CN215624998U - Automatic brick bottom plate recovery device - Google Patents

Abstract

The utility model discloses an automatic brick bottom plate recovery device, which belongs to the technical field of automatic control and comprises a supporting plate separating mechanism, a plate turning mechanism, a plate stacking structure and a plate discharging mechanism, wherein the supporting plate separating mechanism is arranged at the front end of the plate turning mechanism, the plate stacking structure is arranged at the rear end of the plate turning mechanism, and the plate discharging mechanism is arranged at the rear end of the plate stacking structure. According to the automatic pallet collecting device, the pallet is received by the pallet separating mechanism, then the pallet is turned in the turning mechanism, so that silt and the like on the pallet are cleaned, lifting is realized, then the pallet is uniformly pushed to the stacking structure for storage, the pallet is taken out by the plate discharging mechanism after a certain number of pallets are reached, and then the pallet is conveyed away by the forklift, so that the automatic pallet collecting process is realized, the automatic pallet collecting device is fully automatic, the efficiency is higher, and the labor is saved.

Description

Automatic brick bottom plate recovery device

Technical Field

The utility model relates to the technical field of automatic control, in particular to an automatic brick bottom plate recovery device.

Background

At present, along with the development of cities, people have greater requirements for houses, the building industry is developed rapidly and stably in China, building materials serving as basic supports of the building industry are correspondingly expanded, various building materials are applied to various occasions, bricks serve as the main bodies of most building buildings, the production of the bricks is also developed rapidly, and along with the modular development of the society and after the bricks are produced, the bricks need to be stacked and packaged for convenient arrangement and transportation management. After the bricks are grabbed, the recovery of the bottom plate of the low cushion brick is also a work with larger workload. The existing equipment needs to arrange a person to receive the bottom plate at the rear end, wastes time and labor, and meanwhile, the person cannot continuously work for a long time, so that the packing efficiency is influenced. Therefore, it is necessary to design an automatic brick bottom plate accommodating device which saves manpower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic brick bottom plate recovery device, which solves the technical problems in the background art, saves labor and improves brick packing efficiency.

Automatic recovery unit of fragment of brick bottom plate, including layer board separating mechanism, panel turnover mechanism, folded plate structure and play board mechanism, layer board separating mechanism sets up in the front end of panel turnover mechanism, and the folded plate structure sets up in panel turnover mechanism rear end, goes out the rear end that board mechanism set up at the folded plate structure.

Further, layer board separating mechanism includes layer board separation support frame, layer board separation chain, push pedal cylinder, push pedal frame and push pedal mount, and layer board separation chain sets up on layer board separation support frame, and the push pedal mount sets up on layer board separation support frame to the setting is in the top of layer board separation chain, and mobile setting of push pedal frame is on the push pedal mount, and the push pedal cylinder is fixed on the push pedal mount, and the other end is connected with the push pedal frame.

Furthermore, the plate turning mechanism comprises a plate turning support frame, a plate turning motor and a rotating frame, the plate turning motor and the rotating frame are arranged on the plate turning support frame, the plate turning motor is in meshed connection with the rotating frame through a gear, and the rotating frame is rotatably arranged.

Further, the revolving frame includes first fixed plate, turn over the board pivot, the second fixed plate, deposit the board groove, first fixed plate and second fixed plate set up in the both sides that turn over the board pivot, it sets up at first fixed plate and second fixed plate inboard to deposit the board groove, the quantity of depositing the board groove is two, divide into and deposit the board groove down, it all is one end setting to the blind end to deposit the board groove and deposit the board groove down, the other end sets up to the open end, it sets up conversely with the blind end and the open end direction of depositing the board groove down to deposit the board groove on, it sets up on same water flat line with layer board separation chain to deposit the board groove down.

Further, the lamination structure comprises a lamination support frame, a lamination lifting chain and a lamination lifting motor, the lamination frame is slidably arranged in the lamination support frame, the lamination lifting motor is arranged on the lamination support frame, the lamination lifting chain and the lamination lifting motor are arranged in a meshing mode through gears, and the lamination lifting chain is fixedly connected with the lamination frame.

Further, go out the board mechanism including going out the board chain and depositing the board structure, deposit the board structure and set up the end at a board chain, go out the bottom that board chain one end extended into the folded sheet support frame.

By adopting the technical scheme, the utility model has the following technical effects:

according to the automatic pallet collecting device, the pallet is received by the pallet separating mechanism, then the pallet is turned in the turning mechanism, so that silt and the like on the pallet are cleaned, lifting is realized, then the pallet is uniformly pushed to the stacking structure for storage, the pallet is taken out by the plate discharging mechanism after a certain number of pallets are reached, and then the pallet is conveyed away by the forklift, so that the automatic pallet collecting process is realized, the automatic pallet collecting device is fully automatic, the efficiency is higher, and the labor is saved.

Drawings

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

FIG. 2 is an enlarged view of the rotating frame of the present invention.

Reference numbers in the figures: 4.1-pallet separation mechanism; 4.11-pallet separation support; 4.12-pallet separation chain; 4.13-push plate cylinder; 4.14-push plate frame; 4.15-push plate fixing frame; 4.2-a plate turnover mechanism; 4.21-turning plate support frame; 4.22-flap motor; 4.23-rotating frame; 4.231-a first fastening plate; 4.232-flap rotating shaft; 4.233-a second fastening plate; 4.234-plate storage groove; 4.235-closed end; 4.236-open end; 4.24-pallet; 4.3-stacked plate structure; 4.31-stacked plate support frame; 4.32-stack frame; 4.33-stacking lifting chains; 4.34-stacking lifting motor; 4.4-a plate discharging mechanism; 4.41-plate-out chain; 4.42-plate storage structure.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, preferred embodiments are given and the present invention is described in further detail. It should be noted, however, that the numerous details set forth in the description are merely for the purpose of providing the reader with a thorough understanding of one or more aspects of the present invention, which may be practiced without these specific details.

An automatic brick bottom plate recovery device is shown in fig. 1 and comprises a supporting plate separating mechanism 4.1, a plate turning mechanism 4.2, a plate stacking mechanism 4.3 and a plate discharging mechanism 4.4, wherein the supporting plate separating mechanism 4.1 is arranged at the front end of the plate turning mechanism 4.2, the plate stacking mechanism 4.3 is arranged at the rear end of the plate turning mechanism 4.2, and the plate discharging mechanism 4.4 is arranged at the rear end of the plate stacking mechanism 4.3.

The supporting plate separating mechanism 4.1 receives the supporting plates transmitted by the external chain brick receiving machine and transmits the supporting plates into the plate turning mechanism 4.2, then the plate turning mechanism 4.2 turns over 180 degrees, the supporting plates turn over to the top and clean the sundries of the supporting plates, then the supporting plates are pushed onto the plate stacking structure 4.3 by the plate pushing frame 4.14 carried by the supporting plate separating mechanism 4.1, and then the supporting plates descend after the supporting plates on the plate stacking structure 4.3 reach a certain number and are carried out by the plate discharging mechanism 4.4. The plate stacking structure 4.3 descends a little when placing one plate, and automatic plate stacking is realized.

In the embodiment of the utility model, the supporting plate separating mechanism 4.1 comprises a supporting plate separating support frame 4.11, a supporting plate separating chain 4.12, a supporting plate cylinder 4.13, a supporting plate frame 4.14 and a supporting plate fixing frame 4.15, wherein the supporting plate separating chain 4.12 is arranged on the supporting plate separating support frame 4.11, the supporting plate fixing frame 4.15 is arranged on the supporting plate separating support frame 4.11 and is arranged above the supporting plate separating chain 4.12, the supporting plate frame 4.14 is movably arranged on the supporting plate fixing frame 4.15, the supporting plate cylinder 4.13 is fixed on the supporting plate fixing frame 4.15, and the other end of the supporting plate separating support frame is connected with the supporting plate frame 4.14. The supporting plate conveyed by the supporting plate separating chain 4.12 can be directly conveyed into the lower plate storage groove, and the pushing plate cylinder 4.13 acts to drive the pushing plate frame 4.14 to push the supporting plate 4.324 at the top of the plate forward to push the plate to the plate stacking structure 4.3.

In the embodiment of the utility model, as shown in fig. 2, the flap mechanism 4.2 comprises a flap support frame 4.21, a flap motor 4.22 and a rotating frame 4.23, the flap motor 4.22 and the rotating frame 4.23 are arranged on the flap support frame 4.21, the flap motor 4.22 is in meshed connection with the rotating frame 4.23 through a gear, and the rotating frame 4.23 is rotatably arranged. The rotating frame 4.23 comprises a first fixing plate 4.231, a turning plate rotating shaft 4.232, a second fixing plate 4.233, plate storage grooves 4.234, the first fixing plate 4.231 and the second fixing plate 4.233 are arranged on two sides of the turning plate rotating shaft 4.232, the plate storage grooves 4.234 are arranged on the inner sides of the first fixing plate 4.231 and the second fixing plate 4.233, the plate storage grooves 4.234 are two in number and are divided into an upper plate storage groove and a lower plate storage groove, one ends of the upper plate storage groove and the lower plate storage groove are respectively arranged to be a closed end 4.235, the other ends of the upper plate storage groove and the lower plate storage groove are respectively arranged to be an open end 4.236, the directions of the closed end 4.235 and the open end 4.236 of the upper plate storage groove and the lower plate storage groove are opposite, and the lower plate storage groove and the supporting plate separating chain 4.12 are arranged on the same horizontal line.

The front end of the upper plate storage groove is a closed end 4.235, the front end of the upper plate storage groove is an open end 4.236, the push plate pushes the plate into a plate stacking structure 4.3, the front end of the lower plate storage groove is an open end 4.236, the rear end of the lower plate storage groove is a closed end 4.235, the plate is directly conveyed up from a supporting plate separating chain 4.12 but does not fall out, and then when the lower plate storage groove rotates, the closed end 4.235 of the lower plate storage groove is below, and the supporting plate is placed and falls off.

In the embodiment of the utility model, the laminated plate structure 4.3 comprises a laminated plate support frame 4.31, a laminated plate frame 4.32, a laminated plate lifting chain 4.33 and a laminated plate lifting motor 4.34, wherein the laminated plate frame 4.32 is slidably arranged in the laminated plate support frame 4.31, the laminated plate lifting motor 4.34 is arranged on the laminated plate support frame 4.31, the laminated plate lifting chain 4.33 and the laminated plate lifting motor 4.34 are arranged in a meshing manner through gears, and the laminated plate lifting chain 4.33 is fixedly connected with the laminated plate frame 4.32. The height of the laminated plate frame 4.32 is a little lower than that of the upper plate storage groove, and when the plates are not pushed once or several times, the laminated plate frame 4.32 descends a little to realize the superposition of the plates. When a certain amount is reached, the plate stacking frame 4.32 descends to the plate discharging chain 4.41, and then the supporting plate is taken out by the plate discharging chain 4.41

In the embodiment of the present invention, the plate discharging mechanism 4.4 includes a plate discharging chain 4.41 and a plate storing structure 4.42, the plate storing structure 4.42 is disposed at the end of the plate discharging chain 4.41, and one end of the plate discharging chain 4.41 extends into the bottom of the plate stacking support frame 4.31. The plate storage structure 4.42 is used for storing the supporting plate, and a user can take away the supporting plate by using the fork truck.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention.

Claims (6)

1. Automatic recovery unit of fragment of brick bottom plate, its characterized in that: the plate turning mechanism comprises a supporting plate separating mechanism (4.1), a plate turning mechanism (4.2), a plate stacking structure (4.3) and a plate discharging mechanism (4.4), wherein the supporting plate separating mechanism (4.1) is arranged at the front end of the plate turning mechanism (4.2), the plate stacking structure (4.3) is arranged at the rear end of the plate turning mechanism (4.2), and the plate discharging mechanism (4.4) is arranged at the rear end of the plate stacking structure (4.3).

2. The automatic brick bottom plate recycling device according to claim 1, wherein: the support plate separating mechanism (4.1) comprises a support plate separating support frame (4.11), a support plate separating chain (4.12), a support plate cylinder (4.13), a support plate frame (4.14) and a support plate fixing frame (4.15), the support plate separating chain (4.12) is arranged on the support plate separating support frame (4.11), the support plate fixing frame (4.15) is arranged on the support plate separating support frame (4.11) and is arranged above the support plate separating chain (4.12), the support plate frame (4.14) is movably arranged on the support plate fixing frame (4.15), the support plate cylinder (4.13) is fixed on the support plate fixing frame (4.15), and the other end of the support plate separating mechanism is connected with the support plate frame (4.14).

3. The automatic brick bottom plate recycling device according to claim 2, wherein: the plate turning mechanism (4.2) comprises a plate turning support frame (4.21), a plate turning motor (4.22) and a rotating frame (4.23), the plate turning motor (4.22) and the rotating frame (4.23) are arranged on the plate turning support frame (4.21), the plate turning motor (4.22) is in meshed connection with the rotating frame (4.23) through a gear, and the rotating frame (4.23) is rotatably arranged.

4. The automatic brick bottom plate recycling device according to claim 3, wherein: the rotating frame (4.23) comprises a first fixing plate (4.231), a turning plate rotating shaft (4.232), a second fixing plate (4.233), a plate storage groove (4.234), the first fixing plate (4.231) and the second fixing plate (4.233) are arranged on two sides of the turning plate rotating shaft (4.232), the plate storage groove (4.234) is arranged on the inner sides of the first fixing plate (4.231) and the second fixing plate (4.233), the number of the plate storage groove (4.234) is two, the plate storage groove is divided into an upper plate storage groove and a lower plate storage groove, one end of each of the upper plate storage groove and the lower plate storage groove is set to be a closed end (4.235), the other end of each of the upper plate storage groove and the lower plate storage groove is set to be an open end (4.236), the directions of the closed end (4.235) and the open end (4.236) of the upper plate storage groove and the lower plate storage groove are opposite, and the lower plate storage groove and a supporting plate separation chain (4.12) are arranged on the same horizontal line.

5. The automatic brick bottom plate recycling device according to claim 4, wherein: the laminated plate structure (4.3) comprises a laminated plate support frame (4.31), a laminated plate frame (4.32), a laminated plate lifting chain (4.33) and a laminated plate lifting motor (4.34), wherein the laminated plate frame (4.32) is slidably arranged in the laminated plate support frame (4.31), the laminated plate lifting motor (4.34) is arranged on the laminated plate support frame (4.31), the laminated plate lifting chain (4.33) and the laminated plate lifting motor (4.34) are arranged in a gear meshing manner, and the laminated plate lifting chain (4.33) is fixedly connected with the laminated plate frame (4.32).

6. The automatic brick bottom plate recycling device according to claim 5, wherein: the plate discharging mechanism (4.4) comprises a plate discharging chain (4.41) and a plate storing structure (4.42), the plate storing structure (4.42) is arranged at the tail end of the plate discharging chain (4.41), and one end of the plate discharging chain (4.41) extends into the bottom of the laminated plate supporting frame (4.31).

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