CN221173779U - High-efficient gas tightness check out test set - Google Patents

Abstract

The utility model discloses high-efficiency air tightness detection equipment which comprises a workbench, a mobile module, a carrier plate, product carriers, sealing mechanisms, an air inflation detection device, a pressing device and an identification device, wherein the carrier plate is driven by the mobile module to move, a plurality of groups of product carriers which are opposite to each other are arranged on the carrier plate, a sensor to be detected is placed on the carrier plate in a profiling mode, a group of sealing mechanisms are arranged between the two product carriers, the air inflation detection device which is opposite to the two product carriers is arranged on the workbench on the outer side of the product carrier, the pressing device for pressing the product and pressing the sealing mechanism is arranged above the carrier plate in a butt joint mode, the identification device for identifying the ID of the sensor is further arranged on the workbench, and the air inflation detection device and the identification device are electrically connected to a background upper computer. Through the mode, the utility model has ingenious design, can synchronously seal a plurality of products and detect the air tightness, has high detection efficiency, and can automatically identify the ID of the product and bind the detection data to the product.

Description

High-efficient gas tightness check out test set

Technical Field

The utility model relates to the technical field of detection, in particular to efficient air tightness detection equipment.

Background

The sensor is widely applied to various industrial automatic control environments, the stability of the performance output of the sensor is the direction in which we continuously improve, the tightness test of the sensor is also more and more important, after the sensor is assembled, the air tightness of the sensor is required to be detected, detection data and the sensor are bound, at present, a single product is sequentially placed on detection equipment for carrying out, then the sensor is carried on other equipment for identifying the sensor, then the detection data of the product is recorded by binding the product through the background, the efficiency is low, and the technical problem that how to set a device for clamping the sensor and test is urgently needed to be solved is solved.

Disclosure of utility model

The utility model mainly solves the technical problem of providing the high-efficiency air tightness detection equipment, which is ingenious in design, can synchronously seal and detect the air tightness of a plurality of products, has high detection efficiency, and can automatically identify the ID of the products and bind detection data to the products.

In order to solve the technical problems, the utility model adopts a technical scheme that: the utility model provides a high-efficient gas tightness check out test set, this kind of high-efficient gas tightness check out test set includes workstation, movable module, support plate, product carrier, sealing mechanism, inflation detection device, pushing device and recognition device, install movable module on the workstation, movable module drives the support plate and removes, is provided with the two-to-two opposite product carrier of a plurality of groups on the support plate, the profile modeling has placed the sensor that waits to detect on the support plate, is provided with a set of sealing mechanism between two product carriers, is provided with the inflation detection device relative with it on the workstation in the product carrier outside, and the butt joint of support plate top is provided with the pushing device that is used for pushing down product and pushing down sealing mechanism, still is provided with the recognition device that is used for discernment sensor ID on the workstation, and inflation detection device and recognition device are through electrically connected to the backstage host computer.

Preferably, the sealing mechanism comprises a fixed block, a lifting block, sliding blocks, elastic sealing pieces, connecting rods and tension springs, wherein the lifting block is vertically arranged on the fixed block, the sliding blocks are horizontally arranged in the fixed blocks on two sides of the lifting block, the lifting block is connected with the sliding blocks through guide inclined planes, the lifting block moves downwards to drive the two sliding blocks to slide outwards, the connecting rods penetrating through the fixed blocks are arranged at the side ends of the two sliding blocks, which are used for sealing products, of the outer end faces of the sliding blocks, and the two connecting rods are connected through the tension springs.

Preferably, the inflation detection device comprises a horizontal tail cylinder, an inflator and an inflation connector, wherein the inflator is arranged on a piston rod of the horizontal tail cylinder, one end of a product can be plugged by the inflator, an inflation channel is arranged in the inflator, the inflation channel is opposite to one end of the product, the inflator is provided with the inflation connector communicated with the inflation channel, the inflation connector is externally connected with inflation equipment through a pipeline, and a pressure sensor for measuring air pressure is arranged on the pipeline.

Preferably, the pressing device comprises a pressing support, a pressing cylinder arranged on the pressing support, a pressing plate driven by the pressing cylinder to move downwards, a pressing block arranged on the pressing plate and used for pressing products, and a pressing cylinder used for pressing a sealing mechanism.

Preferably, the identification device comprises a jacking cylinder, a sliding table cylinder, a push plate, a plug and a probe, wherein the jacking cylinder is arranged on the workbench through a bracket, the sliding table cylinder is arranged on the jacking part of the jacking cylinder and the workbench, the sliding table cylinder drives the push plate to move, a plurality of plugs matched with the product sockets are arranged on the push plate, and the probe is arranged in the plug.

Compared with the prior art, the utility model has the beneficial effects that:

When the lifting block is pressed down without external force, the two sliding blocks slide relatively under the tension of the tension spring, so that the product is avoided, and the feeding is convenient; after the product is installed in place, the lifting block moves downwards to drive the two sliding blocks to slide outwards, so that one end of the product is sealed;

The sealing mechanism is matched with the inflation detection device to block two ends of the product, so that air leakage at the opening of the product is avoided, and the inflation detection device is used for inflating the product and detecting the air tightness;

the inflation detection device and the identification device cooperate to identify the product ID and bind the detection result to the product.

Drawings

Fig. 1 is a schematic structural diagram of a high-efficiency air tightness detection device.

Fig. 2 is a schematic view of a part of a structure of a high-efficiency air tightness detecting apparatus.

Fig. 3 is a schematic structural diagram of a sealing mechanism of the high-efficiency air tightness detection device.

Fig. 4 is a cross-sectional view of a sealing mechanism of a high-efficiency airtight detecting apparatus.

The device comprises a workbench, a movable module, a carrier plate, a product carrier, a sealing mechanism, a fixed block, a lifting block, a sliding block, a spring sealing element, a connecting rod, a tension spring, an inflation detection device, a horizontal tail cylinder, a 62, an inflator, a 63, an inflation connector, a 7, a pressing device, a 71, a pressing support, a 72, a pressing cylinder, a 73, a pressing plate, a 74, a pressing plate, a 75, a pressing cylinder, a 8, an identification device, a 81, a lifting cylinder, a 82, a sliding table cylinder, a 83, a push plate, a 84, a plug, a 85 and a probe.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Referring to fig. 1 to 4, an embodiment of the present utility model includes:

The utility model provides a high-efficient gas tightness check out test set, this kind of high-efficient gas tightness check out test set includes workstation 1, removal module 2, carrier plate 3, product carrier 4, sealing mechanism 5, aerify detection device 6, push down device 7 and recognition device 8, install removal module 2 on the workstation 1, remove module 2 and drive carrier plate 3 and remove, carrier plate 3 passes through linear slide rail and workstation 1 sliding connection, be provided with a plurality of two sets of two relative product carrier 4 on the carrier plate 3, the profile modeling has placed the sensor that waits to detect on the carrier 4, be provided with a set of sealing mechanism 5 between two product carrier 4, be provided with the inflation detection device 6 that is relative to it on the workstation 1 in the product carrier 4 outside, the butt joint is provided with the push down device 7 that is used for pushing down product and pushes down sealing mechanism 5 above the carrier plate 3, still be provided with the recognition device 8 that are used for discernment sensor ID on the workstation 1, aerify detection device 6 and recognition device 8 are through electrical connection to the host computer in the backstage.

The sealing mechanism 5 comprises a fixed block 51, a lifting block 52, sliding blocks 53, elastic sealing elements 54, connecting rods 55 and tension springs 56, wherein the lifting block 52 is vertically arranged on the fixed block 51, the sliding blocks 53 are horizontally arranged in the fixed blocks 51 on two sides of the lifting block 52, the lifting block 52 and the sliding blocks 53 are connected through guide inclined planes, the lifting block 52 moves downwards to drive the two sliding blocks 53 to slide outwards, the connecting rods 55 penetrating through the fixed blocks 51 are arranged at the side ends of the two sliding blocks 53, used for sealing products, of the outer end faces of the sliding blocks 53, the two connecting rods 55 are connected through the tension springs 56, and when the lifting block 52 is pressed down without external force, the two sliding blocks 53 slide relatively under the tension of the tension springs 56, so that products are avoided, and feeding is facilitated.

The inflation detection device 6 comprises a horizontal tail cylinder 61, an inflator 62 and an inflation connector 63, the horizontal tail cylinder 61 is arranged on the workbench 1 through a bracket, the inflator 62 is arranged on a piston rod of the horizontal tail cylinder 61, one end of a product can be plugged by the inflator 62, an inflation channel is arranged in the inflator 62 and opposite to one end of the product, the inflation connector 63 communicated with the inflation channel is arranged on the inflator 62, the inflation connector 63 is externally connected with inflation equipment through a pipeline, and a pressure sensor for measuring air pressure is arranged on the pipeline.

The pressing device 7 comprises a pressing bracket 71, a pressing cylinder 72 arranged on the pressing bracket 71, a pressing plate 73 driven by the pressing cylinder 72 to move downwards, a pressing block 74 arranged on the pressing plate 73 and used for pressing products, and a pressing cylinder 75 used for pressing the sealing mechanism 5.

The identification device 8 comprises a jacking cylinder 81, a sliding table cylinder 82, a push plate 83, a plug 84 and a probe 85, wherein the jacking cylinder 81 is arranged on the workbench 1 through a bracket, the sliding table cylinder 82 is arranged on the jacking part of the jacking cylinder 81 and the workbench 1, the sliding table cylinder 82 drives the push plate 83 to move, a plurality of plugs 84 matched with product sockets are arranged on the push plate 83, the probe 85 is arranged in the plug 84, and the probe 85 is contacted with a product and is communicated with the product, so that the ID of the product can be identified.

When the high-efficiency air tightness detection device works, a worker sequentially places a product sensor on a product carrier 4, a moving module 2 moves a carrier plate 3 filled with the product to a detection position, a pressing device 7 starts to work, a pressing block 74 is driven by a pressing cylinder 72 to move downwards to press the product carrier 4 to press the sensor, a piston rod of the pressing cylinder 75 stretches out to drive a lifting block 52 of a sealing mechanism 5 to move downwards, the lifting block 52 moves downwards to drive two sliding blocks 53 to slide outwards, an elastic sealing piece 54 presses one end of the sensor to play a sealing role, meanwhile, an air tightness detection device 6 starts to work, a piston rod of a horizontal tail cylinder 61 stretches out to drive an inflator 62 to block the other end of the sensor, an identification device 8 starts to work to drive a plug 84 to be inserted into a socket of the sensor, an air inflation device externally connected with an air inflation joint 63 starts to inflate, a pressure sensor reads a pressure value, if the product leaks air, a reading of the pressure sensor is bigger, a probe 85 contacts with a sensor terminal and is communicated with the sensor, an ID of the product can be identified, and an air tightness detection result is bound to the product through the upper computer.

The high-efficiency air tightness detection device is ingenious in design, can synchronously seal and detect air tightness of a plurality of products, is high in detection efficiency, and can automatically identify product IDs and bind detection data to the products.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (5)

1. High-efficient gas tightness check out test set, its characterized in that: including workstation, removal module, support plate, product carrier, sealing mechanism, inflation detection device, pushing down device and recognition device, install the removal module on the workstation, remove the module and drive the support plate and remove, be provided with a plurality of group two-to-two opposite product carrier on the support plate, the profile modeling has placed the sensor of waiting to detect on the carrier, be provided with a set of sealing mechanism between two product carriers, be provided with the inflation detection device rather than opposite on the workstation in the product carrier outside, the butt joint of support plate top is provided with and is used for pushing down the product and pushes down sealing mechanism's pushing down device, still be provided with the recognition device that is used for discernment sensor ID on the workstation, inflation detection device and recognition device are through electrically connected to the backstage host computer.

2. The high-efficiency airtight detecting apparatus according to claim 1, wherein: the sealing mechanism comprises a fixed block, lifting blocks, sliding blocks, elastic sealing pieces, connecting rods and tension springs, wherein the lifting blocks are vertically arranged on the fixed block, the sliding blocks are horizontally arranged in the fixed blocks on two sides of the lifting blocks, the lifting blocks are connected with the sliding blocks through guide inclined planes, the lifting blocks move downwards to drive the two sliding blocks to slide outwards, the outer end faces of the sliding blocks are provided with the connecting rods which penetrate through the fixed blocks, and the two connecting rods are connected through the tension springs.

3. The high-efficiency airtight detecting apparatus according to claim 1, wherein: the inflation detection device comprises a horizontal tail cylinder, an inflator and an inflation connector, wherein the inflator is mounted on a piston rod of the horizontal tail cylinder, one end of a product can be plugged by the inflator, an inflation channel is arranged in the inflator, the inflation channel is opposite to one end of the product, the inflator is provided with the inflation connector communicated with the inflation channel, the inflation connector is externally connected with inflation equipment through a pipeline, and a pressure sensor for measuring air pressure is mounted on the pipeline.

4. The high-efficiency airtight detecting apparatus according to claim 1, wherein: the pressing device comprises a pressing support, a pressing cylinder arranged on the pressing support, a pressing plate driven by the pressing cylinder to move downwards, a pressing block arranged on the pressing plate and used for pressing products, and a pressing cylinder used for pressing a sealing mechanism.

5. The high-efficiency airtight detecting apparatus according to claim 1, wherein: the identification device comprises a jacking cylinder, a sliding table cylinder, a push plate, a plug and a probe, wherein the jacking cylinder is arranged on a workbench through a bracket, the sliding table cylinder is arranged on the jacking part of the jacking cylinder and the workbench, the sliding table cylinder drives the push plate to move, a plurality of plugs matched with the sockets of the products are arranged on the push plate, and the probe is arranged in the plug.