CN211926923U

CN211926923U - Detection equipment for alternately transmitting display screens

Info

Publication number: CN211926923U
Application number: CN202020670116.7U
Authority: CN
Inventors: 卢明珊; 谭建辉; 刘品德; 陈显峰; 王会
Original assignee: Suzhou Jiazhicai Optoelectronics Technology Co ltd
Current assignee: Suzhou Jiazhicai Optoelectronics Technology Co ltd
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-11-13
Anticipated expiration: 2030-04-27

Abstract

The utility model provides a conveying display screen's check out test set in turn, includes detection station and material loading station, its characterized in that: the detection equipment also comprises a conveying mechanism arranged at the feeding station; the conveying mechanism comprises a first display screen placing plate, a first reciprocating linear driving mechanism, a second display screen placing plate, a lifting mechanism and a second reciprocating linear driving mechanism; the first reciprocating linear driving mechanism acts on the first display screen placing plate and is used for driving the first display screen placing plate to move towards or away from the detection station, the lifting mechanism is arranged on the second reciprocating linear driving mechanism and is driven by the second reciprocating linear driving mechanism to move towards or away from the detection station, and the lifting mechanism acts on the second display screen placing plate and is used for driving the second display screen placing plate to ascend or descend.

Description

Detection equipment for alternately transmitting display screens

Technical Field

The utility model belongs to display screen detection area, concretely relates to check out test set of conveying display screen in turn.

Background

The transport mechanism who carries the display screen to detecting the station in the display screen check out test set mainly has two kinds at present, one kind is the carousel, is provided with a plurality of display screens on the carousel and places the position, places the display screen conveying that the position was to different detection station through the carousel rotation with each display screen, and the shortcoming of this carousel is: if the screen body is large in size, the diameter of the turntable needs to be correspondingly increased, and the large-diameter turntable is not easy to process and manufacture and is easy to deform in the using process; the other type is a single-layer detection platform, a material conveying mechanism of the single-layer detection platform can horizontally move to convey the display screen to a detection station, after the detection is finished, the material conveying mechanism of the single-layer detection platform returns, the screen body is taken down, the next display screen can be loaded, the time for waiting loading and unloading is longer, and the detection efficiency is lower.

Therefore, how to solve the above-mentioned deficiencies of the prior art is a problem to be solved by the present invention.

Disclosure of Invention

The utility model aims at providing a conveying display screen's check out test set in turn.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a conveying display screen's check out test set in turn, includes detection station and material loading station, its characterized in that: the detection equipment further comprises a conveying mechanism arranged at the feeding station;

the conveying mechanism comprises a first display screen placing plate, a first reciprocating linear driving mechanism, a second display screen placing plate, a lifting mechanism and a second reciprocating linear driving mechanism;

the first reciprocating linear driving mechanism acts on the first display screen placing plate and is used for driving the first display screen placing plate to move towards or away from the detection station;

the first display screen placing plate and the second display screen placing plate are both provided with an initial position, when the first display screen placing plate and the second display screen placing plate are located at the initial positions, the second display screen placing plate is located below the first display screen placing plate, when the first display screen placing plate moves towards the detection station, the second display screen placing plate is driven by the lifting mechanism to ascend, so that a vacancy left after the first display screen placing plate leaves is filled, when the first display screen placing plate returns, the second display screen placing plate descends and moves towards the detection station, and when the first display screen placing plate reaches the detection station, the second display screen placing plate ascends and fills the vacancy left after the first display screen placing plate leaves.

In the above scheme, two ends of the lifting mechanism are provided with a guide mechanism, and the lifting mechanism is driven by the second reciprocating linear driving mechanism to move along the guide mechanism.

In the above scheme, the first display screen placing plate and the second display screen placing plate both comprise an adjustable clamp for clamping and fixing the display screen.

In the above scheme, the adjustable clamp comprises two clamping plates which are arranged in parallel, one of the two clamping plates is fixedly connected to the top surface of the placing plate, the other clamping plate is connected to the placing plate in a sliding manner, and a screw rod nut mechanism is further acted on the clamping plate.

In the above scheme, the two first reciprocating linear driving mechanisms are arranged in parallel relatively, and the first display screen placing plate is located between the two first reciprocating linear driving mechanisms.

In the above scheme, the first reciprocating linear driving mechanism and the second reciprocating linear driving mechanism are both one of a screw rod module or a linear motor.

The utility model discloses has following effect: the utility model discloses a detection equipment adopts double-deck testing platform in turn, place the board motion when detecting the station at upper display screen, lower floor's display screen is placed the board and can be promoted simultaneously and carry out the material loading to material loading station department, treat that upper display screen places the board return after, lower floor's display screen is placed the board and is carried the display screen again to detecting the station, carry out circulation detection in turn, so that carry out continuous material loading, the middle latency has been saved, the detection efficiency is improved, and reduce manpower resources, the platform precision is higher simultaneously, the reliability is better.

Drawings

Fig. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a top view of an embodiment of the present invention;

fig. 3 is a side view of an embodiment of the present invention.

In the above drawings: 1-detection station, 2-feeding station, 3-conveying mechanism, 31-first display screen placing plate, 32-first reciprocating linear driving mechanism, 33-second display screen placing plate, 34-lifting mechanism and 35-second reciprocating linear driving mechanism.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

example (b): referring to FIG. 1: the utility model provides a conveying display screen's check out test set in turn, includes detection station 1 and material loading station 2, its characterized in that: the detection equipment further comprises a conveying mechanism 3 arranged at the feeding station 2;

referring to fig. 2-3, the conveying mechanism 3 includes a first display screen placing plate 31, a first reciprocating linear driving mechanism 32, a second display screen placing plate 33, a lifting mechanism 34, and a second reciprocating linear driving mechanism 35;

the first reciprocating linear driving mechanism 32 acts on the first display screen placing plate 31 and is used for driving the first display screen placing plate 31 to move towards or away from the detection station 1, the lifting mechanism 34 is arranged on the second reciprocating linear driving mechanism 35 and is driven by the second reciprocating linear driving mechanism 35 to move towards or away from the detection station 1, and the lifting mechanism 34 acts on the second display screen placing plate 33 and is used for driving the second display screen placing plate 33 to ascend or descend;

the first display screen placing plate 31 and the second display screen placing plate 33 both have an initial position, when the first display screen placing plate 31 is located at the initial position, the second display screen placing plate 33 is located below the first display screen placing plate 31, when the first display screen placing plate 31 moves towards the detection station 1, the second display screen placing plate 33 is driven by the lifting mechanism 34 to ascend, so that a vacancy left after the first display screen placing plate 31 leaves is filled, when the first display screen placing plate 31 returns, the second display screen placing plate 33 descends and moves towards the detection station 1, and when the first display screen placing plate 31 reaches the detection station 1, the second display screen placing plate ascends again and fills a vacancy left after the first display screen placing plate 31 leaves.

Two ends of the lifting mechanism 34 are provided with a guide mechanism, and the lifting mechanism 34 is driven by a second reciprocating linear driving mechanism 35 to move along the guide mechanism.

The first display screen placing plate 31 and the second display screen placing plate 33 both include an adjustable clamp for clamping and fixing the display screen.

The adjustable fixture comprises two clamping plates which are arranged in parallel relatively, one of the two clamping plates is fixedly connected to the top surface of the placing plate, the other clamping plate is connected to the placing plate in a sliding mode, and a screw rod nut mechanism is further acted on the clamping plates.

The number of the first reciprocating linear driving mechanisms 32 is two, the two first reciprocating linear driving mechanisms 32 are arranged in parallel relatively, and the first display screen placing plate 31 is located between the two first reciprocating linear driving mechanisms 32.

The first reciprocating linear driving mechanism 32 and the second reciprocating linear driving mechanism 35 are both one of a screw rod module or a linear motor.

The plane of the first display screen placing plate 31 and the first reciprocating linear driving mechanism 32 is an upper platform, a power system of the upper platform is formed by matching a servo motor and a screw rod module, and the first display screen placing plate is similar to a gantry structure, strong in structural stability and convenient to operate. The dual-mode group servo motors move synchronously. The plane of the second reciprocating linear driving mechanism 35 is a lower platform. The lower platform horizontal motion is composed of an X-axis servo module and an auxiliary guide rail, the structure stability is strong, the operation is convenient, and the Z-axis motion is composed of two servo modules and driven simultaneously. The utility model discloses use servo motor with the cooperation of lead screw module, the precision of motion is high, improves the product yield.

The embodiment can detect various display screens, and is not limited specifically. But the invention is mainly characterized in that various display screens are alternately detected.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides a conveying display screen's check out test set in turn, includes detection station (1) and material loading station (2), its characterized in that: the detection equipment also comprises a conveying mechanism (3) arranged at the feeding station (2);

the conveying mechanism (3) comprises a first display screen placing plate (31), a first reciprocating linear driving mechanism (32), a second display screen placing plate (33), a lifting mechanism (34) and a second reciprocating linear driving mechanism (35);

the first reciprocating linear driving mechanism (32) acts on the first display screen placing plate (31) and is used for driving the first display screen placing plate (31) to move towards or away from the detection station (1), the lifting mechanism (34) is arranged on the second reciprocating linear driving mechanism (35) and is driven by the second reciprocating linear driving mechanism (35) to move towards or away from the detection station (1), and the lifting mechanism (34) acts on the second display screen placing plate (33) and is used for driving the second display screen placing plate (33) to ascend or descend;

the first display screen placing plate (31) and the second display screen placing plate (33) are both provided with an initial position, when the first display screen placing plate (31) is located at the initial position, the second display screen placing plate (33) is located below the first display screen placing plate (31), when the first display screen placing plate (31) moves towards the detection station (1), the second display screen placing plate (33) is driven to rise by the lifting mechanism (34) so as to fill a vacancy left after the first display screen placing plate (31) leaves, when the first display screen placing plate (31) returns, the second display screen placing plate (33) descends and moves towards the detection station (1), and when the first display screen placing plate reaches the detection station (1), the second display screen placing plate rises again and fills a vacancy left after the first display screen placing plate (31) leaves.

2. A device for detecting the alternate delivery of a display screen according to claim 1, wherein: and two ends of the lifting mechanism (34) are provided with a guide mechanism, and the lifting mechanism (34) is driven by a second reciprocating linear driving mechanism (35) to move along the guide mechanism.

3. A device for detecting the alternate delivery of a display screen according to claim 1, wherein: the first display screen placing plate (31) and the second display screen placing plate (33) both comprise adjustable clamps for clamping and fixing the display screens.

4. A device for detecting the alternate delivery of a display screen according to claim 3, wherein: the adjustable fixture comprises two clamping plates which are arranged in parallel relatively, one of the two clamping plates is fixedly connected to the top surface of the placing plate, the other clamping plate is connected to the placing plate in a sliding mode, and a screw rod nut mechanism is further acted on the clamping plates.

5. A device for detecting the alternate delivery of a display screen according to claim 1, wherein: the two first reciprocating linear driving mechanisms (32) are arranged, the two first reciprocating linear driving mechanisms (32) are arranged in parallel relatively, and the first display screen placing plate (31) is located between the two first reciprocating linear driving mechanisms (32).

6. A device for detecting the alternate delivery of a display screen according to claim 1, wherein: the first reciprocating linear driving mechanism (32) and the second reciprocating linear driving mechanism (35) are both one of a screw rod module or a linear motor.