CN212370507U - Material conveying device and online glue dispensing robot with same - Google Patents

Abstract

The utility model discloses a material conveyor and have this material conveyor's doubling point and glue robot, material conveyor includes: a base frame; the first conveying unit is arranged on the base frame; the second conveying unit is arranged on the base frame; the transfer assembly is arranged on the base frame and can convert the materials between the first conveying unit and the second conveying unit; the transfer assembly includes: the material reversing module is arranged on the base frame and can move between the first conveying unit and the second conveying unit; the material taking module is connected with the material reversing module and can move between the material port of the first conveying unit and the material port of the second conveying unit under the driving of the material reversing module so as to convert materials between the first conveying unit and the second conveying unit. The material conveying device improves the efficiency of batch production and can be suitable for single-process production and multi-process combined production.

Description

Material conveying device and online glue dispensing robot with same

Technical Field

The utility model belongs to the technical field of the point gum machine, concretely relates to material conveyor and have this material conveyor's parallel line point and glue robot.

Background

As the production technology is continuously developed and advanced, more automatic production equipment is applied to each manufacturing working condition station in the manufacturing industry. In order to improve the production efficiency, a plurality of process production lines are often required to be adopted to carry out simultaneously, so that the mass production is realized. At present, the materials are manually switched between two conveying lines, the automation degree is low, and the production speed is greatly reduced.

For example: the technical field of dispenser, the present dispensing mode usually depends on manual feeding and discharging, auxiliary positioning of tooling, and dispensing treatment is carried out on a group of products, so that the operation speed is low, the efficiency is low, and the whole production requirement is influenced. Along with the improvement of product quality and productivity requirements, multiple processes need to be carried out on related products simultaneously in the actual production process, and full-automatic assembly line large-batch production is carried out, so that line body balance of different processes is realized. Therefore, in order to meet the requirement of large-scale automatic industrial production, a doubling dispenser is needed to be developed, so that multiple processes can be combined randomly, and the market requirement is met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

Therefore, the utility model provides a material conveying device, this material conveying device can make the material change between two transfer chains to according to the technology demand, and the direction of delivery of adjustment material, corresponding improvement production efficiency.

In order to solve the technical problem, the utility model provides a following technical scheme: a material transfer device comprising: a base frame; the first conveying unit is arranged on the base frame; the second conveying unit is arranged on the base frame; the transfer assembly is arranged on the base frame and can convert materials between the first conveying unit and the second conveying unit; the transfer assembly includes: the material reversing module is arranged on the base frame and can move between the first conveying unit and the second conveying unit; the material taking module is connected with the material reversing module and can move between the material port position of the first conveying unit and the material port position of the second conveying unit under the driving of the material reversing module so as to convert the materials between the first conveying unit and the second conveying unit.

The utility model discloses a material conveyor get material module through material switching-over module drive get material module first conveying unit's material mouth position with the activity between the material mouth position of second conveying unit to realize the conversion and the distribution of material between two conveying units through getting material module, this material conveyor can be according to different production technology and the selective transport the material to that one conveying unit that corresponds in two conveying units. The material conveying device has the advantages of high production efficiency, strong flexibility, suitability for batch product production and the like.

According to the utility model discloses an embodiment, first conveying unit's material mouth position with second conveying unit's material mouth position with be equipped with movable space between the transportation subassembly.

According to the utility model discloses an embodiment, first conveying unit with second conveying unit includes respectively: the guide rail is provided with a transmission part for bearing and conveying the material; the transfer assembly further comprises: the lifting module is respectively connected with the material reversing module and the material taking module, and the lifting module can lift or reduce the height of the material taking module.

According to the utility model discloses an embodiment, material switching-over module includes: the reversing motion assembly is arranged on the base frame and is connected with the lifting module; the reversing driving assembly is arranged on the base frame and connected with the reversing motion assembly, and the reversing driving assembly can drive the reversing motion assembly to drive the lifting module to move.

According to the utility model discloses an embodiment, the switching-over motion subassembly includes: the reversing motion assembly bottom plate is arranged on the base frame; the reversing motion assembly main body is connected with the base frame through the reversing motion assembly bottom plate and arranged between the first conveying unit and the second conveying unit; the reversing movement assembly moving block is movably arranged on the reversing movement assembly main body.

According to the utility model discloses an embodiment, the lift module includes: the lifting motion assembly is respectively connected with the reversing motion assembly moving block and the material taking module; the lifting driving assembly is connected with the lifting motion assembly to drive the material taking module to take the materials out of the transmission parts or place the materials on the corresponding transmission parts.

According to the utility model discloses an embodiment, the elevating movement subassembly includes: the lifting motion assembly bottom plate is connected with the reversing motion assembly moving block; the lifting motion assembly main body is connected with the lifting motion assembly bottom plate; the lifting motion component screw pair is connected with the lifting driving component; the lifting motion assembly sliding pair is respectively connected with the lifting motion assembly screw pair and the material taking module, and the lifting motion assembly sliding pair can drive the material taking module to lift and move on the lifting motion assembly main body through the lifting motion assembly screw pair.

According to the utility model discloses an embodiment, the quantity of guide rail is two, two the guide rail spaced apart and relative setting, two interval between the guide rail is adjustable.

According to an embodiment of the present invention, the transfer assembly is provided on one side of the guide rail along its axial extension line.

According to the utility model discloses an embodiment, get the material module and include: the bracket bottom plate is connected with the lifting module; the bracket is connected with the bracket bottom plate; and the adsorption component is connected with the bracket and can generate adsorption force on the material.

According to the utility model discloses an embodiment, the adsorption component includes: the sucking disc is arranged on the bearing surface and used for adsorbing the materials.

The utility model discloses still provide a doubling point and glue robot, this doubling point and glue robot includes that two at least adjacent above-mentioned of setting are arbitrary material conveyor, each material conveyor's feed side and discharge side all are equipped with the transportation subassembly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1a to fig. 1f are schematic diagrams illustrating a material conveying device according to an embodiment of the present invention, which switches a material from one of conveying units to the other conveying unit through a transfer assembly;

fig. 2 is a schematic perspective view of a transfer assembly of a material transfer device according to an embodiment of the present invention;

fig. 3 is a schematic front view of a transfer assembly of a material transfer device according to an embodiment of the present invention;

fig. 4 is a right side view of a transfer assembly of a material transfer device in accordance with an embodiment of the present invention;

fig. 5 is a left side view of the transfer assembly of the material conveying apparatus according to the embodiment of the present invention.

Reference numerals:

a material conveying device 100;

a base frame 10;

a first conveying unit 20;

a second conveying unit 30;

a transfer assembly 40;

a material reversing module 41;

a take-off module 42; the tray bottom plate 42 a; a bracket 42 b; the adsorption component 42 c;

a lifting module 43; the elevation drive unit 43 b; the elevating moving assembly base plate 43 c; the elevating movement member main body 43 d; a lifting movement assembly screw pair 43 e; a lifting moving assembly sliding pair 43 f;

a reverse motion assembly 44; a reverse motion assembly base plate 44 a; a reverse motion assembly body 44 b; the reversing moving-member moving block 44 c;

the drive assembly 45 is reversed.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following describes the material conveying apparatus 100 according to an embodiment of the present invention with reference to the drawings.

As shown in fig. 1a to 1f and fig. 2 to 5, a material conveying device 100 according to an embodiment of the present invention includes: a base frame 10, a first conveyor unit 20, a second conveyor unit 30, and a transfer assembly 40. The transfer assembly 40 includes a material diverting module 41 and a material extraction module 42.

Specifically, the first conveying unit 20 is disposed on the base frame 10, the second conveying unit 30 is disposed on the base frame 10, and the transferring assembly 40 is disposed on the base frame 10 and can transfer the material between the first conveying unit 20 and the second conveying unit 30. The material reversing module 41 is disposed on the base frame 10 and can be movable between the first conveying unit 20 and the second conveying unit 30. The material taking module 42 is connected to the material reversing module 41 and is driven by the material reversing module 41 to move between a material opening position of the first conveying unit 20 and a material opening position of the second conveying unit 30 so as to switch the material between the first conveying unit 20 and the second conveying unit 30.

In other words, the material conveying apparatus 100 according to the embodiment of the present invention includes the base frame 10, the first conveying unit 20, the second conveying unit 30, and the transferring assembly 40. The transfer assembly 40 includes a material diverting module 41 and a material extraction module 42. The first conveying unit 20 and the second conveying unit 30 are mounted on the base frame 10, and when the materials are fed in the previous process, the incoming materials can be conveyed to the first conveying unit 20 or the second conveying unit 30 through the transfer assembly 40 according to the process requirements. Specifically, the material reversing module 41 is arranged on the base frame 10, and the material taking module 42 connected with the material reversing module 41 can be driven to move back and forth between the material opening position of the first conveying unit 20 and the material opening position of the second conveying unit 30 by adopting the material reversing module 41, so that the conversion of the material between the first conveying unit 20 and the second conveying unit 30 is realized. It should be noted that the material openings of the first conveying unit 20 and the second conveying unit 30 may be a material inlet opening or a material outlet opening.

Therefore, according to the utility model discloses material conveying device 100, get the material module 42 through the drive of material switching-over module 41 and move between the material mouth position of first conveying unit 20 and the material mouth position of second conveying unit 30 to through getting material module 42 and realizing the conversion and the distribution of material between first conveying unit 20 and second conveying unit 30, this material conveying device 100 can be according to different production technologies and the selective material that transports to corresponding one of first conveying unit 20 and second conveying unit 30. The material conveying device 100 has the advantages of high production efficiency, strong flexibility, suitability for batch product production and the like.

The first conveying unit 20 and/or the second conveying unit 30 may be provided with a working unit, and the working units corresponding to the first conveying unit 20 and the second conveying unit 30 may be the same or different, and may implement the same process production or different process production. When a working unit is provided on one of the first and second conveying units 20 and 30 and a working unit is not provided on the other, the first and second conveying units 20 and 30 may function as a working unit and a common conveying unit, respectively. Furthermore, according to the utility model discloses material conveying device 100 can also cooperate and be equipped with supplied materials detection assembly, judges to carry the material to first conveying unit 20 or second conveying unit 30 according to supplied materials detection assembly. When the working units are provided on both the first conveying unit 20 and the second conveying unit 30, and when the working unit corresponding to one of the first conveying unit 20 and the second conveying unit 30 is out of operation, the transferring assembly 40 may automatically convey the material to the working unit corresponding to the other one of the first conveying unit 20 and the second conveying unit 30.

According to an embodiment of the present invention, a movable space is provided between the material opening position of the first conveying unit 20 and the material opening position of the second conveying unit 30 and the transferring component 40, that is, the transferring component 40 can move in the movable space to realize the material to be transferred back and forth between the first conveying unit 20 and the second conveying unit 30. The movable space comprises an upper movable space and a lower movable space, the upper movable space is located above the first conveying unit 20 and the second conveying unit 30, the lower movable space is located above the first conveying unit 20 and the second conveying unit 30, the material is driven by the transferring component 40 to be switched back and forth between the first conveying unit 20 and the second conveying unit 30 through the upper movable space, and the transferring component 40 can be quickly reset and wait for the next material after the material is placed on the corresponding guide rail through the lower movable space.

In some embodiments of the present invention, the first conveying unit 20 and the second conveying unit 30 respectively include a guide rail, and a transmission member, such as a conveyor belt, for carrying and conveying the material is disposed on the guide rail. The transfer assembly 40 further includes a lifting module 43, the lifting module 43 is respectively connected to the material reversing module 41 and the material taking module 42, and the lifting module 43 can raise or lower the height of the material taking module 42, that is, the lifting module 43 can move the material taking module 42 to the material opening position of the first conveying unit 20 or the material opening position of the second conveying unit 30 by a corresponding height.

Further, the material reversing module 41 includes: the reversing mechanism comprises a reversing movement assembly 44 and a reversing driving assembly 45, wherein the reversing movement assembly 44 is arranged on the base frame 10 and is connected with the lifting module 43, the reversing driving assembly 45 is arranged on the base frame 10 and is connected with the reversing movement assembly 44, and the reversing driving assembly 45 can drive the reversing movement assembly 44 to drive the lifting module 43 to move.

Optionally, the reversing motion assembly 44 comprises: a reversing motion assembly base plate 44a, a reversing motion assembly body 44b, and a reversing motion assembly moving block 44 c. The reversing movement assembly base plate 44a is arranged on the base frame 10, the reversing movement assembly main body 44b is connected with the base frame 10 through the reversing movement assembly base plate 44a, the reversing movement assembly base plate 44a can fix the reversing movement assembly main body 44b on the base frame 10, the reversing movement assembly main body 44b is arranged between the first conveying unit 20 and the second conveying unit 30, and the reversing movement assembly moving block 44c is movably arranged on the reversing movement assembly main body 44 b.

That is, lateral movement is enabled by the material diverting module 41, and the diverting drive assembly 45 may include a diverting drive motor, a diverting drive pulley set, and a diverting drive mounting bracket. The operation flow of the transverse movement comprises the following steps: the main machine controls the reversing driving motor to be electrified to drive the reversing driving pulley pair to rotate positively and negatively, one end of the reversing driving pulley pair is arranged on an output shaft of the reversing driving motor, and the other end of the reversing driving pulley pair is arranged on an input shaft of the reversing moving part main body, so that the rotary motion of the reversing driving motor is converted into the reciprocating motion of the reversing motion component moving block 44 c.

Wherein, the reversing drive mounting bracket can play a role in fixing the relative positions of the reversing drive assembly 45 and the reversing motion assembly 44. The reversing driving pulley pair is a pair of rotating pairs consisting of a group of synchronous pulleys and a belt. The reversing movement assembly moving block 44c serves to fix the lifting module 43 and drive the lifting module 43 to reciprocate on the material reversing module 41.

As shown in fig. 2 to 5, according to one implementation of the present invention, the lifting module 43 includes: an elevation motion assembly and an elevation drive assembly 43 b. The lifting motion assembly is respectively connected with the reversing motion assembly moving block 44c and the material taking module 42. The lifting drive assembly 43b is connected to the lifting motion assembly to drive the material taking module 42 to take out the material on the transmission member or place the material on the corresponding transmission member. The lifting drive assembly 43b includes a lifting drive motor, a reversing lifting pulley set and a lifting drive mounting bracket.

In some embodiments of the present invention, the elevating movement assembly comprises: an elevating movement assembly bottom plate 43c, an elevating movement assembly main body 43d, an elevating movement assembly screw pair 43e, and an elevating movement assembly slide pair 43 f. The lifting motion assembly bottom plate 43c is connected with the reversing motion assembly moving block 44c, the lifting motion assembly main body 43d is connected with the lifting motion assembly bottom plate 43c, the lifting motion assembly screw pair 43e is connected with the lifting driving assembly 43b, the lifting motion assembly sliding pair 43f is respectively connected with the lifting motion assembly screw pair 43e and the material taking module 42, and the lifting motion assembly sliding amplitude can drive the material taking module 42 to move up and down on the lifting motion assembly main body 43d through the lifting motion assembly screw pair 43 e.

According to an embodiment of the present invention, the number of guide rails is two. The two guide rails are spaced and oppositely arranged, the distance between the two guide rails is adjustable, and the materials with different specifications and sizes can be conveyed by adjusting the spacing distance.

The operation flow of driving the material taking module 42 to move up and down through the lifting motion assembly is as follows: the host computer controls the power-on of the lifting driving motor to drive the lifting belt pulley pair to rotate positively and negatively, one end of the lifting belt pulley pair is arranged on an output shaft of the lifting driving motor, and the other end of the lifting belt pulley pair is arranged on an input shaft of the lifting motion assembly screw pair 43e, so that the rotating motion of the reversing driving motor is converted into the lifting motion of the lifting motion assembly sliding pair 43 f. Wherein the lifting movement assembly bottom plate 43c functions to fix the relative position of the reversing movement assembly moving block 44c and the lifting module 43. The lifting driving mounting bracket plays a role in fixing the relative position of the lifting driving motor and the lifting belt pulley pair. The lifting pulley pair is a pair of rotating pairs consisting of a group of synchronous pulleys and a belt. The lifting motion assembly screw pair 43e is a pair of rotation pairs consisting of a set of lead screws and nuts. The elevation movement assembly sliding pair 43f functions to fix the tray carrier module (the material taking module 42) and drives the tray carrier module to move up and down on the elevation movement assembly main body 43d through the elevation movement assembly screw pair 43 e.

It should be noted that the driving unit of the lifting module may be a screw motor, a cylinder, a linear motor, a belt drive, a chain drive, a magnetic wheel, or the like.

The conveying units of the first and second conveying units 20 and 30 may be belts, cylinders, linear motors, belt drives, chain drives, magnetic wheels, etc.

As shown in fig. 2, according to an embodiment of the present invention, the material taking module 42 includes: a carriage base plate 42a, a carriage 42b, and a suction assembly 42 c. The bracket bottom plate 42a is connected with the lifting module 43, the bracket 42b is connected with the bracket bottom plate 42a, and the adsorption component 42c is connected with the bracket 42b and can generate adsorption force on the material.

Further, the suction assembly 42c includes a suction cup. The sucking disc is arranged on the bearing surface and used for adsorbing materials, and the position of the sucking disc on the bracket 42b is adjustable. The sucking disc can play the effect such as buffering, support and avoid the material to produce the displacement in the switching-over process through negative pressure increase positive pressure.

The following describes in detail the work flow of the material conveying device 100 according to the embodiment of the present invention.

(1) Feeding process

As shown in fig. 1a, the material is conveyed from the front to the position of the feeding hole of the first conveying unit 20 or the second conveying unit 30, the sensing photoelectric sensing signal is sent to the host, as shown in fig. 1b, the lifting module 43 is controlled to lift from the lower part of the guide rail of the first conveying unit 20 or the second conveying unit 30, the material is lifted upwards to the upper part of the guide rail, as shown in fig. 1c and fig. 1d, and then the lifting module 43 drives the material to move transversely to the upper part of the second conveying unit 30 or the first conveying unit 20. As shown in fig. 1e, the lifting module 43 is lowered to completely drop the material onto the conveyor belt of the second conveyor unit 30 or the first conveyor unit 20. As shown in fig. 1f, after the material is conveyed to the corresponding guide rail, the host computer controls the main conveying module to continue conveying the material to the working area, and simultaneously the lifting module 43 is reset to the feeding and waiting jacking area from the lower part of the second conveying unit 30 or the first conveying unit 20.

(2) The blanking process (taking the example of blanking the material on the first conveying unit 20 corresponding to the previous process and conveying the material to the second conveying unit 30 corresponding to the next process)

After the material operation is completed, the host machine controls the material to be conveyed to the material waiting area of the first conveying unit 20 corresponding to the previous process, the induction photoelectric induction signal is sent to the host machine, the lifting module 43 is controlled to lift up from the lower part of the guide rail of the first conveying unit 20 corresponding to the previous process, and the material is lifted up to the upper part of the first conveying unit 20 corresponding to the previous process. The lifting module 43 drives the material to move transversely to the upper side of the guide rail corresponding to the second conveying unit 30 corresponding to the next procedure, the lifting module 43 descends to enable the material to fall on the conveying belt of the second conveying unit 30 corresponding to the next procedure completely, then the host controls the second conveying unit 30 corresponding to the next procedure to convey the material to the discharge port material waiting area, and meanwhile the lifting module 43 resets to the material waiting jacking area after the operation is completed from the lower side of the second conveying unit 30 corresponding to the next procedure.

The utility model discloses a rail transport and the switching-over of going up and down are plugged into and are combined together, and the supplied materials product comes out the operation in the past and accomplishes the product and send to the back end, and the overall process realizes controllable and full automatization.

To sum up, according to the utility model discloses material conveyor 100 is mainly by bed frame 10, first conveying unit 20, second conveying unit 30 and transportation subassembly 40 are constituteed, can realize that track transport and lift switching-over are plugged into and are combined together, realize batch production process controllability and full automatization, improve production efficiency, be applicable to single technology or multiple technology production, this material conveyor has saving manual work and energy, avoid manual operation's drawback, the technical requirement that better satisfied industrialization mass production and product were examined entirely, the traceability and the processing uniformity that make the product obtain advantages such as more perfect realization. The utility model discloses material conveyor 100 degree of automation is high, can combine present newest visual control and visual detection technique, makes the qualification rate of product improve greatly, can also make the false retrieval rate and leak the detection rate and fall to minimumly simultaneously.

According to the utility model discloses doubling point gluing robot includes according to the material conveyor 100 of above-mentioned embodiment, and the feed side and the discharge side of each material conveyor 100 all are equipped with transports subassembly 40, because according to the utility model discloses material conveyor 100 has above-mentioned technological effect, consequently, according to the utility model discloses doubling point gluing robot also has corresponding technological effect, can effectual improvement production efficiency promptly, can select single technology or many technology combination production according to the production demand.

It should be noted that, in the actual production process, when a plurality of machines are connected, the line body balance is mainly considered in the production line optimization. And the line body balance mainly considers the production quantity optimization balance among various production equipment. According to the utility model discloses doubling point gluing robot can satisfy the balanced demand of line body, on establishing in the basis of single technology optimization, considers the balance of output between multiple the same technology or the different technologies simultaneously, and material quantity places how much efficiency height is the highest on the first conveying unit 20 of every machine and second conveying unit 30 promptly. The production efficiency of the wire body after the balance can be greatly improved.

Other structures and operations of the doubling dispensing robot according to the embodiments of the present invention are understood and easily implemented by those skilled in the art, and thus will not be described in detail.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or 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 invention. In this specification, the schematic representations of the terms used above 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.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A material transfer device, comprising:

a base frame;

the first conveying unit is arranged on the base frame;

the second conveying unit is arranged on the base frame;

the transfer assembly is arranged on the base frame and can convert materials between the first conveying unit and the second conveying unit;

the transfer assembly includes:

the material reversing module is arranged on the base frame and can move between the first conveying unit and the second conveying unit;

the material taking module is connected with the material reversing module and can move between the material port position of the first conveying unit and the material port position of the second conveying unit under the driving of the material reversing module so as to convert the materials between the first conveying unit and the second conveying unit.

2. The material transfer device of claim 1, wherein: and a movable space is arranged between the material port position of the first conveying unit and the material port position of the second conveying unit and the transfer component.

3. The material transfer device of claim 1, wherein: the first conveying unit and the second conveying unit respectively include:

the guide rail is provided with a transmission part for bearing and conveying the material;

the transfer assembly further comprises:

the lifting module is respectively connected with the material reversing module and the material taking module, and the lifting module can lift or reduce the height of the material taking module.

4. The material transfer device of claim 3, wherein: the material reversing module comprises:

the reversing motion assembly is arranged on the base frame and is connected with the lifting module;

the reversing driving assembly is arranged on the base frame and connected with the reversing motion assembly, and the reversing driving assembly can drive the reversing motion assembly to drive the lifting module to move.

5. The material transfer device of claim 4, wherein: the reversing motion assembly comprises:

the reversing motion assembly bottom plate is arranged on the base frame;

the reversing motion assembly main body is connected with the base frame through the reversing motion assembly bottom plate and arranged between the first conveying unit and the second conveying unit;

the reversing movement assembly moving block is movably arranged on the reversing movement assembly main body.

6. The material transfer device of claim 5, wherein: the lifting module comprises:

the lifting motion assembly is respectively connected with the reversing motion assembly moving block and the material taking module;

the lifting driving assembly is connected with the lifting motion assembly to drive the material taking module to take the materials out of the transmission parts or place the materials on the corresponding transmission parts.

7. The material transfer device of claim 6, wherein: the elevating movement assembly includes:

the lifting motion assembly bottom plate is connected with the reversing motion assembly moving block;

the lifting motion assembly main body is connected with the lifting motion assembly bottom plate;

the lifting motion component screw pair is connected with the lifting driving component;

the lifting motion assembly sliding pair is respectively connected with the lifting motion assembly screw pair and the material taking module, and the lifting motion assembly sliding pair can drive the material taking module to lift and move on the lifting motion assembly main body through the lifting motion assembly screw pair.

8. The material transfer device of claim 3, wherein: the number of guide rails is two, two the guide rails are spaced apart and set up relatively, two the interval between the guide rail is adjustable.

9. The material transfer device of claim 3, wherein: the material taking module comprises:

the bracket bottom plate is connected with the lifting module;

the bracket is connected with the bracket bottom plate;

and the adsorption component is connected with the bracket and can generate adsorption force on the material.

10. The material transfer device of claim 9, wherein: the adsorption assembly includes:

the sucking disc is arranged on the bearing surface and used for adsorbing the materials.

11. The utility model provides a doubling point glues robot which characterized in that: comprising at least two adjacently arranged material conveying devices according to any one of claims 1 to 10, the material conveying devices each being provided with the transfer assembly on the feed side and the discharge side.

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