JPH01285681A - Bimorph pump - Google Patents

Abstract

PURPOSE:To facilitate cleaning and disposal of a part in which a suction/ delivery valve is incorporated by dividing a device into a valve unit, which is provided with a suction port having a suction valve and a delivery port having a delivery valve, and a drive unit in which a piezoelectric element is incorporated, and enabling them to be assembled detachably. CONSTITUTION:A bimorph pump 1 consists of a valve unit 2 and a drive unit 3, and an unit body 4 of the valve unit 2 is provided with a suction port 6 attached with a suction valve 5 and a delivery port 8 attached with a delivery valve 7. Again, an unit body 11 of the drive unit 3 is attached with a bimorph type of piezoelectric element 12 for driving a pump. The unit body 4 of the valve unit 2 and the unit body 11 of the drive unit 3 are detachably connected together through threaded engagement for forming a pump body 13. Next, the valve unit 2 is taken off from the drive unit 3 and only the drive unit 3 side is washed and disinfected. The valve unit 2 side can be taken off in such way, therefore a pump chamber 22 of portion is widely opened and can be washed and disinfected easily and still more certainly.

Description

[Detailed description of the invention] Ell! Field of Industrial Application] The present invention relates to a bimorph pump that uses a bimorph piezoelectric element to send fluid.

[Prior Art] Conventional examples of pumps constructed using this type of bimorph piezoelectric element include Japanese Patent Application Laid-Open No. 53-83102, Japanese Utility Model Application Publication No. 60-195986, and Japanese Utility Model Application Publication No. 60-1989.
The one disclosed in Japanese Patent No. 5986 is mentioned. These have a structure in which the main body (container, casing) is built into one body, and an inlet with a suction valve and an outlet with a delivery valve are integrated into this main body, and a pump chamber is formed within the main body. has been done. In other words, it had an integral structure in which the thread path from the suction port to the delivery port was always closed.

[The problem that the invention tries to solve! ! ] By the way, in cases where cleaning and disinfection are always required each time it is used, such as in the medical field, an inlet with a suction valve and an outlet with a delivery valve are integrally provided on the main body, and the outlet is connected from the inlet to the outlet. It is difficult to clean and disinfect the threads that are always closed. In particular, filth, bacteria, etc. tend to accumulate at locations such as the valve portions provided at the inlet and outlet ports, which are difficult to eliminate.

Furthermore, JP-A-59-200081 and JP-A-61-
There are pump chambers that can be disassembled, such as in Publication No. 72888, but in this case, they are not intended to be disassembled for cleaning and disinfection each time they are used, and if they were to be disassembled, all the valves and sealing members would be removed. It comes apart and is difficult and extremely tedious to reassemble.

The present invention has been made in view of the above-mentioned problems, and its purpose is to provide a bimorph type pump configured to send fluid using a bimorph type piezoelectric element, which is easy to clean, and which has an inlet port equipped with a suction valve. An object of the present invention is to provide a bimorph type pump in which a part incorporating a delivery port with a delivery valve can be easily made disposable.

[Means and effects for solving the problems] In order to solve the above problems, the present invention has a pump unit that uses a bimorph piezoelectric element to send fluid sucked in from an inlet with a suction valve to an outlet with a delivery valve. A bimorph type pump that is divided into a valve unit that has an inlet with a suction valve and an outlet with a delivery valve, and a drive unit that incorporates a bimorph piezoelectric element, and each unit is configured to be detachable. It is.

Therefore, the valve unit, which has an inlet with a suction valve and an outlet with a delivery valve, and the drive unit incorporating the bimorph piezoelectric element can be easily separated, so the pump can be disassembled each time it is used. Easy to clean.

In addition, the valve unit, which has an inlet with a suction valve and an outlet with a delivery valve that easily collect and remove dirt and bacteria, is separate from the expensive drive unit, so the valve unit can be installed at a low cost. Can be made disposable.

[Embodiment] FIGS. 1 and 2 show a first embodiment of the present invention. This bimorph pump 1 consists of a valve unit 2 and a drive unit 3, and a unit main body 4 of the valve unit 2 is provided with an inlet 6 with an inlet valve 5 and an outlet 8 with an outlet valve 7. There is. In addition, drive unit 3
A bimorph type piezoelectric element 12 for driving the pump is attached to the unit body 11. Then, the unit body 4 of the valve unit 2 and the unit body 11 of the drive unit 3
As will be described later, the pump body 13 is screwed and removably connected to each other by screw-fitting.

The unit body 4 of the valve unit 2 has a lid 14 that forms the inlet 6 and the outlet 8, and the lid 14 has a cylindrical portion 15 that is screwed into the unit body 11 of the drive unit 3. They are installed consecutively.

A male thread 16 for screwing is formed on the outer periphery of this cylindrical portion 15. A suction tinib 17 is connected to the suction port 6. Further, a delivery chinive 18 is connected to the delivery port 8 .

On the other hand, the unit main body 11 of the drive unit 3 is formed into a cylindrical shape with a bottom, and its open end is connected to the lid 1 on the valve unit 2 side.
4 to be airtightly closed. That is, the cylindrical portion 1 of the unit body 11 in this drive unit 3
A female thread 20 is formed on the inner surface of the valve 9, and the cylindrical portion 15 of the valve unit 2 is screwed into the female thread 20, so that the valve unit 2 and the drive unit 3 are removably engaged. When the valve unit 2 and drive unit 3 are connected in this way, a sealed pump chamber 22 is formed by the inside of each unit main body 4.11. A circumferential groove 23 is formed on the outer periphery of the cylindrical portion 15 of the valve unit 2, avoiding the external thread 16, and a ring-shaped elastic backing 24 is fitted into the circumferential groove 23. This elastic backing 24 is pressed against the inner surface of the cylindrical portion 19 of the unit body 11 of the drive unit 3 to maintain a sealed state.

Further, a bimorph assembly 25 is attached to the bottom of the unit main body 4 of the drive unit 3, and constitutes a pump section that drives the volume of the pump chamber 22 to increase or decrease. This bimorph assembly 25 covers the bimorph type piezoelectric element 12 with a support film 26 made of an elastic material such as silicone rubber, and the entire peripheral portion thereof is airtightly attached and fixed to the unit body 11 of the drive unit 3. It is. Further, a bottom wall portion of the unit body 11 of the drive unit 3 is provided with an air supply/exhaust breathing hole 27 that opens to the outside. That is, this air hole 27 is provided adjacent to the pump chamber 22 via the bimorph assembly 25 and located on the opposite side from the valve unit 2.

Furthermore, power supply lines 28 and 28 for applying voltage to the bimorph piezoelectric element 12 of the bimorph assembly 25 are connected to the bimorph piezoelectric element 12 . This feed line 28.28 is connected to a power source 29. Then, the power supply line 28. is operated by a control device (not shown).
Bimorph piezoelectric cord 1 from IM129 through 28
A voltage is applied to 2.

Thus, as shown in FIG. 1, a power supply line 28.
By applying an alternating current voltage (for example, a commercially available alternating current voltage) through the bimorph piezoelectric element 12, the bimorph piezoelectric element 12 is driven to vibrate, and the support film 26 vibrates accordingly. The volume of the pump chamber 22 changes due to this vibration, and in the process of increasing the volume of the pump chamber 22, the suction valve 5 opens and the delivery valve 7 is closed, so that the fluid to be sent, such as liquid, is pumped from the suction port 6. is inhaled into chamber 22. In addition, in the process of reducing the volume of the pump chamber 22, the suction valve 5 closes,
When the delivery valve 7 opens, the liquid to be sent is sent out from the delivery port 8. By repeating this, liquid can be sent one after another.

By the way, when this bimorph type pump 1 is used in the medical field for injecting drugs, etc., it is necessary to keep all of the liquid delivery channels in a sterile state. Therefore, if the bimorph pump 1 is to be used again after it has been used several times, it must be cleaned and disinfected to make it clean.

Here, as shown in FIG. 2, the valve unit 2 is removed from the drive unit 3, and only the drive unit 3 side is cleaned and disinfected. Since the valve unit 2 side is removed, its pump chamber 2
Part 2 is widely open, allowing cleaning and disinfection to be carried out easily and reliably.

In addition, the valve unit 2 side (usually including the suction tube 17 and delivery tube 18), which has valves 5 and 7 that are structurally difficult to remove dirt and bacteria, is replaced with a new one. That is, the valve unit 2 side having the suction valve 5 and the delivery valve 7 is made disposable, and only the drive unit 3 side is cleaned and disinfected for reuse. Therefore, the valve unit 2, which is difficult to remove dirt and bacteria from, can be made disposable, so there is no need to worry about infection due to reuse.

Further, although the drive unit 3 including the bimorph piezoelectric element 12 is expensive, it is economical because it can be reused. On the other hand, since the valve unit 2 has very few components and is inexpensive, it does not cost much to make it disposable.

FIG. 3 shows a second embodiment of the invention. In this embodiment, the opening of the cylindrical portion 15 in the unit body 4 of the valve unit 2 is fluid-tightly closed with an elastic membrane 31. That is, the elastic membrane 31 is fitted and fixed via the ring-shaped elastic member 32 that is fitted into the open end of the cylindrical portion 15 . The elastic member 32 protrudes from the opening edge of the cylindrical portion 15, and is pressed lightly against the support membrane 26 of the bimorph assembly 25 when the valve unit 2 is attached to the drive unit 3 as shown in FIG. There is.

Further, the cylindrical portion 19 of the unit body 11 of the drive unit 3 is provided with a communication hole 34 that communicates with the space 33 formed between the elastic membrane 31 and the support membrane 26 of the bimorph assembly 25. An opening/closing cock 35 is inserted in the middle of the communication hole 34 . Note that the other configurations are the same as those of the first embodiment. However, the elastic backing 24 is not provided because it is unnecessary as will be described later.

Therefore, when assembling the valve unit 2 and drive unit 3 in this type of bimorph pump 11, the opening/closing cock 35 is opened and the valve unit 2 and drive unit 3 are assembled. Therefore, when the space 33 formed between the elastic membrane 31 and the support membrane 26 of the bimorph assembly 25 is compressed, the air is compressed and released from the communication hole 34 communicating with this space 33 to the outside. Therefore, the space 33 gradually becomes smaller, and the elastic membrane 31
and the support film 26 are in close contact with each other. Then, the on-off valve 35 is closed to block the communication hole 34.

Now it can be used, but by suctioning through the communication hole 34,
If the opening/closing cock 35 is closed, the suction will be more complete.

Therefore, when an AC voltage is applied to the bimorph piezoelectric cord 12 of the bimorph pump 1 through the power supply lines 28 and 28, the bimorph piezoelectric element 12 and its support film 26 vibrate. And support F! The elastic membrane 31 that is in close contact with 111126 also vibrates following this. Due to this vibration, the volume of the pump chamber 22 changes as in the above embodiment, and in the process of increasing the volume of the pump chamber 22, the suction valve 5 opens and the delivery valve 7 is closed, so that the fluid to be sent is It is sucked into the pump chamber 22 through the suction port 6.

In addition, in the process of reducing the volume of the pump chamber 22, the suction valve 5
is closed and the delivery valve 7 is opened, so that the liquid to be sent is sent out from the delivery port 8. By repeating this, liquid can be sent one after another.

In the case of the bimorph pump 1 of this embodiment, the opening of the cylindrical portion 15 on the side of the valve unit 2 is liquid-tightly closed by the elastic membrane 31, so that the liquid passing through the pump chamber 22 is absorbed by the elastic membrane 31. It is completely isolated from the drive unit 3 side. Therefore, the support membrane 26 of the bimorph assembly 25 on the drive unit 3 side is not contaminated with the liquid or the like.

Therefore, there is no need to clean and disinfect the drive unit 3 side.

Therefore, in this embodiment as well, the valve unit 2 side, which includes the suction valve 5 and the delivery valve 7, is of the disposable type.
Clean and disinfect only the drive unit 3 side and reuse it. Since the valve unit 2, which is difficult to remove dirt and bacteria, is made disposable, there is no need to worry about infection due to reuse.

Further, although the drive unit 3 including the bimorph piezoelectric element 12 is expensive, it is economical because it can be reused. Since the valve unit 2 has very few components and is inexpensive, it does not cost much to make it disposable.

Note that the present invention is not limited to the above-mentioned embodiments, and various modifications are possible.

[Effects of the Invention] As explained above, the bimorph pump of the present invention is divided into a valve unit provided with an inlet with a suction valve and an outlet with a delivery valve, and a drive unit incorporating a bimorph piezoelectric element. Each unit is configured to be detachable.

Therefore, the valve unit including the suction port with the suction valve and the delivery port with the delivery valve can be easily separated from the drive unit incorporating the bimorph piezoelectric element, making it easy to clean the inside of the pump.

In addition, the valve unit, which has an inlet with a suction valve and an outlet with a delivery valve that easily collect and remove dirt and bacteria, is separate from the expensive drive unit, making the inexpensive valve unit disposable. can.

[Brief explanation of the drawing]

FIG. 1 is a front sectional view of a first embodiment of the present invention, FIG. 2 is a front sectional view of the first embodiment in which each unit is separated, and FIG. 3 is a front sectional view of a second embodiment of the invention. FIG. 1... Bimorph pump, 2... Valve unit, 3
... Drive unit, 4... Unit body, 5...
Suction valve, 6... Suction port, 7... Delivery valve, 8... Delivery port, 11... Unit main body, 12... Bimorph type piezoelectric element, 22... Pump chamber. Applicant's representative Patent attorney Jun Tsuboi 1, Indication of the case Patent application No. 114182/1986 2, Name of the invention Bimorph type pump 3, Person making the amendment Relationship to the case Patent applicant (037) Olympus Optical Industry Co., Ltd. 4 , Agent: UBE Building 7, 3-7-2 Kasumigaseki, Chiyoda-ku, Tokyo.
Contents of amendment (1) Changed “on-off valve 35” on page 10, line 20 to “
The opening/closing cock is corrected to 35. (2) Correct "filth and bacteria" on page 13, line 11 to "filth and bacteria."

Claims (1)

[Claims] A bimorph type pump in which fluid sucked in from an inlet with a suction valve is sent to an outlet with a delivery valve using a pump section using a bimorph type piezoelectric element, is provided with an inlet with a suction valve and an outlet with a delivery valve. A bimorph pump characterized in that it is divided into a valve unit and a drive unit incorporating a bimorph piezoelectric element, and each unit is configured to be detachable.