CN212328982U - Bypass valve gas tightness automated inspection platform - Google Patents

Abstract

The utility model relates to a bypass valve gas tightness automated inspection platform, including censorship device, detection device and transfer device, the censorship device is placed on ground, and detection device sets up on the censorship device, and the censorship device will await measuring the bypass valve and deliver to detection device department, and transfer device sets up on detection device, and transfer device will detect qualified bypass valve and transfer to the product bucket in, and detection device includes position detection sensor, valve body positioner and valve body air guide device, position detection sensor and censorship device electric connection, the beneficial effects of the utility model are that: the air tightness of the bypass valve is automatically detected, and the detection efficiency and the detection precision are improved.

Description

Bypass valve gas tightness automated inspection platform

Technical Field

The utility model relates to the technical field of machinery, concretely relates to bypass valve gas tightness automated inspection platform.

Background

The valve is a bypass valve which is arranged on a bypass pipe of the water inlet valve pipe section and is used for filling water to balance the water pressure in front of and behind the water inlet valve. The gas tightness of the bypass valve plays a decisive role, and the bypass valve must be brought into use within a specified range, otherwise serious consequences can occur. At present, the detection of the air tightness performance of the bypass valve mainly adopts manual detection, the detection efficiency is low, and detection errors exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to the not enough of above-mentioned prior art, provide a bypass valve gas tightness automated inspection platform, the gas tightness of automated inspection bypass valve improves detection efficiency and detection precision.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a bypass valve gas tightness automated inspection platform which characterized in that: including censorship device, detection device and transfer device, censorship device places on ground, detection device sets up on censorship device, censorship device will await measuring the bypass valve and deliver to detection device department, transfer device sets up on detection device, transfer device will detect qualified bypass valve and transfer to the product bucket in, detection device includes position detection sensor, valve body positioner and valve body air guide device, position detection sensor and censorship device electric connection.

The utility model has the characteristics as above: the bypass valve to be detected is conveyed to the detection device through the inspection device to carry out air tightness detection, qualified products detected through air tightness are transferred to the product barrel through the transfer device, unqualified products not detected through air tightness are transferred to the outside of the product barrel through the transfer device, the whole detection process is automatic operation, the labor production cost is reduced, and the production efficiency is improved.

The utility model discloses further setting is: the detection device comprises a position detection sensor, a valve body positioning device and a valve body air guide device, wherein the position detection sensor is arranged on one side of the valve body positioning device, the valve body positioning device comprises a mounting frame, a positioning plate and a first transverse cylinder linked with the positioning plate, one end of the mounting frame is erected on the censorship device, the other end of the mounting frame is erected on the ground, a mounting cavity used for mounting the positioning plate is formed in the mounting frame, the positioning plate is oppositely mounted on two side walls of the mounting cavity respectively, front and back reciprocating motion is realized under the action of the first transverse cylinder, the valve body air guide device is arranged on the top of the mounting frame and comprises an air guide gun, an air guide pipe and a second vertical cylinder linked with the air guide gun, an air guide hole is formed in the air guide gun, one end of the air guide pipe is communicated.

The utility model has the characteristics as above: and a position detection sensor is arranged on one side of the valve body positioning device and used for detecting whether the to-be-detected bypass valve conveyed by the inspection device reaches the valve body positioning device or not, if the to-be-detected bypass valve reaches the valve body positioning device, the inspection device is controlled by the position detection sensor to stop rotating, the to-be-detected bypass valve is fixed by the valve body positioning device, valve ports on two sides of the bypass valve are blocked by the valve body positioning device except for positioning, and an air guide gun stretches into the valve port of the to-be-detected bypass valve to blow air under the action of a.

The utility model discloses further setting is: the inspection device comprises an inspection rotary disc and a valve body fixing seat arranged on the inspection rotary disc, an engine enabling the inspection rotary disc to run is arranged in the inspection rotary disc, the valve body fixing seat comprises a base and base adjusting bolts, a valve body positioning column matched with a valve port of the bypass valve is arranged in the center of the base, the base adjusting bolts are detachably and symmetrically arranged on two sides of the base, and the base is fixed on the inspection rotary disc.

The utility model has the characteristics as above: the valve body fixing base sets up on the censorship carousel, and the censorship carousel rotates under the effect of engine, and the bypass valve that awaits measuring placed on the valve body fixing base is passed on to detection device department by the censorship carousel, and the valve body fixing base passes through base adjusting bolt detachable and is connected with the censorship carousel, conveniently maintains the valve body fixing base.

The utility model discloses further setting is: the transfer device comprises a grabbing manipulator and a cylinder assembly linked with the grabbing manipulator, wherein the cylinder assembly comprises a third transverse cylinder for controlling the grabbing manipulator to move left and right and a fourth vertical cylinder for controlling the grabbing manipulator to move up and down.

The utility model has the characteristics as above: snatch the manipulator and under the cooperation operation of horizontal cylinder of third and the vertical cylinder of fourth, press from both sides the bypass valve that finishes detecting and get, transfer, set up in the transfer device and snatch the manipulator, replace the manual work, strengthen degree of automation.

The utility model discloses further setting is: an air pressure detector is arranged in the detection device and is respectively connected with the air guide gun and the transfer device.

The utility model has the characteristics as above: the air pressure detector is used for detecting the air pressure value in the bypass valve, the air tightness of the bypass valve can be judged according to the change situation of the air pressure in the valve, the controller connected with the air pressure detector is arranged in the transfer device, the numerical value displayed by the air pressure detector is qualified, the transfer device transfers the bypass valve to the finished product barrel, and if the numerical value displayed by the air pressure detector is unqualified, the transfer device transfers the bypass valve to the outside of the finished product barrel.

The utility model discloses further setting is: and a plurality of groups of valve body fixing seats are arranged on the inspection turntable.

The utility model has the characteristics as above: through setting up multiunit valve body fixing base, can place a plurality of bypass valves that await measuring simultaneously, improve detection efficiency.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a side view of an embodiment of the present invention.

Detailed Description

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

The automatic detection table for the air tightness of the bypass valve as shown in the figures 1-2 comprises a delivery device, a detection device and a transfer device.

The detection device comprises a position detection sensor 1, a valve body positioning device 2 and a valve body air guide device 3, wherein the position detection sensor 1 is arranged on one side of the valve body positioning device 2 and is electrically connected with a censorship device, the valve body positioning device 2 comprises a mounting frame 21, positioning plates 22 and a first transverse cylinder 23 linked with the positioning plates 22, one end of the mounting frame 21 is erected on the censorship device, the other end of the mounting frame 21 is erected on the ground, a mounting cavity 211 for mounting the positioning plates 22 is formed in the mounting frame 21, the two positioning plates 22 are respectively installed on two side walls of the mounting cavity 211 in an opposite mode and realize reciprocating motion back and forth under the action of the first transverse cylinder 23, the valve body air guide device 3 is arranged at the top end of the mounting frame 21 and comprises an air guide gun 31, an air guide pipe 32 and a second vertical cylinder 33 linked with the air guide gun 31, the other end passes through the installation cavity 211 of the installation frame 21, an air guide hole is formed in the air guide gun 31, one end of the air guide pipe 32 is communicated with the air guide gun 31, the other end of the air guide pipe is communicated with the first transverse cylinder 23, an air pressure detector is arranged in the detection device, and the air pressure detector is respectively connected with the air guide gun 31 and the transfer device.

The censorship device includes censorship carousel 4, set up valve body fixing base 5 on censorship carousel 4, censorship carousel 4 embeds makes censorship carousel 4 moving engine, valve body fixing base 5 includes base 51, base adjusting bolt 52, base 51 center department be equipped with the valve body reference column 511 of bypass valve port adaptation, base adjusting bolt 52 detachable symmetry sets up in base 51 both sides, fixes base 51 on censorship carousel 4, be equipped with multiunit valve body fixing base 5 on censorship carousel 4.

The transfer device comprises a grabbing manipulator 6 and a cylinder assembly linked with the grabbing manipulator, wherein the cylinder assembly comprises a third transverse cylinder 7 for controlling the grabbing manipulator 6 to move left and right and a fourth vertical cylinder 8 for controlling the grabbing manipulator 6 to move up and down.

The bypass valve to be detected is placed on the valve body fixing seat 5, the to-be-detected bypass valve is rotated to the valve body positioning device 2 of the detection device by the inspection rotary disc 4, the to-be-detected bypass valve is detected by the position detection sensor 1 arranged on one side of the valve body positioning device 2, if the to-be-detected bypass valve reaches the valve body positioning device 2, the position detection sensor 1 controls the inspection rotary disc 4 to stop rotating, at the moment, the positioning plates 22 arranged on the two side walls of the mounting cavity 211 move oppositely to clamp the to-be-detected bypass valve and block a valve port under the action of the first transverse cylinder 23, the air guide gun 31 moves downwards under the action of the second vertical cylinder 33 to extend into the valve port of the to-be-detected bypass valve, the air guide pipe 32 is respectively communicated with the air guide gun 31 and the first transverse cylinder 23 to blow air into the valve port of the to-be-detected bypass, the controller connected with the air pressure detector is arranged in the transferring device, the numerical value displayed by the air pressure detector is qualified, the grabbing manipulator 6 transfers the bypass valve to the finished product barrel 9, and if the numerical value displayed by the air pressure detector is unqualified, the grabbing manipulator 6 transfers the bypass valve to the outside of the finished product barrel 9.

Claims (6)

1. The utility model provides a bypass valve gas tightness automated inspection platform which characterized in that: including censorship device, detection device and transfer device, censorship device places on ground, detection device sets up on censorship device, censorship device will await measuring the bypass valve and deliver to detection device department, transfer device sets up on detection device, transfer device will detect qualified bypass valve and transfer to the product bucket in, detection device includes position detection sensor, valve body positioner and valve body air guide device, position detection sensor and censorship device electric connection.

2. The bypass valve airtightness automatic detection station according to claim 1, wherein: the detection device comprises a position detection sensor, a valve body positioning device and a valve body air guide device, wherein the position detection sensor is arranged on one side of the valve body positioning device, the valve body positioning device comprises a mounting frame, a positioning plate and a first transverse cylinder linked with the positioning plate, one end of the mounting frame is erected on the censorship device, the other end of the mounting frame is erected on the ground, a mounting cavity used for mounting the positioning plate is formed in the mounting frame, the positioning plate is oppositely mounted on two side walls of the mounting cavity respectively, front and back reciprocating motion is realized under the action of the first transverse cylinder, the valve body air guide device is arranged on the top of the mounting frame and comprises an air guide gun, an air guide pipe and a second vertical cylinder linked with the air guide gun, an air guide hole is formed in the air guide gun, one end of the air guide pipe is communicated.

3. The bypass valve airtightness automatic detection station according to claim 1, wherein: the inspection device comprises an inspection rotary disc and a valve body fixing seat arranged on the inspection rotary disc, an engine enabling the inspection rotary disc to run is arranged in the inspection rotary disc, the valve body fixing seat comprises a base and base adjusting bolts, a valve body positioning column matched with a valve port of the bypass valve is arranged in the center of the base, the base adjusting bolts are detachably and symmetrically arranged on two sides of the base, and the base is fixed on the inspection rotary disc.

4. The bypass valve airtightness automatic detection station according to claim 1, wherein: the transfer device comprises a grabbing manipulator and a cylinder assembly linked with the grabbing manipulator, wherein the cylinder assembly comprises a third transverse cylinder for controlling the grabbing manipulator to move left and right and a fourth vertical cylinder for controlling the grabbing manipulator to move up and down.

5. The bypass valve airtightness automatic detection station according to claim 2, wherein: an air pressure detector is arranged in the detection device and is respectively connected with the air guide gun and the transfer device.

6. The bypass valve airtightness automatic detection station according to claim 3, wherein: and a plurality of groups of valve body fixing seats are arranged on the inspection turntable.

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