CN220182092U - Automatic material waiting system - Google Patents

Abstract

The utility model relates to an automatic material waiting system, comprising: the device comprises a feeding platform, an adsorption module, a clamping and separating module, a horizontal conveying module and a material waiting platform; stacking a lamination material on the feeding platform, absorbing the sheet material on the material waiting platform by the absorbing module and taking away from the feeding platform, because the sheet material is easy to clamp the material, the sheet material absorbed by the absorbing module possibly has the problem of clamping the material, the clamping material on the absorbing module can be effectively separated from the absorbed sheet material by arranging the clamping separating module around the feeding platform, and after the absorbing module finishes the sheet material absorbing action, the horizontal conveying module drives the absorbing module to move and places the sheet material on the material waiting platform, and the horizontal conveying module drives the absorbing module to reset to wait for the next extracting action. The technical scheme of the utility model effectively solves the problems of disturbance of material taking, easy sheet material wrinkling and dirtying in the prior art, and has the beneficial effects of improving the working efficiency and the product quality.

Description

Automatic material waiting system

Technical Field

The utility model relates to the technical field of material waiting, in particular to an automatic material waiting system.

Background

At present, in the assembly production process of electronic products, the sheet materials with different sizes are required to be attached to the products, the sheet materials are stacked and placed, the problem that the quality of the products is affected due to the fact that the sheet materials with different sizes are wrinkled or dirty easily caused by the disorder of material taking exists in the process of material taking manually, and the position of each material taking is changed, so that the material taking operation is not standard and the efficiency is low is caused.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model is directed to an automatic material waiting system, which is used for solving the problems of material taking disorder, easy size sheet material wrinkling or dirtying, thereby affecting product quality, irregular operation and low efficiency in the assembly and production process of electronic products in the prior art.

To achieve the above and other related objects, the present utility model provides an automatic waiting system, comprising:

the feeding platform is used for stacking the sheets;

the adsorption module comprises a lifting mechanism and an adsorption part, wherein the adsorption part is connected with the lifting mechanism, the lifting mechanism is used for driving the adsorption part to move vertically, and the adsorption part is used for sucking the sheet materials on the feeding platform;

the clamping and separating module is used for separating clamping materials on the adsorption component and at least comprises a clamping and separating component which is arranged along the circumferential direction of the feeding platform;

the horizontal conveying module is connected with the adsorption module and used for driving the adsorption module to move along the horizontal direction;

and the material waiting platform is used for storing the sheet materials absorbed by the absorption module.

Optionally, the feeding platform further comprises a jacking mechanism, wherein the jacking mechanism is connected with the feeding platform and is used for driving the feeding platform to move vertically.

Optionally, climbing mechanism includes jacking drive part, jacking executive component and supporting shoe, the supporting shoe is equipped with the jacking slide rail along length direction, be equipped with on the feed platform be used for with jacking slide rail sliding fit's jacking slider, jacking executive component with jacking drive part jacking slider is connected, jacking drive part is used for the drive jacking executive component makes the feed platform is followed the length direction of supporting shoe removes.

Optionally, one side of supporting shoe along the width direction is equipped with spacing detection module, be equipped with on the jacking slider be used for with spacing detection module cooperation triggers the response piece that jacking drive part stopped work.

Optionally, elevating system is the cylinder module, be equipped with on the elevating system and be used for the installation component of adsorption component, the installation component with elevating system's telescopic link is connected, elevating system is used for the drive the installation component makes along vertical removal adsorption component rises or descends.

Optionally, the clamping separation module is provided with a height detection element, the height detection element is used for detecting the stacking height on the feeding platform, and when the stacking height on the feeding platform changes, the jacking mechanism is triggered to drive the feeding platform to ascend so as to enable the stacking to reach the preset height.

Optionally, the horizontal conveying module comprises a horizontal conveying driving part and a horizontal conveying transmission part, the lifting mechanism is connected with the horizontal conveying transmission part, and the horizontal conveying driving part is used for driving the horizontal conveying transmission part to drive the lifting mechanism to move along the horizontal direction.

Optionally, the horizontal conveying module further comprises a horizontal conveying sliding rail, and the lifting mechanism is provided with a horizontal conveying sliding block which is used for being in sliding fit with the horizontal conveying sliding rail.

Optionally, the material waiting platform is provided with a limiting block for limiting the sheet material along the circumferential direction, and the limiting block is locked with the material waiting platform through a locking piece.

Optionally, the in-place detection element is arranged on the material waiting platform and is used for detecting a sheet material in-place signal on the material waiting platform, and the trigger system controls the next station to start working.

As described above, the present utility model has the following advantageous effects: through stacking a lamination material and placing on the feed platform, drive the adsorption component by elevating system and follow vertical movement in feed platform top, absorb the sheet material and take the sheet material of absorbing away the feed platform because the sheet material presss from both sides the material easily, the sheet material that the adsorption component absorbed probably has the clamp material, can separate the clamp material on the adsorption component and absorb the sheet material effectively through the clamp material separation module that sets up around the feed platform, after the adsorption action of adsorption module completion sheet material, the horizontal transfer module drives the adsorption module and removes to wait to expect the platform top along the horizontal direction, the adsorption component is placed the sheet material and is waited to expect on the platform, the horizontal transfer module drives the adsorption module and removes to the feed platform directly over along the horizontal direction, wait to extract the action next time. The technical scheme of the utility model effectively solves the problems of disturbance of material taking, easy sheet material wrinkling and dirtying in the prior art, and has the beneficial effects of improving the working efficiency and the product quality.

Drawings

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

FIG. 2 is a schematic diagram of the adsorption module in FIG. 1;

FIG. 3 is a schematic diagram of the jack mechanism of FIG. 1;

FIG. 4 is a schematic diagram of the material separating module in FIG. 1;

fig. 5 is an enlarged schematic view of the structure of the portion a in fig. 4.

Description of the part reference numerals

The feeding platform 1, the jacking slide block 101, the sensing piece 101a, the adsorption module 2, the lifting mechanism 201, the mounting part 201a, the horizontal conveying slide block 201b, the adsorption part 202, the clamping separation module 3, the clamping separation part 301, the height detection element 302, the horizontal conveying module 4, the horizontal conveying driving part 401, the horizontal conveying transmission part 402, the horizontal conveying slide rail 403, the waiting platform 5, the in-place detection sensor 501, the limiting block 502, the jacking mechanism 6, the jacking driving part 601, the jacking execution part 602, the supporting block 603, the jacking slide rail 603a, the upper limit detection sensor 603b, the origin detection sensor 603c, the lower limit detection sensor 603d and the mounting groove 7.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model.

Please refer to fig. 1 to 5. It should be noted that, the illustrations provided in the present embodiment merely illustrate the basic concept of the present utility model by way of illustration, and only the components related to the present utility model are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complex. The structures, proportions, sizes, etc. shown in the drawings attached hereto are for illustration purposes only and are not intended to limit the scope of the utility model, which is defined by the claims, but rather by the claims. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Before describing embodiments of the present utility model in detail, an application environment of the present utility model will be described. The technology of the utility model is mainly applied to the technical field of waiting materials. The utility model is used for solving the problems of long assembly pressing operation time and low efficiency in the assembly process of electronic products in the prior art.

Referring to fig. 1 to 5, the present utility model provides an automatic material waiting system, which includes:

in an exemplary embodiment of the utility model, a feeding deck 1 for stacking sheets; the adsorption module 2 comprises a lifting mechanism 201 and an adsorption part 202, the adsorption part 202 is connected with the lifting mechanism 201, the lifting mechanism 201 is used for driving the adsorption part 202 to move vertically, and the adsorption part 202 is used for sucking the sheet materials on the feeding platform 1; the clamping separation module 3 is used for separating the clamping on the adsorption component 202, and the clamping separation module 3 at least comprises a clamping separation component 301, wherein the clamping separation component 301 is arranged along the circumferential direction of the feeding platform 1; the horizontal conveying module 4 is connected with the adsorption module 2 and the horizontal conveying module 4, and the horizontal conveying module 4 is used for driving the adsorption module 2 to move along the horizontal direction; and the material waiting platform 5 is used for storing the sheet materials sucked by the suction module 2.

In this embodiment, by placing a stack of sheets on the feeding platform 1, the lifting mechanism 201 drives the adsorption component 202 to move vertically above the feeding platform 1, and suck the sheets and take the sucked sheets away from the feeding platform 1, since the sheets are easy to clamp, the sheets sucked by the adsorption component 202 may have clamping, the clamping on the adsorption component 202 and the sucked sheets can be effectively separated by the clamping separation module 3 disposed around the feeding platform 1, after the adsorption module 2 completes the adsorption action of the sheets, the horizontal transfer module 4 drives the adsorption module 2 to move above the waiting platform 5 in the horizontal direction, the adsorption component 202 places the sheets on the waiting platform 5, and the horizontal transfer module 4 drives the adsorption module 2 to move right above the feeding platform 1 in the horizontal direction to wait for the next extraction action. The technical scheme of the utility model effectively solves the problems of disturbance of material taking, easy sheet material wrinkling and dirtying in the prior art, and has the beneficial effects of improving the working efficiency and the product quality.

In an exemplary embodiment of the present utility model, the device further includes a jacking mechanism 6, the jacking mechanism 6 is connected to the feeding platform 1, and the jacking mechanism 6 is used for driving the feeding platform 1 to move vertically.

In this embodiment, after the adsorption module 2 absorbs the sheet, the height of the sheet on the feeding platform 1 changes, the stroke of the lifting mechanism 201 is limited, so that the adsorption module 2 can absorb the sheet conveniently, and when the stacking height changes, the lifting mechanism 6 is used for adjusting the height of the feeding platform 1, so that the stacking height meets the operation requirement of the adsorption module 2.

In an exemplary embodiment of the present utility model, the jacking mechanism 6 includes a jacking driving member 601, a jacking execution member 602, and a supporting block 603, where the supporting block 603 is provided with a jacking slide rail 603a along a length direction, the feeding platform 1 is provided with a jacking slide block 101 for sliding fit with the jacking slide rail 603a, the jacking execution member 602 is connected with the jacking driving member 601 and the jacking slide block 101, and the jacking driving member 601 is used for driving the jacking execution member 602 to move the feeding platform 1 along the length direction of the supporting block 603.

In this embodiment, the jacking driving member 601 is a stepping motor, the jacking driving member 601 is disposed at the lower end of the supporting block 603, the jacking execution member 602 is a crank link, the jacking execution member 602 is connected with the output end of the jacking driving member 601, the supporting block 603 is disposed vertically to the feeding platform 1, the supporting block 603 is symmetrically provided with a jacking slide rail 603a along the width direction, the jacking slide rail 603a extends along the length direction of the supporting block 603, the feeding platform 1 is provided with a jacking slide block 101 in sliding fit with the jacking slide rail 603a, one end of the jacking execution member 602 away from the jacking driving member 601 is rotationally connected with the jacking slide block 101, the jacking execution member 602 is driven by the jacking driving member 601, and the jacking slide block 101 of the feeding platform 1 is driven by the jacking execution member 602 to move along the jacking slide rail 603 a.

In another exemplary embodiment, the jacking driving part 601 is a stepping motor, the jacking execution part 602 is a screw rod sliding block module, one end of the screw rod in the length direction is connected with the jacking driving part 601, one end of the screw rod is rotationally connected with the supporting block 603, the sliding block is in threaded connection with the screw rod and fixedly connected with the jacking sliding block 101, the screw rod is driven to rotate through the jacking driving part 601, the sliding block moves in the length direction of the screw rod, the jacking sliding block 101 is driven to move in the length direction of the sliding rail, and accordingly the feeding platform 1 is driven to ascend or descend.

In an exemplary embodiment of the present utility model, a limit detection module is disposed on one side of the supporting block 603 along the width direction, and a sensing piece 101a for triggering the lifting driving component 601 to stop working in cooperation with the limit detection module is disposed on the lifting slider 101.

In this embodiment, the limit detection module includes an upper limit detection sensor 603b, an origin detection sensor 603c, and a lower limit detection sensor 603d that are disposed along the length direction of the supporting block 603, where the upper limit detection sensor 603b, the origin detection sensor 603c, and the lower limit detection sensor 603d are all groove-type photoelectric switches, the lifting slider 101 is provided with a sensor 101a, the sensor 101a moves up or down along with the lifting slider 101 in the process of driving the feeding platform 1 to rise or fall by the lifting driving component 601, when the sensor 101a passes through the upper limit detection sensor 603b, the lower limit detection sensor 603d, or the origin detection sensor 603c, the triggering system controls the lifting driving component 601 to stop working, when the sensor 101a is located at the upper limit detection sensor 603b, the lifting mechanism 6 reaches the lifting limit, when the sensor 101a is located at the origin detection sensor 603c, the lifting driving component 601 system issues an execution instruction waiting for the lifting mechanism to reach the lower limit 6 when the sensor 101a is located at the lower limit detection sensor 603 d.

In an exemplary embodiment of the present utility model, the lifting mechanism 201 is a cylinder module, the lifting mechanism 201 is provided with a mounting part 201a for mounting the adsorption part 202, the mounting part 201a is connected with a telescopic rod of the lifting mechanism 201, and the lifting mechanism 201 is used for driving the mounting part 201a to move vertically to enable the adsorption part 202 to ascend or descend.

In this embodiment, the installation component 201a is connected with a telescopic rod of the air cylinder module, at least one installation groove 7 for installing the adsorption component 202 is arranged on the installation component 201a, the utility model comprises eight installation grooves 7, corresponding to eight adsorption components 202, the adsorption component 202 is a sucking disc, the tail end of the sucking disc is connected with a pneumatic pump, so that negative pressure is formed inside the sucking disc to suck the sheet material, the installation groove 7 is a strip-shaped groove, the adsorption range of the adsorption component 202 can be adjusted by changing the position of the sucking disc in the installation groove 7, so that the adsorption work of the sheet materials with different sizes is adapted, the lifting mechanism 201 drives the installation component 201a to descend and suck the sheet material and then ascend to the upper side of the feeding platform 1, the lifting mechanism 201 is provided with a reset sensor, and when the reset sensor detects that the installation component 201a resets, the horizontal conveying module 4 is triggered to drive the adsorption module 2 to horizontally move to the upper side of the feeding platform 5 to place the sheet material on the feeding platform 5.

In an exemplary embodiment of the present utility model, the height detecting element 302 is disposed on the material clamping and separating module 3, and the height detecting element 302 is used for detecting the stacking height on the feeding platform 1, and when the stacking height on the feeding platform 1 changes, the lifting mechanism 6 is triggered to drive the feeding platform 1 to lift so as to enable the stacking to reach the preset height.

In this embodiment, after the adsorption module 2 sucks the sheet material on the feeding platform 1, the stacking height on the feeding platform 1 changes, and after the height detection sensor on the material clamping and separating module 3 detects a height change signal, the lifting mechanism 6 is triggered to drive the feeding platform 1 to rise to a preset height, and when the height detection sensor detects that the sheet material reaches the preset height, the lifting mechanism 6 stops working; the clamping and separating module 3 comprises six clamping and separating components 301, wherein the clamping and separating components 301 are hairbrushes, and clamping materials on the adsorption module 2 can be effectively separated through the clamping and separating components 301.

In an exemplary embodiment of the present utility model, the horizontal transfer module 4 includes a horizontal transfer driving part 401 and a horizontal transfer transmission part 402, the lifting mechanism 201 is connected with the horizontal transfer transmission part 402, and the horizontal transfer driving part 401 is used for driving the horizontal transfer transmission part 402 to drive the lifting mechanism 201 to move along the horizontal direction.

In this embodiment, the horizontal conveying module 4 is a belt conveying module, the horizontal conveying driving component 401 is a two-phase stepping motor, and has positive and negative rotation, and is connected with a belt through the lifting mechanism 201, the horizontal conveying driving component 401 drives the belt to drive the adsorption module 2 to move to the upper portion of the material waiting platform 5 along the horizontal direction, the lifting mechanism 201 descends to place the sheet material on the material waiting platform 5, the reset sensor detects that the lifting mechanism 201 resets, and the horizontal conveying module 4 drives the adsorption module 2 to move to the upper portion of the material feeding platform 1 along the horizontal direction to wait for the next sheet material sucking instruction.

In an exemplary embodiment of the present utility model, the horizontal transfer module 4 further includes a horizontal transfer slide 403, and the lifting mechanism 201 is provided with a horizontal transfer slide 201b for sliding engagement with the horizontal transfer slide 403.

In this embodiment, the adsorption module 2 can stably reciprocate between the feeding platform 1 and the waiting platform 5 along the horizontal direction by the sliding fit of the horizontal conveying sliding block 201b and the horizontal conveying sliding rail 403.

In an exemplary embodiment of the present utility model, a limiting block 502 for limiting the sheet material is provided on the material waiting platform 5 along the circumferential direction, and the limiting block 502 is locked with the material waiting platform 5 through a locking member.

In this embodiment, be equipped with the stopper 502 that is used for spacing the placing to the sheet stock on waiting to expect that the platform 5 takes place the position offset to the sheet stock is avoided waiting to expect that the stopper 502 can change the size of spacing region through changing the lock position of stopper 502 on waiting to expect that the platform 5, thereby the effect of depositing of not equidimension sheet stock of adaptation.

In an exemplary embodiment of the present utility model, the in-place detecting element is disposed on the waiting platform 5, and the in-place detecting element is used for detecting a tablet in-place signal on the waiting platform 5, and the triggering system controls the next station to start working.

In this embodiment, an in-place detection sensor 501 for detecting the position of a sheet is arranged on the center of the material waiting platform 5, the in-place detection sensor 501 is a proximity switch and is arranged in a sheet limiting area surrounded by a limiting block 502, when the sheet is placed in the limiting area on the material waiting platform 5, the in-place detection sensor 501 informs a system that the sheet reaches a material waiting station when detecting a sheet signal, and the system controls the next station module to execute a material taking action.

The working principle is that a lamination stack is placed on the feeding platform 1, the lifting mechanism 201 drives the adsorption component 202 to vertically move above the feeding platform 1, the sucked sheet is carried away from the feeding platform 1, the sheet sucked by the adsorption component 202 can be clamped because the sheet is easy to clamp, the clamping on the adsorption component 202 can be effectively separated from the sucked sheet through the clamping separation module 3 arranged around the feeding platform 1, after the adsorption module 2 finishes the adsorption action of the sheet, the horizontal transmission module 4 drives the adsorption module 2 to move above the waiting platform 5 in the horizontal direction, the adsorption component 202 places the sheet on the waiting platform 5, and the horizontal transmission module 4 drives the adsorption module 2 to move right above the feeding platform 1 in the horizontal direction to wait for the next extraction action. The technical scheme of the utility model effectively solves the problems of disturbance of material taking, easy sheet material wrinkling and dirtying in the prior art, and has the beneficial effects of improving the working efficiency and the product quality.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. An automatic material waiting system, comprising:

the feeding platform is used for stacking the sheets;

the adsorption module comprises a lifting mechanism and an adsorption part, wherein the adsorption part is connected with the lifting mechanism, the lifting mechanism is used for driving the adsorption part to move vertically, and the adsorption part is used for sucking the sheet materials on the feeding platform;

the clamping and separating module is used for separating clamping materials on the adsorption component and at least comprises a clamping and separating component which is arranged along the circumferential direction of the feeding platform;

the horizontal conveying module is connected with the adsorption module and used for driving the adsorption module to move along the horizontal direction;

and the material waiting platform is used for storing the sheet materials absorbed by the absorption module.

2. The automated priming system of claim 1, wherein: the lifting mechanism is connected with the feeding platform and is used for driving the feeding platform to move vertically.

3. The automated priming system of claim 2, wherein: the jacking mechanism comprises a jacking driving part, a jacking executing part and a supporting block, wherein the supporting block is provided with a jacking sliding rail along the length direction, the feeding platform is provided with a jacking sliding block which is used for being in sliding fit with the jacking sliding rail, the jacking executing part is connected with the jacking driving part, and the jacking driving part is used for driving the jacking executing part to enable the feeding platform to move along the length direction of the supporting block.

4. An automated priming system according to claim 3, wherein: the lifting device is characterized in that a limit detection module is arranged on one side of the supporting block along the width direction, and an induction piece which is used for triggering the lifting driving part to stop working in a matched mode with the limit detection module is arranged on the lifting sliding block.

5. The automated priming system of claim 1, wherein: the lifting mechanism is a cylinder module, a mounting component for mounting the adsorption component is arranged on the lifting mechanism, the mounting component is connected with a telescopic rod of the lifting mechanism, and the lifting mechanism is used for driving the mounting component to vertically move so that the adsorption component ascends or descends.

6. The automated priming system of claim 2, wherein: the material clamping and separating module is provided with a height detection element, the height detection element is used for detecting the stacking height on the material feeding platform, and when the stacking height on the material feeding platform changes, the jacking mechanism is triggered to drive the material feeding platform to ascend so that the stacking height reaches a preset height.

7. The automated priming system of claim 1, wherein: the horizontal conveying module comprises a horizontal conveying driving part and a horizontal conveying transmission part, the lifting mechanism is connected with the horizontal conveying transmission part, and the horizontal conveying driving part is used for driving the horizontal conveying transmission part to drive the lifting mechanism to move along the horizontal direction.

8. The automated priming system of claim 7, wherein: the horizontal conveying module further comprises a horizontal conveying sliding rail, and the lifting mechanism is provided with a horizontal conveying sliding block which is used for being in sliding fit with the horizontal conveying sliding rail.

9. The automated priming system of claim 1, wherein: the material waiting platform is circumferentially provided with a limiting block for limiting the sheet material, and the limiting block is locked with the material waiting platform through a locking piece.

10. The automated priming system of claim 8, wherein: the material waiting platform is provided with an in-place detection element, and the in-place detection element is used for detecting a sheet material in-place signal on the material waiting platform, and the trigger system controls the next station to start working.