CN110092086B - Concrete prefabricated part stacking device for assembly type building - Google Patents

Abstract

The invention relates to a stacking device for assembling and assembling concrete prefabricated parts for buildings, which comprises a stacking frame, wherein stacking frames are symmetrically arranged on the left side and the right side of the stacking frame, a sliding rail is arranged between the inner walls of the stacking frames from top to bottom, a sliding adjusting frame is arranged on the sliding rail, and a stacking positioning mechanism is connected to the sliding adjusting frame. The invention can solve the following problems in the existing concrete prefabricated floor slab component conveying and stacking operation process, a the traditional stacking mode occupies large space, the stacked prefabricated floor slab components are bundled by using tools such as ropes, the operation is complex, the stability is saved, b, the prefabricated floor slab components are loaded and conveyed to a construction site, a plurality of prefabricated floor slab components in the construction site are conveyed and bundled in a unified way, the prefabricated floor slab components need to be repeatedly tightened by ropes when being loaded and unloaded in different construction sites, and the change of the number of the prefabricated floor slab components needs to change the bundling mode of the ropes.

Description

Concrete prefabricated part stacking device for assembly type building

Technical Field

The invention relates to the technical field of concrete prefabricated part equipment, in particular to a stacking device for assembling and assembling concrete prefabricated parts for a building.

Background

The precast concrete component is a building component which is made in advance in a factory by taking concrete and steel bars as basic materials, the precast floor slab component is common in the current building industry and is more important in the current building industry, the precast concrete floor slab component needs to be conveyed and stacked when being assembled, and the safety and stability effects in the conveying and stacking process are important links influencing the use of the precast concrete floor slab component.

However, the conventional stacking mode occupies a large space, the stacked prefabricated floor components are bound by using tools such as ropes, the operation is complex, the operation is stable and economical, and b, the prefabricated floor components are loaded and conveyed to a construction site, the prefabricated floor components on a plurality of construction sites are uniformly conveyed and bound, the ropes need to be repeatedly bound when the prefabricated floor components are loaded and unloaded on different construction sites, and the binding mode of the ropes needs to be changed when the number of the prefabricated floor components is changed, so that the operation is complex, the stability is poor, and the labor intensity is high.

Related industries make researches on some common problems of the concrete precast floor slab components in the using process, and a specific technical scheme is provided, for example, a double-layer goods shelf for stacking precast laminated floors, which is disclosed by the Chinese utility model with the patent number of 2017210589558, can realize double-layer stacking; reach the effect of self-balancing through the member connection, need not to make the basis for goods shelves, nevertheless change the floor prefabricated component poor stability that technical scheme deposited, need carry the floor prefabricated component during the transportation, still can't solve the above-mentioned prefabricated floor component and carry the difficult problem that puts things in good order the operation in-process and exist.

Disclosure of Invention

In order to solve the problems, the invention provides a stacking device for assembling and assembling concrete prefabricated components for buildings, which can solve the problems of stacking and conveying of the concrete floor prefabricated components.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides an equipment assembly type concrete prefabricated component for building puts things in good order device, is provided with the frame of putting things in good order including putting the frame in good order the left and right sides symmetry of putting the frame, from last down being provided with the slip track between the inner wall of putting the frame in good order, is provided with the sliding adjustment frame on the slip track, is connected with on the slip adjustment frame and puts things in good order positioning mechanism.

The sliding adjusting frame is provided with a sliding frame of an L-shaped structure, the sliding frame is lapped on the sliding track, a limiting sliding groove is formed in the lower side of the left end of the sliding frame, a limiting sliding plate is arranged in the limiting sliding groove, and a driving groove matched with the lifting groove is formed in the limiting sliding plate.

The sliding adjusting frame is provided with a lifting groove, a lifting block is arranged in the lifting groove in a sliding fit mode, a round hole is formed in the middle of the lifting block, fixing holes are formed in the sliding adjusting frame located on the two sides of the lifting groove at equal intervals from top to bottom, and through holes matched with the fixing holes are formed in the left side and the right side of the lifting block.

The stacking positioning mechanism comprises a positioning pipe arranged in a round hole, a clamping branch chain is arranged at the right end of the positioning pipe, the right end of the positioning pipe is of an open structure, a mounting groove is uniformly formed in the positioning pipe along the circumferential direction of the positioning pipe, a driving frame is arranged in the mounting groove through a pin shaft, the driving frame is connected with the positioning pipe through a reset spring, an operation frame is arranged on the inner wall of the positioning pipe through a spring rod, a drawing slot is formed in the operation frame, and an operation block is inserted in the drawing slot.

The sliding rail is provided with positioning holes at equal intervals from front to back.

The upper side and the lower side of the sliding adjusting frame are symmetrically provided with fixing holes corresponding to the positioning holes, the sliding adjusting frame is provided with fixing rods through positioning springs, and the fixing rods are located inside the positioning holes.

The limiting sliding plate is symmetrically provided with auxiliary holes, the limiting sliding plate is provided with clamping blocks in a sliding fit mode, the sliding adjusting frame is symmetrically provided with auxiliary rods, the auxiliary rods are located in the auxiliary holes, and positioning grooves matched with the clamping blocks are evenly formed in the auxiliary rods.

The joint branch chain is including installing the chucking piece on the registration arm, and the parcel has the rubber cover on the outer wall of chucking piece, and the middle part of chucking piece is provided with the screw hole, and threaded hole is provided with the threaded rod, and the outside of threaded rod is the ring structure, and the threaded rod passes the drive groove, and is provided with the rubber gasket on the threaded rod, and the rubber gasket is located the threaded rod in the outside of drive groove.

The operation block is evenly provided with operation holes, spring operation rods are arranged in the operation holes, and the operation block is evenly provided with operation rubber blocks.

The diameter of the inner wall of the left side of the positioning tube is smaller than that of the inner wall of the right side of the positioning tube.

And auxiliary moving rollers are arranged at the bottom of the stacking frame at equal intervals from left to right.

And a clamping rod for fixing the lifting block and the sliding adjusting frame is arranged on the clamping block.

The invention has the beneficial effects that:

1. the invention can solve the following problems in the process of conveying and stacking concrete prefabricated floor components, a the traditional stacking mode occupies large space, the stacked prefabricated floor components are bound by using tools such as ropes, the operation is complex, the stability is saved, b, the prefabricated floor components are loaded and conveyed to a construction site, a plurality of prefabricated floor components at the construction site are uniformly conveyed and bound, the rope needs to be repeatedly tightened when the prefabricated floor components are loaded and unloaded at different construction sites, the change of the number of the prefabricated floor components needs to change the binding mode of the ropes, the operation is complex, the stability is poor, the labor intensity is high, and the function of conveniently fixing and conveying the concrete prefabricated floor components in a stable stacking mode can be realized.

2. The invention designs the sliding adjusting frame which can be quickly fixed on the sliding track when in use, and can control the stacking and positioning mechanism to move on the sliding track, thereby facilitating the assembly and disassembly of the prefabricated floor slab components, carrying out adaptive stacking and adjustment according to the number of the stacked prefabricated floor slab components, avoiding manual operation and improving the working efficiency.

3. When the stacking positioning mechanism is used for stacking the prefabricated floor slab components, the positioning pipe is inserted into the round hole of the prefabricated floor slab component to control the prefabricated floor slab component not to shake during static stacking;

4. the invention designs a stacking positioning mechanism, during conveying, the limiting sliding plate moves to a position closest to the sliding adjusting frame, and the driving frame controls the operation block to fix and tightly abut against the inner wall of the prefabricated floor slab component.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic structural view between the stacking frame and the sliding adjusting frame according to the present invention;

FIG. 4 is a cross-sectional view of the stacking positioning mechanism of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, the stacking device for the concrete prefabricated parts for the assembly and assembly type building comprises a stacking frame 1, stacking frames 2 are symmetrically arranged on the left side and the right side of the stacking frame 1, a sliding rail 3 is arranged between the inner walls of the stacking frames 2 from top to bottom, a sliding adjusting frame 4 is arranged on the sliding rail 3, and a stacking positioning mechanism 5 is connected to the sliding adjusting frame 4.

The bottom of the stacking frame 1 is provided with auxiliary moving rollers at equal intervals from left to right, and the auxiliary moving rollers can assist the movement of the stacked prefabricated floor slab components.

The clamping branched chain comprises a clamping block 511 arranged on the positioning pipe 51, the outer wall of the clamping block 511 is wrapped with a rubber cover which can increase the friction force with the limiting sliding plate 8, the middle part of the clamping block 511 is provided with a threaded hole, a threaded rod 512 is arranged in the threaded hole, the outer side of the threaded rod 512 is of a circular ring structure, the threaded rod 512 passes through a driving groove, and the threaded rod 512 is provided with a rubber gasket 513, the rubber gasket 513 is positioned on the threaded rod 512 outside the driving groove, the positioning tube 51 is placed in the round hole of the lifting block 9, the left end of the positioning tube 51 passes through the driving groove on the limit sliding plate 8 through the threaded rod 512, the positioning tube 51 is adjusted to a proper position according to the specification of the prefabricated part, the rubber gasket 513 and the clamping block 511 can be tightly attached to the limit sliding plate 8 by rotating the threaded rod 512, and the friction force between the rubber gasket 513 and the limit sliding plate 8 can be increased by adopting the rubber gasket 513.

Sliding frame 6 that is L type structure is provided with on the slip adjustment frame 4, and 6 overlap joints of carriage are on slip track 3, and the left end downside of carriage 6 is provided with spacing spout 7, is provided with spacing sliding plate 8 in the spacing spout 7, is provided with the driving groove that uses with the cooperation of lift groove on the spacing sliding plate 8. The sliding rail 3 is provided with positioning holes at equal intervals from front to back. According to the quantity of the concrete prefabricated parts stacked as required, the sliding frame 6 on the manual control sliding adjusting frame 4 is hung on the sliding rail 3, and the sliding frame 6 of the L-shaped structure can ensure that the sliding adjusting frame 4 can stably move on the sliding rail 3.

The diameter of the inner wall of the positioning tube 51 on the left side is smaller than the diameter of the inner wall on the right side. Inside the utility model provides a registration arm 51 inserts prefabricated floor component round hole, can avoid causing the condition such as damage to its terminal surface at the in-process of spacing fixed prefabricated floor component.

The sliding adjusting frame 4 is provided with a lifting groove, a lifting block 9 is arranged in the lifting groove in a sliding fit mode, a round hole is formed in the middle of the lifting block 9, fixing holes are formed in the sliding adjusting frame 4 located on two sides of the lifting groove at equal intervals from top to bottom, and through holes matched with the fixing holes are formed in the left side and the right side of the lifting block 9.

According to the distance of the round holes in the prefabricated floor slab component, the positioning pipes 51 are controlled to be synchronously adapted and adjusted, the positioning pipes 51 are inserted in the lifting blocks 9, and the lifting blocks 9 are synchronously controlled to move during movement.

The upper side and the lower side of the sliding adjusting frame 4 are symmetrically provided with fixing holes corresponding to the positioning holes, the sliding adjusting frame 4 is provided with fixing rods 11 through positioning springs 10, and the fixing rods 11 are located inside the fixing holes.

The limiting sliding plate 8 is symmetrically provided with auxiliary holes, the limiting sliding plate 8 is provided with clamping blocks 12 in a sliding fit mode, the sliding adjusting frame 4 is symmetrically provided with auxiliary rods 13, the auxiliary rods 13 are located in the auxiliary holes, and positioning grooves matched with the clamping blocks 12 are uniformly formed in the auxiliary rods 13.

The clamping block 511 is provided with a clamping rod 514 for fixing the lifting block 9 and the sliding adjusting frame 4.

The limit sliding plate 8 is controlled to move to a position suitable for the sliding adjusting frame 4, the limit sliding plate 8 extrudes the fixed rod 11 into the positioning hole, and the manual clamping block 12 is downwards inserted into the positioning groove, so that the sliding adjusting frame 4 is fixed on the sliding track 3, and meanwhile, the clamping rod 514 is driven to fix the lifting block 9 on the sliding adjusting frame 4.

The stacking and positioning mechanism 5 comprises a positioning pipe 51 placed in a circular hole, a clamping branched chain is arranged at the right end of the positioning pipe 51, the right end of the positioning pipe 51 is of an open structure, mounting grooves are uniformly formed in the positioning pipe 51 along the circumferential direction of the positioning pipe, a driving frame 52 is arranged in each mounting groove through a pin shaft, the driving frame 52 is connected with the positioning pipe 51 through a return spring 53, an operation frame 55 is arranged on the inner wall of the positioning pipe 51 through a spring rod 54, a drawing and inserting groove is formed in each operation frame 55, an operation block 56 is inserted into each drawing and inserting groove, when the limiting sliding plate 8 moves to a position closest to the sliding adjusting frame 4, the lifting block 9 extrudes the driving frame 52 stretching out of the outer side of the positioning pipe 51, the driving frame 52 rotates under the action of external force to extrude the operation frame 55, and the operation block 56 is controlled by the operation frame 55 to fix and.

The lower extreme of operation piece 56 is provided with and takes out slot matched with protruding piece, evenly be provided with the operation hole on the operation piece 56, be provided with spring operation pole 561 in the operation hole, and evenly be provided with operation rubber block 562 on the operation piece 56, operation piece 56 is convenient for to the change taking out the slot through the mode link of interlude, rubber elasticity is good, advantages such as intensity are high, direct contact can increase the fastening effect of supporting tightly on prefabricated floor component's inner wall when operation rubber block 562 uses, its fixed operation's intensity can be guaranteed to spring operation pole 561, guarantee that the orderly prefabricated floor component of piling up on the road surface of jolting can not receive the damage.

When in work:

preparation operation: the positioning pipe 51 is adjusted to a proper position according to the specification of the prefabricated part, the rubber gasket 513 and the clamping block 511 can be tightly attached to the limit sliding plate 8 by rotating the threaded rod 512, and the friction force between the rubber gasket 513 and the limit sliding plate 8 can be increased by adopting the rubber gasket 513;

controlling the positioning pipe 51 to perform synchronous adaptive adjustment according to the distance of the circular holes on the prefabricated floor slab component, inserting the positioning pipe 51 into the lifting block 9, and synchronously controlling the lifting block 9 to move during movement;

according to the quantity of the concrete prefabricated parts stacked as required, the sliding frame 6 on the manual control sliding adjusting frame 4 is hung on the sliding rail 3, and the sliding frame 6 of the L-shaped structure can ensure that the sliding adjusting frame 4 can stably move on the sliding rail 3.

Fixing operation: placing the concrete precast floor slab component on the auxiliary moving roller through the existing equipment, controlling the precast floor slab component to move to a proper position, and manually controlling the positioning pipe 51 to be inserted into the round hole of the precast floor slab component;

the limit sliding plate 8 is controlled to move to a proper position, the limit sliding plate 8 extrudes the fixed rod 11 into the positioning hole, and the manual clamping block 12 is downwards inserted into the positioning groove, so that the sliding adjusting frame 4 is fixed on the sliding rail 3, and meanwhile, the clamping rod 514 is driven to fix the lifting block 9 on the sliding adjusting frame 4.

Transporting and stacking: when the limiting sliding plate 8 is controlled to move to the position closest to the sliding adjusting frame 4, the lifting block 9 extrudes the driving frame 52 extending out of the positioning pipe 51, the driving frame 52 rotates under the action of external force to extrude the working frame 55, and the working frame 55 controls the working block 56 to fix and tightly abut against the inner wall of the prefabricated floor slab component.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an equipment assembly type concrete prefabricated component for building device of putting things in good order, includes puts frame (1), its characterized in that: the left side and the right side of the stacking frame (1) are symmetrically provided with stacking frames (2), a sliding track (3) is arranged between the inner walls of the stacking frames (2) from top to bottom, a sliding adjusting frame (4) is arranged on the sliding track (3), and the stacking positioning mechanism (5) is connected to the sliding adjusting frame (4);

a sliding frame (6) in an L-shaped structure is arranged on the sliding adjusting frame (4), the sliding frame (6) is lapped on the sliding track (3), a limiting sliding groove (7) is arranged on the lower side of the left end of the sliding frame (6), a limiting sliding plate (8) is arranged in the limiting sliding groove (7), and a driving groove matched with the lifting groove is arranged on the limiting sliding plate (8);

the sliding adjusting frame (4) is provided with a lifting groove, a lifting block (9) is arranged in the lifting groove in a sliding fit mode, the middle part of the lifting block (9) is provided with a round hole, the sliding adjusting frame (4) positioned on the two sides of the lifting groove is provided with fixing holes at equal intervals from top to bottom, and the left side and the right side of the lifting block (9) are provided with through holes matched with the fixing holes;

the stacking positioning mechanism (5) comprises a positioning pipe (51) placed in a circular hole, a clamping branch chain is arranged at the right end of the positioning pipe (51), the right end of the positioning pipe (51) is of an open structure, a mounting groove is uniformly formed in the positioning pipe (51) along the circumferential direction of the positioning pipe, a driving frame (52) is arranged in the mounting groove through a pin shaft, the driving frame (52) is connected with the positioning pipe (51) through a reset spring (53), an operation frame (55) is arranged on the inner wall of the positioning pipe (51) through a spring rod (54), a drawing slot is formed in the operation frame (55), and an operation block (56) is inserted in the drawing slot.

2. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the sliding rail (3) is provided with positioning holes at equal intervals from front to back.

3. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the upper side and the lower side of the sliding adjusting frame (4) are symmetrically provided with fixing holes corresponding to the positioning holes, the sliding adjusting frame (4) is provided with fixing rods (11) through positioning springs (10), and the fixing rods (11) are located inside the positioning holes.

4. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the limiting sliding plate is characterized in that auxiliary holes are symmetrically formed in the limiting sliding plate (8), clamping blocks (12) are arranged on the limiting sliding plate (8) in a sliding fit mode, auxiliary rods (13) are symmetrically arranged on the sliding adjusting frame (4), the auxiliary rods (13) are located in the auxiliary holes, and positioning grooves matched with the clamping blocks (12) are uniformly formed in the auxiliary rods (13).

5. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the clamping branch chain comprises a clamping block (511) installed on a positioning pipe (51), a rubber cover wraps the outer wall of the clamping block (511), a threaded hole is formed in the middle of the clamping block (511), a threaded rod (512) is arranged in the threaded hole, the outer side of the threaded rod (512) is of a circular ring structure, the threaded rod (512) penetrates through a driving groove, a rubber gasket (513) is arranged on the threaded rod (512), and the rubber gasket (513) is located on the threaded rod (512) on the outer side of the driving groove.

6. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the operation block (56) is uniformly provided with operation holes, a spring operation rod (561) is arranged in each operation hole, and the operation block (56) is uniformly provided with operation rubber blocks (562).

7. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the diameter of the inner wall of the positioning tube (51) on the left side is smaller than that on the right side.

8. The concrete precast element stacking device for assembly type building according to claim 1, wherein: the bottom of the stacking frame (1) is provided with auxiliary moving rollers at equal intervals from left to right.

9. The concrete precast element stacking device for assembly type building according to claim 5, wherein: and a clamping rod (514) used for fixing the lifting block (9) and the sliding adjusting frame (4) is arranged on the clamping block (511).

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