JP3409989B2 - Dispensing device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to the structure of a fixed-quantity liquid sending device for sending a predetermined amount of liquid. [0002] An apparatus for accurately sending a fixed amount of liquid is
Required in various fields. For example, in an automatic cleaning system for automatically washing dirty clothes and the like, a predetermined amount of a liquid detergent to be put into a main washing tank or a liquid bleach to be put into a finish washing tank is accurately sent. There must be. Conventionally, a predetermined amount of liquid has been sent by a liquid pump. [0003] However, when a liquid pump is used, the blade portion of the liquid pump is made of metal from the viewpoint of strength and workability. there were. In addition, when the liquid has to be independently sent to a plurality of locations, a complicated switching valve is required, or a separate liquid pump is required for each of the plurality of locations. Therefore, the cost of the apparatus is increased. The present invention has been made to solve the above-mentioned problems, and provides a low-cost fixed-quantity liquid feeding apparatus capable of independently sending liquid to a plurality of locations without fear of corrosion. The purpose is to: [0005] In order to achieve the above object, a quantitative liquid sending device according to the present invention has the following configuration.
I have. That is, the liquid level is increased by replenishing the insufficient liquid.
With a means to keep it constant and with a closed structure
Each of the measuring tanks and the specified depth below the liquid level in each measuring tank
A liquid feed pipe that is inserted and opened, and an opening above the liquid level of the measuring tank
And an air supply pipe for sending compressed air.
Each measuring tank has a means of replenishing the body and keeping the liquid level constant.
Constant level tank communicating via a valve and floating on the level of constant level tank
With a floating float and a valve that opens when the float is lowered
A liquid supply pipe is provided.
Adjusting means that can arbitrarily adjust the depth from the surface is provided,
Also, each air supply pipe is connected to each three-way solenoid valve
Through a common air pump through the
You. FIG. 1 and FIG. 2 show a quantitative liquid sending device according to an embodiment of the present invention. Of these, FIG.
1 shows an overall schematic circuit diagram of the device. This device is used for sending liquid bleach to be supplied to a finish washing tank provided in an automatic cleaning system. Storage tank 1 for storing a large amount of liquid bleach
Communicates with the constant level tank 5 on the downstream side via the liquid supply pipe 3. The liquid supply pipe 3 has a valve 9 that opens when the float 7 floating on the liquid level of the constant liquid level tank 5 is lowered. This valve 9 closes when the float 7 rises. The space above the liquid level of the constant liquid level tank 5 communicates with the atmosphere via an air vent pipe 10. The constant liquid level tank 5 is connected to three measuring tanks 13 provided on the downstream side through a branching communication path 11.
On the downstream side of the communication passage 11 branched into three, an on-off valve 1
5 and a check valve 17 are provided. Each of the measuring tanks 13 has a hermetically sealed structure, into which a liquid feed pipe 19 is inserted from above, and opens at a predetermined depth below the liquid level. The amount L of liquid to be sent is determined by the insertion dimension L below the liquid level as described later. The liquid supply pipe 19 is attached in a confidential state by the chuck device 21. By loosening the chuck device 21, the liquid supply pipe 19 can be slid vertically, and the insertion dimension L can be adjusted arbitrarily. [0011] In order to absorb the slide movement amount,
For example, it is conceivable to make the upper part of the liquid sending pipe 19 in FIG. 1 flexible. As the flexible liquid sending pipe 19, one that does not change its inner diameter even by compressed air and has only the flexibility in the longitudinal direction functions.
Alternatively, it is also possible to adopt a structure in which a part of the liquid sending pipe 19 has a double structure and can slide in the axial direction while maintaining watertightness. An air supply pipe 23 opens above the liquid level of the measuring tank 13. The air supply pipes 23 communicate with a common air pump 27 via three-way solenoid valves 25, respectively. The three-way solenoid valve 25 is for removing air every time the liquid feeding operation is completed. The other end of each liquid supply pipe 19 opens in a finish washing tank 29 provided in the automatic cleaning system. That is, this automatic cleaning system has three automatic cleaning lines, and each line is provided with, for example, a pre-wash tub, a main wash tub, a finish wash tub, and the like, and laundry such as clothes is automatically provided. Pre-washing, main washing, and finish washing are performed in that order. Then, the respective amounts of the liquid bleach (hyperzinc acid) are accurately sent to the finish washing tank 29 of each line. The operation of this embodiment will be described below. Since each measuring tank 13 communicates with the constant level tank 5, the liquid level of each measuring tank 13 is the same as the liquid level of the constant level tank 5. In this state, the air pump 27 operates, and one (or all) of the three three-way solenoid valves 25 operates to send compressed air through the air supply pipe 23. Pressed. Since the pushed liquid is prevented from flowing back to the constant liquid level tank 5 by the check valve 17, the pushed liquid is pushed upward from the liquid sending pipe 19. When the liquid surface continues to be pushed out and the liquid level falls, the opening of the liquid supply pipe 19 is exposed. Due to this exposure, compressed air is pushed out of the liquid feed pipe 19 this time. At this time, the extruded compressed air further pushes the extruded liquid, and the liquid is sufficiently sent even in the long liquid sending pipe 19. Then, an amount of liquid corresponding to a volume determined by the dimension until the liquid level falls and the opening of the liquid sending pipe 19 is exposed × the horizontal sectional area of the measuring tank is sent. That is, the amount of liquid to be sent is determined by the insertion dimension L of the liquid sending pipe 19. The insertion dimension L can be arbitrarily adjusted by loosening the chuck device 21 and sliding the liquid supply pipe 19 up and down. This adjustment can be performed separately and independently in each measuring tank 13. In this manner, the liquid, that is, the liquid bleach, is sent through the liquid feed pipe 19 by the compressed air and is charged into the finish washing tank 29. After the completion of this liquid feeding, the air supply pipe 23 is released to the atmosphere by the three-way solenoid valve 25.
By being released to the atmosphere, the air pressure in the measuring tank 13 decreases, and the liquid is supplied from the constant liquid level tank 5 to the measuring tank 13.
With this supply, the liquid level of the constant liquid level tank 5 is lowered, whereby the float 7 is lowered. When the float 9 is lowered and the valve 9 is opened, the liquid bleach in the storage tank 1 is supplied to the constant level tank 5 via the liquid supply pipe 3, and the constant level tank 5 keeps the liquid level constant. The on-off valve 15 is closed only when performing maintenance and inspection of the measuring tank 13, and the apparatus is normally operated in an open state. As described above, according to this embodiment, even if the liquid has a corrosive property to metals, such as a liquid bleach (hyperchloric acid), the apparatus must have sufficient corrosion resistance. Can be. That is, the part that this liquid touches, that is, the constant liquid level tank 5, the measuring tank 13, the liquid supply pipe 3,
The valve 9, the on-off valve 15, the check valve 17, the liquid sending pipe 19, etc. do not necessarily need to use metal, and can be easily formed of a corrosion resistant material such as vinyl chloride. It is sufficient that one common air pump 27 is provided for the three measuring tanks 13, and the three three-way solenoid valves 25 work independently, so that the liquid is also sent to the three measuring tanks. 13 are performed independently. Further, the adjusting operation for adjusting the insertion dimension L by sliding the liquid feed pipe 19 can be performed independently. Further, the amount of liquid to be sent can be accurately adjusted by sliding the liquid sending pipe 19 to adjust the insertion dimension L. From these facts, it is possible to reduce the cost of the entire apparatus. (Other Embodiments) According to the above embodiment, as a means for keeping the liquid level of the constant liquid level tank 5 constant, the valve 9 which is opened by lowering the float 7 is used. It is also possible to use a sensor for detecting fluctuations in the liquid level and use a valve that opens and closes based on a detection signal from this sensor. In the above embodiment, the measuring tank 1 is used.
Although three is provided with three, it is of course possible to provide two or four or more in other embodiments. In the above embodiments, the liquid to be sent is a liquid bleach, but in other embodiments, it may be a liquid detergent. Further, the present invention is not limited to an automatic cleaning system, but can be applied to an apparatus that must accurately feed a predetermined amount of a drug. As described above, according to the first or second aspect,
According to the quantitative liquid supply device described in (1), there is no need to use a liquid pump, and the material of the measuring tank and liquid supply pipe that comes in contact with the liquid does not need to be limited to metal, and a material that is corrosion resistant to the liquid can be easily prepared. It is possible to choose. Further, according to the invention of claim 2, further,
A plurality of measuring tanks are provided, and an air supply pipe for sending compressed air to each measuring tank uses a common air pump via each three-way solenoid valve, so that independent liquid sending is possible for each measuring tank, and at the same time, Since this air pump does not need to be special, the cost of the apparatus can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged cross-sectional view showing a main part of a quantitative liquid sending device according to an embodiment of the present invention. FIG. 2 is a circuit diagram of the entire apparatus including FIG. 1; [Description of Signs] 1 Storage tank 3 Liquid supply pipe 5 Constant liquid level tank 7 Float 9 Valve 11 Communication pipe 13 Metering tank 15 On-off valve 17 Check valve 19 Liquid feed pipe 23 Air supply pipe 25 Three-way solenoid valve 27 Air pump 29 Finish Washing tub

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) G05D ⁷ /00-7/06 F04B 49/00-51/00 D06F 39/02 F16K 31/18

Claims (1)

(57) [Claims 1] A plurality of measuring tanks having means for replenishing a lacking liquid to keep the liquid level constant and having a closed structure;
Replenishing the liquid feed tube has been inserted respectively opening to the liquid surface a predetermined depth under the respective measuring tank, opened above the liquid surface of the measuring tank possess an air supply pipe for sending the compressed air, the liquid is insufficient the I
Means to keep the liquid level constant by each metering tank via a check valve.
A constant level tank that communicates with a float that floats on the level of the constant level tank
And a liquid supply pipe with a valve that opens by lowering the float
And each of the liquid feeding pipes has a depth from a liquid level at an open end.
Adjustment means for arbitrarily adjusting the
A Supply pipe is shared via each three-way solenoid valve that vents air.
A fixed- quantity liquid sending device configured to communicate with an air pump .