CN220697736U - Efficient dust removal automation device acting on food tray - Google Patents

Abstract

The utility model discloses a high-efficiency dust-removing automation device acting on a food tray, which relates to the technical field of dust-removing devices and comprises a rack, a stacking jig for placing stacked products, a conveying assembly for conveying the stacking jig and a dust-removing assembly for dust-removing the products.

Description

Efficient dust removal automation device acting on food tray

Technical Field

The utility model relates to the technical field of dust removal devices, in particular to a high-efficiency dust removal automation device acting on a food tray.

Background

The plastic sucking tray is made of plastic with plastic hard sheets made into specific grooves by adopting a plastic sucking process, and the products are placed in the grooves to protect and beautify the products;

according to the utility model, the plastic sucking tray disclosed in the Chinese patent with the application number of CN201521073123.4 leaves processing waste on the body and in the groove and dust and other impurities after the manufacturing is finished, and the common practice for removing the impurities is that a worker holds an air gun by hand to blow the whole tray back and forth to blow away the impurities and the dust; in the course of the work, the impurity and the dust of blowing away all distribute in the air, easily cause air pollution, and dust impurity and the noise that produces in the course of the work simultaneously also can cause the injury to operating personnel's physical and mental health. Therefore, devices with air-draft dust removal appear on the market, but such devices require two people to operate simultaneously, one person puts the plastic tray on the conveyor belt at the feed inlet, the plastic tray enters the dust removal through the conveyor belt, and then one person has to put the products in order and stack one side, which is not automatic enough and wastes labor cost.

In summary, in the prior art, the dust collection process of the plastic suction tray is not automated enough, and the labor cost is too high and the working efficiency is low, so the utility model provides an automatic dust collection device for improving the working efficiency and reducing the labor cost to solve the problems.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a technical scheme capable of solving the problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the high-efficiency dust-removing automatic device for the food tray comprises a frame, a stacking jig for placing the stacked products, a conveying component arranged on the frame and used for conveying the stacking jig, and a dust-removing component arranged on the frame and used for removing dust from the products;

the dust removing assembly comprises a nozzle, a lifting module for controlling the nozzle to vertically lift and a transverse module for controlling the lifting module to transversely move;

the two sides of the conveying assembly are provided with movable limiting rods and fixed limiting rods for limiting products;

the movable limiting rod is connected with an air cylinder for controlling the movable limiting rod to push and retract;

the stacked products comprise a relaxed state with larger gaps between adjacent products and a close state with smaller gaps between the adjacent products on the stacking jig.

As a further scheme of the utility model: the dust collection assembly also comprises a dust collection disc which is matched with the nozzle in an alignment manner;

a working area is formed between the nozzle and the dust collection disc, and the conveying assembly enables the stacking jig to sequentially pass through the working area.

As a further scheme of the utility model: the movable limiting rod comprises a movable push rod directly connected with the air cylinder and fixed rods respectively arranged near two ends of the movable push rod;

the fixed rod is fixedly arranged on the frame, and the movable push rod is arranged in alignment with the working area.

As a further scheme of the utility model: the conveying assembly comprises a driving belt symmetrically arranged at two ends of the stacking jig and a motor for controlling the driving belt to rotate;

the two ends of the stacking jig are respectively provided with a jig mounting hole, the conveyor belt is provided with a conveying mounting hole which is matched with the jig mounting holes in an alignment manner, and the jig mounting holes are matched with the conveying mounting holes in an alignment manner to fix the stacking jig on the conveyor belt and enable the stacking jig to move along with the conveyor belt;

the conveying installation holes are formed in a plurality of positions along the length direction of the conveying belt;

the stacking jig comprises a bottom supporting piece and side limiting pieces symmetrically arranged on two sides of the bottom supporting piece;

the jig mounting holes are respectively formed in the two ends of the bottom supporting piece and the two ends of the side limiting piece.

As a further scheme of the utility model: a linkage piece is arranged between the nozzle and the lifting module, and a plurality of nozzles are arranged along the length direction of the linkage piece;

the linkage piece is arranged in parallel with the movable push rod.

As a further scheme of the utility model: the rear end conveying assembly is connected with the conveying assembly;

the stacking jig is provided with a plurality of conveying belts;

the rear end conveying assembly comprises a conveying frame and a receiving jig, the conveying frame is arranged in parallel with the conveying belt, and the receiving jig is arranged on the conveying frame and is provided with a plurality of receiving jigs;

the front end of the rear end conveying assembly is in alignment fit with the rear end of the conveying assembly, and a connection plate is arranged between the front end of the rear end conveying assembly and the rear end of the conveying assembly;

the two ends of the connection plate are respectively aligned with a stacking jig close to the rear end of the conveyor belt and a receiving jig close to the front end of the rear end conveying assembly;

the connection assembly comprises a pushing piece for enabling the products on the stacking jig to move into the receiving jig and a translation module for controlling the pushing piece to move.

Compared with the prior art, the utility model has the following beneficial effects: the movable limiting rod is moved to a direction away from the stacking jig through the air cylinder, so that stacked products are in a relaxed state, gaps among the products are enlarged, air flow is output to the gaps among the products through the nozzles, meanwhile, the distance between the nozzles and the products is adjusted through the lifting module, and the air flow can be output to the gaps among the products through the transverse module.

Drawings

FIG. 1 is a perspective view of the structure of the present utility model;

FIG. 2 is a perspective view of the internal structure of the present utility model;

FIG. 3 is a perspective view of another internal structure of the present utility model;

FIG. 4 is a schematic view of a part of the structure of the dust removing assembly and the conveying assembly according to the present utility model;

FIG. 5 is a schematic view of the structure of the dust removing assembly and the conveying assembly in the utility model;

FIG. 6 is a schematic perspective view of a dust collection assembly and a dust collection box according to the present utility model;

FIG. 7 is a schematic diagram of a product and stacking tool according to the present utility model;

FIG. 8 is a partial view at A in FIG. 7;

reference numerals and names in the drawings are as follows:

product-0;

a frame-1;

the device comprises a stacking jig-2, a supporting piece-21, a side limiting piece-22 and a jig mounting hole-23;

a transfer assembly-4;

a movable limiting rod-41, a movable push rod-411, a fixed rod-412 and an air cylinder-413;

fixing a limit rod-42;

a conveyor belt-43 conveying the mounting hole-431;

a motor-44;

a dust removal component-5;

nozzle-51, lifting module-512, transverse module-513;

a linkage member-52;

a dust collection tray-53;

a work area-54;

the rear end conveying assembly-6, the conveying frame-61 and the receiving jig-62;

the assembly-7, the board-71, the pushing piece-72, the translation module-73.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-8, an efficient dust-removing automation device acting on a food tray includes a frame 1, a stacking jig 2 for placing stacked products 0, a conveying assembly 4 disposed on the frame 1 for transporting the stacking jig 2, and a dust-removing assembly 5 disposed on the frame 1 for dust-removing the products 0;

the dust removing assembly 5 comprises a nozzle 51, a lifting module 512 for controlling the nozzle 51 to vertically lift, and a transverse module 513 for controlling the lifting module 512 to transversely move;

the two sides of the conveying assembly 4 are provided with a movable limiting rod 41 and a fixed limiting rod 42 for limiting the product 0;

the movable limiting rod 41 is connected with an air cylinder 413 for controlling the movable limiting rod 41 to push and retract;

the stacked products 0 include a relaxed state in which the gaps between the adjacent products 0 are large and a close state in which the gaps between the adjacent products 0 are small on the stacking jig 2.

In the implementation process, the products 0 are orderly stacked on the stacking jig 2, the conveying assembly 4 conveys the stacking jig 2, the stacking jig 2 passes through the dust removing assembly 5, when the stacking jig 2 passes through the dust removing assembly 5, the dust removing assembly 5 removes dust from the stacked products 0, in the process of working the dust removing assembly 5, the air cylinder 413 moves the movable limiting rod 41 away from the stacking jig 2, the stacked products 0 are in a relaxed state, at the moment, the gap between the products 0 is enlarged, meanwhile, the nozzles 51 in the dust removing assembly 5 align with the positions between adjacent products 0, namely, the air holes of the nozzles 51 are aligned with the gaps between the two products 0, the lifting module 512 controls the distance between the nozzles 51 and the products 0, the transverse module 513 controls the nozzles 51 to reciprocate along the length direction of the transverse module 513, so that air flow can enter the gaps between the products 0 better, the air flow enters the gaps between the products 0 and passes through the gaps between the adjacent products 0, in the process, the air flow can blow dust, foreign matters and the like on the products 0, so that the products 0 can be subjected to dust removal, after the dust removal is finished, the movable limiting rod 41 pushes the products 0 to reduce the gaps between the products 0, namely reset, in the process, the gaps between the products 0 are enlarged by leading the stacked products 0 to enter a relaxed state, the air flow is output to the gaps between the products 0 through the nozzles 51, meanwhile, the distance between the nozzles 51 and the products 0 is adjusted through the lifting module 512, the air flow is output to the gaps between the products 0 through the transverse module 513, the products 0 can be prevented from being excessively small in the relaxed state, so that dust removal is not thorough, the utility model uses the cooperation of all parts, does not need manual intervention for dust removal, greatly reduces the manufacturing cost, improves the production efficiency, shortens the manufacturing period and can well ensure the dust removal effect.

In one embodiment of the present utility model, the transverse module 513 is controlled to drive the nozzle 51 to reciprocate transversely, so as to wash the gap between the products 0 for multiple times, thereby further ensuring the dust removal effect.

In the embodiment of the present utility model, the dust removing assembly 5 further includes a dust collecting tray 53 aligned and matched with the nozzle 51;

a working area 54 is formed between the nozzle 51 and the dust collection disc 53, and the conveying assembly 4 enables the stacking jig 2 to sequentially pass through the working area 54.

When the nozzle 51 performs dust removal on the product 0, the dust collection tray 53 performs air suction, so that negative pressure is formed between the dust collection tray 53 and the product 0, dust blown out by the nozzle 51 is sucked by the dust collection tray 53, and foreign matters such as dust are collected, so that pollution to the product 0 after dust removal caused by dust splashing is avoided.

In the embodiment of the present utility model, the movable limiting rod 41 includes a movable push rod 411 directly connected to the air cylinder 413, and fixed rods 412 respectively disposed near two ends of the movable push rod 411;

the fixed rod 412 is fixedly arranged on the frame 1, and the movable push rod 411 is aligned with the working area 54.

When the utility model continuously runs, the stacked products 0 are always in a close-fitting state on the stacked products 2 in the conveying process of the stacking jig 2, when the stacking jig 2 reaches the working area 54, the air cylinder 413 controls the movable push rod 411 to retract, so that the gap between the products 0 and the movable push rod 411 is enlarged, then air flow is output to the gap between adjacent products 0 through the nozzle 51, at the moment, the gap between the adjacent products 0 is enlarged, after the dust removal work of the products 0 is finished, the air cylinder 413 controls the movable push rod 411 to push the gap between the adjacent products 0 to be reduced, the next work is carried out after the close-fitting state is restored, and the movable limit rod 41 is divided into three parts, so that only the products 0 of the working area 54 can be guaranteed to enter the loose-fitting state, other products 0 except the products 0 in the working area 54 can be guaranteed to always go out of the close-fitting state, the wrong arrangement of the products 0 caused by entering the loose-fitting state in the conveying process is avoided, and the stability of the utility model is further improved.

In the embodiment of the present utility model, the conveying assembly 4 includes a driving belt symmetrically disposed at two ends of the stacking fixture 2 and a motor 44 for controlling the rotation of the driving belt 43;

the two ends of the stacking jig 2 are respectively provided with a jig mounting hole 23, the conveying belt 43 is provided with a conveying mounting hole 431 in alignment fit with the jig mounting holes 23, and the jig mounting holes 23 are in alignment fit with the conveying mounting holes 431 to fix the stacking jig 2 on the conveying belt 43 and enable the stacking jig 2 to move along with the conveying belt 43;

the conveying installation holes 431 are arranged along the length direction of the conveying belt 43;

the stacking fixture 2 comprises a bottom supporting member 21 and side limiting members 22 symmetrically arranged on two sides of the bottom supporting member 21;

the jig mounting holes 23 are respectively formed at two ends of the bottom supporting member 21 and the side limiting member 22.

In the working process of the utility model, the motor 44 drives the conveyor belt 43 to run, wherein the jig mounting hole 23 is matched with the conveyor mounting hole 431 in an alignment way, and then the stacking jig 2 is fixedly matched with the conveyor belt 43 through a fixing piece, so that the stacking jig 2 moves along with the conveyor belt 43, and the fixing piece can be screw-connected and matched with a screw;

and the conveying installation holes 431 are formed along the length direction of the conveying belt 43, so that in the implementation process, the distance between the side limiting pieces 22 symmetrically arranged on two sides of the supporting piece 21 can be controlled to be compatible with products 0 with different sizes, the compatibility of the utility model is further improved, and the processing of products 0 with different sizes can be realized.

In the embodiment of the present utility model, a linkage member 52 is disposed between the nozzle 51 and the lifting module 512, and a plurality of nozzles 51 are disposed along the length direction of the linkage member 52;

the linkage 52 is disposed parallel to the movable push rod 411.

The plurality of nozzles 51 can perform the multi-point output air flow to the gap of the product 0, and can further improve the dust removal efficiency and further ensure the dust removal efficiency.

The embodiment of the utility model also comprises a rear end transportation assembly 6 and a connection assembly 7 for connecting the rear end transportation assembly 6 with the transmission assembly 4;

the stacking jig 2 is provided with a plurality of conveying belts 43;

the rear end transporting assembly 6 comprises a transporting frame 61 arranged in parallel with the conveyor belt 43 and a receiving jig 62 arranged on the transporting frame 61, wherein a plurality of receiving jigs 62 are arranged on the transporting frame 61;

the front end of the rear end conveying assembly 6 is in alignment fit with the rear end of the conveying assembly 4, and a connection plate 71 is arranged between the front end and the rear end;

the two ends of the connection plate 71 are respectively aligned with the stacking jig 2 near the rear end of the conveyor belt 43 and the receiving jig 62 near the front end of the rear end conveying assembly 6;

the docking assembly 7 includes a pushing member 72 for moving the product 0 on the stacking jig 2 into the receiving jig 62, and a translation module 73 for controlling the pushing member 72 to move.

After the dust removal of the product 0 is completed, the product 0 needs to be transported to be processed in the next step, wherein the product 0 is transported through the rear end transportation assembly 6, in the process, the product 0 needs to be moved from the stacking jig 2 to the receiving jig 62, then the receiving jig 62 is transported through the transportation frame 61 to be processed in the next step, in the process, the product 0 is moved from the stacking jig 2 to the receiving jig 62 through the control of the connection assembly 7 and the connection plate 71, wherein the connection assembly 7 controls the pushing member 72 to push the product 0 to be far away from one end of the receiving jig 62 through the translation module 73, in the process, the product 0 slides into the receiving jig 62 along the length direction of the stacking jig 2, in the process, the product 0 can reach into the receiving jig 62 through the connection plate 71, after the product 0 reaches the receiving jig 62, the product 0 is transported to the next step through the transportation frame 61, the product 0 can be moved to the next step better through the cooperation of the rear end transportation assembly 6 and the connection assembly 7, the high automatic production efficiency can be realized, and the manufacturing cycle is further shortened.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The high-efficiency dust-removing automatic device for the food tray is characterized by comprising a rack, a stacking jig for placing stacked products, a conveying component arranged on the rack and used for conveying the stacking jig, and a dust-removing component arranged on the rack and used for removing dust from the products;

the dust removing assembly comprises a nozzle, a lifting module for controlling the nozzle to vertically lift and a transverse module for controlling the lifting module to transversely move;

the two sides of the conveying assembly are provided with movable limiting rods and fixed limiting rods for limiting products;

the movable limiting rod is connected with an air cylinder for controlling the movable limiting rod to push and retract;

the stacked products comprise a relaxed state with larger gaps between adjacent products and a close state with smaller gaps between the adjacent products on the stacking jig.

2. The high efficiency dust extraction automation apparatus for food trays as set forth in claim 1 wherein said dust extraction assembly further comprises a dust extraction tray aligned with said nozzle;

a working area is formed between the nozzle and the dust collection disc, and the conveying assembly enables the stacking jig to sequentially pass through the working area.

3. The high-efficiency dust-removing automatic device acting on food trays according to claim 2, wherein the movable limiting rod comprises a movable push rod directly connected with the air cylinder and fixed rods respectively arranged near two ends of the movable push rod;

the fixed rod is fixedly arranged on the frame, and the movable push rod is arranged in alignment with the working area.

4. The efficient dust-removing automatic device acting on food trays as claimed in claim 3, wherein the conveying assembly comprises a driving belt symmetrically arranged at two ends of the stacking jig and a motor for controlling the rotation of the driving belt;

the two ends of the stacking jig are respectively provided with a jig mounting hole, the conveyor belt is provided with a conveying mounting hole which is matched with the jig mounting holes in an alignment manner, and the jig mounting holes are matched with the conveying mounting holes in an alignment manner to fix the stacking jig on the conveyor belt and enable the stacking jig to move along with the conveyor belt;

the conveying installation holes are formed in a plurality of positions along the length direction of the conveying belt;

the stacking jig comprises a bottom supporting piece and side limiting pieces symmetrically arranged on two sides of the bottom supporting piece;

the jig mounting holes are respectively formed in the two ends of the bottom supporting piece and the two ends of the side limiting piece.

5. The efficient dust-removing automatic device acting on food trays as claimed in claim 4, wherein a linkage is arranged between the nozzle and the lifting module, and a plurality of nozzles are arranged along the length direction of the linkage;

the linkage piece is arranged in parallel with the movable push rod.

6. The high efficiency, dust removing automation apparatus for food trays as defined in claim 5 further comprising a rear transport assembly and a docking assembly for docking the rear transport assembly to the transfer assembly;

the stacking jig is provided with a plurality of conveying belts;

the rear end conveying assembly comprises a conveying frame and a receiving jig, the conveying frame is arranged in parallel with the conveying belt, and the receiving jig is arranged on the conveying frame and is provided with a plurality of receiving jigs;

the front end of the rear end conveying assembly is in alignment fit with the rear end of the conveying assembly, and a connection plate is arranged between the front end of the rear end conveying assembly and the rear end of the conveying assembly;

the two ends of the connection plate are respectively aligned with a stacking jig close to the rear end of the conveyor belt and a receiving jig close to the front end of the rear end conveying assembly;

the connection assembly comprises a pushing piece for enabling the products on the stacking jig to move into the receiving jig and a translation module for controlling the pushing piece to move.