CN220451123U - Self-supporting heat preservation integration is equipped in building reinforcement - Google Patents

Abstract

The utility model relates to the field of prefabricated building technology and discloses an integrated equipment for building reinforcement and self-supporting insulation, which includes a floor body. A vertical wall panel body is movable on the top wall of the floor body. The floor is located on one side of the wall panel body. Vertical columns are fixed on the top wall of the main body. A fixed box is fixed on the top wall of the floor body on the other side of the wall panel body. A connecting pipe is fixed on the side wall of the wall panel body close to the column. The connecting pipe is movable. on the outside of the column; the structure of this application is reasonable, and there is no need to fix the prefabricated building wall panels through a large number of bolts and mounting nails. The process of connecting the prefabricated building wall panels and the prefabricated building floor is relatively simple. Connecting the prefabricated building wall panels and assembly The process of connecting prefabricated building floors consumes less manpower and material resources and is more practical. The connection between prefabricated building wall panels and prefabricated building floors is more secure and the prefabricated building on the shell is safer.

Description

An integrated equipment for building reinforcement and self-supporting thermal insulation

Technical field

The utility model relates to the field of prefabricated building technology, and in particular to an integrated self-supporting and thermal insulation equipment for building reinforcement.

Background technique

Prefabricated construction refers to a building that transfers a large amount of on-site work in traditional construction methods to the factory, processes and manufactures building components and accessories in the factory, transports them to the construction site, and assembles and installs them on site through reliable connections. . During the assembly process of the prefabricated building, it is necessary to connect the prefabricated building wall panels and the prefabricated building floor.

In the published patent document with the announcement number CN217079162U, a reinforced connection structure between a building floor and a building wall panel is disclosed, including an L-shaped connector, an assembly strip, a floor body, a wall panel body and a limit strip. The upper surface of the floor body is provided with a strip groove, and the bottom end of the inner wall of the strip groove is equipped with an assembly strip through mounting nails. The lower surface of the limit strip is equidistantly welded with insertion rods, and the insertion rods are movable and plugged into each other. At the middle position of the assembly strip, the lower surface of the wall panel body is movably plugged into the limiting strip. The upper end of the L-shaped connector is fixed to the lower end outer wall of the wall panel body through bolts. The L-shaped connector The lower end is fixed to the upper surface of the assembly bar through bolts. The utility model has a compact structure, is convenient to use, enhances the connection strength between the wall panel and the floor, and meets the needs of personnel.

The above-mentioned utility model has the following shortcomings: a large number of bolts and mounting nails are required to fix the prefabricated building wall panels. The process of connecting the prefabricated building wall panels and the prefabricated building floor is relatively cumbersome. The process of connecting building floors requires a lot of manpower and material resources, and is of poor practicality. Therefore, an integrated self-supporting and thermal insulation equipment for building reinforcement is needed to solve the above problems.

Utility model content

The purpose of this utility model is to provide an integrated self-supporting and thermal insulation equipment for building reinforcement, which solves the problems raised in the background technology.

The embodiment of the present application provides an integrated self-supporting and thermal insulation equipment for building reinforcement, which includes a floor body. A vertical wall panel body is movable on the top wall of the floor body. The floor body is located on one side of the wall panel body. A vertical column is fixed on the top wall of the wall panel, a fixing box is fixed on the top wall of the floor body on the other side of the wall panel body, and a connecting pipe is fixed on the side wall of the wall panel body close to the column. The connecting pipe is movably sleeved on the outside of the column. A plurality of connecting grooves are equidistantly spaced along the height direction on the side wall of the wall panel body close to the fixed box. The upper edge of the side wall of the fixed box close to the wall panel body is high. A plurality of through holes are opened at equal intervals in the direction, and the through holes are connected with the connecting groove. The top wall of the fixing box away from the wall panel body is connected with a vertical threaded column through bearing rotation. All the holes located inside the fixing box are The outer side of the threaded column is threadedly connected with a transmission sleeve, and the transmission sleeve is slidingly connected to the inner wall of the fixed box. The transmission sleeve is hinged with an inclined transmission shaft at the side end close to the wall panel body. A vertical vertical plate is hinged to the side end of the shaft close to the wall panel body. The vertical plate is slidingly connected to the inner bottom wall of the fixed box. The vertical plate is equidistant along the height direction on the side wall close to the wall panel body. A plurality of horizontal connecting columns are fixed, and the connecting columns are movably installed inside the through hole. The side of the connecting columns away from the vertical plate is movably installed inside the connecting groove.

Optionally, a rectangular bottom groove is provided on the top wall of the floor body, the bottom end of the wall panel body is fixed to a bottom block, and the bottom block is movable inside the bottom groove, and the bottom groove The size matches the size of the bottom block.

By adopting the above technical solution, horizontal displacement of the wall panel body can be initially prevented.

Optionally, the bottom end of the connecting pipe is in contact with the top wall of the floor body, the size of the inner ring of the connecting pipe is adapted to the size of the column, and the side wall of the wall panel body is in contact with the The outer walls of the fixed box are in contact.

By adopting the above technical solution, horizontal displacement of the wall panel body can be further prevented.

Optionally, the size of the through hole is adapted to the size of the connecting post, and the size of the connecting groove is adapted to the size of the connecting post.

By adopting the above technical solution, the vertical displacement of the wall panel body can be effectively prevented.

Optionally, a side slide groove is provided on the inner wall of the fixed box away from the wall panel body along the height direction, and a side slide block is fixed on the side end of the transmission sleeve, and the side slide block is slidingly connected to the side slide groove, so The inner bottom wall of the fixed box is provided with a bottom chute along the length direction. A bottom slider is fixed at the bottom end of the vertical plate. The bottom slider is slidingly connected to the bottom chute. The inner top wall of the fixed box is provided with a bottom chute. A top chute is provided along the length direction, a top slider is fixed on the top of the vertical plate, and the top slider is slidingly connected to the top chute.

By adopting the above technical solution, the transmission sleeve can be lifted and lowered stably, and the vertical plate can be stably moved horizontally.

Optionally, the side end of the transmission shaft away from the wall panel body is higher than the side end of the transmission shaft close to the wall panel body, and the bottom end of the threaded column extends to the upper side of the fixed box and is fixed with an operating panel, so The outside of the operation panel is provided with anti-slip patterns.

By adopting the above technical solution, the threaded column can be driven to rotate by rotating the operating plate.

Optionally, the interior of the wall panel body is a cavity structure, and an insulation board is provided inside the wall panel body.

By adopting the above technical solution, the thermal insulation performance of the wall panel body can be improved.

Compared with the existing technology, the beneficial effects of the technical solution of this application are as follows:

This application proposes an integrated equipment for building reinforcement and self-supporting insulation. When it is necessary to connect prefabricated building wall panels and prefabricated building floors, the connecting column can be moved horizontally by turning the operating panel, and then the wall panel body is placed on the floor. On the top wall of the main body, and insert the bottom block into the inside of the bottom groove, the connecting pipe can be set on the outside of the column. Then, by rotating the operating disk until the connecting column is inserted into the inside of the connecting groove, the connection of the prefabricated building can be completed. When connecting wall panels and prefabricated building floors, there is no need to fix the prefabricated building wall panels through a large number of bolts and mounting nails. The process of connecting prefabricated building wall panels and prefabricated building floors is relatively simple. Connecting prefabricated building wall panels and prefabricated building floors The process of connecting building floors consumes less manpower and material resources and is more practical.

This application proposes an integrated equipment for building reinforcement and self-supporting thermal insulation. The bottom block is inserted into the inside of the bottom groove, and the connecting pipe is set on the outside of the column, which can effectively prevent the horizontal displacement of the wall panel body. The left side of the connecting column By inserting the side into the connection groove, it can effectively prevent the vertical displacement of the wall panel body, and achieve a firm fixation of the wall panel body, making the connection between the prefabricated building wall panels and the prefabricated building floor more secure. , the safety of prefabricated buildings on the shell.

Description of drawings

Figure 1 is a schematic structural diagram of the utility model;

Figure 2 is a schematic cross-sectional structural diagram of the utility model;

Figure 3 is an enlarged schematic structural diagram of part A in Figure 2 of the present invention;

Figure 4 is an enlarged schematic structural view of part B in Figure 2 of the present invention.

In the picture: 1. Floor body; 2. Wall panel body; 3. Column; 4. Connecting pipe; 5. Fixing box; 6. Threaded column; 7. Operating panel; 8. Transmission sleeve; 9. Transmission shaft; 10. Vertical plate; 11. Connecting column; 12. Insulation board; 13. Bottom groove; 14. Bottom block; 15. Through hole; 16. Connection groove.

Detailed ways

Please refer to Figures 1-4. The present utility model provides a technical solution: an integrated self-supporting and thermal insulation equipment for building reinforcement, including a floor body 1. A vertical wall panel body 2 is movable on the top wall of the floor body 1. The interior of the wall panel body 2 is a cavity structure, and an insulation board 12 is provided inside the wall panel body 2, which can improve the thermal insulation performance of the wall panel body 2 and improve the thermal insulation performance of the prefabricated building. A vertical column 3 is fixed on the top wall of the floor body 1. A fixing box 5 is fixed on the top wall of the floor body 1 located on the other side of the wall panel body 2. A vertical column 3 is fixed on the side wall of the wall panel body 2 close to the column 3. The connecting pipe 4 is movably mounted on the outside of the column 3. A plurality of connecting grooves 16 are equidistantly spaced along the height direction on the side wall of the wall panel body 2 close to the fixed box 5. The fixed box 5 is close to the wall panel body 2. There are a plurality of through holes 15 equidistantly spaced along the height direction on the side walls. The through holes 15 are connected with the connecting grooves 16. The top wall of the fixing box 5 away from the wall panel body 2 is connected with a vertical threaded column 6 through bearing rotation. The outer side of the threaded column 6 inside the fixed box 5 is threadedly connected with a transmission sleeve 8. The transmission sleeve 8 is slidingly connected to the inner wall of the fixed box 5. The left end of the transmission sleeve 8 is hinged with an inclined transmission shaft 9. The transmission shaft A vertical vertical plate 10 is hinged to the left end of 9. The vertical plate 10 is slidingly connected to the inner bottom wall of the fixed box 5. A plurality of vertical plates 10 are fixed equidistantly along the height direction on the side wall of the vertical plate 10 close to the wall panel body 2. The horizontal connecting column 11 is movable inside the through hole 15 , and the side of the connecting column 11 away from the vertical plate 10 is movable inside the connecting groove 16 .

In some technical solutions, as shown in Figures 2 and 3, a rectangular bottom groove 13 is provided on the top wall of the floor body 1, the bottom end of the wall panel body 2 is fixed to the bottom block 14, and the bottom block 14 is movable on Inside the bottom groove 13, the size of the bottom groove 13 matches the size of the bottom block 14. The bottom end of the connecting pipe 4 is in contact with the top wall of the floor body 1. The size of the inner ring of the connecting pipe 4 is consistent with the size of the column 3. Adaptation, the right side wall of the wall panel body 2 is in contact with the left side wall of the fixed box 5, the bottom block 14 is inserted into the inside of the bottom groove 13, and the connecting pipe 4 is sleeved on the outside of the column 3, which can effectively prevent the wall panel body 2 Horizontal displacement occurs.

In some technical solutions, as shown in Figures 2 and 4, the size of the through hole 15 matches the size of the connecting post 11, the size of the connecting groove 16 matches the size of the connecting post 11, and the size of the connecting post 11 Inserting the left side into the inside of the connecting groove 16 can effectively prevent the wall panel body 2 from being displaced in the vertical direction, and the wall panel body 2 can be firmly fixed.

In some technical solutions, as shown in Figure 2, a side sliding groove is provided along the height direction on the inner wall of the fixed box 5 away from the wall panel body 2, and a side sliding block is fixed at the side end of the transmission sleeve 8, and the side sliding block is connected with the side sliding block. The sliding connection of the side chute allows the right end of the transmission sleeve 8 and the transmission shaft 9 to rise and fall stably. A bottom chute is provided along the length direction on the inner bottom wall of the fixed box 5, and the bottom end of the vertical plate 10 is fixed with a bottom The slider, the bottom slider and the bottom chute are slidingly connected. A top chute is provided along the length direction on the inner top wall of the fixed box 5. A top slider is fixed on the top of the vertical plate 10. The top slider slides with the top chute. The vertical plate 10, the transmission shaft 9 and the left end can move horizontally stably.

In some technical solutions, as shown in Figures 1 and 2, the side end of the transmission shaft 9 away from the wall panel body 2 is higher than the side end of the transmission shaft 9 close to the wall panel body 2, and the right end of the transmission shaft 9 is higher than The left end of the transmission shaft 9 and the bottom end of the threaded column 6 extend to the upper side of the fixed box 5 and are fixed with an operating panel 7. By rotating the operating panel 7 clockwise, the threaded column 6 can be driven to rotate clockwise. 6 and the threaded transmission of the transmission sleeve 8 can cause the transmission sleeve 8 to drive the right end of the transmission shaft 9 to rise, so that the left end of the transmission shaft 9 can drive the vertical plate 10 to move horizontally to the right. By turning the operating panel counterclockwise 7. The threaded column 6 can be driven to rotate counterclockwise. Through the thread transmission between the threaded column 6 and the transmission sleeve 8, the transmission sleeve 8 can drive the right end of the transmission shaft 9 to descend, so that the left end of the transmission shaft 9 can be lowered. The vertical plate 10 is driven to move horizontally to the left, and the outside of the operating panel 7 is provided with anti-slip patterns to prevent hand slipping when the operating panel 7 is rotated.

Working principle: When it is necessary to connect the prefabricated building wall panels and the prefabricated building floor, first turn the operating panel 7 clockwise to drive the threaded column 6 to rotate clockwise, and then through the thread transmission of the threaded column 6 and the transmission sleeve 8, The transmission sleeve 8 drives the right end of the transmission shaft 9 to rise, so that the left end of the transmission shaft 9 drives the vertical plate 10 to move horizontally to the right, and the connecting column 11 moves horizontally to the right until the left end of the connecting column 11 The side end is located inside the through hole 15, and then the wall panel body 2 is placed on the top wall of the floor body 1, and the bottom block 14 is inserted into the bottom groove 13, so that the connecting pipe 4 can be set on the outside of the column 3 , at this time, the right side wall of the wall panel body 2 is in contact with the left side wall of the fixed box 5, and the connecting groove 16 is connected with the through hole 15. Then, by rotating the operating panel 7 counterclockwise, the connecting column 11 can be moved horizontally to the left , until the left side of the connecting column 11 is inserted into the inside of the connecting groove 16, the wall panel body 2 can be fixed, and the prefabricated building wall panel and the prefabricated building floor can be connected without the need for a large number of bolts and mounting nails. Prefabricated building wall panels, the process of connecting prefabricated building wall panels and prefabricated building floors is relatively simple. The process of connecting prefabricated building wall panels and prefabricated building floors consumes less manpower and material resources and is more practical; bottom The block 14 is inserted into the inside of the bottom groove 13. The size of the bottom groove 13 is adapted to the size of the bottom block 14. The connecting pipe 4 is sleeved on the outside of the column 3. The size of the inner ring of the connecting pipe 4 is adapted to the size of the column 3. It can effectively prevent the wall panel body 2 from shifting in the horizontal direction. The left side of the connecting column 11 is inserted into the inside of the connecting groove 16. The size of the through hole 15 matches the size of the connecting column 11. The size of the connecting groove 16 Matching the size of the connecting column 11 can effectively prevent the wall panel body 2 from shifting in the vertical direction, and the wall panel body 2 can be firmly fixed to connect the prefabricated building wall panel and the prefabricated building floor. The solidity is high and the safety of the prefabricated building on the shell is high.

The above are only preferred embodiments of the present utility model and are not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still make the foregoing descriptions. The technical solutions described in each embodiment are modified, or some of the technical features are replaced with equivalents. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present utility model shall be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a building reinforcement self-supporting heat preservation integration is equipped, includes floor body (1), a serial communication port, activity is equipped with vertical wallboard body (2) on the roof of floor body (1), is located wallboard body (2) one side be fixed with vertical stand (3) on the roof of floor body (1), be located wallboard body (2) opposite side be fixed with fixed box (5) on the roof of floor body (1), be fixed with connecting pipe (4) on the lateral wall that wallboard body (2) is close to stand (3), connecting pipe (4) movable sleeve is located the outside of stand (3), a plurality of spread grooves (16) have been seted up along the direction equidistance on the lateral wall that wallboard body (2) is close to fixed box (5), a plurality of through-holes (15) have been seted up along the direction equidistance on the lateral wall that fixed box (5) is close to wallboard body (2), be connected with vertical screw thread post (6) through the bearing rotation on the roof of fixed box (5), outside threaded connection of screw thread post (6) has driving sleeve (8), driving sleeve (8) are in driving sleeve (8) are the inside wall (8) that are close to fixed box (5) are on the side of being articulated body (9), the transmission shaft (9) is close to the side of wallboard body (2) and articulates there is vertical riser (10), riser (10) sliding connection in on the interior diapire of fixed case (5), riser (10) are close to on the lateral wall of wallboard body (2) along direction of height equidistance be fixed with a plurality of horizontally spliced pole (11), spliced pole (11) activity are located the inside of through-hole (15), one side activity that riser (10) were kept away from to spliced pole (11) is located the inside of spread groove (16).

2. The building reinforcing self-supporting heat preservation integrated equipment according to claim 1, wherein a rectangular bottom groove (13) is formed in the top wall of the floor body (1), the bottom end of the wallboard body (2) is fixed to a bottom block (14), the bottom block (14) is movably arranged in the bottom groove (13), and the size of the bottom groove (13) is matched with the size of the bottom block (14).

3. The building reinforcing self-supporting heat preservation integrated equipment according to claim 1, wherein the bottom end of the connecting pipe (4) is in contact with the top wall of the floor body (1), the size of the inner ring of the connecting pipe (4) is matched with the size of the upright post (3), and the side wall of the wallboard body (2) is in contact with the outer side wall of the fixed box (5).

4. Building reinforcing self-supporting heat preservation integrated equipment according to claim 1, characterized in that the size of the through hole (15) is matched with the size of the connecting column (11), and the size of the connecting groove (16) is matched with the size of the connecting column (11).

5. The building reinforcing self-supporting heat preservation integrated equipment according to claim 1, characterized in that, side sliding grooves are formed in the inner side wall of the wall plate body (2) far away from the fixed box (5) along the height direction, side sliding blocks are fixed at the side ends of the transmission sleeve (8) and are connected with the side sliding grooves in a sliding mode, bottom sliding grooves are formed in the inner bottom wall of the fixed box (5) along the length direction, bottom sliding blocks are fixed at the bottom ends of the vertical plates (10) and are connected with the bottom sliding grooves in a sliding mode, top sliding grooves are formed in the inner top wall of the fixed box (5) along the length direction, and top sliding blocks are fixed at the top ends of the vertical plates (10) and are connected with the top sliding grooves in a sliding mode.

6. The building reinforcing self-supporting heat preservation integrated equipment according to claim 1, wherein the side end of the transmission shaft (9) far away from the wallboard body (2) is higher than the side end of the transmission shaft (9) close to the wallboard body (2), the bottom end of the threaded column (6) extends to the upper side of the fixed box (5) and is fixed with an operating panel (7), and anti-skid patterns are arranged on the outer side of the operating panel (7).

7. The building reinforcing self-bearing heat preservation integrated equipment according to claim 1, wherein the interior of the wallboard body (2) is of a cavity structure, and a heat preservation plate (12) is arranged in the wallboard body (2).