CN205373985U - A sealing mechanism that is used for missed measure examination platform in full -automatic cross valve - Google Patents

Abstract

The utility model provides a work efficiency is high, and with low costs, the potential safety hazard is little, can be fine and the feeding mechanism automation and the assorted a sealing mechanism that is used for missed measure examination platform in full -automatic cross valve of unloading mechanism. It includes frock bottom plate, ECS valve port seal assembly, the sealed needle tubing of ECS, both ends seal assembly, sealed subassembly, the sealed horizontal slip subassembly in ES capillary hole, ES capillary hole seal assembly, D pipe location seal assembly and the automatically controlled center of pushing down in ES capillary hole, be equipped with the sealed needle tubing of three ECS on the ECS valve port seal assembly, the D pipe location seal assembly be used for meeting with the right side valve port of cross valve, the sealed unit mount that pushes down in ES capillary hole is on the sealed horizontal slip subassembly in ES capillary hole, ECS valve port seal assembly, both ends seal assembly, sealed subassembly, the sealed horizontal slip subassembly in ES capillary hole and the D pipe location seal assembly of pushing down in ES capillary hole all are connected with automatically controlled well electrocardio.

Description

Sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard

Technical field

This utility model relates to a kind of sealing mechanism, specifically refers to a kind of sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard.

Background technology

Cross valve, refers to a kind of control valve with four blow vents.Cross valve is indispensable parts in refrigeration plant, its operation principle is, when electromagnetic valve coil is in off-position, pilot valve compresses on right side and moves to left under Spring driving, gases at high pressure enter right-hand member plunger shaft after entering capillary tube, on the other hand, the gas of left end plunger shaft is discharged, owing to piston two ends exist pressure reduction, piston and main slide valve move to left, making exhaustor communicate with off-premises station adapter, the adapter of two other root communicates, and forms kind of refrigeration cycle.When electromagnetic valve coil is in "on" position, pilot valve overcomes the tension force of compression spring to move to right under the magneticaction that solenoid produces, gases at high pressure enter left end plunger shaft after entering capillary tube, on the other hand, the gas of right-hand member plunger shaft is discharged, owing to piston two ends exist pressure reduction, piston and main slide valve move to right, making exhaustor communicate with indoor set adapter, the adapter of two other root communicates, and is formed and heats circulation.As shown in Figure 1, it mainly includes right side valve port 01, pilot valve 02 and left side valve port 03 to the concrete structure of cross valve；Described right side valve port 01 is an elongated copper pipe, and pilot valve 02 is one section of closed at both ends, the internally installed valve body having piston.Described left side valve port 03 is three short copper pipes.

Cross valve has important one operation in process of production, and namely its pressurization is tested, to prevent it from internal hemorrhage due to trauma in use occurring by internal hemorrhage due to trauma test by needs after cross valve produces finished product.In prior art, in internal hemorrhage due to trauma test, workpiece is sealed and pressurizes by a most important link exactly, then passes through its interior pressure change of detection and determines whether internal hemorrhage due to trauma.In prior art due to sealing mechanism operationally, loading and unloading are all by being accomplished manually, so the automaticity of sealing mechanism itself is also non-normally low, are mostly after being manually placed into workpiece, then are sealed by the artificial valve port to cross valve, then repressurization test.This full manual type, work efficiency is too low, and cost is high, dangerous again, also cannot match with automatic feed mechanism and cutting agency simultaneously.

Utility model content

It is high that the technical problems to be solved in the utility model is to provide a kind of work efficiency, and cost is low, and potential safety hazard is little, it is possible to the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard well matched with automatic feed mechanism and cutting agency.

For solving above-mentioned technical problem, the technical scheme that this utility model provides is: a kind of sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard, and it includes pressing assembly, ES pore sealed horizontal slide assemblies, ES pore black box, D pipe location sealing assembly and electronic management system under tool base plate, ECS sealing valve port assembly, ECS sealing needle tubing, two ends black box, the sealing of ES pore；Described ECS sealing valve port assembly, ECS seal and press assembly, ES pore sealed horizontal slide assemblies, ES pore black box, D pipe location sealing assembly and electronic management system to be mounted in tool base plate under needle tubing, two ends black box, the sealing of ES pore；Described ECS sealing valve port assembly is provided with three ECS and seals needle tubing；Described two ends black box is a pair clamp arm；Described ES pore seals pressure assembly down and includes two ES pore black boies；Described D pipe location sealing assembly is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly, two ends black box, ES pore seal and are provided with the riding position for laying cross valve workpiece between pressure assembly down；Described ES pore seals pressure assembly down and is installed on ES pore sealed horizontal slide assemblies；Described ECS sealing valve port assembly, two ends black box, ES pore press assembly, ES pore sealed horizontal slide assemblies and D pipe location sealing assembly all to electrically connect with electronic management system under sealing.

As preferably, described ECS sealing valve port assembly, ECS seal needle tubing, two ends black box, ES pore seal pressure assembly and ES pore black box down and all have at least two groups, at least two cross valve being carried out internal hemorrhage due to trauma test respectively simultaneously.

As preferably, described D pipe location sealing assembly is provided with the encoding pack of test structure for each cross valve of automatic labelling.

As preferably, described D pipe location sealing assembly being provided with the detection components that can be periodically subject to seal self-inspection.

As preferably, described ECS seals needle tubing and adopts O mechanical expanding compact form Hermetical connecting structure.

After adopting said structure, this utility model has the advantages that it includes pressing assembly, ES pore sealed horizontal slide assemblies, ES pore black box, D pipe location sealing assembly and electronic management system under tool base plate, ECS sealing valve port assembly, ECS sealing needle tubing, two ends black box, the sealing of ES pore.By mutually coordinated between each assembly, it is possible to well dock with the automatic feed mechanism in front and the automatic material blanking mechanism at rear, docking operation participates in without artificial hand merit, be automatically obtained by the electronic control cylinder on each assembly or linear module.Connecting tube adopts O-ring machinery tensioner mode to seal, and is matched in clearance, without friction, it is not necessary to oil lubrication during entrance valve body；Guarantee 6000 service lifes.Mechanism can be periodically subject to seal self-inspection and (may be set to startup self-detection, it is possible to separated in time carries out self-inspection.), it has been found that after seal failure, alarm.Guarantee to seal the erroneous judgement of the former flase drop thus resulted in because of frock.

In sum, it is high that this utility model provides a kind of work efficiency, and cost is low, and potential safety hazard is little, it is possible to the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard well matched with automatic feed mechanism and cutting agency.

Accompanying drawing explanation

Fig. 1 is the structural representation of cross valve in prior art.

Fig. 2 is this utility model structural representation for the sealing mechanism of full-automatic cross valve internal hemorrhage due to trauma testboard.

As shown in the figure: in prior art: 01, right side valve port, 02, pilot valve, 03, left side valve port.

In this utility model: 1, tool base plate, 2, ECS sealing valve port assembly, 3, ECS seals needle tubing, 4, two ends black box, 5, ES pore presses assembly under sealing, and 6, ES pore sealed horizontal slide assemblies, 7, ES pore black box, 8, D pipe location sealing assembly, 9, cross valve workpiece.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

In conjunction with accompanying drawing 2, a kind of sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard, it includes tool base plate 1, ECS sealing valve port assembly 2, ECS sealing needle tubing 3, two ends black box 4, the sealing of ES pore pressure assembly 5, ES pore sealed horizontal slide assemblies 6, ES pore black box 7, D pipe location sealing assembly 8 and electronic management system down；Described ECS sealing valve port assembly 2, ECS seal needle tubing 3, two ends black box 4, the sealing of ES pore pressure assembly 5, ES pore sealed horizontal slide assemblies 6, ES pore black box 7, D pipe location sealing assembly 8 and electronic management system down and are mounted in tool base plate 1；Described ECS sealing valve port assembly 2 is provided with three ECS and seals needle tubing 3；Described two ends black box 4 is a pair clamp arm；Described ES pore seals pressure assembly 5 down and includes two ES pore black boies 7；Described D pipe location sealing assembly 8 is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly 2, two ends black box 4, ES pore seal and are provided with the riding position for laying cross valve workpiece between pressure assembly 5 down；Described ES pore seals pressure assembly 5 down and is installed on ES pore sealed horizontal slide assemblies 6；Described ECS sealing valve port assembly 2, two ends black box 4, ES pore seal pressure assembly 5, ES pore sealed horizontal slide assemblies 6 and D pipe location sealing assembly 8 down and all electrically connect with electronic management system.

As preferably, described ECS sealing valve port assembly 2, ECS seal needle tubing 3, two ends black box 4, ES pore seal pressure assembly 5 and ES pore black box 7 down and all have at least two groups, at least two cross valve being carried out internal hemorrhage due to trauma test respectively simultaneously.

As preferably, described D pipe location sealing assembly 8 is provided with the encoding pack of test structure for each cross valve of automatic labelling.

As preferably, described D pipe location sealing assembly 8 being provided with the detection components that can be periodically subject to seal self-inspection.

As preferably, described ECS seals needle tubing 3 and adopts O mechanical expanding compact form Hermetical connecting structure.

After adopting said structure, this utility model has the advantages that it includes tool base plate 1, ECS sealing valve port assembly 2, ECS sealing needle tubing 3, two ends black box 4, the sealing of ES pore pressure assembly 5, ES pore sealed horizontal slide assemblies 6, ES pore black box 7, D pipe location sealing assembly 8 and electronic management system down.By mutually coordinated between each assembly, it is possible to well dock with the automatic feed mechanism in front and the automatic material blanking mechanism at rear, docking operation participates in without artificial hand merit, be automatically obtained by the electronic control cylinder on each assembly or linear module.Connecting tube adopts O-ring machinery tensioner mode to seal, and is matched in clearance, without friction, it is not necessary to oil lubrication during entrance valve body；Guarantee 6000 service lifes.Mechanism can be periodically subject to seal self-inspection and (may be set to startup self-detection, it is possible to separated in time carries out self-inspection.), it has been found that after seal failure, alarm.Guarantee to seal the erroneous judgement of the former flase drop thus resulted in because of frock.

In sum, it is high that this utility model provides a kind of work efficiency, and cost is low, and potential safety hazard is little, it is possible to the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard well matched with automatic feed mechanism and cutting agency.

In the specific implementation, described cross valve workpiece 9 is usually two one group and carries out sealing process this utility model.Described sealing mechanism also needs to connect special testing agency when actually used just can complete the inner hexagon to cross valve, and the effect of sealing mechanism simply completed sealing process before internal hemorrhage due to trauma is tested, and hereby illustrated.

Above this utility model and embodiment thereof being described, this description does not have restricted, and shown in accompanying drawing is also one of embodiment of the present utility model, and actual structure is not limited thereto.If generally speaking those of ordinary skill in the art is enlightened by it, when creating objective without departing from this utility model, design the frame mode similar to this technical scheme and embodiment without creationary, protection domain of the present utility model all should be belonged to.

Claims (5)

1. the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard, it is characterised in that: it includes tool base plate (1), ECS sealing valve port assembly (2), ECS seal needle tubing (3), two ends black box (4), ES pore press assembly (5), ES pore sealed horizontal slide assemblies (6), ES pore black box (7), D pipe location sealing assembly (8) and electronic management system under sealing；Described ECS sealing valve port assembly (2), ECS seals and presses assembly (5), ES pore sealed horizontal slide assemblies (6), ES pore black box (7), D pipe location sealing assembly (8) and electronic management system to be mounted in tool base plate (1) under needle tubing (3), two ends black box (4), the sealing of ES pore；Described ECS sealing valve port assembly (2) is provided with three ECS and seals needle tubing (3)；Described two ends black box (4) is a pair clamp arm；Described ES pore presses assembly (5) to include two ES pore black box (7) under sealing；Described D pipe location sealing assembly (8) is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly (2), two ends black box (4), ES pore seal and press down the riding position being provided with between assembly (5) for laying cross valve workpiece；Described ES pore presses assembly (5) to be installed on ES pore sealed horizontal slide assemblies (6) under sealing；Described ECS sealing valve port assembly (2), two ends black box (4), ES pore press assembly (5), ES pore sealed horizontal slide assemblies (6) and D pipe location sealing assembly (8) all to electrically connect with electronic management system under sealing.

2. the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard according to claim 1, it is characterized in that: described ECS sealing valve port assembly (2), ECS seals and press assembly (5) and ES pore black box (7) all to have at least two groups under needle tubing (3), two ends black box (4), the sealing of ES pore, at least two cross valve being carried out internal hemorrhage due to trauma test respectively simultaneously.

3. the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard according to claim 1, it is characterised in that: described D pipe location sealing assembly (8) is provided with the encoding pack of test structure for each cross valve of automatic labelling.

4. the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard according to claim 1, it is characterised in that: described D pipe location sealing assembly (8) is provided with the detection components that can be periodically subject to seal self-inspection.

5. the sealing mechanism for full-automatic cross valve internal hemorrhage due to trauma testboard according to claim 1, it is characterised in that: described ECS seals needle tubing (3) and adopts O mechanical expanding compact form Hermetical connecting structure.