CN211205686U - Pressure vessel monitoring device - Google Patents

Abstract

The utility model discloses a pressure vessel monitoring devices relates to pressure vessel's technical field, including the spout, first passageway, the second passageway, the spout is seted up on the monitoring devices lateral wall, the spout bottom is seted up to first passageway, first passageway is close to the setting of spout tip and sets up perpendicularly with the spout, the second passageway is seted up in first passageway lateral wall department, the second passageway deviates from the spout and sets up perpendicularly with first passageway, the pressure vessel inside wall is seted up flutedly, the one end that the second passageway deviates from first passageway runs through the recess lateral wall setting so that second passageway and recess are linked together the setting. Through setting up the installation result, strengthened the connection precision between connecting tube and the pressure vessel, made the interior pressure of pressure vessel not direct action in connecting tube and pressure vessel's junction, utilize recess, second passageway, first passageway to decompose the pressure in the pressure vessel, avoid pressure vessel to produce the phenomenon of leaking.

Description

Pressure vessel monitoring device

Technical Field

The utility model relates to a pressure vessel's technical field, more specifically says, it relates to a pressure vessel monitoring devices.

Background

Pressure vessel, english: pressure vessel is a closed device which contains gas or liquid and bears a certain pressure. In order to implement scientific management and safety supervision and inspection more effectively, pressure vessels are divided into three categories according to working pressure, medium hazard and the effect of the medium hazard in production in the pressure vessel safety supervision regulations in China.

The chinese utility model patent with the existing publication number CN208860561U discloses a pressure vessel leakage detection device, including: the air compressor, the gas booster pump, the multi-section air pipe, the gas pressure sensor, the air pump and the control system; the control system includes: the air compressor, the gas booster pump and the air pump are respectively connected with the control host machine through the electromagnetic valves.

When the device is in actual use, the requirement on the connection tightness between the external detection device and the pressure container is very high, and if the connection is not tight, the leakage phenomenon is easy to cause.

SUMMERY OF THE UTILITY MODEL

To this problem in the practical application, the utility model aims to provide a pressure vessel monitoring devices, concrete scheme is as follows:

a pressure container monitoring device is provided with a connecting pipeline, a mounting structure is arranged between the connecting pipeline and a pressure container, the mounting structure comprises a sliding chute, a first channel and a second channel, the sliding chute is arranged on the outer side wall of the monitoring device, the first channel is arranged at the bottom of the sliding chute, the first channel is arranged close to the end part of the sliding chute and is perpendicular to the sliding chute, the second channel is arranged at the outer side wall of the first channel, the second channel deviates from the sliding chute and is perpendicular to the first channel, a groove is formed in the inner side wall of the pressure container, and one end, deviating from the first channel, of the second channel penetrates through the side wall of the groove to enable the second channel to be communicated with the groove;

the outer side wall of the connecting pipeline is provided with a clamping piece, the width of the sliding groove, the width of the first channel and the width of the second channel are matched with the width of the clamping piece, one side, away from the first channel, of the second channel is in a boss shape to form a limiting part for limiting the clamping piece, and the width of the limiting part is matched with the width of the connecting pipeline;

the side, close to the outer side of the pressure container, of the second channel is provided with a positioning groove, the outer side wall of the pressure container is provided with a connecting groove, a connecting hole is formed between the connecting groove and the positioning groove, so that the positioning groove is communicated with the connecting groove, a sealing plate is arranged in the positioning groove, and the sealing plate is abutted to the connecting hole.

In this embodiment, preferably, a protrusion is disposed on an inner side wall of the sliding groove, and a locking space for locking the locking piece is formed between the protrusion and the sliding groove.

In this embodiment, preferably, a push rod is disposed on one side of the sealing plate close to the connection hole, and the push rod penetrates through the connection hole.

Preferably, one side of the push rod, which is away from the sealing plate, is provided with a push plate, and the area of the push plate projected on the push rod is larger than that of the push rod.

Preferably, in this embodiment, the outer side wall of the sealing plate abuts against the inner side wall of the positioning groove.

Preferably, the locking member is made of rubber.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the connecting pipeline is abutted to one side, deviating from the lug, of the sliding groove in the sliding groove, the connecting pipeline is moved along the direction close to the first channel, the clamping piece is limited by the lug, the connecting pipeline is separated from the sliding groove when the connecting pipeline is prevented from moving, when the connecting pipeline is moved to the first channel, the connecting pipeline is pushed to enter the first channel along one side close to the pressure container, when the connecting pipeline is connected with the second channel, the connecting pipeline is continuously pushed to rotate into the second channel, connection between the connecting pipeline and the pressure container is completed when the connecting pipeline is abutted to the limiting part, and at the moment, the connecting pipeline is communicated with the inside of the pressure container through the groove.

When the connecting pipeline moves to the second channel, the side wall of the second channel is gradually reduced from one side deviating from the first channel, the clamping piece is extruded, the rubber of the clamping piece is pressed into the positioning groove in a variable elastic mode, the clamping piece is abutted to the sealing plate, the sealing plate deviates from the clamping piece and moves to the abutting connection hole, the push rod is pushed to deviate from the pressure container to move, and the positioning groove is used for strengthening connection stability between the through hole and the pressure container.

When the connecting pipeline needs to be taken out, an operator pushes the push plate to push the sealing plate to move close to the pressure container, so that the trend clamping piece is moved out from the positioning groove, the unlocking positioning groove locks the clamping piece, and the operator pulls the connecting pipeline towards one side, which is far away from the pressure container, to take out the connecting pipeline.

Through setting up the installation result, strengthened the connection precision between connecting tube and the pressure vessel, made the interior pressure of pressure vessel not direct action in connecting tube and pressure vessel's junction, utilize recess, second passageway, first passageway to decompose the pressure in the pressure vessel, avoid pressure vessel to produce the phenomenon of leaking.

Drawings

Fig. 1 is an overall schematic view of an embodiment of the present invention;

FIG. 2 is a cross-sectional schematic view showing a mounting structure;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic view showing the structure of the connecting pipe.

Reference numerals: 1. a chute; 2. a first channel; 3. a second channel; 4. a groove; 5. a limiting part; 6. positioning a groove; 7. connecting grooves; 8. connecting holes; 9. a sealing plate; 10. a bump; 11. a clamping space; 12. a push rod; 13. pushing the plate; 14. connecting a pipeline; 15. a locking piece; 16. A pressure vessel.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 and 2, a pressure vessel monitoring device, detection device is equipped with connecting tube 14, be equipped with mounting structure between connecting tube 14 and pressure vessel 16, mounting structure includes spout 1, first passageway 2, second passageway 3, spout 1 is seted up on the monitoring device lateral wall, first passageway 2 is seted up in spout 1 bottom, first passageway 2 is close to 1 tip setting of spout and is set up perpendicularly with spout 1, second passageway 3 is seted up in 2 lateral wall departments of first passageway, second passageway 3 deviates from spout 1 and sets up perpendicularly with first passageway 2, so that spout 1, first passageway 2, 3 three of second passageway form the Z style of calligraphy. Meanwhile, a groove 4 is formed in the inner side wall of the pressure container 16, and one end, deviating from the first channel 2, of the second channel 3 penetrates through the side wall of the groove 4 to enable the second channel 3 to be communicated with the groove 4. Wherein, the inner side wall of the sliding chute 1 is provided with a convex block 10, and a clamping space 11 for clamping a clamping piece 15 is formed between the convex block 10 and the sliding chute 1.

As shown in the combined drawings of FIG. 3 and FIG. 4, the outer side wall of the connecting pipeline 14 is provided with a clamping piece 15, the sliding groove 1, the first channel 2, the width of the second channel 3 and the width of the clamping piece 15 are matched, one side of the second channel 3 departing from the first channel 2 is in a boss shape to limit the clamping piece 15 by forming a limiting part 5, and the width of the limiting part 5 is matched with the width of the connecting pipeline 14. In this embodiment, the locking member 15 is preferably made of rubber.

One side that the second passageway 3 is close to the pressure vessel 16 outside has seted up constant head tank 6, and spread groove 7 has been seted up to the 16 lateral wall of pressure vessel, has seted up connecting hole 8 between spread groove 7 and the constant head tank 6 so that constant head tank 6 and spread groove 7 are linked together the setting, is equipped with closing plate 9 in the constant head tank 6, and closing plate 9 butt sets up in connecting hole 8. Meanwhile, a push rod 12 is arranged on one side of the sealing plate 9 close to the connecting hole 8, and the push rod 12 penetrates through the connecting hole 8. One side of the push rod 12 departing from the sealing plate 9 is provided with a push plate 13, and the area of the push plate 13 projected on the push rod 12 is larger than that of the push rod 12. Preferably, the outer side wall of the sealing plate 9 is abutted against the inner side wall of the positioning groove 6.

The connecting pipeline 14 is abutted into the sliding groove 1 from one side of the sliding groove 1, which is far away from the bump 10, the connecting pipeline 14 is moved along the direction close to the first channel 2, the clamping piece 15 is limited by the bump 10, the connecting pipeline 14 is prevented from being separated from the sliding groove 1 during movement, when the connecting pipeline 14 is moved to the first channel 2, the connecting pipeline 14 is pushed to enter the first channel 2 along one side close to the pressure container 16, when the connecting pipeline is connected with the second channel 3 through the first channel 2, the connecting pipeline 14 is continuously pushed to rotate into the second channel 3 until the connecting pipeline 14 is abutted to the limiting part 5, the connecting pipeline 14 is connected with the pressure container 16, and at the moment, the connecting pipeline 14 is communicated with the inside of the pressure container 16 through the groove 4.

When the connecting pipeline 14 moves to the second channel 3, the side wall of the second channel 3 is gradually reduced from one side departing from the first channel 2, the clamping piece 15 is extruded, the rubber of the clamping piece 15 can be pressed into the positioning groove 6 in a variable elastic mode, the clamping piece 15 abuts against the sealing plate 9, the sealing plate 9 deviates from the clamping piece 15 and moves to the abutting connection hole 8, the push rod 12 is pushed to deviate from the pressure container 16 to move, and the positioning groove 6 is used for strengthening connection stability between the connection penetrating and the pressure container 16.

When the connecting pipeline 14 needs to be taken out, an operator pushes the push plate 13 to push the sealing plate 9 to move close to the pressure container 16, so that the clamping piece 15 tends to move out of the positioning groove 6, the locking of the clamping piece 15 by the positioning groove 6 is unlocked, and the operator pulls the connecting pipeline 14 towards the side away from the pressure container 16 to take out the connecting pipeline 14.

By arranging the installation result, the connection precision between the connecting pipeline 14 and the pressure container 16 is enhanced, the pressure in the pressure container 16 does not directly act on the connection part of the connecting pipeline 14 and the pressure container 16, the pressure in the pressure container 16 is decomposed by the groove 4, the second channel 3 and the first channel 2, and the phenomenon that the pressure container 16 leaks is avoided.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a pressure vessel monitoring devices, monitoring devices is equipped with connecting tube (14), connecting tube (14) with be equipped with mounting structure between pressure vessel (16), a serial communication port, mounting structure includes spout (1), first passageway (2), second passageway (3), spout (1) is seted up on the monitoring devices lateral wall, first passageway (2) are seted up in spout (1) bottom, first passageway (2) are close to spout (1) tip set up and with spout (1) sets up perpendicularly, second passageway (3) are seted up in first passageway (2) lateral wall department, second passageway (3) deviate from spout (1) and with first passageway (2) set up perpendicularly, pressure vessel (16) inside wall is seted up flutedly (4), second passageway (3) deviate from the one end of first passageway (2) runs through recess (4) lateral wall sets up recess (4) lateral wall So that the second channel (3) is communicated with the groove (4);

a clamping piece (15) is arranged on the outer side wall of the connecting pipeline (14), the width of the sliding chute (1), the width of the first channel (2) and the width of the second channel (3) are matched with the width of the clamping piece (15), one side, away from the first channel (2), of the second channel (3) is in a boss shape to form a limiting part (5) to limit the clamping piece (15), and the width of the limiting part (5) is matched with the width of the connecting pipeline (14);

the positioning groove (6) is formed in one side, close to the outer side of the pressure container (16), of the second channel (3), the connecting groove (7) is formed in the outer side wall of the pressure container (16), a connecting hole (8) is formed between the connecting groove (7) and the positioning groove (6) so that the positioning groove (6) is communicated with the connecting groove (7), a sealing plate (9) is arranged in the positioning groove (6), and the sealing plate (9) is abutted to the connecting hole (8).

2. The pressure vessel monitoring device according to claim 1, wherein a protrusion (10) is disposed on an inner side wall of the sliding chute (1), and a clamping space (11) for clamping the clamping piece (15) is formed between the protrusion (10) and the sliding chute (1).

3. The pressure vessel monitoring device according to claim 1, wherein a push rod (12) is provided on a side of the sealing plate (9) adjacent to the connection hole (8), the push rod (12) being provided through the connection hole (8).

4. A pressure vessel monitoring device according to claim 3, wherein a push plate (13) is provided on a side of the push rod (12) facing away from the sealing plate (9), and an area of the push plate (13) projected onto the push rod (12) is larger than an area of the push rod (12).

5. The pressure vessel monitoring device according to claim 1, wherein the outer side wall of the sealing plate (9) is arranged in abutment with the inner side wall of the positioning slot (6).

6. Pressure vessel monitoring device according to claim 1, wherein the locking piece (15) is made of a rubber material.

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