CN220881401U - Positioning device and mobile phone screen processing equipment - Google Patents

Abstract

The utility model belongs to the technical field of mobile phone screen processing equipment, and particularly relates to a positioning device and mobile phone screen processing equipment. The positioning device comprises: the longitudinal positioning structure comprises longitudinal clamping pieces which are arranged in a sliding manner along a first direction and longitudinal driving components used for driving the longitudinal clamping pieces to slide, and the two longitudinal clamping pieces are arranged at intervals; the transverse positioning structure comprises transverse clamping pieces which are arranged in a sliding manner along a second direction and transverse driving components for driving the transverse clamping pieces to slide, and the transverse clamping pieces are arranged at intervals; the longitudinal driving component and the transverse driving component respectively drive the two longitudinal clamping pieces and the two transverse clamping pieces to move in opposite directions or move in opposite directions. According to the utility model, the mobile phone screen is clamped by the two longitudinal clamping pieces along the first direction, and the mobile phone screen is clamped by the two transverse clamping pieces along the second direction, so that the mobile phone screen is positioned, the positioning process is simple and is not influenced by suction fluctuation, and the processing precision of the subsequent mobile phone screen is improved.

Description

Positioning device and mobile phone screen processing equipment

Technical Field

The utility model belongs to the technical field of mobile phone accessory processing equipment, and particularly relates to a positioning device and mobile phone screen processing equipment.

Background

With the continuous development and progress of technological products, people have increasingly high requirements on electronic products, especially mobile phones. They want the mobile phone to be lighter, thinner and stronger to meet the daily use requirement. To produce high quality cell phone screens to meet market demands, manufacturers have used a variety of materials such as plastics, metals, and other lightweight yet strong materials. Thus, different types of mobile phone screens can be manufactured according to different requirements. In the processing process of the mobile phone screen, the front and back surfaces are required to be fixed by using a tooling fixture. This is because the processing of the cell phone screen requires highly accurate positioning.

A common positioning method is to suck the product by using a sucker to realize positioning. The cell phone screen is secured by creating a vacuum at the suction cup location. However, suction cup positioning is sometimes affected by fluctuations in suction, resulting in product sloshing or displacement. This may have an effect on the processing accuracy of the cell phone screen.

Disclosure of utility model

The embodiment of the application aims to provide a positioning device, which aims to solve the problems of positioning a mobile phone screen and improving the processing precision of the mobile phone screen.

In order to achieve the above purpose, the application adopts the following technical scheme:

In a first aspect, there is provided a positioning device comprising:

The longitudinal positioning structure comprises longitudinal clamping pieces which are arranged in a sliding manner along a first direction and longitudinal driving components used for driving the longitudinal clamping pieces to slide, and the two longitudinal clamping pieces are arranged at intervals; and

The transverse positioning structure comprises transverse clamping pieces which are arranged in a sliding manner along a second direction and transverse driving components used for driving the transverse clamping pieces to slide, and two transverse clamping pieces are arranged at intervals;

The first direction is orthogonal to the second direction, and the longitudinal driving assembly and the transverse driving assembly respectively drive the two longitudinal clamping pieces and the two transverse clamping pieces to move oppositely or move reversely.

In some embodiments, the longitudinal driving assembly includes a longitudinal driver and a longitudinal synchronous belt rotatably disposed, two belt surfaces of the longitudinal synchronous belt are respectively connected with two longitudinal clamping members, and the longitudinal driver is connected with and drives one of the longitudinal clamping members so as to realize opposite movement or opposite movement of the two longitudinal clamping members.

In some embodiments, the longitudinal driver is a longitudinal cylinder.

In some embodiments, the longitudinal driving assembly further includes a longitudinal synchronizing wheel engaged with the longitudinal synchronizing belt and a longitudinal supporting seat rotatably connected with the longitudinal synchronizing wheel and fixedly arranged, the longitudinal synchronizing wheels are arranged at two ends of the longitudinal synchronizing belt, and each longitudinal synchronizing wheel is correspondingly provided with one longitudinal supporting seat.

In some embodiments, the longitudinal clamping member comprises a longitudinal slide plate slidably disposed and connected to the longitudinal synchronous belt, a longitudinal cover plate connected to the longitudinal slide plate, and a longitudinal clamping arm disposed on the longitudinal cover plate, and the longitudinal driver is connected to one of the longitudinal slide plates.

In some embodiments, the transverse driving assembly includes a transverse driver and a transverse synchronous belt rotatably disposed, two belt surfaces of the transverse synchronous belt are respectively connected with two transverse clamping members, and the transverse driver is connected with and drives one of the transverse clamping members so as to realize opposite movement or opposite movement of the two transverse clamping members.

In some embodiments, the lateral driver is a lateral cylinder.

In some embodiments, the transverse driving assembly further comprises a transverse synchronizing wheel meshed with the transverse synchronizing belt and a transverse supporting seat rotationally connected with the transverse synchronizing wheel and fixedly arranged, the transverse synchronizing wheels are arranged at two ends of the transverse synchronizing belt, and each transverse synchronizing wheel is correspondingly provided with one transverse supporting seat.

In some embodiments, the transverse clamping member comprises a transverse sliding plate which is arranged in a sliding manner and is connected with the transverse synchronous belt, a transverse cover plate which is connected with the transverse sliding plate, and transverse clamping arms which are arranged on the transverse cover plate, wherein the transverse clamping arms are arranged at intervals, and the transverse driver is connected with one transverse sliding plate.

In a second aspect, a mobile phone screen processing device is provided, which includes the positioning device.

The application has the beneficial effects that: the positioning device comprises a longitudinal positioning structure and a transverse positioning structure, the longitudinal driving assembly drives the two longitudinal clamping pieces to move in opposite directions, and meanwhile, the transverse driving assembly drives the two transverse clamping pieces to move in opposite directions, so that the mobile phone screen is clamped by the two longitudinal clamping pieces along a first direction, and the mobile phone screen is clamped by the two transverse clamping pieces along a second direction, so that the positioning of the mobile phone screen is realized, the positioning process is simple and is not influenced by suction fluctuation, and the processing precision of the subsequent mobile phone screen is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or exemplary technical descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is a schematic perspective view of a positioning device according to an embodiment of the present application;

FIG. 2 is an exploded schematic view of the positioning device of FIG. 1;

FIG. 3 is a schematic perspective view of the longitudinal positioning structure of FIG. 2;

fig. 4 is a schematic perspective view of the lateral positioning structure of fig. 2.

Wherein, each reference sign in the figure:

100. A positioning device; 101. a face cover; 102. a base; 20. a longitudinal positioning structure; 30. a transverse positioning structure; 1011. a longitudinal positioning groove; 1012. a transverse positioning groove; 103. a mounting cavity; 21. a longitudinal clamping member; 22. a longitudinal drive assembly; 31. a transverse clamping member; 32. a lateral drive assembly; 211. a longitudinal clamping arm; 212. a longitudinal slide plate; 213. a longitudinal cover plate; 41. a longitudinal slide block; 42. a longitudinal guide rail; 43. a longitudinal synchronizing wheel; 43. a longitudinal support seat; 311. a transverse clamping arm; 312. a transverse slide plate; 313. a transverse cover plate; 51. a transverse slide block; 52. a transverse guide rail; 53. a transverse synchronizing wheel; 54. a transverse supporting seat; 221. a longitudinal synchronous belt; 321. a transverse synchronous belt; 2211. a longitudinal upper belt portion; 2212. a longitudinal lower belt portion; 3211. a lateral belt portion; 3212. a lateral lower belt portion; 44. a longitudinal support seat;

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. are based on the orientation or positional relationship shown in the drawings, are for convenience of description only, and are not intended to indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the application, and the specific meaning of the terms described above will be understood by those of ordinary skill in the art as appropriate. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Referring to fig. 1 to 4, an embodiment of the present application provides a positioning device 100 and a mobile phone screen processing apparatus with the same. The positioning device 100 is used for positioning a mobile phone screen so as to process the front surface of the mobile phone screen or the back surface of the mobile phone screen later. The mobile phone screen is placed on a horizontal plane, the first direction and the second direction are both along the horizontal direction, and the first direction and the second direction are orthogonally arranged.

The positioning device 100 includes a longitudinal positioning structure 20 and a lateral positioning structure 30.

Referring to fig. 1 to 4, the longitudinal positioning structure 20 includes a longitudinal clamping member 21 slidably disposed along a first direction and a longitudinal driving assembly 22 for driving the longitudinal clamping member 21 to slide, where two longitudinal clamping members 21 are disposed at intervals; it can be understood that the first direction is a longitudinal direction, that is, along the X-axis direction, the mobile phone screen is located between the clamping ends of the two longitudinal clamping members 21, and the two longitudinal clamping members 21 are driven by the longitudinal driving assembly 22 to move in opposite directions, so that the two longitudinal clamping members 21 clamp the mobile phone screen along the first direction, and the first-stage positioning of the mobile phone screen is achieved.

The transverse positioning structure 30 comprises transverse clamping pieces 31 which are arranged in a sliding manner along the second direction and transverse driving assemblies 32 for driving the transverse clamping pieces 31 to slide, and two transverse clamping pieces 31 are arranged at intervals; it can be understood that the first direction is a transverse direction, that is, along the Y-axis direction, the mobile phone screen is located between the clamping ends of the two transverse clamping members 31, and the two transverse clamping members 31 are driven to move in opposite directions by the transverse driving assembly 32, so that the two transverse clamping members 31 clamp the mobile phone screen along the second direction, and the second-stage positioning of the mobile phone screen is realized.

The positioning device 100 provided by the embodiment of the application comprises a longitudinal positioning structure 20 and a transverse positioning structure 30, the longitudinal driving component 22 drives the two longitudinal clamping pieces 21 to move oppositely, and the transverse driving component 32 drives the two transverse clamping pieces 31 to move oppositely, so that the mobile phone screen is clamped by the two longitudinal clamping pieces 21 along a first direction and is clamped by the two transverse clamping pieces 31 along a second direction, the positioning of the mobile phone screen is realized, the positioning process is simple and is not influenced by suction fluctuation, and the processing precision of the subsequent mobile phone screen is improved.

Referring to fig. 1 to 4, it can be understood that when the mobile phone screen is placed on a horizontal plane and the width direction and the length direction of the mobile phone screen are respectively offset or angled with respect to the first direction and the second direction, the positions of the mobile phone screen can be corrected and aligned by the longitudinal clamping member 21 and the transverse clamping member 31 during the process of clamping the mobile phone screen, so that the mobile phone screen can automatically rotate to a preset processing position, i.e. the width direction is consistent with the first direction, and the length direction is consistent with the second direction.

Referring to fig. 1 to fig. 4, it can be understood that the longitudinal driving assembly 22 and the transverse driving assembly 32 respectively drive the two longitudinal clamping members 21 and the two transverse clamping members 31 to move oppositely, that is, the longitudinal driving assembly 22 drives the two longitudinal clamping members 21 to move oppositely, and at the same time, the transverse driving assembly 32 drives the two transverse clamping members 31 to move oppositely, so that the two longitudinal clamping members 21 release the clamping of the mobile phone screen along the first direction, and the two transverse clamping members 31 release the clamping of the mobile phone screen along the second direction, thereby facilitating the removal of the mobile phone screen after processing.

Referring to fig. 1 to 4, in some embodiments, the longitudinal driving assembly 22 includes a longitudinal driver and a longitudinal synchronous belt 221 rotatably disposed, two belt surfaces of the longitudinal synchronous belt 221 are respectively connected to two longitudinal clamping members 21, and the longitudinal driver is connected to and drives one of the longitudinal clamping members 21 to realize opposite movement or opposite movement of the two longitudinal clamping members 21.

Referring to fig. 1 to 4, it can be understood that a plane defined by the rotation track of the longitudinal synchronous belt 221 is a vertical plane, both ends of the longitudinal synchronous belt 221 have rotation centers, and the two rotation centers divide the longitudinal synchronous belt 221 into a longitudinal upper belt portion 2211 and a longitudinal lower belt portion 2212, wherein one longitudinal clamping member 21 is connected to the longitudinal upper belt portion 2211, and the other longitudinal clamping member 21 is connected to the longitudinal lower belt portion 2212.

Referring to fig. 1 to 4, alternatively, the longitudinal driver drives one of the longitudinal clamping members 21 to move toward the other longitudinal clamping member 21, and simultaneously drives the longitudinal synchronous belt 221 to rotate clockwise around two rotation centers, and the rotation of the longitudinal synchronous belt 221 brings the two longitudinal clamping members 21 together synchronously to clamp the mobile phone screen; the longitudinal driver drives one of the longitudinal clamping members 21 to move away from the other longitudinal clamping member 21, and simultaneously drives the longitudinal synchronous belt 221 to rotate anticlockwise around two rotation centers, and the rotation of the longitudinal synchronous belt 221 enables the two longitudinal clamping members 21 to move away synchronously so as to loosen the clamping of the mobile phone screen.

Referring to fig. 1-4, in some embodiments, the longitudinal driver is a longitudinal cylinder. Optionally, the longitudinal cylinder has no step loss phenomenon compared with the servo motor, and has the characteristics of low cost, simple structure, and the following characteristics:

High power output: the longitudinal cylinders may provide higher force and power output. By compressing the air, the longitudinal cylinder can generate large thrust and movement speed.

Flexibility and adjustability: the output force and speed of the longitudinal cylinder can be controlled and adjusted by adjusting the air supply pressure and the design parameters of the longitudinal cylinder. This allows flexibility in the longitudinal cylinder in different applications, which can meet the needs of different working environments and working requirements.

Safety: the longitudinal cylinders use compressed air as a power source, and leakage of gas is less safety risk to the environment and operators than hydraulic systems. In addition, the longitudinal cylinders are free from risk of liquid leakage during operation, reducing maintenance and cleaning requirements.

Referring to fig. 1 to 4, in some embodiments, the longitudinal driving assembly 22 further includes a longitudinal synchronizing wheel 43 engaged with the longitudinal synchronizing belt 221 and a longitudinal supporting seat 44 rotatably connected to the longitudinal synchronizing wheel 43 and fixedly disposed, the longitudinal synchronizing wheels 43 are disposed at two ends of the longitudinal synchronizing belt 221, and one longitudinal supporting seat 44 is disposed corresponding to each longitudinal synchronizing wheel 43.

Alternatively, the two longitudinal synchronous wheels 43 are respectively disposed corresponding to the two rotation centers of the longitudinal synchronous belt 221, and the two longitudinal synchronous wheels 43 respectively engage with the two ends of the longitudinal synchronous belt 221, so that the rotation of the longitudinal synchronous belt 221 around the two rotation centers can be realized.

Referring to fig. 1 to 4, in some embodiments, the longitudinal clamping member 21 includes a longitudinal sliding plate 212 slidably disposed and connected to the longitudinal synchronous belt 221, a longitudinal cover plate 213 connected to the longitudinal sliding plate 212, and a longitudinal clamping arm 211 disposed on the longitudinal cover plate 213, and the longitudinal driver is connected to one of the longitudinal sliding plates 212.

Alternatively, one side of the longitudinal synchronous belt 221 is clamped between one of the longitudinal cover plates 213 and one of the longitudinal sliding plates 212, and the other side of the longitudinal synchronous belt 221 is clamped between the other longitudinal cover plate 213 and the other longitudinal sliding plate 212.

Referring to fig. 1 to 4, alternatively, the longitudinal slide 212 is slidably disposed in the first direction by a sliding fit of the longitudinal slide 41 and the longitudinal rail 42. The two longitudinal guide rails 42 are arranged at intervals, each guide rail is provided with a longitudinal sliding block 41, and two ends of the longitudinal sliding plate 212 are respectively connected with the two longitudinal sliding blocks 41, so that the longitudinal sliding blocks 41 and the longitudinal guide rails 42 can slide back and forth along the first direction under the guidance of the longitudinal sliding blocks 41 and the longitudinal guide rails 42.

Optionally, two longitudinal clamping arms 211 are arranged at intervals, and the two longitudinal clamping arms 211 synchronously abut against the mobile phone screen or synchronously separate from the mobile phone screen.

Referring to fig. 1 to 4, in some embodiments, the transverse driving assembly 32 includes a transverse driver and a transverse synchronous belt 321 rotatably disposed, two side belt surfaces of the transverse synchronous belt 321 are respectively connected to two transverse clamping members 31, and the transverse driver is connected to and drives one of the transverse clamping members 31 to realize opposite movement or opposite movement of the two transverse clamping members 31.

It is understood that the plane defined by the rotation track of the transverse synchronous belt 321 is a vertical plane, both ends of the transverse synchronous belt 321 have rotation centers, the two rotation centers divide the transverse synchronous belt 321 into a transverse belt portion 3211 and a transverse lower belt portion 3212, one transverse clamping member 31 is connected with the transverse belt portion 3211, and the other transverse clamping member 31 is connected with the transverse lower belt portion 3212.

Referring to fig. 1 to 4, alternatively, the transverse driver drives one of the transverse clamping members 31 to move towards the other transverse clamping member 31, and simultaneously drives the transverse synchronous belt 321 to rotate clockwise around two rotation centers, and the rotation of the transverse synchronous belt 321 makes the two transverse clamping members 31 synchronously close to clamp the mobile phone screen; the transverse driver drives one of the transverse clamping members 31 to move in a direction away from the other transverse clamping member 31, and simultaneously drives the transverse synchronous belt 321 to rotate anticlockwise around two rotation centers, and the rotation of the transverse synchronous belt 321 enables the two transverse clamping members 31 to move away synchronously so as to loosen the clamping of the mobile phone screen.

In some embodiments, the lateral driver is a lateral cylinder. Optionally, the transverse cylinder has no step loss phenomenon compared with the servo motor, and has the characteristics of low cost, simple structure, and the following characteristics:

High power output: the transverse cylinder may provide a higher force and power output. By compressing the air, the transverse cylinder can generate large thrust and movement speed.

Flexibility and adjustability: the output force and speed of the transverse cylinder can be controlled and adjusted by adjusting the air supply pressure and design parameters of the transverse cylinder. This allows flexibility in the lateral cylinder in different applications, which can meet the needs of different working environments and working requirements.

Safety: the transverse cylinders use compressed air as a power source, and leakage of gas is less safety risk to the environment and operators than hydraulic systems. In addition, the lateral cylinders are free from risk of liquid leakage during operation, reducing maintenance and cleaning requirements.

Referring to fig. 1 to 4, in some embodiments, the transverse driving assembly 32 further includes a transverse synchronizing wheel 53 engaged with the transverse synchronizing belt 321 and a transverse supporting seat 54 rotatably connected to the transverse synchronizing wheel 53 and fixedly disposed, the transverse synchronizing wheels 53 are disposed at two ends of the transverse synchronizing belt 321, and each transverse synchronizing wheel 53 is correspondingly disposed with one transverse supporting seat 54.

Alternatively, the two transverse synchronous wheels 53 are respectively disposed corresponding to two rotation centers of the transverse synchronous belt 321, and the two transverse synchronous wheels 53 respectively engage with two ends of the transverse synchronous belt 321, so that rotation of the transverse synchronous belt 321 around the two rotation centers can be achieved.

Referring to fig. 1 to 4, in some embodiments, the lateral clamping member 31 includes a lateral sliding plate 312 slidably disposed and connected to the lateral timing belt 321, a lateral cover plate 313 connected to the lateral sliding plate 312, and a lateral clamping arm 311 disposed on the lateral cover plate 313, and the lateral driver is connected to one of the lateral sliding plates 312.

Referring to fig. 1 to 4, alternatively, one side of the transverse synchronous belt 321 is clamped between one of the transverse cover plates 313 and one of the transverse sliding plates 312, and the other side of the transverse synchronous belt 321 is clamped between the other transverse cover plate 313 and the other transverse sliding plate 312.

Referring to fig. 1 to 4, alternatively, the lateral slide 312 is slidably disposed in the first direction by a sliding fit of the lateral slider 51 and the lateral guide rail 52. The two transverse guide rails 52 are arranged at intervals, each guide rail is provided with a transverse sliding block 51, and two ends of the transverse sliding plate 312 are respectively connected with the two transverse sliding blocks 51, so that the transverse sliding blocks 51 and the transverse guide rails 52 can slide back and forth along the first direction under the guidance of the transverse sliding blocks 51 and the transverse guide rails 52.

Optionally, the positioning device 100 further includes a base 102 and a cover 101 for placing a mobile phone screen, where the base 102 and the cover 101 together form a mounting cavity 103, and the longitudinal positioning mechanism and the transverse positioning mechanism 30 are located in the mounting cavity 103. The surface cover 101 is provided with a longitudinal positioning groove 1011 and a transverse positioning groove 1012, the longitudinal positioning groove 1011 and the transverse positioning groove 1012 are communicated with the mounting cavity 103, and each longitudinal clamping arm 211 is provided with a longitudinal positioning groove 1011. Each transverse clamping arm 311 is respectively provided with a transverse positioning groove 1012, and the longitudinal clamping arms 211 are exposed at the corresponding longitudinal positioning grooves 1011 so as to be convenient for abutting against the mobile phone screen positioned on the face cover 101; the lateral clamping arms 311 are exposed at the corresponding lateral positioning slots 1012 so as to abut against the mobile phone screen on the face cover 101.

Referring to fig. 1 to 4, it can be understood that when the mobile phone screen is placed on the face cover 101 and has a certain offset or angle, the longitudinal clamping arm 211 and the transverse clamping arm 311 correct the position of the mobile phone screen during the process of clamping the mobile phone screen, so that the mobile phone screen can automatically rotate to a preset processing position.

Referring to fig. 1 to fig. 4, the present utility model further provides a mobile phone screen processing device, where the mobile phone screen processing device includes a positioning device 100, and the specific structure of the positioning device 100 refers to the above embodiments, and since all the technical solutions of all the embodiments are adopted, all the beneficial effects brought by the technical solutions of the embodiments are also provided, and are not repeated herein.

In some embodiments, the cell phone screen processing apparatus further comprises a frame on which the positioning device 100 is placed.

The foregoing is merely an alternative embodiment of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A positioning device, comprising:

The longitudinal positioning structure comprises longitudinal clamping pieces which are arranged in a sliding manner along a first direction and longitudinal driving components used for driving the longitudinal clamping pieces to slide, and the two longitudinal clamping pieces are arranged at intervals; and

The transverse positioning structure comprises transverse clamping pieces which are arranged in a sliding manner along a second direction and transverse driving components used for driving the transverse clamping pieces to slide, and two transverse clamping pieces are arranged at intervals;

The first direction is orthogonal to the second direction, and the longitudinal driving assembly and the transverse driving assembly respectively drive the two longitudinal clamping pieces and the two transverse clamping pieces to move oppositely or move reversely.

2. The positioning device of claim 1, wherein: the longitudinal driving assembly comprises a longitudinal driver and a longitudinal synchronous belt which is rotatably arranged, two side belt surfaces of the longitudinal synchronous belt are respectively connected with two longitudinal clamping pieces, and the longitudinal driver is connected with and drives one of the longitudinal clamping pieces so as to realize opposite movement or opposite movement of the two longitudinal clamping pieces.

3. The positioning device of claim 2, wherein: the longitudinal driver is a longitudinal cylinder.

4. The positioning device of claim 2, wherein: the longitudinal driving assembly further comprises longitudinal synchronous wheels meshed with the longitudinal synchronous belt and longitudinal supporting seats which are rotationally connected with the longitudinal synchronous wheels and fixedly arranged, the longitudinal synchronous wheels are arranged at two ends of the longitudinal synchronous belt, and each longitudinal synchronous wheel is correspondingly provided with one longitudinal supporting seat.

5. The positioning device of claim 2, wherein: the longitudinal clamping piece comprises a longitudinal sliding plate which is arranged in a sliding manner and is connected with the longitudinal synchronous belt, a longitudinal cover plate which is connected with the longitudinal sliding plate, and a longitudinal clamping arm which is arranged on the longitudinal cover plate, and the longitudinal driver is connected with one of the longitudinal sliding plates.

6. A positioning device as in any of claims 1-5 wherein: the transverse driving assembly comprises a transverse driver and a transverse synchronous belt which is rotationally arranged, two lateral clamping pieces are respectively connected with two lateral belt surfaces of the transverse synchronous belt, and the transverse driver is connected with and drives one of the lateral clamping pieces so as to realize opposite movement or opposite movement of the two lateral clamping pieces.

7. The positioning device of claim 6, wherein: the transverse driver is a transverse cylinder.

8. The positioning device of claim 6, wherein: the transverse driving assembly further comprises transverse synchronous wheels meshed with the transverse synchronous belt and transverse supporting seats which are rotationally connected with the transverse synchronous wheels and fixedly arranged, the transverse synchronous wheels are arranged at two ends of the transverse synchronous belt, and each transverse synchronous wheel is correspondingly provided with one transverse supporting seat.

9. The positioning device of claim 6, wherein: the transverse clamping piece comprises a transverse sliding plate, a transverse cover plate and transverse clamping arms, wherein the transverse sliding plate is arranged in a sliding mode and connected with the transverse synchronous belt, the transverse cover plate is connected with the transverse sliding plate, the transverse clamping arms are arranged on the transverse cover plate at intervals, and the transverse driver is connected with one transverse sliding plate.

10. A mobile screen processing device, characterized by comprising a positioning device according to any one of claims 1-9.