CN112326139A - Airtightness detection device for liquefied gas steel cylinder - Google Patents

Abstract

The utility model provides a liquefied gas steel cylinder gas tightness detection device, relates to a liquefied gas steel cylinder detection device, can realize the automatic gas tightness detection of liquefied gas steel cylinder. Including flourishing pond, liquefied gas steel cylinder frame, characterized by: the liquefied gas steel cylinder frame comprises a vertical rod, a transverse arm, a bottom plate and a rotating arm, wherein the vertical rod and the transverse arm are intersected horizontally and vertically to form the liquefied gas steel cylinder frame; the lower end of the vertical rod is connected to a rotating shaft at the bottom of the water containing pool, the rotating shaft extends out of the water containing pool and is connected with a rotating arm, the other end of the rotating arm is connected with one end of a turnover cylinder, and the other end of the turnover cylinder is installed on a ground base. The invention has simple structure and low implementation cost. The application of the device greatly reduces the manual use and the manual labor amount, reduces the labor cost and improves the detection efficiency.

Description

Airtightness detection device for liquefied gas steel cylinder

Technical Field

The invention relates to a liquefied gas steel cylinder detection device, in particular to an air tightness detection device for a liquefied gas steel cylinder.

Background

The existing liquefied gas steel cylinder detection assembly line needs a plurality of people to take down the liquefied gas steel cylinder from the assembly line after the gas cylinder is exhausted, burned, sprayed with paint, installed with a valve and filled with air to enter the air tightness detection, and then the liquefied gas steel cylinder is put into a water tank to be subjected to the air tightness detection. The method has the defects of large labor amount, hard labor and high labor cost.

Disclosure of Invention

The invention aims to: the utility model provides a liquefied gas steel cylinder gas tightness detection device, can realize the automatic gas tightness detection of liquefied gas steel cylinder.

The technical scheme of the invention is as follows: the utility model provides a liquefied gas steel bottle airtight detection device, includes flourishing pond, liquefied gas steel bottle frame, characterized by: the liquefied gas steel cylinder frame comprises a vertical rod, a transverse arm, a bottom plate and a rotating arm, wherein the vertical rod and the transverse arm are intersected horizontally and vertically to form the liquefied gas steel cylinder frame; the lower end of the vertical rod is connected to a rotating shaft at the bottom of the water containing pool, the rotating shaft extends out of the water containing pool and is connected with a rotating arm, the other end of the rotating arm is connected with one end of a turnover cylinder, and the other end of the turnover cylinder is installed on a ground base.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the liquefied gas steel cylinder frame is also provided with a guide diameter, the guide diameter is horizontally arranged on the vertical rod, and the guide wheels are arranged on the opposite surfaces of the left guide diameter and the right guide diameter.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the guide wheel is made of plastic or metal outer sleeve rubber layers.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the liquefied gas steel cylinder frame is characterized in that a cylinder blocking frame is arranged at the rear end of the liquefied gas steel cylinder frame and comprises a blocking arm and a blocking push arm, the blocking arm is arranged to be a cylinder blocking fence or a cylinder blocking cross rod, the cylinder blocking frame is movably connected to the liquefied gas steel cylinder frame, one end of the blocking push arm is connected with a blocking cylinder, and blocking and releasing of a gas cylinder to move forwards are achieved under the action of the blocking cylinder.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the fence bottle frame adopts and sets up in the frame and block the whippletree, and the fence bottle erects in liquefied gas steel cylinder frame rear end position, and the whippletree has the cylinder erection joint, utilizes cylinder drive whippletree to accomplish the gas cylinder operation on the assembly line and blocks.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the liquefied gas steel cylinder frame still is equipped with detects the mechanism, it is including detecting the cylinder to detect the mechanism, detect the arm, it connects on liquefied gas steel cylinder frame tail end to detect the arm middle section, it connects and detects the cylinder to detect arm one end, when the other end is packed up with liquefied gas steel cylinder frame is vertical parallel, it connects on liquefied gas steel cylinder frame to detect the cylinder other end, when detecting cylinder piston extension, it detects the arm and detects the bottle end and pack up with liquefied gas steel cylinder frame is vertical parallel, when detecting cylinder piston shrink, it detects the arm and detects the bottle end and picks out liquefied gas steel from liquefied gas steel cylinder frame to liquefied gas steel cylinder frame internal rotation.

Further an airtight detection device of liquefied gas steel cylinder, characterized by: the bottle hurling frame and the detection mechanism are arranged on the assembly line rack at the rear end of the liquefied gas steel bottle frame.

When the detection device is used, the water containing pool is arranged at one side of the production line, the position is determined by matching the distance between the bottom plates when the liquefied gas steel cylinder frame is turned over to match the conveying chain, when the production line detection line is started, the liquefied gas steel cylinders enter the liquefied gas steel cylinder frame under the action of the conveying chain, the liquefied gas steel cylinder frame is closed under the action of the blocking cylinder to block the steel cylinders from moving forwards, when the liquefied gas steel cylinder frame enters a specified number of gas cylinders, the subsequent steel cylinders stop entering, the liquefied gas steel cylinder frame is turned over towards the water containing pool under the action of the turning cylinder until all the gas cylinders are submerged in water by the liquefied gas steel cylinder frame, whether bubbles are emitted from the liquefied gas steel cylinders is observed, after the detection is finished, the liquefied gas steel cylinder frame is turned over under the action of the turning cylinder, the gas cylinder frame is opened under the action of the blocking cylinder to release the steel cylinders, when the gas leakage is detected, the detection cylinder is started, the detection arm is pulled to push the gas, and the qualified gas cylinder continues to move forward to enter the next procedure.

The invention has the beneficial effects that: the invention relates to an air tightness detection device for a liquefied gas steel cylinder, which can be matched with a liquefied gas steel cylinder detection production line to realize the automation of air tightness detection of the liquefied gas steel cylinder. The application of the device greatly reduces the manual use and the manual labor amount, reduces the labor cost and improves the detection efficiency.

Drawings

FIG. 1 is a front view of the structure of the present invention

FIG. 2 is a left side view of the structure of the present invention

FIG. 3 is a top view of the structure of the present invention

In the figure: the device comprises a vertical rod 1, a guide diameter 2, a guide wheel 3, a bottom plate 4, a rotating arm 5, a turnover cylinder 6, a rotating shaft 7, a water containing pool 8, a liquefied gas steel bottle rack 9, a cross arm 10, a production line 11, a conveying chain 12, an upper connection 13, a blocking arm 14, a pulling arm 15, a detection arm 16, a blocking cylinder 17, a detection cylinder 18 and a blocking pushing arm 19.

Detailed Description

An airtight detection device for a liquefied gas steel cylinder comprises a water containing pool 8 and a liquefied gas steel cylinder frame 9, wherein the liquefied gas steel cylinder frame 10 comprises a vertical rod 1, a guide diameter 2, a transverse rod 10, a bottom plate 4 and a rotating arm 5, the vertical rod 1, the guide diameter 2 and the transverse rod 10 are intersected horizontally and vertically to form the liquefied gas steel cylinder frame 9, the bottom plate 4 is arranged at the part of the liquefied gas steel cylinder frame 9, the bottom plates 4 are arranged in a mirror image mode, a left block and a right block are arranged on the left side and the right side respectively, and a space is arranged between the two bottom plates 4 and is used; the lower end of the vertical rod 1 is connected to a rotating shaft 7 at the bottom of the water containing pool 8, the rotating shaft 7 extends out of the pool and is connected with a rotating arm 5, the other end of the rotating arm 5 is connected with one end of a turnover cylinder 6, and the other end of the turnover cylinder 6 is installed on a ground base.

Still be equipped with leading wheel 3 on the direction footpath 2 on the liquefied gas steel cylinder frame 9, control the direction footpath and set up in opposite directions for reduce the scraping of liquefied gas steel cylinder and liquefied gas steel cylinder frame 9 and bump, improve liquefied gas steel cylinder entry speed simultaneously.

The rear end of the liquefied gas steel cylinder frame 9 is provided with a cylinder blocking frame, the cylinder blocking frame comprises a blocking arm 14 and a blocking pushing arm 19, the blocking arm 14 is arranged to be a cylinder blocking fence or a cylinder blocking cross rod, the cylinder blocking frame is movably connected to the liquefied gas steel cylinder frame 9, one end of the blocking pushing arm 19 is connected with a blocking cylinder 18, and blocking and releasing of the gas cylinder can be achieved under the action of the blocking cylinder 18.

The liquefied gas steel cylinder frame still be equipped with and examine the mechanism, detection mechanism is including examining cylinder 18, examining arm 16, examines 16 middle sections of arm or connect on liquefied gas steel cylinder frame 9 tail end, examines 16 one end connections of arm and examines cylinder 18, when the other end is packed up with liquefied gas steel cylinder frame 9 vertically parallel, examine 18 other ends of cylinder and connect on liquefied gas steel cylinder frame 9.

When the device is used, the water storage tank 8 is arranged on one side of the assembly line 11, the position is determined by matching the distance between the liquefied gas steel cylinder frame 9 and the bottom plate 4 with the conveying chain 12, when the assembly line detection line is started, the liquefied gas steel cylinders enter the liquefied gas steel cylinder frame 9 under the action of the conveying chain 12, the rail cylinder frame blocking arm 14 closes and blocks the steel cylinders to move forwards under the action of the blocking cylinder 17, when the liquefied gas steel cylinder frame 9 enters a specified number of gas cylinders, the subsequent steel cylinders stop entering, the liquefied gas steel cylinder frame 9 overturns towards the water storage tank 8 under the action of the overturning cylinder 6 until the liquefied gas steel cylinder frame 9 submerges all the gas cylinders, whether the liquefied gas steel cylinders emit bubbles is observed, after the detection is finished, the liquefied gas steel cylinder frame 9 overturns under the action of the overturning cylinder 6, the rail cylinder frame opens and moves forwards under the action of the blocking cylinder 17, when a gas leakage is detected, the detection cylinder 18 is started, pulling the detection arm 16 to rotate pushes the gas leakage bottle out of the assembly line to the assembly line side surface and the conveying belt is conveyed to the trimming area.

Claims (7)

1. The utility model provides a liquefied gas steel bottle airtight detection device, includes flourishing pond, liquefied gas steel bottle frame, characterized by: the liquefied gas steel cylinder frame comprises a vertical rod, a transverse arm, a bottom plate and a rotating arm, wherein the vertical rod and the transverse arm are intersected horizontally and vertically to form the liquefied gas steel cylinder frame; the lower end of the vertical rod is connected to a rotating shaft at the bottom of the water containing pool, the rotating shaft extends out of the water containing pool and is connected with a rotating arm, the other end of the rotating arm is connected with one end of a turnover cylinder, and the other end of the turnover cylinder is installed on a ground base.

2. The apparatus as set forth in claim 1, wherein: the liquefied gas steel cylinder frame is further provided with a guide diameter, the guide diameter is horizontally arranged on the vertical rod, and the guide wheels are arranged on the opposite surfaces of the left guide diameter and the right guide diameter.

3. The apparatus as set forth in claim 2, wherein: the guide wheel is made of plastic or metal outer sleeve rubber layers.

4. The apparatus as set forth in claim 1, wherein: the liquefied gas steel cylinder frame is characterized in that a cylinder blocking frame is arranged at the rear end of the liquefied gas steel cylinder frame and comprises a blocking arm and a blocking push arm, the blocking arm is arranged to be a cylinder blocking fence or a cylinder blocking cross rod, the cylinder blocking frame is movably connected to the liquefied gas steel cylinder frame, one end of the blocking push arm is connected with a blocking cylinder, and blocking and releasing of a gas cylinder to move forwards are achieved under the action of the blocking cylinder.

5. The apparatus as set forth in claim 4, wherein: the fence bottle frame adopts and sets up in the frame and block the whippletree, and the fence bottle erects in liquefied gas steel cylinder frame rear end position, and the whippletree has the cylinder erection joint, utilizes cylinder drive whippletree to accomplish the gas cylinder operation on the assembly line and blocks.

6. The apparatus as set forth in claim 1, wherein: the liquefied gas steel cylinder frame still is equipped with detects the mechanism, detect the mechanism including detecting the cylinder, detect the arm, it connects on liquefied gas steel cylinder frame tail end to detect the arm middle section, it connects and detects the cylinder to detect arm one end, when the other end is packed up with liquefied gas steel cylinder frame is vertical parallel, it connects on liquefied gas steel cylinder frame to detect the cylinder other end, when detecting cylinder piston extension, it detects the arm and detects the bottle end and pack up with liquefied gas steel cylinder frame is vertical parallel, when detecting cylinder piston shrink, it detects the arm and detects the bottle end and picks out liquefied gas steel from liquefied gas steel cylinder frame to liquefied gas steel cylinder frame internal rotation.

7. The apparatus for detecting the gas tightness of a liquefied gas cylinder according to any one of claims 4 to 6, wherein: the bottle hurling frame and the detection mechanism are arranged on the assembly line rack at the rear end of the liquefied gas steel bottle frame.

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