DE9105261U1 - Gas pressure gauge - Google Patents

Description

Gas pressure gauge

The invention relates to a pressure gauge and more particularly to a gas pressure gauge with a reducing valve which can be operated automatically or manually.

A known pressure gauge of a conventional type does not have a reducing valve. Even if the pressure in the gas container exceeds a predetermined level, the gas cannot be released through a pressure gauge of this type. A second improved conventional pressure gauge has a manual reducing valve. If the pressure gauge indicates that the gas pressure in the pressure container is too high, the gas can be released manually through the reducing device. Since the reducing device of the second conventional gas gauge is operated manually, the risk of an explosion remains, since the excess pressure can only be reduced by a delicate action.

Therefore, the aim of the invention is to provide a gas pressure gauge with a reducing valve. The gas pressure gauge is used to simultaneously display and control the pressure in a gas pressure vessel or the like.

Accordingly, the gas pressure gauge of the invention is connected to a pressure vessel. The gas pressure gauge comprises a scale body or dial gauge body with a pointer and

a solid shaft. A first end of the shaft is connected to the scale body and a second end is connected to the pressure vessel. The shaft includes a gas passage extending from the first end to the second end. The gas flows through the gas passage from the pressure vessel to the scale body and actuates the pointer. The shaft includes a cavity having an outer open end and a passage communicating with the gas passage and the interior of the cavity. A reducing valve is provided in the cavity and includes a stop member removably connected adjacent the outer open end of the cavity. A piston rod has a first end received in the cavity and a second end extending out of the cavity and passing through the stop member. A handle is connected to the second end of the piston rod. The first end of the piston rod has an enlarged head. A sealing member is mounted between the enlarged head and the passage of the cavity. A spring member is mounted between the enlarged head of the piston and the stop member so as to bias the sealing member to close the channel of the cavity.

An embodiment of the invention is described below with reference to the drawing.

Figure 1 shows a sectional view of a preferred embodiment of the gas pressure gauge of the invention.

As shown in Figure 1, a gas pressure gauge of the invention is connected to a pressure vessel (not shown). The gas pressure gauge comprises a scale body 1 with a pointer 10 and a solid shaft 2. A first end of the shaft 2 is connected to the scale body 1 and a second end is connected to the pressure vessel. The shaft 2 has a curved elongated gas channel 20 which extends from the first end to the second end and through which the gas from

the pressure vessel to the scale body 1 to actuate the pointer 10 of the scale body 1. The shaft 2 has a cavity 21. The cavity includes an outer open end 22 and a transverse channel 211 which communicates with the gas channel 20 and the interior of the cavity 21.

A reducing valve 3 is arranged in the cavity 21. The reducing valve 3 includes a stop member 34. The stop member 34 has a central through hole and is in threaded connection with the cavity 21 at the outer open end 22. A piston rod 32 includes a first end which is received in the cavity 21 and a second end which extends out of the cavity 21 and passes through the central through hole of the stop member 34. A ring handle 35 is connected to the second end of the piston rod 32. The first end of the piston rod 32 has an enlarged head 32' which has a radially outwardly extending flange 321. The cavity 21 has a shoulder formed adjacent the transverse channel 211. An annular lip 212 is attached to the shoulder of the cavity 21 adjacent the transverse channel 211 of the cavity 21. A sealing member 31 is made of rubber and is mounted between the enlarged head 32' of the piston rod 32 and the channel 211. A spring 33 is pushed onto the piston rod 32 between the flange 321 of the enlarged head 32' of the piston rod 32 and the stop member 34. The spring 33 urges the sealing member 31 into sealing contact with the annular lip 212, thereby closing the transverse channel 211 of the cavity.

The sealing member 31 has a smaller cross-section than the cavity 21. The piston rod 32 has a smaller cross-section than the cavity 21. The cross-section of the piston rod 32 is smaller than the cross-section of the central through hole of the stop part 34. Therefore, a gas outlet is formed between the wall of the cavity 21 and the sealing member 31, between the wall of the cavity 21 and

the piston rod 32 and between the piston rod 32 and the stop part 34.

In operation, the second end of the shaft 2 is connected to the pressure vessel. The gas flowing from the pressure vessel to the scale body 10 actuates the pointer 1 thereof. When the gas pressure in the pressure vessel is greater than the elastic force of the spring 33, the gas pressure urges the sealing member and the piston rod 32 outward against the elastic force of the spring 33, thereby allowing the gas to be discharged through the gas outlet. When the gas pressure in the pressure vessel is less than the elastic force of the spring 33, the spring 33 urges the sealing member into sealing contact with the annular lip 212, thereby closing the transverse channel 211 of the cavity 21. The gas pressure gauge of the invention can be used to determine the various pressures of pressure vessels or gas vessels, since the elasticity coefficient of the spring 33 is variable. The gas pressure gauge also allows the gas pressure to be reduced when the gas pressure is lower than the elastic force of the spring 33 by pulling the ring handle 35 outward.

The reducing valve of the gas pressure gauge of the invention can be operated automatically or manually, and therefore the gas pressure gauge can simultaneously display and control the pressure of a gas in the gas container.

Claims (4)

Protection claims: 1. Gas pressure gauge connected to a pressure vessel or the like with a scale body (1) and a solid shaft (2) which has a first end connected to the scale body (1) and a second end connected to the pressure vessel, the shaft (2) having a gas channel (20) running from the first end to the second end for gas to flow through from the pressure vessel to the scale body (1), characterized in that the shaft (2) contains a cavity (21) which has an outer open end (22), and a channel (211) which is in communication with the gas channel (20) and the interior of the cavity (21), and characterized by a reducing valve (3) arranged in the cavity (21) and comprising a stop member (34) removably mounted adjacent to the outer open end (22) of the cavity (21) and a piston rod (32) with a first end received in the cavity (21) and a second end extending out of the cavity (21) and passing through the stop member (34), a handle (35) being connected to the second end of the piston rod (32) and the first end of the piston rod (32) having an enlarged head (32'), a sealing member (31) being mounted between the enlarged head (32') and the channel (211) of the cavity (21), and a spring member (33) being mounted between the enlarged head (32') of the Piston rod (32) and the stop part (34) in order to preload the sealing member (31) so that it closes the channel (211) of the cavity (21). 2. Gas pressure gauge according to claim 1, characterized in that the sealing member (31) has a smaller cross section than the cavity (21). 3. Gas pressure gauge according to claim 2, characterized in that the piston rod (32) has a smaller cross-section than the cavity (21). 4. Gas pressure gauge according to claim 3, characterized in that the stop part (34) defines a passage in the cavity (21) for the outward extension of the piston rod (32), the cross section of the piston rod (32) being smaller than the cross section of the passage.