CN220683984U - Adsorption turnover device - Google Patents

Abstract

The utility model relates to the technical field of overturn adsorption, and particularly discloses an adsorption overturning device, wherein in the use process, an adsorption assembly is driven to descend through a lifting assembly, so that a soft adsorption end of the adsorption assembly penetrates through a through hole in a placing plate to adsorb flexible products, then the lifting assembly is driven to lift the adsorption assembly, the overturning assembly drives the adsorption assembly to overturn, the adsorption end of the adsorption assembly faces upwards after overturning, a lifting structure connected to the placing plate enables the placing plate to ascend, the flexible products stay on the placing plate and are matched with another mechanical arm, the products staying on the placing plate are adsorbed through the soft adsorption end, soft-to-hard butt joint is carried out again, the overturning of the products is completed, soft-to-hard contact is maintained in the whole overturning process, product loss which is easy to cause when the soft-to-soft contact is avoided, and the yield can be effectively improved.

Description

Adsorption turnover device

Technical Field

The embodiment of the utility model relates to the technical field of overturning and sucking, in particular to an adsorption overturning device.

Background

Along with the progress of technological development and living standard, the quality requirement of people on products is higher and higher, in order to guarantee the product quality, the production end must guarantee the yield of products, the traditional structure through the buffering suction rod is corresponding to the buffering suction rod after overturning at present, soft to soft absorption overturning easily causes bad to softer objects, and a mechanism of soft to hard absorption overturning is needed to cope with the working condition to improve the yield of products.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art or related art.

To this end, the present utility model provides an adsorption turnover device comprising:

a lifting assembly;

the adsorption component is used for adsorbing products and is arranged on the lifting component, the lifting component is used for driving the adsorption component to ascend or descend, and the adsorption end of the adsorption component is made of soft materials;

the overturning assembly is connected with the adsorption assembly and used for overturning the adsorption assembly;

the adsorption component is characterized by further comprising a placing plate which is made of hard materials, the placing plate is used for placing products after the adsorption component is turned over, a through hole through which an adsorption end can pass is formed in the placing plate, and the placing plate is connected to a lifting structure.

In one possible embodiment, the adsorption assembly further comprises:

a first base plate;

the connecting rod is fixedly connected to the first base plate;

the suction nozzle is an adsorption end of the adsorption component and is connected to one end of the connecting rod;

the lifting cylinder is connected with the first base plate at one end, and the placing plate is connected with the other end of the lifting cylinder;

the shell, the shell sets up in the one side of keeping away from the board of placing for protect the inner structure of adsorption component.

In one possible embodiment, the adsorption assembly further comprises:

the guide rail is fixedly connected to the first base plate and movably connected to the placing plate.

In one possible embodiment, the adsorption assembly further comprises:

an extension frame, the extension frame is arranged at one side of the first base plate far away from the lifting assembly;

the extension frame is provided with the connecting rod, and the connecting rod is provided with the suction nozzle.

In one possible embodiment, the adsorption assembly further comprises:

the second base plate is arranged between the first base plate and the shell, and a slot through which the connecting rod can pass is formed in the second base plate;

and one end of the buffer is connected with the second base plate, and the other end of the buffer is connected with the first base plate.

In one possible embodiment, the lifting assembly comprises:

the lifting module is a telescopic rod;

the lifting motor is used for driving the lifting module to complete extension and retraction;

the connecting piece is arranged at the lower end of the lifting module;

the connecting plate, the connecting plate set up in the flexible end of lifting module, lifting assembly with the upset subassembly is connected through the connecting plate.

In one possible embodiment, the flipping assembly comprises:

and the output end of the turnover motor is connected with the adsorption component and used for turnover of the adsorption component.

In one possible embodiment, the flipping assembly further comprises:

the speed reducer is arranged between the overturning motor and the adsorption component;

the adsorption component comprises an adsorption component, a speed reducer and an installation flange, wherein one end of the installation flange is connected with the adsorption component, the other end of the installation flange is connected with the speed reducer, and the speed reducer is connected with the adsorption component through the installation flange.

In a possible embodiment, the extension stand comprises:

the two vertical rods are arranged, one end of each vertical rod is connected to the first base plate, and a first strip-shaped groove is formed in each vertical rod;

the transverse rod is provided with two first sliding screws which are slidably connected with the first strip-shaped groove;

when the first sliding screw is not screwed down, the cross rod can slide on the vertical rod along the first strip-shaped groove;

when the first sliding screw is screwed down, the cross rod and the vertical rod are relatively fixed.

In a possible embodiment, the extension stand further comprises:

the second strip-shaped groove is formed in the cross rod;

the second sliding screw is connected with the second strip-shaped groove in a sliding way;

the connecting block is spirally connected to the second sliding screw;

when the second sliding screw is not screwed down, the connecting block and the cross rod can slide relatively;

when the second sliding screw is screwed down, the connecting block and the cross rod are relatively fixed.

Compared with the prior art, the utility model at least comprises the following beneficial effects: the adsorption turnover device comprises a lifting assembly, an adsorption assembly and a turnover assembly, wherein the adsorption assembly further comprises a placement plate, the placement plate is connected to a lifting structure, a through hole through which an adsorption end can pass is formed in the placement plate, the placement plate is of a hard structure, in the use process, the adsorption assembly is driven to descend through the lifting assembly, so that a soft adsorption end of the adsorption assembly penetrates through the through hole in the placement plate to adsorb a flexible product, at the moment, the adsorption end of the adsorption assembly faces downwards, a platform for placing the product is made of a hard material, the adsorption end is made of a soft material, soft to hard adsorption can be achieved, the adsorption assembly is driven to ascend through the lifting assembly, the turnover assembly is driven to turn over, collision of the adsorption assembly can be avoided when the turnover occurs at a low position, the adsorption end of the adsorption assembly faces upwards after the turnover, the placement plate is enabled to ascend through the lifting structure connected to the placement plate, the flexible product stays on the placement plate, the turnover of the flexible product is completed at the moment, and is matched with another adsorption turnover device, and the soft adsorption end of the other adsorption turnover device is made of a hard material to adsorb the soft adsorption end of the other adsorption device on the placement plate, so that the soft turnover device is hard to realize soft to the product, the soft turnover operation is achieved again, and the soft turnover operation is easy to be easy to touch and bad to the soft product is avoided, and the soft product is easy to touch and bad when the soft product is kept.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a block diagram of an adsorption flip according to one embodiment of the present utility model;

FIG. 2 is a block diagram of an adsorbent assembly according to an embodiment of the present utility model;

fig. 3 is a block diagram of an adsorption assembly and a turnover assembly according to an embodiment of the present utility model.

The correspondence between the reference numerals and the component names in fig. 1 to 3 is:

100. an adsorption turnover device;

110. a lifting assembly; 120. an adsorption assembly; 130. a flip assembly;

111. a lifting module; 112. a lifting motor; 113. a connecting piece; 114. a connecting plate;

121. placing a plate; 122. a first base plate; 123. a connecting rod; 124. a lifting cylinder; 125. a housing; 126. a guide rail; 127. an extension rack; 128. a second base plate; 129. a buffer;

131. a turnover motor; 132. a speed reducer; 133. a mounting flange;

1271. a vertical rod; 1272. a cross bar; 1273. a first bar-shaped groove; 1274. a first sliding screw; 1275. a second bar-shaped groove; 1276. a second sliding screw; 1277. and (5) connecting a block.

Detailed Description

In order to better understand the above technical solutions, the following detailed description of the technical solutions of the embodiments of the present utility model is made by using the accompanying drawings and the specific embodiments, and it should be understood that the specific features of the embodiments of the present utility model are detailed descriptions of the technical solutions of the embodiments of the present utility model, and not limit the technical solutions of the present utility model, and the technical features of the embodiments of the present utility model may be combined with each other without conflict.

As shown in fig. 1-3, an adsorption and turnover device 100 according to an embodiment of the present utility model is provided, including: a lifting assembly 110; the adsorption component 120 is used for adsorbing a product, the adsorption component 120 is arranged on the lifting component 110, the lifting component 110 is used for driving the adsorption component 120 to ascend or descend, and the adsorption end of the adsorption component 120 is made of a soft material; the overturning assembly 130 is connected with the adsorption assembly 120, and the overturning assembly 130 is used for overturning the adsorption assembly 120; the adsorption component 120 further comprises a placement plate 121, the placement plate 121 is made of a hard material, the placement plate 121 is used for placing products after the adsorption component 120 is turned over, a through hole through which an adsorption end can pass is formed in the placement plate 121, and the placement plate 121 is connected to a lifting structure.

The adsorption turnover device 100 provided by the embodiment of the utility model comprises a lifting assembly 110, an adsorption assembly 120 and a turnover assembly 130, wherein the adsorption assembly 120 further comprises a placement plate 121, the placement plate 121 is connected to a lifting structure, a through hole through which an adsorption end can pass is formed in the placement plate 121, the placement plate 121 is of a hard structure, in the use process, the lifting assembly 110 drives the adsorption assembly 120 to descend, so that the soft adsorption end of the adsorption assembly 120 passes through the through hole in the placement plate 121 to adsorb a flexible product, at the moment, the adsorption end of the adsorption assembly 120 faces downwards, a platform for placing the product is made of a hard material, the adsorption end is made of a soft material, soft-to-hard adsorption can be realized, the adsorption assembly 120 is driven to ascend by the lifting assembly 110, the turnover assembly 130 drives the adsorption assembly 120 to overturn, the adsorption assembly 120 can be prevented from collision when the adsorption assembly 120 is overturned in a low position, the lifting structure connected to the placement plate 121 ascends, the flexible product stays on the placement plate 121, the overturning of the flexible product is completed at the moment, and is matched with another turnover device 100, and the soft product is easy to be in contact with another soft product, and the soft product is easy to be in contact with the soft product when the soft product is completely overturned, and the soft product is easy to be contacted with the soft product.

It will be appreciated that to prevent misalignment of the product, the placement plate 121 is only infinitely close to the product, and the product is not detached from the soft suction end.

The product applied by the device is not limited by the technical scheme, and in the embodiment, the product applied by the device is a mobile phone screen.

As shown in fig. 1-3, the adsorption assembly 120 further includes: a first base plate 122; a connecting rod 123, wherein the connecting rod 123 is fixedly connected to the first base plate 122; a suction nozzle, which is an adsorption end of the adsorption assembly 120 and is connected to one end of the connection rod 123; a lifting cylinder 124, wherein one end of the lifting cylinder 124 is connected to the first base plate 122, and the other end of the lifting cylinder 124 is connected to the placing plate 121; a housing 125, the housing 125 being disposed at a side remote from the placement plate 121 for protecting an internal structure of the adsorption assembly 120.

In this technical scheme, the adsorption component 120 still includes first base plate 122, connecting rod 123, suction nozzle, lift cylinder 124 and casing 125, wherein, connecting rod 123 fixed connection is in first base plate 122, and the suction nozzle is the adsorption end of adsorption component 120 and adopts flexible material, and set up in the one end of connecting rod 123, the suction mode of suction nozzle can adopt sucking disc or vacuum machine to provide the mode of negative pressure and accomplish the absorption, this technical scheme does not do not limit, the quantity of suction nozzle and connecting rod 123 is a plurality of, and evenly arrange on first base plate 122, its specific quantity and arrangement mode are not do limit, lift cylinder 124 just is the liftable structure of connecting place plate 121, after upset subassembly 130 control adsorption component 120 upset, lift cylinder 124 extends, the unlimited near product of drive place plate 121, in the use, the suction nozzle passes place plate 121 and adsorbs the product through the through-hole on placing plate 121 with the one end of connecting rod 123.

As shown in fig. 1-3, the adsorption assembly 120 further includes: the guide rail 126, the guide rail 126 is fixedly connected to the first base plate 122, and the guide rail 126 is movably connected to the placing plate 121.

In this technical scheme, add guide rail 126, this guide rail 126 and lift cylinder 124 set up respectively at two opposite sides of placing the board 121, can reach the effect that promotes the stability of placing the board 121, avoid placing the board 121 and rock when the butt joint and cause the product dislocation.

As shown in fig. 1-3, the adsorption assembly 120 further includes: an extension frame 127, wherein the extension frame 127 is disposed at a side of the first base plate 122 away from the lifting assembly 110; the extension frame 127 is provided with the connecting rod 123, and the connecting rod 123 is provided with the suction nozzle.

In this technical scheme, the adsorption component 120 further includes an extension frame 127, in the use, the product edge may exceed the projection range of the adsorption component 120, wherein the product is collided with the front of the device most easily, therefore, the extension frame 127 is disposed on one side of the first base plate 122 far away from the lifting component 110, thereby reducing the possibility of collision of the product, in this embodiment, the extension frame 127 can protect the circuit strip of the mobile phone screen from collision, meanwhile, the extension frame 127 is also provided with a connecting rod 123 and a suction nozzle, the suction nozzle and the suction nozzle connected to the rest are on the same side of the suction nozzle of the first base plate 122, the suction nozzle on the extension frame 127 can adsorb the product beyond the projection range of the first base plate 122, thereby increasing the stability of the product, further, the suction nozzle connected to the extension frame 127 is different from the rest in height, thereby realizing the attraction of the components of the products at different horizontal positions.

As shown in fig. 1-3, the adsorption assembly 120 further includes: a second base plate 128, wherein the second base plate 128 is disposed between the first base plate 122 and the housing 125, and a slot through which the connecting rod 123 can pass is formed in the second base plate 128; a buffer 129, one end of the buffer 129 is connected to the second base plate 128, and the other end of the buffer 129 is connected to the first base plate 122.

When the adsorption component 120 starts to move or stops moving, the product is easy to generate dislocation and even fall off due to inertia or vibration of the suction nozzle, in the technical scheme, the second base plate 128 and the buffer piece are additionally arranged, and the buffer piece is arranged on the second base plate 128, so that the buffer effect on the product is achieved.

As shown in fig. 1-3, the lifting assembly 110 includes: a lifting module 111, wherein the lifting module 111 is a telescopic rod; a lifting motor 112, wherein the lifting motor 112 is used for driving the lifting module 111 to complete extension and retraction; a connecting member 113, wherein the connecting member 113 is disposed at the lower end of the lifting module 111; the connecting plate 114, the connecting plate 114 is disposed at the telescopic end of the lifting module 111, and the lifting assembly 110 and the turning assembly 130 are connected through the connecting plate 114.

In this technical scheme, lifting assembly 110 includes lifting module 111, elevator motor 112, connecting piece 113 and connecting plate 114, and in the use, connecting plate 114 is connected with adsorption component 120, and every connecting plate 114 can be connected with a plurality of adsorption component 120, and in this embodiment, every connecting plate 114 is connected with two adsorption component 120, and connecting piece 113 set up in lifting assembly 110's lower extreme, connecting piece 113 are used for external support work piece, and in the use, when needing adsorption component 120 to descend, elevator motor 112 drive lifting module 111 is retracted, realizes that adsorption component 120 descends, and when needing adsorption component 120 to rise, elevator motor 112 drive lifting module 111 extends, realizes that adsorption component 120 rises.

As shown in fig. 1-3, the flipping assembly 130 includes: the overturning motor 131, the output end of the overturning motor 131 is connected to the adsorption assembly 120, and is used for overturning the adsorption assembly 120.

In this technical scheme, the turnover assembly 130 includes a turnover motor 131, an output end of the turnover motor 131 is connected with the adsorption assembly 120, when the adsorption assembly 120 is required to adsorb, the turnover motor 131 drives an adsorption end of the adsorption assembly 120 to face downwards/to a working table surface where a product is placed, and when the adsorption assembly 120 is required to butt against other mechanical arms and transfer the product, the turnover motor 131 drives the adsorption assembly 120 to rotate and enables the adsorption end to face upwards/away from the working table surface.

As shown in fig. 1-3, the flipping assembly 130 further comprises: a speed reducer 132, wherein the speed reducer 132 is arranged between the overturning motor 131 and the adsorption assembly 120; the installation flange 133, the one end of installation flange 133 is connected in the subassembly 120 absorbs, the other end of installation flange 133 is connected in the speed reducer 132, the speed reducer 132 with the subassembly 120 absorbs the subassembly and passes through the installation flange 133 is connected, and in this embodiment, the one side that second base plate 128 is close to lifting assembly 110 is equipped with the convex part that is used for connecting, installation flange 133 is connected with this convex part.

In this technical scheme, upset subassembly 130 still includes speed reducer 132 and mounting flange 133, and this setting can slow down the speed of absorption subassembly 120 upset, reduces the risk that the product drops or misplaces, has increased the stability of this product.

As shown in fig. 1 to 3, the extension frame 127 includes: the number of the vertical rods 1271 is two, one end of the vertical rod 1271 is connected to the first base plate 122, and a first bar-shaped groove 1273 is formed in the vertical rod 1271; a cross bar 1272, wherein two first sliding screws 1274 are arranged on the cross bar 1272, and the first sliding screws 1274 are slidably connected with the first strip-shaped grooves 1273; when the first sliding screw 1274 is not screwed down, the cross bar 1272 can slide on the vertical bar 1271 along the first bar slot 1273; when the first sliding screw 1274 is tightened, the cross bar 1272 and the vertical bar 1271 are fixed relatively.

In this technical solution, the extension rack 127 includes two vertical rods 1271 and a cross rod 1272, the vertical rod 1271 is provided with a first bar slot 1273, the cross rod 1272 is provided with two first sliding screws 1274, the cross rod 1272 is slidably and fixedly connected with the vertical rod 1271 through the first sliding screws 1274 and the first bar slot 1273, the cross rod 1272 is adjustable due to the arrangement, and the cross rod 1272 can be adjusted according to the range that the product exceeds the first base plate 122, so that the flexibility of the device is enhanced.

As shown in fig. 1-3, the extension block 127 further includes: a second bar slot 1275, said second bar slot 1275 being open to said cross bar 1272; a second sliding screw 1276, said second sliding screw 1276 being slidably connected to said second bar slot 1275; a connection block 1277, wherein the connection block 1277 is spirally connected to the second sliding screw 1276, and the extension frame 127 is connected with the connection rod 123 through the connection block 1277; when the second sliding screw 1276 is screwed down, the connecting block 1277 is fixed relative to the cross bar 1272; a suction nozzle assembly is disposed on the connection block 1277.

In this technical scheme, the extension frame 127 still includes connecting block 1277, is equipped with second bar groove 1275 on the horizontal pole 1272, is equipped with second sliding screw 1276 on the connecting block 1277, and connecting block 1277 is through second bar groove 1275 and second sliding screw 1276 slidable fixable's connection in horizontal pole 1272, and connecting block 1277 sets up on connecting rod 123, through this setting, makes the suction nozzle that sets up on the rack realize controlling the regulation around, can set up according to the characteristic of product, further promotes the flexibility of product.

In the present utility model, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more, unless expressly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "front", "rear", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or units referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. An adsorption turnover device, comprising:

a lifting assembly;

the adsorption component is used for adsorbing products, the adsorption component is arranged on the lifting component, the lifting component is used for driving the adsorption component to ascend or descend, and the adsorption end of the adsorption component is made of soft materials;

the overturning assembly is connected with the adsorption assembly and used for overturning the adsorption assembly;

the adsorption component is characterized by further comprising a placing plate which is made of hard materials, the placing plate is used for placing products after the adsorption component is turned over, a through hole through which an adsorption end can pass is formed in the placing plate, and the placing plate is connected to a lifting structure.

2. The adsorption flip device of claim 1, wherein the adsorption assembly further comprises:

a first base plate;

the connecting rod is fixedly connected to the first base plate;

the suction nozzle is an adsorption end of the adsorption component and is connected to one end of the connecting rod;

the lifting cylinder is connected with the first base plate at one end, and the placing plate is connected with the other end of the lifting cylinder;

the shell is arranged at one side far away from the placing plate and is used for protecting the internal structure of the adsorption component.

3. The adsorption flip device of claim 2, wherein the adsorption assembly further comprises:

the guide rail is fixedly connected to the first base plate and movably connected to the placing plate.

4. The adsorption flip device of claim 2, wherein the adsorption assembly further comprises:

an extension frame, the extension frame is arranged at one side of the first base plate far away from the lifting assembly;

the extension frame is provided with the connecting rod, and the connecting rod is provided with the suction nozzle.

5. The adsorption flip device of claim 2, wherein the adsorption assembly further comprises:

the second base plate is arranged between the first base plate and the shell, and a slot through which the connecting rod can pass is formed in the second base plate;

and one end of the buffer is connected with the second base plate, and the other end of the buffer is connected with the first base plate.

6. The adsorption turnover device of claim 1, wherein the lifting assembly comprises:

the lifting module is a telescopic rod;

the lifting motor is used for driving the lifting module to extend and/or retract;

the connecting piece is arranged at the lower end of the lifting module;

the connecting plate, the connecting plate set up in the flexible end of lifting module, lifting assembly with the upset subassembly is connected through the connecting plate.

7. The adsorption flip device of claim 1, wherein the flip assembly comprises:

and the output end of the turnover motor is connected with the adsorption component and used for turnover of the adsorption component.

8. The adsorption flip device of claim 7, wherein the flip assembly further comprises:

the speed reducer is arranged between the overturning motor and the adsorption component;

the adsorption component comprises an adsorption component, a speed reducer and an installation flange, wherein one end of the installation flange is connected with the adsorption component, the other end of the installation flange is connected with the speed reducer, and the speed reducer is connected with the adsorption component through the installation flange.

9. The adsorption turnover device of claim 4, wherein the extension frame comprises:

the two vertical rods are arranged, one end of each vertical rod is connected to the first base plate, and a first strip-shaped groove is formed in each vertical rod;

the transverse rod is provided with two first sliding screws which are slidably connected with the first strip-shaped groove;

when the first sliding screw is not screwed down, the cross rod can slide on the vertical rod along the first strip-shaped groove;

when the first sliding screw is screwed down, the cross rod and the vertical rod are relatively fixed.

10. The adsorption turnover device of claim 9, wherein the extension frame further comprises:

the second strip-shaped groove is formed in the cross rod;

the second sliding screw is connected with the second strip-shaped groove in a sliding way;

the connecting block is in spiral connection with the second sliding screw, and the extension frame is connected with the connecting rod through the connecting block;

when the second sliding screw is not screwed down, the connecting block and the cross rod can slide relatively;

when the second sliding screw is screwed down, the connecting block and the cross rod are relatively fixed.