CN114715551A - Batch storage rack for large basement light ribbed floor based on BIM technology - Google Patents

Abstract

The embodiment of the invention discloses a BIM (building information modeling) technology-based batch storage rack for a large basement light ribbed floor slab, which comprises a storage mechanism, wherein a transfer mechanism is arranged at the lower side of the storage mechanism, the storage mechanism comprises an outer storage frame, an inner separation rack and a ribbed floor slab body, the outer storage frame comprises an outer storage frame body and movable clamping blocks, and four corners of the lower side of the outer storage frame body are provided with positioning sleeves. According to the invention, one end of the L-shaped positioning rod can be fixed by abutting the group of positioning short rods against the inner sides of the group of positioning holes, the other end of the L-shaped positioning rod can play a supporting role through the positioning clamping groove, and at the moment, a worker can conveniently place ribbed floor bodies with common sizes, so that the worker can conveniently place ribbed floor bodies with different sizes according to conditions, the worker can conveniently carry out layer-by-layer overlapping by abutting the positioning sleeve against the first positioning clamping ring, and the field area is greatly saved.

Description

Batch storage rack for large basement light ribbed floor based on BIM technology

Technical Field

The embodiment of the invention relates to the technical field of constructional engineering, in particular to a batch storage rack for a large basement light ribbed floor based on a BIM technology.

Background

The prefabricated composite multi-ribbed floor comprises a prefabricated composite floor, rib beams, a filling box body and cast-in-place reinforced concrete parts, the total thickness is 270mm, the prefabricated composite slab is 60mm thick and is prefabricated in a prefabricated component factory, the rib beams are reserved on the upper portion of the composite slab and are arranged in a # -shape, the width of each rib beam after being thrown out of a stirrup is 120mm, the height of each rib beam is 195mm, and the concrete of the rib beam parts is poured after being installed on site.

The existing laminated ribbed floor slab can only be stored one by one in a prefabricated part factory, and can not be stored in an overlapped mode with the traditional prefabricated laminated slab, so that a large number of storage sites are needed in the prefabricated part factory. Accordingly, those skilled in the art have provided a mass storage rack for a large basement light ribbed floor based on BIM technology to solve the problems set forth in the background art described above.

Disclosure of Invention

Therefore, the embodiment of the invention provides a batch storage rack for a large basement light ribbed floor based on the BIM technology, and aims to solve the problem that a large number of storage places are needed due to the fact that overlapped ribbed floors cannot be stored in an overlapped mode in the prior art.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

according to the first aspect of the embodiment of the invention, the batch storage rack of the large basement light ribbed floor based on the BIM technology comprises a storage mechanism, wherein a transfer mechanism is arranged at the lower side of the storage mechanism, the storage mechanism comprises an outer storage frame, an inner partition rack and a ribbed floor body, the outer storage frame comprises an outer storage frame body and movable clamping blocks, positioning sleeves are arranged at four corners of the lower side of the outer storage frame body, first positioning clamping rings are arranged at four corners of the upper side of the outer storage frame body, positioning clamping grooves are arranged at the upper ends of two sides of the outer storage frame body, the front side and the rear side of the outer storage frame body are respectively provided with a positioning clamping groove, one side of each movable clamping block is provided with a guide rod, a poking clamping block is arranged at the rear side of each movable clamping block, a spring is arranged at the outer side of each guide rod, the inner partition rack comprises an inner partition rack body and a plurality of L-shaped positioning rods, the connecting clamp rings are arranged at the front end and the rear end of the inner partition frame body, the connecting rods are arranged on the two sides of the inner partition frame body, a set of positioning holes are formed in the two sides of the inner partition frame body, located on the front side and the rear side of the connecting rods, and a set of positioning short rods is arranged on one side of the L-shaped positioning rod.

Further, store frame body and first positioning snap ring fixed connection, store frame body and abutment sleeve fixed connection, positioning slot and interior separation frame phase-match, first positioning snap ring and abutment sleeve phase-match.

Furthermore, the movable clamping block is fixedly connected with the guide rod, the movable clamping block is fixedly connected with the poking clamping block, the guide rod is matched with the spring, and the movable clamping block is embedded in the inner side of the positioning clamping groove in a clamping mode.

Furthermore, the inner separation frame body is fixedly connected with the connecting clamp ring, and the inner separation frame body is fixedly connected with the connecting rod.

Furthermore, the L-shaped positioning rod is fixedly connected with the positioning short rod, and the positioning short rod is matched with the positioning hole.

Furthermore, the tail end of the connecting rod penetrates through the screw rod and then is fixed on the inner side of the positioning clamping groove, the connecting clamping ring is matched with the positioning clamping groove, and the connecting clamping ring is matched with the movable clamping block.

Further, transport mechanism includes transfer platform, connecting plate and screw ring, the downside of transfer platform is provided with a plurality of universal wheel, the upside of transfer platform is provided with a plurality of second location snap ring, one side of transfer platform is provided with a set of positioning screw, the upside of connecting plate is provided with a set of pole of holding up.

Further, transfer platform and a plurality of universal wheel fixed connection, transfer platform and a set of positioning screw fixed connection.

Furthermore, the transfer platform is fixedly connected with a plurality of second positioning clamping rings, and the second positioning clamping rings are matched with the positioning sleeves.

Furthermore, the connecting plate is fixedly connected with the holding rod, the threaded ring is rotatably connected with the positioning screw rod, and the connecting plate is slidably connected with the positioning screw rod.

The embodiment of the invention has the following advantages:

1. the movable clamping block drives the movable clamping block to move by moving the toggle clamping block, the guide rod is driven to move by moving the movable clamping block, the spring is compressed by moving the movable clamping block, the connecting clamping ring is clamped and embedded in the inner side of the positioning clamping groove, the movable clamping block is pushed by loosening the toggle clamping block to move by pushing the spring, the movable clamping block moves to enable the connecting clamping ring to be abutted against the edge of the positioning clamping groove, the position of the connecting clamping ring can be limited by using a screw to penetrate through the storage outer frame body and the movable clamping block, the guide rod can play a role of guiding by moving, the inner separation frame body is fixed after the connecting clamping ring is fixed, the connecting rod is fixed in the positioning clamping groove by using the screw to penetrate through the tail end of the connecting rod, so that the further fixing effect is achieved, at the moment, a worker can conveniently place a larger ribbed floor body under the condition that the contact area of the ribbed floor body is reduced, and abut against the inner side of a group of positioning holes through a group of positioning short rods, can make the one end of L type locating lever fixed, the other end of L type locating lever can play the supporting role through positioning channel section, the staff can be convenient place the close rib floor body of ordinary size this moment to can make things convenient for the staff to place the close rib floor body of equidimension not according to the circumstances, support through the location sleeve and can make things convenient for the staff to carry out layer upon layer coincide on first location snap ring, saved area in the place greatly.

2. Can play the supporting role through the transfer table, can make things convenient for the staff to remove the position of transfer table through a plurality of universal wheel, when needs remove, inlay the connecting plate slip on a set of positioning screw, use the screw ring to revolve and can carry on spacingly to the connecting plate on a set of positioning screw to make that the staff can be convenient drive the transfer table through promoting a set of pole of holding up and remove, can dismantle the connecting plate when not needing to remove, avoid connecting plate occupation space.

Drawings

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

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic structural view of a batch storage rack for a large basement light ribbed floor slab based on BIM technology provided by the invention;

fig. 2 is an exploded structural schematic view of a batch storage rack of a large basement light ribbed floor slab based on the BIM technology provided by the invention;

FIG. 3 is a schematic structural view of a batch storage rack of a large basement light ribbed floor slab based on BIM technology provided by the invention;

FIG. 4 is a schematic structural view of a storage outer frame of the batch storage rack of the large basement light ribbed floor based on the BIM technology;

FIG. 5 is a schematic structural view of an internal separation rack of a batch storage rack of a large basement light ribbed floor slab based on BIM technology provided by the invention;

fig. 6 is a schematic structural view of a transfer mechanism of a batch storage rack of a large basement light ribbed floor based on the BIM technology provided by the invention.

In the figure: 1. a storage mechanism; 11. storing the outer frame; 111. storing the outer frame body; 1111. positioning the clamping groove; 1112. a first positioning snap ring; 1113. a positioning sleeve; 1114. positioning the clamping groove; 112. a movable clamping block; 1121. a guide bar; 1122. shifting the fixture block; 1123. a spring; 12. an inner partition shelf; 121. an inner partition frame body; 1211. connecting a snap ring; 1212. a connecting rod; 1213. positioning holes; 122. an L-shaped positioning rod; 1221. positioning the short rod; 13. a ribbed floor slab body; 2. a transfer mechanism; 21. a transfer table; 211. a universal wheel; 212. positioning a screw rod; 213. a second positioning snap ring; 22. a connecting plate; 221. a support rod; 23. a threaded ring.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, in the embodiment of the present invention, a batch storage rack for a large basement light ribbed floor based on a BIM technology includes a storage mechanism 1, and a transfer mechanism 2 is disposed at a lower side of the storage mechanism 1. The storage mechanism 1 includes a storage outer frame 11, an inner shelf 12, and a ribbed floor body 13.

Store frame 11 including storing frame body 111 and activity fixture block 112, the downside four corners that stores frame body 111 all is provided with abutment sleeve 1113, and the upside four corners that stores frame body 111 all is provided with first locating snap ring 1112, stores positioning slot 1111 has all been seted up to the upper end of frame body 111 both sides, stores frame body 111 around both sides all seted up positioning slot 1114. A guide rod 1121 is disposed on one side of the movable latch 112, a toggle latch 1122 is disposed on the rear side of the movable latch 112, and a spring 1123 is disposed on the outer side of the guide rod 1121.

The inner spacer 12 includes an inner spacer body 121 and a plurality of L-shaped positioning rods 122, the front and rear ends of the inner spacer body 121 are provided with connection snap rings 1211, the two sides of the inner spacer body 121 are provided with connecting rods 1212, and the two sides of the inner spacer body 121 located on the front and rear sides of the connecting rods 1212 are provided with a set of positioning holes 1213. One side of the L-shaped positioning rod 122 is provided with a set of positioning short rods 1221.

The movable toggle clamping block 1122 is moved to enable the toggle clamping block 1122 to drive the movable clamping block 112 to move, the movable clamping block 112 is moved to drive the guide rod 1121 to move, meanwhile, the movable clamping block 112 is moved to drive the spring 1123 to be compressed, the connecting clamping ring 1211 is clamped and embedded in the inner side of the positioning clamping groove 1114, the toggle clamping block 1122 is loosened to enable the spring 1123 to drive the movable clamping block 112 to move, the movable clamping block 112 is moved to enable the connecting clamping ring 1211 to abut against the edge of the positioning clamping groove 1114, the screw penetrates through the storage frame body 111 and the movable clamping block 112 to enable the position of the connecting clamping ring 1211 to be limited, and the guide rod 1121 can move to play a guiding role.

When the connection snap ring 1211 is fixed, the inner frame body 121 is fixed, the screw penetrates the end of the connection rod 1212 to fix the connection rod 1212 in the positioning snap groove 1111, thereby achieving the further fixing effect, at the moment, under the condition that the contact area of the multi-ribbed floor body 13 is reduced, a worker can conveniently place the larger multi-ribbed floor body 13 and abut against the inner sides of the group of positioning holes 1213 through the group of positioning short rods 1221, one end of the L-shaped positioning rod 122 can be fixed, the other end of the L-shaped positioning rod 122 can play a supporting role through the positioning clamping groove 1111, and at the moment, a worker can conveniently place the ribbed floor slab body 13 with common size, therefore, the ribbed floor bodies 13 with different sizes can be placed by workers according to conditions, the positioning sleeves 1113 abut against the first positioning snap rings 1112, the workers can conveniently overlap layer by layer, and the field area is greatly saved.

Preferably, the storage outer frame body 111 is fixedly connected with the first positioning snap ring 1112, the storage outer frame body 111 is fixedly connected with the positioning sleeve 1113, the positioning snap ring 1111 is matched with the inner separation frame 12, the first positioning snap ring 1112 is matched with the positioning sleeve 1113, the first positioning clasp 1112 is fixed on the upper side of the storage outer frame body 111 by the fixed connection between the storage outer frame body 111 and the first positioning clasp 1112, the first positioning clasp 1112 can play a role of separating up and down, by fixedly coupling the storage outer frame body 111 and the positioning sleeve 1113 so that the positioning sleeve 1113 is fixed to the lower side of the storage outer frame body 111, the positioning sleeve 1113 can perform a partitioning function, the inner separation frame 12 can be embedded in the positioning slot 1111 by matching the positioning slot 1111 with the inner separation frame 12, the first positioning snap ring 1112 and the positioning sleeve 1113 are matched, so that the positioning sleeve 1113 can be snapped on the upper side of the first positioning snap ring 1112.

Preferably, the movable clamping block 112 is fixedly connected with the guide rod 1121, the movable clamping block 112 is fixedly connected with the toggle clamping block 1122, the guide rod 1121 is matched with the spring 1123, the movable clamping block 112 is clamped and embedded in the inner side of the positioning clamping groove 1114, the guide rod 1121 can guide the movable clamping block 112 through the fixed connection of the movable clamping block 112 and the guide rod 1121, a worker can drive the movable clamping block 112 to move through toggling the clamping block 1122 through the fixed connection of the movable clamping block 112 and the toggle clamping block 1122, the spring 1123 can be compressed on the outer side of the guide rod 1121 through the matching of the guide rod 1121 and the spring 1123, the movable clamping block 112 can slide on the inner side of the positioning clamping groove 1114 through the clamping and embedding of the movable clamping block 112 in the inner side of the positioning clamping groove 1114, and the connection clamping ring 1211 is fixed.

Preferably, the inner spacer body 121 is fixedly connected to the connection ring 1211, the inner spacer body 121 is fixedly connected to the connection rod 1212, the inner spacer body 121 is fixed to the connection ring 1211 through the inner spacer body 121, and the inner spacer body 121 is fixed to the connection ring 1212 through the connection ring 1211 through the inner spacer body 121.

Preferably, L type locating lever 122 and location quarter butt 1221 fixed connection, location quarter butt 1221 and locating hole 1213 phase-match, make location quarter butt 1221 fixed on L type locating lever 122 through L type locating lever 122 and location quarter butt 1221 fixed connection, thereby make location quarter butt 1221 can fix L type locating lever 122, make location quarter butt 1221 can imbed the inboard of locating hole 1213 and play the fixed action through location quarter butt 1221 and locating hole 1213 phase-match.

Preferably, the tail end of the connecting rod 1212 is fixed to the inner side of the positioning slot 1111 after penetrating through the screw rod, the connecting snap ring 1211 is matched with the positioning slot 1114, the connecting snap ring 1211 is matched with the movable clamping block 112, the tail end of the connecting rod 1212 is fixed to the inner side of the positioning slot 1111 after penetrating through the screw rod, so that the tail end of the connecting rod 1212 can be fixed to the positioning slot 1111, the connecting snap ring 1211 is matched with the positioning slot 1114, so that the connecting snap ring 1211 can be clamped into the positioning slot 1114, and the connecting snap ring 1211 is matched with the movable clamping block 112, so that the connecting snap ring 1211 can be limited by the movable clamping block 112.

Preferably, the transfer mechanism 2 comprises a transfer table 21, a connecting plate 22 and a threaded ring 23, a plurality of universal wheels 211 are arranged on the lower side of the transfer table 21, a plurality of second positioning snap rings 213 are arranged on the upper side of the transfer table 21, a group of positioning screws 212 are arranged on one side of the transfer table 21, a group of holding rods 221 are arranged on the upper side of the connecting plate 22, the transfer table 21 can play a supporting role, the position of the transfer table 21 can be conveniently moved by a worker through the plurality of universal wheels 211, when the movement is needed, the connecting plate 22 is slidably embedded on the set of positioning screws 212, the connecting plate 22 can be limited by screwing the threaded ring 23 on the set of positioning screws 212, so that the worker can conveniently drive the transfer platform 21 to move by pushing the group of handrails 221, when the connecting plate 22 does not need to be moved, the connecting plate 22 can be disassembled, and the occupied space of the connecting plate 22 is avoided.

Preferably, transfer table 21 and a plurality of universal wheel 211 fixed connection, transfer table 21 and a set of positioning screw 212 fixed connection make a plurality of universal wheel 211 fixed in the downside of transfer table 21 through transfer table 21 and a plurality of universal wheel 211 fixed connection to make the position that the staff can be convenient remove transfer table 21 through a plurality of universal wheel 211, make the staff can be through a set of positioning screw 212 with connecting plate 22 and transfer table 21 interconnect through transfer table 21 and a set of positioning screw 212 fixed connection.

Preferably, transfer platform 21 and a plurality of second location snap ring 213 fixed connection, second location snap ring 213 and location sleeve 1113 phase-match, make a plurality of second location snap ring 213 fixed connection fix the upside at transfer platform 21 through transfer platform 21 and a plurality of second location snap ring 213 fixed connection, a plurality of second location snap ring 213 can carry on spacingly to location sleeve 1113, make location sleeve 1113 can inlay the upside at second location snap ring 213 through second location snap ring 213 and location sleeve 1113 phase-match, thereby play the fixed action.

Preferably, the connecting plate 22 is fixedly connected with the holding rod 221, the threaded ring 23 is rotatably connected with the positioning screw 212, the connecting plate 22 is slidably connected with the positioning screw 212, the holding rod 221 can be fixed on the connecting plate 22 through the fixed connection of the connecting plate 22 and the holding rod 221, so that a worker can drive the connecting plate 22 to move through the holding rod 221, the connecting plate 22 can be rotatably embedded on the positioning screw 212 through the rotatable connection of the threaded ring 23 and the positioning screw 212, so that the connecting plate 22 is limited on the positioning screw 212, and the connecting plate 22 can be slidably embedded on the positioning screw 212 through the sliding connection of the connecting plate 22 and the positioning screw 212, so that the worker can limit the connecting plate 22 through the threaded ring 23.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The batch storage rack for the large basement light ribbed floor based on the BIM technology comprises a storage mechanism (1) and is characterized in that a transfer mechanism (2) is arranged on the lower side of the storage mechanism (1), the storage mechanism (1) comprises a storage outer frame (11), an inner partition frame (12) and a ribbed floor body (13), the storage outer frame (11) comprises a storage outer frame body (111) and movable clamping blocks (112), positioning sleeves (1113) are arranged at four corners of the lower side of the storage outer frame body (111), first positioning clamping rings (1112) are arranged at four corners of the upper side of the storage outer frame body (111), positioning clamping grooves (1111) are arranged at the upper ends of two sides of the storage outer frame body (111), positioning clamping grooves (1114) are arranged at the front side and the rear side of the storage outer frame body (111), a guide rod (1121) is arranged at one side of the movable clamping blocks (112), the rear side of the movable clamping block (112) is provided with a shifting clamping block (1122), a spring (1123) is arranged on the outer side of the guide rod (1121), the inner partition frame (12) comprises an inner partition frame body (121) and a plurality of L-shaped positioning rods (122), the front end and the rear end of the inner partition frame body (121) are respectively provided with a connecting clamping ring (1211), the two sides of the inner partition frame body (121) are respectively provided with a connecting rod (1212), the front side and the rear side of the connecting rod (1212) on the two sides of the inner partition frame body (121) are respectively provided with a group of positioning holes (1213), and one side of each L-shaped positioning rod (122) is provided with a group of positioning short rods (1221).

2. The BIM-technology-based bulk storage rack for the large basement light ribbed floor slab, according to claim 1, wherein the storage outer frame body (111) is fixedly connected with a first positioning snap ring (1112), the storage outer frame body (111) is fixedly connected with a positioning sleeve (1113), the positioning snap ring (1111) is matched with the inner separation rack (12), and the first positioning snap ring (1112) is matched with the positioning sleeve (1113).

3. The batch storage rack of the BIM technology-based large basement light ribbed floor slab as claimed in claim 1, wherein the movable fixture block (112) is fixedly connected with the guide rod (1121), the movable fixture block (112) is fixedly connected with the toggle fixture block (1122), the guide rod (1121) is matched with the spring (1123), and the movable fixture block (112) is clamped and embedded inside the positioning clamping groove (1114).

4. The mass storage shelf of large basement light ribbed floor slab based on BIM technology as claimed in claim 1, wherein the inner partition shelf body (121) is fixedly connected with the connection snap ring (1211), and the inner partition shelf body (121) is fixedly connected with the connection rod (1212).

5. The BIM-technology-based bulk storage rack for large basement light ribbed floors as claimed in claim 1, wherein the L-shaped positioning rod (122) is fixedly connected with a positioning short rod (1221), and the positioning short rod (1221) is matched with the positioning hole (1213).

6. The mass storage shelf for the light ribbed floor slab of the large basement based on the BIM technology as claimed in claim 1, wherein the end of the connecting rod (1212) is fixed to the inner side of the positioning slot (1111) after passing through by a screw, the connecting clip ring (1211) is matched with the positioning slot (1114), and the connecting clip ring (1211) is matched with the movable clip block (112).

7. The BIM (building information modeling) -based bulk storage rack for the large basement light ribbed floor slab, according to claim 1, wherein the transfer mechanism (2) comprises a transfer platform (21), a connecting plate (22) and a threaded ring (23), a plurality of universal wheels (211) are arranged on the lower side of the transfer platform (21), a plurality of second positioning snap rings (213) are arranged on the upper side of the transfer platform (21), a group of positioning screws (212) are arranged on one side of the transfer platform (21), and a group of support rods (221) are arranged on the upper side of the connecting plate (22).

8. The BIM technology-based large-scale basement light ribbed floor bulk storage rack according to claim 7, characterized in that the transfer platform (21) is fixedly connected with a plurality of universal wheels (211), and the transfer platform (21) is fixedly connected with a set of positioning screws (212).

9. The BIM-technology-based large basement light ribbed floor bulk storage rack of claim 7, wherein the transfer platform (21) is fixedly connected with a plurality of second positioning snap rings (213), and the second positioning snap rings (213) are matched with the positioning sleeves (1113).

10. The BIM technology-based large-scale basement light ribbed floor bulk storage rack of claim 7, wherein the connecting plate (22) and the support rod (221) are fixedly connected, the threaded ring (23) and the positioning screw (212) are rotatably connected, and the connecting plate (22) and the positioning screw (212) are slidably connected.

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