JP6988029B2 - Pressure maintenance device with telescopic tank - Google Patents

Description

The present invention relates to a pressure maintaining device with a telescopic tank.

Conventionally, as a vacuum device, a combination of a vacuum pump, a vacuum vessel, a pressure gauge, etc. is known, and in order to maintain the vacuum pressure, the pressure is adjusted by adjusting the opening degree of the variable orifice. The ones have been proposed (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 4-349195

In the technique described in the patent document, since the adjustment is made by the variable orifice, the pressure fluctuates even if the vacuum pressure is maintained.

Therefore, the inventor has conceived that if a telescopic tank is used, the pressure can be kept constant without causing pressure fluctuations, and the present invention has been made so that a constant pressure can always be supplied.

An object of the present invention is to provide a pressure maintaining device with a telescopic tank that can always maintain a constant pressure applied (supplied) to a device.

The invention of claim 1 is a pressure maintenance device with a telescopic tank which has a connection connector for connecting to a device and maintains a pressure applied to the device through the connection connector at a predetermined pressure value. A fixed capacity fixed tank to which a connector is connected, a telescopic tank that is communicated with the fixed tank and can be expanded and contracted to change the volume, a spring that urges the telescopic tank in the direction in which the telescopic tank expands, and the fixed tank. Inside, a pressure applying means for applying a negative pressure, a movable magnet provided at the upper end of the telescopic tank and moving according to the expansion and contraction of the expansion and contraction tank, and the expansion and contraction tank in the expansion and contraction direction of the expansion and contraction tank. A sensor guide that is arranged side by side and engages with the movable magnet to guide the movement in the expansion / contraction direction, and an upper and lower position that is provided vertically on the sensor guide with the movable magnet in between and emits a signal by contact with the movable magnet. Upon receiving signals from the side sensor switch section and the upper and lower sensor switch sections, pressure application to the fixed tank by the pressure applying means is started or stopped according to the signals from the upper and lower side sensor switch sections. The control means is provided with a control means for maintaining the predetermined pressure value, and when the movable magnet comes into contact with the upper center switch portion, the control means starts applying pressure to the fixed tank and is movable. When the magnet comes into contact with the lower center switch portion, the pressure applied to the fixed tank is stopped .
The invention of claim 2 is a pressure maintenance device with a telescopic tank which has a connection connector for connecting to a device and maintains a pressure applied to the device through the connection connector at a predetermined pressure value. A fixed capacity fixed tank to which a connector is connected, a telescopic tank that is communicated with the fixed tank and can be expanded and contracted to change the volume, a spring that urges the telescopic tank in the direction in which the telescopic tank contracts, and the fixed tank. Inside, a pressure applying means for applying a positive pressure, a movable magnet provided at the upper end of the telescopic tank and moving according to the expansion and contraction of the expansion and contraction tank, and the expansion and contraction tank in the expansion and contraction direction of the expansion and contraction tank. A sensor guide that is arranged side by side and engages with the movable magnet to guide the movement in the expansion / contraction direction, and an upper and lower position that is provided up and down with the movable magnet sandwiched between the sensor guides and emits a signal by contact with the movable magnet. Upon receiving signals from the side sensor switch section and the upper and lower sensor switch sections, pressure application to the fixed tank by the pressure applying means is started or stopped according to the signals from the upper and lower side sensor switch sections. The control means is provided with a control means for maintaining the predetermined pressure value, and the control means stops applying pressure to the fixed tank when the movable magnet comes into contact with the upper center switch portion, and the movable magnet is movable. When the magnet comes into contact with the lower center switch portion, the pressure is applied to the fixed tank.

By doing so, the fluctuation of the pressure (negative pressure / positive pressure) applied to the device is absorbed by the expansion / contraction (volume change) of the expansion / contraction tank, and the pressure applied to the device is always maintained constant. Not only can it maintain pressure, but it can also be applied to power by using pressure.

As described in claim 3 , an electromagnetic on-off valve is provided on the side of the pressure-applying means on which pressure is applied, and the control means applies pressure to the fixed tank by opening and closing the electromagnetic on-off valve. It is desirable that it stops.

In this way, the pressure applied to the device is always kept constant by simply controlling the opening and closing of the electromagnetic on-off valve.

As described in claim 4 , it is desirable that a pressure gauge with an adjustment dial capable of adjusting the pressure applied in the fixed tank is provided between the fixed tank and the pressure applying means. ..

In this way, the pressure to be kept constant can be easily adjusted.

As described in claim 5 , it is desirable that the telescopic tank is installed above the fixed tank.

By doing so, the space required for installation can be reduced.

As described in claim 6 , the fixed tank may be installed separately from the telescopic tank.

In this way, it can be installed even if it is subject to height restrictions.

As described in claim 7 , it is desirable that an adjusting plate is provided on the upper side of the spring, and a basic pressure adjusting means capable of adjusting the position of the adjusting plate in the expansion / contraction direction is provided.

By doing so, the pressure that is the basis of control can be adjusted by adjusting the position of the adjusting plate.

According to the present invention, the expansion and contraction of the expansion / contraction tank can absorb the fluctuation of the pressure applied to the device, so that the pressure applied to the device can be stably and constantly maintained.

It is a figure which shows an example of the vacuum maintenance apparatus which is one Embodiment of the pressure maintenance apparatus with a telescopic tank which concerns on this invention. It is operation explanatory drawing of the said vacuum maintenance apparatus. It is the same figure as FIG. 1 about the modification of the vacuum maintenance apparatus. It is a figure which shows an example of the pressure maintenance apparatus which is one Embodiment of the pressure maintenance apparatus with a telescopic tank which concerns on this invention. It is an operation explanatory view of the pressure maintenance apparatus. It is the same figure as FIG. 1 about the modification of the pressure maintenance apparatus.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Vacuum maintenance device)
The vacuum maintenance device 1 includes a telescopic tank 3 and a fixed tank 4 which are arranged vertically and communicate with each other in the support frame 2. The telescopic tank 3 has a bellows shape and can be expanded and contracted, and the volume changes. The fixed tank 4 has a box shape and a constant capacity. The material of the telescopic tank 3 is not particularly limited, and a metal material, an elastic material such as rubber, a plastic material, or the like is used.

The upper member 2a of the support frame 2 is provided with a basic pressure regulator 5. The basic pressure regulator 5 has a screw rod 5a rotatably attached to the upper member 2a and a movable plate 5b provided at the lower end of the screw rod 5a so that the movable plate 5b moves up and down by rotation to the screw rod 5a. It has become.

A tension spring 6 and a movable magnet 7a of the magnet sensor switch 7 are vertically arranged between the movable plate 3b and the upper end of the telescopic tank 3. In the magnet sensor switch 7, the movable magnet 7a is engaged with the sensor guide 7b extending in the vertical direction so as to be movable in the vertical direction. The sensor guide 5b is provided with sensor switch portions 7c and 7d above and below the movable magnet 7a, and when the movable magnet 7a comes into contact with the sensor switch portions 7c and 7d, a signal is output to the control device 8. ing.

The fixed tank 4 is connected to the vacuum pump 11 controlled by the control device 8 through a first passage 14A having an electromagnetic on-off valve 9 and a manual valve 10A in order. On the tank side of the electromagnetic on-off valve 9 of the first passage 14A, the second passage 14B connected to the connector 13 is branched. A pressure gauge 12 with an adjustment dial and a manual valve 10B are sequentially provided in the second passage 14B from the pump side. The manual valves 10A and 10B are flow rate adjusting valves and are used for fine adjustment of pressure adjustment.

The control device 8 receives signals from the sensor switch units 7c and 7d, controls the opening and closing of the electromagnetic on-off valve 9, and maintains the vacuum pressure constant.

Subsequently, the procedure for setting the pressure (vacuum pressure) to be used will be described with reference to FIG.

First, the desired vacuum pressure (constant pressure) is set by the adjustment dial of the pressure gauge 12 with the adjustment dial (step S1).

In a state where the connector 13 is connected to a device (a device that operates under vacuum pressure), the vacuum pump 11 is operated without operating the device (step S2). As a result, the pressure in the fixed tank 4 decreases, and the telescopic tank 3 starts contracting. The electromagnetic on-off valve 9 is in the open state.

When the tension spring 6 extends and the value indicated by the pressure gauge 12 reaches the pressure to be used, that is, the pressure set by the adjustment dial, the movable magnet 7a is aligned so as to come into contact with the lower sensor switch portion 7d. , The lower sensor switch portion 7d is fixed at the position of the sensor guide 5b (step S3). As a result, the upper limit of the pressure applied by the vacuum pump 11 is determined.

When the control device 8 receives the signal from the lower sensor switch unit 7d, the control device 8 sends a closing signal to the electromagnetic on-off valve 9 to stop the action of the negative pressure (vacuum pressure).

Next, the device connected to the connector 13 is activated (step S4). The pressure in the telescopic tank 3 rises, and the telescopic tank 3 expands.

When the telescopic tank 3 expands and the value indicated by the pressure gauge 12 reaches the target vacuum pressure (pressure set by the adjustment dial) (when trying to exceed the target vacuum pressure), the movable magnet 7a moves. The upper sensor switch portion 7c is aligned so as to be in contact with the upper sensor switch portion 7c, and the upper sensor switch portion 7c is fixed at that position of the sensor guide 5b. The lower limit of pressure is set.

When the control device 8 receives the signal from the upper sensor switch unit 7c, the control device 8 sends an open signal to the electromagnetic on-off valve 9 so that the negative pressure from the vacuum pump 11 acts.

As a result, the movable magnet 7a moves up and down within the range of the upper and lower sensor switch portions 7c and 7d, and the expansion and contraction range (working range) of the expansion and contraction tank 3 is restricted. That is the capacity of the operating range.

If such an expansion / contraction tank 3 is not provided, the vacuum pressure applied through the connector 13 will change. However, by providing the expansion / contraction tank 3, the change in vacuum pressure is absorbed by the expansion / contraction operation of the expansion / contraction tank 3 and is constant. The vacuum pressure can be stably applied.

In addition, a compact system can exert great power, generate almost no sound, and can be used with a small amount of power because the power source is only the power source of the vacuum pump 11 and the control device 8.

Further, when the height is restricted at the installation location, the fixed tank 4A can be provided outside the support frame 2 as shown in FIG. In this case, the first passage 14C connected to the telescopic tank 3 and the fixed tank 4 is provided with a pressure gauge 12 with an adjustment dial, an electromagnetic on-off valve 9 and a manual valve 10A in this order, and is finally connected to the vacuum pump 11. Will be done. The second passage 14D connected to the fixed tank 4 is provided with a manual valve 10B and is connected to the connection connector 13.

In the above-described embodiment, the case of maintaining the vacuum pressure (negative pressure) has been described, but the same can be applied to the case of maintaining the pressurization (positive pressure).
(Pressurization maintenance device)
As shown in FIG. 4, in the case of pressure maintenance, the tension is constant by changing the tension spring 6 in the case of vacuum maintenance to a normal spring 21 and the vacuum pump 11 to a pressure pump 22 (compressor). It is a pressurization maintenance device 1A capable of controlling to maintain the pressure. The first and second passages 14A'and 14B' are directly connected to the fixed tank 4, and the pressure gauge 12 with the adjustment dial is not the second passage 14B'but the electromagnetic on-off valve of the first passage 14A'. It is provided on the tank side of 9.

In this case, a constant pressure can always be supplied without being affected by the change in the pressure supplied from the pressurizing pump 22. Further, by maintaining the pressure in this way, a large pressure (constant pressure) can be stably applied with a compact structure.

Subsequently, the procedure for setting the pressure (positive pressure) to be used will be described with reference to FIG.

First, the pressure to be used (positive pressure) is set by the adjustment dial of the pressure gauge 12 with the adjustment dial (step S11).

With the connector 13 connected to the device, the pressurizing pump 22 is operated without operating the device (step S12). The pressure in the fixed tank 4 rises, and the telescopic tank 3 starts to expand.

When the spring 21 contracts and the value indicated by the pressure gauge 12 reaches the pressure to be used, that is, the pressure set by the adjustment dial, the movable magnet 7a touches the upper sensor switch portion 7c on the sensor guide 5b. The upper sensor switch portion 7c is fixed by aligning the position (step S13). As a result, the upper limit of the pressure applied by the pressurizing pump 22 is determined.

When the control device 8 receives the signal from the upper sensor switch unit 7c, the control device 8 sends a closing signal to the electromagnetic on-off valve 9 to stop the pressure (positive pressure) supply.

Next, the destination device (operating device) connected to the connector 13 is operated (step S14). The pressure in the telescopic tank 3 decreases, and the telescopic tank 3 contracts.

When the telescopic tank 3 contracts and the value indicated by the pressure gauge 12 reaches the pressure to be used (the pressure set by the adjustment dial) (when the pressure to be used is about to be exceeded), the movable magnet 7a is the lower sensor. The lower sensor switch portion 7d is fixed to the sensor guide 5b by aligning the position so as to come into contact with the switch portion 7d. The lower limit of pressure is set.

When the control device 8 receives the signal from the lower sensor switch unit 7d, the control device 8 sends an open signal to the electromagnetic on-off valve 9 to start the pressure (positive pressure) supply.

As a result, the movable magnet 7a moves up and down within the range of the upper and lower sensor switch portions 7c and 7d, and the expansion / contraction range (working range) of the expansion / contraction tank 3 is regulated as in the above-described embodiment. That is the capacity of the operating range.

If such an expansion / contraction tank 3 is not provided, the applied pressure (positive pressure) will change, but by providing the expansion / contraction tank 3, the change in pressure is absorbed by the expansion / contraction operation of the expansion / contraction tank 3, and a constant pressure (constant pressure). Positive pressure) can be stably applied. Further, it does not cause an influence due to a change in the pressure supplied from the pressurizing pump 22.

Further, as shown in FIG. 6, the fixed tank A can be provided outside the support frame 2 as in the case described above. In this case, the pressurizing pump 21 is connected to the telescopic tank 3 and the fixed tank 4A via a pressure gauge 12 with an adjustment dial, an electromagnetic on-off valve 9, and a manual valve 10A, and is manually connected to the fixed tank 4A. The connector 13 is connected via the valve 10B.

1A Vacuum maintenance device 1B Pressurization maintenance device 2 Support frame 2a Upper member 3 Telescopic tank 4, 4A Fixed tank 5 Basic pressure regulator 5a Screw rod 5b Movable plate 6 Spring 7 Magnet sensor switch 7a Movable magnet 7b Sensor guide 7c, 7d Sensor Switch 8 Control device 9 Electromagnetic on-off valve 10A, 10B Manual valve 11 Vacuum pump 12 Pressure gauge with adjustment dial 13 Connection connector 14A, 14B 1st passage 14C, 14D 2nd passage 21 Ordinary spring

Claims (7)

A pressure maintenance device with a telescopic tank that has a connector for connecting to a device and maintains the pressure applied to the device through the connector to a predetermined pressure value.
A fixed capacity fixed tank to which the connector is connected, and
A telescopic tank that communicates with the fixed tank and can be expanded and contracted to change its volume,
With a spring that urges the telescopic tank in the direction in which the telescopic tank extends,
A pressure applying means for applying a negative pressure into the fixed tank,
A movable magnet provided at the upper end of the telescopic tank and moving according to the expansion and contraction of the telescopic tank,
A sensor guide that is arranged side by side with the telescopic tank in the telescopic direction of the telescopic tank and engages with the movable magnet to guide the movement in the telescopic direction.
An upper and lower sensor switch unit that is provided on the upper and lower sides of the sensor guide with the movable magnet in between and emits a signal upon contact with the movable magnet.
Upon receiving a signal from the upper / lower sensor switch unit, the pressure application means is started or stopped to apply pressure to the fixed tank in response to the signal from the upper / lower sensor switch unit . Equipped with a control means to maintain the pressure value,
The control means starts applying pressure to the fixed tank when the movable magnet comes into contact with the upper center switch portion, and when the movable magnet comes into contact with the lower center switch portion, the fixed tank It stops the application of pressure to the magnet.
A pressure maintenance device with a telescopic tank. A pressure maintenance device with a telescopic tank that has a connector for connecting to a device and maintains the pressure applied to the device through the connector to a predetermined pressure value.
A fixed capacity fixed tank to which the connector is connected, and
A telescopic tank that communicates with the fixed tank and can be expanded and contracted to change its volume,
With a spring that urges the telescopic tank in the direction in which the telescopic tank contracts,
A pressure applying means for applying a positive pressure into the fixed tank,
A movable magnet provided at the upper end of the telescopic tank and moving according to the expansion and contraction of the telescopic tank,
A sensor guide that is arranged side by side with the telescopic tank in the telescopic direction of the telescopic tank and engages with the movable magnet to guide the movement in the telescopic direction.
An upper and lower sensor switch unit that is provided on the upper and lower sides of the sensor guide with the movable magnet in between and emits a signal upon contact with the movable magnet.
Upon receiving a signal from the upper / lower sensor switch unit, the pressure application means is started or stopped to apply pressure to the fixed tank in response to the signal from the upper / lower sensor switch unit . Equipped with a control means to maintain the pressure value,
The control means stops applying pressure to the fixed tank when the movable magnet comes into contact with the upper center switch portion, and when the movable magnet comes into contact with the lower center switch portion, the fixed tank It starts to apply pressure to the
A pressure maintenance device with a telescopic tank. An electromagnetic on-off valve is provided on the side of the pressure applying means on which pressure is applied.
The control means applies or stops pressure to the fixed tank by opening and closing the electromagnetic on-off valve.
The pressure maintaining device with a telescopic tank according to claim 1 or 2. The invention according to any one of claims 1 to 3, wherein a pressure gauge with an adjustment dial capable of adjusting the pressure applied in the fixed tank is provided between the fixed tank and the pressure applying means. Pressure maintenance device with telescopic tank. The pressure maintaining device with a telescopic tank according to any one of claims 1 to 4 , wherein the telescopic tank is installed on the upper side of the fixed tank. The pressure maintaining device with a telescopic tank according to any one of claims 1 to 4 , wherein the fixed tank is installed separately from the telescopic tank. An adjustment plate is provided on the upper side of the spring.
The pressure maintaining device with an expansion / contraction tank according to any one of claims 1 to 6 , wherein a basic pressure adjusting means capable of adjusting the position of the adjustment plate in the expansion / contraction direction is provided.

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