CN217754714U - Assembly type building component management device based on BIM - Google Patents

Abstract

The utility model discloses an assembly type structure component management device based on BIM, the power distribution box comprises a box body, the lower extreme surface of box is provided with the auto-lock universal wheel, the inside of box is provided with adjustment mechanism, one side surface of adjustment mechanism is provided with stop gear, the front end surface of box is provided with the cabinet door, adjustment mechanism includes first lead screw, lift groove, motor, guide bar, guide way, second lead screw, places board, collecting box, handle, spacing groove, stopper, spout, slot, first fixed block, guiding hole, first thread groove, second fixed block, connecting block, first sprocket, chain, activity chamber and second sprocket. An assembly type building element management device based on BIM, can conveniently place building element and accomodate, be convenient for adjust according to building element's size, be convenient for steadily go up and down, can conveniently install fixedly, easy operation to placing the board.

Description

Assembly type building component management device based on BIM

Technical Field

The utility model relates to an assembly type structure component field specifically is an assembly type structure component management device based on BIM.

Background

The building elements, i.e. the structure of the building, can be divided into different levels, the building is built by using various materials, therefore, the first level is to research various materials, such as steel bars, cement, wood, and the like, the walls, columns, and the like made of the materials are the elements for building, and the second level is to research the elements, the building elements are widely used, and the building elements have important function in building construction.

When current building element deposits, inconvenient categorised the placing, and inconvenient according to not unidimensional regulation, the use of giving people has brought certain adverse effect, for this reason, we provide an assembled building element management device based on BIM.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an assembly type building element management device based on BIM possesses and can conveniently place to building element and accomodate, is convenient for adjust according to building element's size, and the steady lift of being convenient for can conveniently install fixedly placing the board, and the problem in the background art can effectively be solved to advantages such as easy operation.

In order to achieve the above purpose, the utility model adopts the technical proposal that: the utility model provides an assembly type building element management device based on BIM, includes the box, the lower extreme surface of box is provided with the auto-lock universal wheel, the inside of box is provided with adjustment mechanism, one side surface of adjustment mechanism is provided with stop gear, the front end surface of box is provided with the cabinet door, adjustment mechanism includes first lead screw, lift groove, motor, guide bar, guide way, second lead screw, places board, collecting box, handle, spacing groove, stopper, spout, slot, first fixed block, guiding hole, first thread groove, second fixed block, connecting block, first sprocket, chain, activity chamber and second sprocket, the lower extreme internal surface in the box is seted up to the spout.

Preferably, the collecting box is positioned inside the chute, the handle is fixedly arranged at the upper end of the outer surface of the front end of the collecting box, two groups of limit blocks are respectively and fixedly arranged at two sides of the outer surface of the lower end of the collecting box, two groups of limit grooves are respectively arranged at two sides of the outer surface of the lower end of the chute, two groups of lifting grooves are respectively arranged at the middle parts of the inner surfaces of two sides of the box body, two groups of guide grooves are respectively arranged at the front end and the rear end of the lifting grooves, the first screw rod is positioned inside the lifting grooves, the guide rod is positioned inside the guide grooves, the first fixing block is positioned inside the guide grooves, the guide hole is arranged at the middle part of the first fixing block, the second fixed block is located the inside of lift groove, the middle part of second fixed block is seted up to first thread groove, connecting block fixed mounting is in one side surface of second fixed block, one side internal surface of connecting block is seted up to the slot, it is located between two sets of connecting blocks to place the board, the upper end internal surface of box is seted up to the activity chamber, first sprocket fixed mounting is in the upper end of first lead screw outer wall, second sprocket fixed mounting is in the upper end of second lead screw outer wall, the chain is located between first sprocket and the second sprocket, the motor is located the upper end surface of first lead screw.

Preferably, the first fixing block is movably connected with the guide rod and the guide groove through the guide hole, the second fixing block is in threaded connection with the first screw rod through the first threaded groove, the second fixing block is movably connected with the lifting groove, the placing plate is movably connected with the inserting groove, the first chain wheel is in transmission connection with the second chain wheel through a chain, the collecting box is in sliding connection with the sliding groove, and the limiting groove is in sliding connection with the limiting block.

Preferably, stop gear includes T type threaded rod, second thread groove and third thread groove, and is two sets of the front end of placing board middle part both sides is seted up respectively to the third thread groove, and is two sets of the upper and lower both ends surface of slot is seted up respectively to T type threaded rod, T type threaded rod is located the middle part of second thread groove.

Preferably, the T-shaped threaded rod is in threaded connection with the second thread groove and the third thread groove.

Compared with the prior art, the utility model provides an assembly type structure component management device based on BIM possesses following beneficial effect:

1. this kind of assembled building element management device based on BIM, through the adjustment mechanism who sets up, the starter motor. Drive first lead screw and rotate, thereby drive first sprocket and rotate, thereby drive the second sprocket and rotate under the drive effect of chain, thereby drive the second lead screw and rotate, at first fixed block, the guiding hole, the guide bar, the guide way, the second fixed block, the steady lift of connecting block is driven under the mutually supporting action of first thread groove, it inserts the slot to place the board, will place the lower extreme that the board removed the box, place building element on placing the board, the starter motor, thereby drive the connecting block and rise, place another group building element at the lower extreme of placing the board, deposit, the pulling handle, it moves forward to drive the collecting box, at the spout, the stopper, open the collecting box under the mutually supporting action of spacing groove, place the component in the collecting box, can conveniently place building element and accomodate, be convenient for adjust according to building element's size, be convenient for steadily go up and down.

2. This an assembly type building element management device based on BIM through the stop gear that sets up, will place in the board inserts the slot, inserts the second thread groove with T type threaded rod, rotates T type threaded rod in the third thread groove with T type threaded rod under the screw action of T type threaded rod and second thread groove, will place the board and fix with the connecting block, can conveniently install fixedly, easy operation placing the board.

Drawings

Fig. 1 is the utility model relates to an overall structure schematic diagram among assembly type building element management device based on BIM.

Fig. 2 is the utility model relates to an adjust mechanism picture in assembled building element management device based on BIM.

Fig. 3 is the utility model relates to a local picture of adjustment mechanism among assembly type building element management device based on BIM.

Fig. 4 is the utility model relates to an adjustment mechanism profile among assembly type building element management device based on BIM.

Fig. 5 is an enlarged view of a position a in fig. 2 of the prefabricated building component management device based on the BIM of the present invention.

In the figure: 1. a box body; 2. a self-locking universal wheel; 3. a cabinet door; 4. an adjustment mechanism; 5. a limiting mechanism; 6. a first lead screw; 7. a lifting groove; 8. a motor; 9. a guide bar; 10. a guide groove; 11. a second lead screw; 12. placing a plate; 13. a collection box; 14. a handle; 15. a limiting groove; 16. a limiting block; 17. a chute; 18. inserting slots; 19. a first fixed block; 20. a guide hole; 21. a first thread groove; 22. a second fixed block; 23. connecting blocks; 24. a first sprocket; 25. a chain; 26. a movable cavity; 27. a second sprocket; 28. a T-shaped threaded rod; 29. a second thread groove; 30. a third thread groove.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

Detailed description of the preferred embodiment

The present embodiment is a BIM-based prefabricated construction component management apparatus.

As shown in fig. 1-5, the portable multifunctional cabinet comprises a cabinet body 1, a self-locking universal wheel 2 is arranged on the outer surface of the lower end of the cabinet body 1, an adjusting mechanism 4 is arranged inside the cabinet body 1, a limiting mechanism 5 is arranged on the outer surface of one side of the adjusting mechanism 4, a cabinet door 3 is arranged on the outer surface of the front end of the cabinet body 1, the adjusting mechanism 4 comprises a first lead screw 6, a lifting groove 7, a motor 8, a guide rod 9, a guide groove 10, a second lead screw 11, a placing plate 12, a collecting box 13, a handle 14, a limiting groove 15, a limiting block 16, a sliding groove 17, a slot 18, a first fixing block 19, a guide hole 20, a first thread groove 21, a second fixing block 22, a connecting block 23, a first chain wheel 24, a chain 25, a movable cavity 26 and a second chain wheel 27, and the sliding groove 17 is formed in the inner surface of the lower end of the cabinet body 1.

The collecting box 13 is positioned inside the sliding groove 17, the handle 14 is fixedly arranged at the upper end of the outer surface of the front end of the collecting box 13, two groups of limiting blocks 16 are respectively fixedly arranged at two sides of the outer surface of the lower end of the collecting box 13, two groups of limiting grooves 15 are respectively arranged at two sides of the outer surface of the lower end of the sliding groove 17, two groups of lifting grooves 7 are respectively arranged at the middle parts of the inner surfaces of two sides of the box body 1, two groups of guide grooves 10 are respectively arranged at the front end and the rear end of each lifting groove 7, the first screw rod 6 is positioned inside the lifting groove 7, the guide rod 9 is positioned inside the guide groove 10, the first fixing block 19 is positioned inside the guide groove 10, the guide hole 20 is arranged at the middle part of the first fixing block 19, the second fixing block 22 is positioned inside the lifting groove 7, the first thread groove 21 is arranged at the middle part of the second fixing block 22, the connecting block 23 is fixedly arranged at the outer surface of one side of the second fixing block 22, the slot 18 is arranged at the inner surface of one side of the connecting block 23, the placing plate 12 is positioned between the two groups of the connecting block 23, the movable cavity 26 is arranged at the inner surface of the upper end of the box body 1, the upper end of the first chain wheel 24 is fixedly arranged at the upper end of the outer wall of the first chain wheel 6, the upper end of the first chain wheel 27 is positioned between the outer wall of the first screw rod 6, the second chain wheel 27 is positioned at the outer wall of the second chain wheel 11, the outer wall of the second chain wheel 24, the second chain wheel 8 of the first screw rod 6, the second chain wheel 13; the first fixed block 19 is movably connected with the guide rod 9 and the guide groove 10 through the guide hole 20, the second fixed block 22 is in threaded connection with the first screw rod 6 through the first threaded groove 21, the second fixed block 22 is movably connected with the lifting groove 7, the placing plate 12 is movably connected with the slot 18, the first chain wheel 24 is in transmission connection with the second chain wheel 27 through the chain 25, the collecting box 13 is in sliding connection with the sliding groove 17, and the limiting groove 15 is in sliding connection with the limiting block 16; the limiting mechanism 5 comprises a T-shaped threaded rod 28, a second threaded groove 29 and third threaded grooves 30, two groups of the third threaded grooves 30 are respectively arranged at the front ends of the two sides of the middle part of the placing plate 12, two groups of the T-shaped threaded rods 28 are respectively arranged on the outer surfaces of the upper end and the lower end of the slot 18, and the T-shaped threaded rods 28 are positioned in the middle part of the second threaded groove 29; the T-shaped threaded rod 28 is in threaded connection with the second threaded groove 29 and the third threaded groove 30.

It should be noted that the utility model relates to a prefabricated building component management device based on BIM, through the adjustment mechanism 4 who sets up, starter motor 8. The first screw rod 6 is driven to rotate, so that the first chain wheel 24 is driven to rotate, the second chain wheel 27 is driven to rotate under the transmission action of the chain 25, so that the second screw rod 11 is driven to rotate, the connecting block 23 is driven to stably lift under the mutual matching action of the first fixing block 19, the guide hole 20, the guide rod 9, the guide groove 10, the second fixing block 22 and the first thread groove 21, the placing plate 12 is inserted into the slot 18, the placing plate 12 is moved to the lower end of the box body 1, the building component is placed on the placing plate 12, the motor 8 is started, so that the connecting block 23 is driven to lift, another group of building components is placed at the lower end of the placing plate 12 for storage, the handle 14 is pulled to drive the collecting box 13 to move forwards, the collecting box 13 is opened under the mutual matching action of the sliding groove 17, the limiting block 16 and the limiting groove 15, the component is placed in the collecting box 13, the building component can be conveniently placed and stored, the regulation according to the size of the building component is convenient for stable lifting; through the stop gear 5 who sets up, will place board 12 and insert in slot 18, insert second thread groove 29 with T type threaded rod 28, rotate T type threaded rod 28 with T type threaded rod 28 under the screw thread effect of second thread groove 29 in the third thread groove 30, will place board 12 and connecting block 23 and fix, can conveniently install fixedly, easy operation placing board 12.

Detailed description of the invention

The embodiment is an embodiment of a clamping mechanism for a BIM-based prefabricated building component management device.

As shown in FIGS. 1, 2, 3 and 4, a clamping mechanism 4 for a BIM-based prefabricated building component management device, a collection box 13 is positioned inside a sliding slot 17, a handle 14 is fixedly arranged at the upper end of the outer surface of the front end of the collection box 13, two sets of limit blocks 16 are respectively and fixedly arranged at two sides of the outer surface of the lower end of the collection box 13, two sets of limit grooves 15 are respectively arranged at two sides of the outer surface of the lower end of the sliding slot 17, two sets of lifting slots 7 are respectively arranged at the middle parts of the inner surfaces of two sides of a box body 1, two sets of guide slots 10 are respectively positioned at the front and rear ends of the lifting slots 7, a first screw 6 is positioned inside the lifting slots 7, a guide rod 9 is positioned inside the guide slots 10, a first fixing block 19 is positioned inside the guide slots 10, the guide hole 20 is arranged in the middle of the first fixing block 19, the second fixing block 22 is positioned in the lifting groove 7, the first thread groove 21 is arranged in the middle of the second fixing block 22, the connecting blocks 23 are fixedly arranged on the outer surface of one side of the second fixing block 22, the inserting grooves 18 are arranged on the inner surface of one side of the connecting blocks 23, the placing plate 12 is positioned between the two groups of connecting blocks 23, the movable cavity 26 is arranged on the inner surface of the upper end of the box body 1, the first chain wheel 24 is fixedly arranged on the upper end of the outer wall of the first lead screw 6, the second chain wheel 27 is fixedly arranged on the upper end of the outer wall of the second lead screw 11, the chain 25 is positioned between the first chain wheel 24 and the second chain wheel 27, and the motor 8 is positioned on the outer surface of the upper end of the first lead screw 6; the first fixing block 19 is movably connected with the guide rod 9 and the guide groove 10 through the guide hole 20, the second fixing block 22 is in threaded connection with the first screw rod 6 through the first thread groove 21, the second fixing block 22 is movably connected with the lifting groove 7, the placing plate 12 is movably connected with the slot 18, the first chain wheel 24 is in transmission connection with the second chain wheel 27 through the chain 25, the collecting box 13 is in sliding connection with the sliding groove 17, and the limiting groove 15 is in sliding connection with the limiting block 16.

Detailed description of the preferred embodiment

The embodiment is an embodiment of a moving mechanism for a BIM-based prefabricated building component management device.

As shown in fig. 1, 2, 3 and 5, a moving mechanism 5 for a BIM-based prefabricated building component management device, the limiting mechanism 5 includes a T-shaped threaded rod 28, a second threaded groove 29 and third threaded grooves 30, two sets of the third threaded grooves 30 are respectively arranged at the front ends of two sides of the middle part of a placing plate 12, two sets of the T-shaped threaded rods 28 are respectively arranged on the outer surfaces of the upper and lower ends of a slot 18, and the T-shaped threaded rod 28 is positioned in the middle part of the second threaded groove 29; the T-shaped threaded rod 28 is in threaded connection with the second threaded groove 29 and the third threaded groove 30.

It is noted that, herein, relational terms such as first and second (a, b, etc.) and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A BIM-based fabricated building element management device, comprising a box body (1), characterized in that: the outer surface of the lower end of the box body (1) is provided with a self-locking universal wheel (2), an adjusting mechanism (4) is arranged inside the box body (1), the outer surface of one side of the adjusting mechanism (4) is provided with a limiting mechanism (5), the outer surface of the front end of the box body (1) is provided with a cabinet door (3), the adjusting mechanism (4) comprises a first lead screw (6), a lifting groove (7), a motor (8), a guide rod (9), a guide groove (10), a second lead screw (11), a placing plate (12), a collecting box (13), a handle (14), a limiting groove (15), a limiting block (16), a sliding groove (17), a slot (18), a first fixing block (19), a guide hole (20), a first threaded groove (21), a second fixing block (22), a connecting block (23), a first chain wheel (24), a chain (25), a movable cavity (26) and a second chain wheel (27), and the sliding groove (17) is arranged on the inner surface of the lower end of the box body (1).

2. The BIM-based prefabricated building component management device of claim 1, wherein: the collecting box (13) is positioned inside the sliding groove (17), the handle (14) is fixedly arranged at the upper end of the outer surface of the front end of the collecting box (13), two groups of limiting blocks (16) are respectively fixedly arranged at two sides of the outer surface of the lower end of the collecting box (13), two groups of limiting grooves (15) are respectively arranged at two sides of the outer surface of the lower end of the sliding groove (17), two groups of lifting grooves (7) are respectively arranged at the middle parts of the inner surfaces of two sides of the box body (1), two groups of guide grooves (10) are respectively arranged at the front end and the rear end of the lifting groove (7), the first screw rod (6) is positioned inside the lifting groove (7), the guide rod (9) is positioned inside the guide groove (10), the first fixing block (19) is positioned inside the guide groove (10), the guide hole (20) is arranged at the middle part of the first fixing block (19), the second screw groove (22) is positioned inside the lifting groove (7), the first screw groove (21) is arranged at the middle part of the second fixing block (22), the connecting block (23) is fixedly arranged at one side of the outer surface of the second fixing block (22), the inner surface of the connecting block (18) is arranged at one side of the inner surface of the movable connecting block (1), and the inner surface (23) is arranged at one side of the slot (1), the first chain wheel (24) is fixedly arranged at the upper end of the outer wall of the first screw rod (6), the second chain wheel (27) is fixedly arranged at the upper end of the outer wall of the second screw rod (11), the chain (25) is positioned between the first chain wheel (24) and the second chain wheel (27), and the motor (8) is positioned on the outer surface of the upper end of the first screw rod (6).

3. The BIM-based prefabricated building component management device of claim 2, wherein: first fixed block (19) are swing joint through between guiding hole (20) and guide bar (9), guide way (10), be threaded connection between second fixed block (22) through first thread groove (21) and first lead screw (6), be swing joint between second fixed block (22) and lift groove (7), place for swing joint between board (12) and slot (18), be transmission connection between first sprocket (24) through chain (25) and second sprocket (27), be sliding connection between collecting box (13) and spout (17), be sliding connection between spacing groove (15) and stopper (16).

4. The BIM-based prefabricated building component management device of claim 1, wherein: stop gear (5) are including T type threaded rod (28), second thread groove (29) and third thread groove (30), and are two sets of third thread groove (30) are seted up respectively and are placed the front end of board (12) middle part both sides, and are two sets of T type threaded rod (28) are seted up respectively and are placed the upper and lower both ends surface of slot (18), T type threaded rod (28) are located the middle part of second thread groove (29).

5. The BIM-based prefabricated building component management device of claim 4, wherein: the T-shaped threaded rod (28) is in threaded connection with the second thread groove (29) and the third thread groove (30).

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