JPH089989B2 - Connecting device for auxiliary tank in air compressor - Google Patents

Description

TECHNICAL FIELD The present invention relates to a connecting device for connecting an auxiliary tank to an air tank provided in an air compressor.

(Prior Art and Problems Thereof) In general, there is one in which an air tank integrally provided for improving the portability of an air compressor is made small. If the capacity of the air tank is small, the tool that consumes a large amount of air will have less workable time and will be less workable.

Therefore, it is known to use an auxiliary air tank connected to such an air compressor. The conventional connection of the auxiliary tank is to connect the tank of the air compressor main body and the auxiliary tank so as to always communicate with each other.

An ordinary air compressor stops the compression operation when the air pressure in the tank reaches a first predetermined value (for example, 10 kg / cm ² ) by a pressure switch, and the pressure is set to a second set value (8 kg / c).
When the vehicle descends to m ² ), it automatically restarts the compression operation.

By the way, when a tool that consumes more air than the capacity of the air compressor is used with the above configuration, both tanks initially have 10 kg / cm ² of compressed air, and the pressure gradually drops as the tool is used ( The speed of this pressure drop is much slower than the case of the main air tank alone). When the pressure in both tanks drops to 8 kg / cm ² , the pressure switch works and the air compressor starts the compression operation. However, since the consumption of tools is larger than the capacity of the air compressor, the tank pressure continues to drop (falling speed becomes slower).

When the pressure in the tank drops to the pressure used by the tool, the tool cannot be used, and the work is interrupted to wait for the recovery of the pressure in the tank.

As described above, when the main body tank and the auxiliary tank are directly connected, the pressure drop from the start of use to the second set pressure value becomes gentle, that is, the time until the air compressor starts the compression operation. It takes a long time and only consumes air during this time, so that the overall usage time is reduced.

(Technical Problem of the Invention) The present invention solves the above-mentioned problems and provides an auxiliary tank connection method and a connection device that can extend the continuous use time in which an air tank attached to an air compressor and an auxiliary tank are used together. The technical task is to do so.

(Means for Solving the Problems) In order to solve the above problems, a connecting device for an auxiliary tank in an air compressor according to the present invention includes an air tank for storing compressed air and detects the pressure in the air tank. The compressed operation of compressed air is stopped by the detection signal of the first set pressure value which is the maximum limit pressure value, and the compressed operation is restarted by the detected signal of the second set pressure value lower than the first set pressure value. In the connecting device for connecting the air compressor on the side of the air compressor and the auxiliary tank connected in parallel, the air on the side of the air compressor is An on-off valve is arranged in the middle of a connecting pipe connecting the tank and the auxiliary tank, and the air tank internal pressure is slightly lower than the first set pressure value and higher than the second set pressure value. A pressure detector that detects that the third set pressure value set to the value has been reached and outputs a detection signal is installed on the air compressor side of the on-off valve, and the third set pressure of the pressure detector is set. An opening / closing valve control device for closing the opening / closing valve by a value detection signal and opening the opening / closing valve by a detection signal of the second set pressure value is provided.

In the air tank connection device, the pressure value detected by the pressure detector for opening and closing the on-off valve is
Instead of the second set pressure value, a fourth set pressure value lower than the second set pressure value and higher than the working limit pressure of the pneumatic tool may be set.

(Operation and Effect of the Invention) According to the above configuration, since the air tank and the auxiliary tank communicate with each other when the air compressor is started, the internal pressure of both tanks is increased. When the pressure value of the air tank reaches the third set pressure value, the on-off valve is operated by the detection signal of the pressure detector to cut off the communication between both tanks. After that, when the first set pressure value is detected, the compression operation is stopped by the detection signal. Therefore, in this state, compressed air having the first set pressure value is stored in the air tank on the air compressor side, and compressed air having the third set pressure value is stored in the auxiliary tank.

Next, when the compressed air in the air tank on the air compressor side is consumed by the use of the tool, the internal pressure of the compressed air drops sharply. However, since the auxiliary tank is disconnected from the air tank on the air compressor side, the air pressure is maintained at the third set pressure value. Further, when the second set pressure value is detected, the compression operation of the air compressor is restarted by the detection signal, and at the same time, the opening / closing valve is opened and the two tanks communicate with each other. As a result, the compressed air in the auxiliary tank flows into the air tank on the side of the air compressor where the pressure is dropping, and the pressure in the air tank rises sharply. After rising up to, a gentle pressure drop starts from the rising end position. In this case, since the time for the pressure in the air tank to reach the second set pressure value first is earlier than in the past, restart of the compression operation of the air compressor is also faster than in the past, and therefore the lowered pressure is the operating limit pressure of the pneumatic tool. It takes longer than before to reach.

In this way, by initially using only the air tank on the air compressor side to cause a rapid pressure drop, the compression operation of the air compressor is restarted within a short time, and the compressed air in the auxiliary tank is restarted when restarted. Since the pressure is increased in the air tank by increasing the pressure inside the air tank, the continuous use time of the pneumatic tool is extended, and workability and work efficiency can be improved.

When the fourth set pressure value, which is set to a pressure lower than the second set pressure value and higher than the upper limit value of the working pressure of the pneumatic tool, is detected after the restart of the compression operation, the air tank on the compressor side and the auxiliary If it is configured to communicate with the tank, the compression operation will be performed in the low pressure region, the compression efficiency will be improved, and the continuous use time can be further extended correspondingly.

(Example) Hereinafter, the present invention will be described.

In FIG. 1, an air compressor 1 includes an air tank 2 that stores compressed air, detects the pressure in the air tank 2, and compresses the compressed air by a detection signal of a first set pressure value that is a maximum limit pressure value. The air compression operation is stopped, and the first
Is operated by an operation control device (not shown) so as to restart the compression operation by a detection signal of a second set pressure value lower than the set pressure value of the auxiliary tank 3 connected in parallel with the air tank 2. And are connected in parallel.

An on-off valve 5 is arranged in the middle of a connecting pipe 4 that connects the air tank 2 on the air compressor 1 side and the auxiliary tank 3. This on-off valve 5 is controlled by an on-off valve control device (not shown).
It is connected to a pressure detector 6 which detects the pressure of the air tank 2 on the side of the air compressor 1 and opens and closes the on-off valve 5, and based on the detection signal of the pressure value of the pressure detector 6, the connecting conduit 4
Is configured to open and close.

Next, opening / closing of the connecting pipe 4 and operation of the air compressor 1
The stop shall be controlled as follows.

First, when starting the air compressor 1, the air tank 2 and the auxiliary tank 3 are connected. Then, the compression detector 6 detects the pressure in the air tank 2, and stops the compression operation of the compressed air by the detection signal of the first set pressure value which is the maximum limit pressure value of the air tank 2 by the detection signal. .

Next, the pressure detector 6 restarts the compression operation by the detection signal of the second set pressure value, opens the on-off valve 5 and connects the two tanks 2 and 3 with each other. The second set pressure value is set to an intermediate value between the first set pressure value and the use limit pressure value of a pneumatic tool such as a nail driver.

Further, the pressure detector 6 closes the on-off valve 5 by the detection signal of the third set pressure value which is set to a value slightly lower than the first set pressure value to close the two tanks 2 and 3 to communicate with each other. Cut off.

As shown in FIG. 2 (a), the pressure detector is configured as the pressure regulating valve 6a and the opening / closing valve is configured as the pneumatic actuating valve 5a, and the pressure regulating valve is turned on by the detection signal of the third set pressure value. It may be set to operate and turn off by detecting the second set pressure value, or as shown in FIG. 7B, the pressure detector is a pressure switch 6b and the opening / closing valve is a solenoid valve 6b. The pressure detector 6 may be configured to be turned off by the detection signal of the third set pressure value and turned on by the detection signal of the second set pressure value.

It is assumed that the pneumatic tool 7 connected to the air compressor 1 has a greater air consumption than the compression capacity of the air compressor 1.

Next, the increase / decrease state of the internal pressure of the air tank 2 on the side of the air compressor 1 based on the use of the pneumatic tool 7 in the connection configuration of the air compressor 1 and the auxiliary tank 3 will be described with the graph of FIG. In this example, the solid line connecting the black dots is a graph of increase / decrease in the conventional connection configuration.

When the air compressor 1 is started, since the air tank 2 and the auxiliary tank 3 are in communication with each other, both tanks 2 and 3 are filled with compressed air, and the internal pressure thereof is increased. When the pressure value of the air tank 2 reaches the third set pressure value P3 (when point a is reached), the open / close valve 5 is activated by the detection signal of the pressure detector 6 and the communication between the two tanks 2 and 3 is cut off. It After that, when the detected pressure value of the pressure detector 6 reaches the first set pressure value P1, the compression operation of the air compressor 1 is stopped. Therefore, in this state, compressed air having the first set pressure value P1 is stored in the air tank 2 on the air compressor side, and compressed air having the third set pressure value P3 is stored in the auxiliary tank 3. become.

Next, when the compressed air in the air tank 2 on the air compressor side is consumed by using the tool 7, the internal pressure of the compressed air drops sharply. However, since the auxiliary tank 3 is cut off from the air tank 2 on the air compressor side, the air pressure thereof is maintained at the third set pressure value P3. In addition, the second set pressure value P2
Is detected, the compression operation of the air compressor is restarted by the detection signal, the opening / closing valve 5 is opened at the same time, and the two tanks 2 and 3 communicate with each other (shown by point b in the figure).

As a result, the compressed air in the auxiliary tank 3 flows into the air tank 2 on the side of the air compressor 1 where the pressure drops, and the pressure in the air tank 2 rises sharply.
Because it continues to be used, after rising to a certain degree,
A gentle pressure drop starts from the rising end position. In this case, since the time when the internal pressure of the air tank 2 reaches the second set pressure value P2 first is earlier than before, the compression operation of the air compressor 1 is restarted at the operation restart time (point b'at the point shown in the conventional example). Show)
Since this is earlier than t1, the time until the dropped pressure reaches the operating limit pressure of the pneumatic tool 7 is delayed by T1 minutes as compared with the conventional case.

In this way, by initially using only the air tank 2 on the side of the air compressor 1 to cause a rapid pressure drop, the compression operation of the air compressor 1 is restarted within a short time, and at the time of restart, the auxiliary tank 3 Since the compressed air therein is caused to flow into the air tank 2 to increase the pressure inside the air tank 2 faster, the continuous use time of the pneumatic tool 7 becomes longer, and workability and work efficiency can be improved.

In the connection configuration of the auxiliary tank 3, the set pressure value for bringing the two tanks 2 and 3 into the communicating state is lower than the second set pressure value P2 instead of the second set pressure value P2 and is a pneumatic tool. A fourth set pressure value P4 set to a pressure higher than the upper limit value of the working pressure of 7 may be adopted. In this case, in the connecting device of the auxiliary tank 3, the pressure detector 6 detects the fourth set pressure value P4,
The opening / closing valve 5 is opened to bring the two tanks 2 and 3 into communication with each other.

When the pneumatic tool 1 is connected to the air compressor 1 having the above configuration, the on-off valve 5 is closed based on the detection of the third set pressure value P3 to cut off the communication between the two tanks 2 and 3. , Only the internal pressure of the air tank 2 of the air compressor 1 suddenly drops, and the pressure detector 6 displays the second set pressure value P2.
Is detected, the detection signal causes the air compressor to resume operation. However, at this point, the pressure drop in the air tank 2 on the air compressor 1 side further progresses. When the pressure detector 6 detects the fourth set pressure value P4, the open / close valve 5 is opened by the detection signal to open both tanks 2,
Put 3 into communication.

As a result, the compressed air in the auxiliary tank 3 flows into the tank on the side of the air compressor 1 where the pressure has dropped, and the tank internal pressure rises again, but the fourth set pressure value P4 is the second set value. Lower than pressure value P2. As a normal characteristic of the air compressor 1, the lower the tank internal pressure, the higher the compression efficiency. In other words, the lower the pressure in the tank, the more air can be stored in the tank. Therefore, the second set pressure value
The compression operation t2 in the low pressure region between P2 and the fourth set pressure value P4 has high compression efficiency, so that the air tank 2 on the air compressor side and the auxiliary tank 3 are connected by opening the on-off valve 5. The time required for the hourly pressure to rise and then fall to reach the operating limit pressure of the pneumatic tool 7 is further delayed by T2 minutes from the above example.

In this way, by setting the set pressure value close to the supply pressure value to the pneumatic tool 7, the compression efficiency is improved and the air compressor 1 can be operated for a long time in a low pressure range, and the continuous use time is correspondingly increased. Can be extended.

[Brief description of drawings]

FIG. 1 is a schematic view of a connecting device for an auxiliary tank in an air compressor according to the present invention, FIGS. 2 (a) and 2 (b) are explanatory views of a specific example thereof, and FIG. 3 is a case where a pneumatic tool 7 is used. It is a graph which shows the pressure increase / decrease state of the air tank by the side of an air compressor. Reference numeral 1 ... Air compressor, 2 ... Air tank, 3 ... Auxiliary tank, 4 ... Connection line, 5 ... Open / close valve, 6 ... Pressure detector

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Riki Yoshida 6-6 Nihonbashi Hakozakicho, Chuo-ku, Tokyo Max Co., Ltd. (72) Inventor Masatoshi Asai 6-6 Nihonbashi Hakozaki-cho, Chuo-ku, Tokyo Max Co., Ltd. (56) Bibliographic Reference Sho 55-26547 (JP, Y1)

Claims (2)

[Claims] 1. An air tank for storing compressed air is provided, the pressure in the air tank is detected, and a compression operation of the compressed air is stopped by a detection signal of a first set pressure value which is a maximum limit pressure value, An air compressor operated by an operation control device so as to restart a compression operation in response to a detection signal of a second set pressure value lower than the first set pressure value, the air tank being on the side of the air compressor. In the connecting device for connecting the auxiliary tanks connected in parallel, an on-off valve is arranged in the middle of the connecting pipe connecting the air tank on the air compressor side and the auxiliary tank, and the pressure in the air tank Is slightly lower than the first set pressure value and is set to a value higher than the second set pressure value to reach a third set pressure value, and the pressure detector that outputs a detection signal is opened and closed. Valve Is also installed on the air compressor side, and the opening / closing valve is closed by the detection signal of the third set pressure value of the pressure detector, and the opening / closing valve is opened by the detection signal of the second set pressure value. An auxiliary tank connecting device in an air compressor, comprising an opening / closing valve control device for controlling the auxiliary tank. 2. In the air tank connection device, the pressure value detected by a pressure detector for opening and closing the on-off valve is lower than the second set pressure value instead of the second set pressure value. The auxiliary tank connection device for an air compressor according to claim 1, wherein the auxiliary tank connection device is set to a fourth set pressure value which is higher than the working limit pressure of the pneumatic tool.