that one side that the opening part was kept away from back shaft (31) was arranged, and the opening part bilateral symmetry of location strip (331) is provided with first backup pad (332) and second backup pad (333), and contained angle between first backup pad (332) and second backup pad (333) is 90.

3. The construction auxiliary device for civil engineering construction energy-saving wall body according to claim 1, wherein: the guide assembly (35) comprises a loop-shaped frame (351), a receiving hopper (352) and a straight barrel (353), wherein: the back-shaped frame (351) is arranged at the left end of the first U-shaped frame (1) through a connecting block (42), a receiving hopper (352) is arranged at the upper end of the back-shaped frame (351), a straight cylinder (353) is arranged at the lower end of the back-shaped frame (351), and the inner side wall of the straight cylinder (353) is flush with the inner side wall of the back-shaped frame (351).

4. The construction auxiliary device for civil engineering construction energy-saving wall body according to claim 1, wherein: opposite sides of the opening of the first U-shaped frame (1) are provided with a plurality of jacking blocks (311) which are staggered with the supporting shafts (31) from left to right at equal intervals, the jacking blocks (311) are positioned between two adjacent supporting shafts (31), and the jacking blocks (311) are in sliding fit with the inner side walls of the conveying belt (32).

5. A construction auxiliary device for a civil construction energy-saving wall according to claim 3, characterized in that: baffle (354) are installed to the left end of receiving hopper (352), and the right side wall of baffle (354) is parallel and level mutually with the left end inside wall of returning frame (351), and the lower half of baffle (354) right-hand member is provided with correction board (355) through torsional spring and through hinged joint's mode.

6. A construction auxiliary device for a civil construction energy-saving wall according to claim 3, characterized in that: the distance between the left side wall and the right side wall of the upper half part of the U-shaped guide cylinder (44) is gradually reduced from top to bottom, the U-shaped guide cylinder (44) is positioned below the straight cylinder (353), and the distance between the left side wall and the right side wall of the top of the U-shaped guide cylinder (44) is larger than the distance between the left side and the right side of the straight cylinder (353).

7. The construction auxiliary device for civil engineering construction energy-saving wall body according to claim 1, wherein: the lower half part of the U-shaped guide cylinder (44) is of a vertical structure, and rotating columns (441) are arranged on the left side wall and the right side wall of the lower half part of the U-shaped guide cylinder (44) in an equidistant rotation mode from top to bottom.

8. The construction auxiliary device for civil engineering construction energy-saving wall according to claim 2, wherein: the width of the second supporting plate (333) is larger than that of the first supporting plate (332), and a plurality of balls (334) are uniformly arranged on one side, close to the second supporting plate (333), of the first supporting plate (332) in a rotating mode.