CN220744641U - Feeding device for metal shell material tray separation - Google Patents

Abstract

The utility model discloses a feeding device for separating trays of a metal shell, which comprises a frame, a raw tray and a numerical controller, wherein the inner wall of the frame is connected with a carrying plate, the upper wall of the carrying plate is equidistantly connected with three groups of carrying blocks, the outer sides of the rightmost and leftmost carrying blocks are respectively connected with a clamping part, the outer sides of the middle carrying blocks are connected with a material taking assembly, the upper wall of the carrying plate is connected with a sliding assembly, and the sliding assembly is connected with two groups of lifting tables. According to the utility model, through the three groups of equidistant bearing blocks for placing the raw material trays and the two groups of lifting tables, under the cooperation of the clamping parts, the conversion of the raw material trays from the left stacking state to the right stacking state is realized, so that not only is the raw material trays convenient for workers to stack, but also the working efficiency of the workers for recycling the raw material trays is improved, the working efficiency of the material taking assembly for material taking operation is improved, and the labor cost in the production and processing process of products is reduced.

Description

Feeding device for metal shell material tray separation

Technical Field

The utility model relates to the technical field of metal shell processing, in particular to a feeding device for a metal shell material tray.

Background

In carrying out metal casing course of working, the semi-manufactured goods in the production process are placed in collecting the basket to the staff, and this collects the basket and always all pile up neatly, saves place and working space, but when getting the material at every turn, all need the staff to take gradually and pile up neatly again to collect the basket, influence the material efficiency of getting in the production course of working, and the cost of labor is high.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a feeding device for separating metal shell trays.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the feeding device comprises a frame and a raw material disc, wherein a numerical controller for controlling the operation of the device is arranged on the front wall of the frame, the inner wall of the frame is horizontally connected with a carrying plate, three groups of carrying blocks for placing the raw material disc are equidistantly connected in the left-right direction of the upper wall of the carrying plate, the outer sides of the rightmost carrying blocks and the leftmost carrying blocks of the upper wall of the carrying plate are respectively connected with a clamping part for clamping the raw material disc, and the outer sides of the middle carrying blocks are connected with a material taking assembly for taking materials;

the upper wall of the object bearing plate is correspondingly connected with the sliding assembly in the left-right direction by three groups of bearing blocks, and the upper acting end of the sliding assembly is connected with two groups of lifting tables for placing the raw material tray.

Preferably, the bearing block comprises support plate members which are symmetrically connected on the front and back of the upper wall of the bearing plate, and the adjacent side walls of the two groups of support plate members are correspondingly connected with a plurality of groups of bearing convex blocks on the same horizontal plane.

Preferably, the clamping component comprises first lifting cylinders which are symmetrically connected with the upper wall of the object bearing plate in front-back mode, vertical acting ends of the first lifting cylinders are connected with second telescopic cylinders which are horizontally arranged, and similar ends of the two groups of second telescopic cylinders are connected with clamping blocks.

Preferably, the sliding component comprises a strip-shaped sliding block connected in the left-right direction of the upper wall of the object bearing plate, a third telescopic cylinder in the same direction as the strip-shaped sliding block and a driving chain, wherein the output end of the third telescopic cylinder is connected with the side wall of the right lifting table, and the output end of the driving chain is connected with the side wall of the left lifting table.

Preferably, the lifting platform comprises a sliding bottom plate which is in sliding connection with the upper wall of the strip-shaped sliding block, the middle part of the sliding bottom plate is connected with a lifting cylinder, the upward output end of the lifting cylinder is connected with a top plate by a coaxial line, and a plurality of groups of auxiliary telescopic rods which take the lifting cylinder as a circle center array are connected between the sliding bottom plate and the top plate.

Preferably, the material taking assembly comprises a three-dimensional movable frame connected to the upper wall of the material carrying plate, and the output end of the three-dimensional movable frame is connected with the material taking claw.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, through the three groups of equidistant bearing blocks for placing the raw material trays and the two groups of lifting tables, under the cooperation of the clamping parts, the conversion of the raw material trays from the left stacking state to the right stacking state is realized, so that not only is the raw material trays convenient for workers to stack, but also the working efficiency of the workers for recycling the raw material trays is improved, the working efficiency of the material taking assembly for material taking operation is improved, and the labor cost in the production and processing process of products is reduced.

Drawings

In order to more particularly and intuitively illustrate an embodiment of the present utility model or a technical solution in the prior art, a brief description of the drawings is provided below, which are required to be used in the description of the embodiment or the prior art.

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

fig. 3 is a schematic cross-sectional view of a structure according to the present utility model.

In the figure: the device comprises a frame 1, a raw material tray 2, a carrying plate 3, a clamping part 4, a material taking assembly 5, a lifting table 6, a supporting plate 7, a bearing lug 8, a first lifting cylinder 9, a second telescopic cylinder 10, a clamping block 13, a strip-shaped sliding block 16, a third telescopic cylinder 17, a driving chain 18, a sliding bottom plate 19, a lifting cylinder 20, a top plate 21, an auxiliary telescopic rod 22, a three-dimensional movable frame 23 and a bearing block 24.

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.

Referring to fig. 1, a feeding device for separating trays of a metal shell comprises a frame 1 and a tray 2, wherein a numerical controller for controlling the operation of the device is installed on the front wall of the frame 1, and the feeding device is characterized in that the inner wall of the frame 1 is horizontally connected with a carrying plate 3, three groups of carrying blocks 24 for placing the tray 2 are equidistantly connected in the left-right direction on the upper wall of the carrying plate 3, the upper wall of the carrying plate 3 is connected with clamping components 4 for clamping the tray 2 on the outer sides of the right-most carrying blocks 24 and the left-most carrying blocks 24, and a material taking component 5 for taking materials is connected on the outer sides of the middle carrying blocks 24;

the left and right directions of the two sides of the upper wall of the object bearing plate 3 are connected with sliding components, and the acting end of the upper side of the sliding components is connected with two groups of lifting tables 6 for placing the raw material tray 2.

In the specific use process of the device, a worker can stack and place the raw material trays 2 on the leftmost bearing block 24, the leftmost clamping part 4 clamps the raw material trays 2 at the same horizontal position from bottom to top at the position of the second layer of the raw material tray 2 group and ascends at a preset interval through the numerical controller starting device, so that the bottommost raw material tray 2 and the raw material tray 2 group are separated, meanwhile, the left lifting table 6 slides to the lower part of the leftmost bearing block 24 under the driving of the sliding component and lifts the bottommost raw material tray 2 upwards, drives the bottommost raw material tray 2 to move to the upper part of the middle bearing block 24, the lifting table 6 descends to enable the raw material tray 2 to fall on the upper wall of the middle bearing block 24, and the material taking component 5 starts to take materials automatically from the raw material tray 2;

when the left lifting platform 6 is positioned at the leftmost bearing block 24, the right lifting platform 6 is positioned at the middle bearing block 24, after the material taking operation of the material taking assembly 5 on the material disc 2 is completed, the right lifting platform 6 upwards jacks the material disc 2 at the position of the middle bearing block 24, and the material disc 2 is driven to move above the rightmost bearing block 24 under the driving of the sliding assembly;

simultaneously, the lowest layer of the stacked raw material trays 2 in advance is clamped by the rightmost clamping part 4 and lifted upwards, a placing space above the rightmost bearing block 24 is provided for the upcoming raw material tray 2, and the conversion of the raw material tray 2 from the left stacking state to the left stacking state is realized through the clamping parts 4 and the bearing blocks 24 corresponding to the left side and the right side, so that the raw material tray 2 is convenient to feed, recycle and stack, and the efficiency of the equipment material taking operation is improved.

In this case, the supporting block 24 includes the supporting plate 7 of symmetry connection around the upper wall of holding thing board 3, the close lateral wall of two sets of supporting plate 7 corresponds and connects a plurality of sets of lugs 8 of accepting on same horizontal plane, improve the holistic uniformity of device, in specific use, every supporting plate 7 lateral wall of group connects two sets of lugs 8 of accepting at least, can adjust the high position of accepting lug 8 at supporting plate 7 lateral wall as required, when making raw materials dish 2 place and accept lug 8 upside, accept lug 8 lateral wall and supporting plate 7 lateral wall laminating, further improve the stability of raw materials dish 2 place on accepting lug 8.

In the scheme, the clamping part 4 comprises first lifting cylinders 9 which are symmetrically connected front and back on the upper wall of the object bearing plate 3, the vertical acting ends of the first lifting cylinders 9 are connected with second telescopic cylinders 10 which are horizontally placed, the similar ends of two groups of second telescopic cylinders 10 are connected with clamping blocks 13, the clamping of the raw material disc 2 is realized through extrusion of the clamping blocks 13 and the raw material disc 2, and the requirements of the clamping blocks 13 on up-down movement and up-and-back movement are met through the first lifting cylinders 9 and the second telescopic cylinders 10.

In this case, the slip subassembly includes the bar slider 16 that is connected in the left and right directions of holding plate 3 upper wall, with the flexible jar 17 of the third of bar slider 16 equidirectional and drive chain 18, the output of the flexible jar 17 of third is connected with right side elevating platform 6 lateral wall, the output of drive chain 18 is connected with left side elevating platform 6 lateral wall, in concrete use, the staff can control flexible jar 17 of third and drive chain 18 respectively through the numerical controller, and then satisfy the user and to the functional requirement of every group individual control, improve the flexibility and the practicality of device.

In the use process, a user cancels the driving chain 18, and the output end of the third telescopic cylinder 17 is simultaneously connected with the side walls of the two groups of lifting platforms 6, so that the two groups of lifting platforms 6 synchronously move under the driving of the third telescopic cylinder 17, and the whole assembly components of the equipment are reduced.

In the scheme, the lifting platform 6 comprises a sliding bottom plate 19 which is in sliding connection with the upper wall of the strip-shaped sliding block 16, the middle part of the sliding bottom plate 19 is connected with a lifting cylinder 20, the upward output end of the lifting cylinder 20 is connected with a top plate 21 in a coaxial line, a plurality of groups of auxiliary telescopic rods 22 which are arrayed by taking the lifting cylinder 20 as a circle center are connected between the sliding bottom plate 19 and the top plate 21, and the stability of the top plate 21 in the lifting process is improved through the lifting cylinder 20 and the auxiliary telescopic rods 22.

In the scheme, the material taking assembly 5 comprises a three-dimensional movable frame 23 connected to the upper wall of the material carrying plate 3, and the output end of the three-dimensional movable frame 23 is connected with a material taking claw.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The feeding device for the metal shell material tray separation comprises a frame (1) and a material tray (2), wherein a numerical controller for controlling the operation of the device is arranged on the front wall of the frame (1), the feeding device is characterized in that the inner wall of the frame (1) is horizontally connected with a material bearing plate (3), three groups of bearing blocks (24) for placing the material tray (2) are equidistantly connected in the left-right direction of the upper wall of the material bearing plate (3), the outer sides of the rightmost and leftmost bearing blocks (24) are both connected with clamping parts (4) for clamping the material tray (2), and a material taking assembly (5) for taking materials is connected outside the middle bearing blocks (24);

the upper wall of the object bearing plate (3) is correspondingly connected with a sliding assembly in the left-right direction by three groups of bearing blocks (24), and the upper acting end of the sliding assembly is connected with two groups of lifting tables (6) for placing the raw material tray (2).

2. The feeding device for the metal shell tray according to claim 1, wherein the receiving block (24) comprises supporting plates (7) symmetrically connected on the front and back of the upper wall of the carrying plate (3), and the adjacent side walls of the two groups of supporting plates (7) are correspondingly connected with a plurality of groups of receiving lugs (8) on the same horizontal plane.

3. The feeding device for the metal shell material trays according to claim 1, wherein the clamping component (4) comprises first lifting cylinders (9) symmetrically connected on the front and back of the upper wall of the carrying plate (3), the vertical acting ends of the first lifting cylinders (9) are connected with second telescopic cylinders (10) horizontally arranged, and the similar ends of the two groups of second telescopic cylinders (10) are connected with clamping blocks (13).

4. The feeding device for the metal shell tray according to claim 1, wherein the sliding assembly comprises a strip-shaped sliding block (16) connected in the left-right direction of the upper wall of the carrying plate (3), a third telescopic cylinder (17) and a driving chain (18), wherein the third telescopic cylinder (17) is in the same direction as the strip-shaped sliding block (16), the output end of the third telescopic cylinder (17) is connected with the side wall of the right lifting table (6), and the output end of the driving chain (18) is connected with the side wall of the left lifting table (6).

5. The feeding device for the metal shell tray according to claim 1, wherein the lifting table (6) comprises a sliding bottom plate (19) which is slidably connected with the upper wall of the strip-shaped sliding block (16), the middle part of the sliding bottom plate (19) is connected with a lifting cylinder (20), the upward output end of the lifting cylinder (20) is connected with a top plate (21) by a coaxial line, and a plurality of groups of auxiliary telescopic rods (22) which take the lifting cylinder (20) as a circle center array are connected between the sliding bottom plate (19) and the top plate (21).

6. The feeding device for the metal shell tray according to claim 1, wherein the material taking assembly (5) comprises a three-dimensional movable frame (23) connected to the upper wall of the material carrying plate (3), and the output end of the three-dimensional movable frame (23) is connected with a material taking claw.