KR200143648Y1 - Pump - Google Patents

Abstract

The present invention relates to a small high-pump pressurized pump having an overpressure increase prevention and an airtight holding device, which forms an operating space (17) in the upper housing (7) to communicate the bypass passage (18) in communication with the inlet space (15). The through hole 19 drilled in the delivery space 16 is configured to be blocked at a predetermined pressure by a valve 22 elastically installed on the spring 21 in the inward direction of the support plate 20 to prevent an overpressure increase. The diaphragm 8 in a thin plate state is positioned between the upper housing 7 and the low housing 6, and each inlet 10 is positioned in the valve assembly 3 in contact with the diaphragm 8. And a plurality of crimping protrusions 23 and 24 are protruded along the outer circumferential surface of the check valve 12 and 13 for controlling the outlet 11 and are squeezed to the diaphragm 8. It is configured to remain.

Description

Compact high lift pressurized pump with overpressure rise prevention and air tightness

1 is a partial cross-sectional view of the present invention.

Figure 2 is a cross-sectional view showing an overpressure increase prevention device of the present invention.

3 is an enlarged view of the part C airtight device of FIG.

4 is a front view of the pump of the present invention.

5 is a front view showing the valve assembly of the present invention.

* Explanation of symbols for main parts of the drawings

1: motor 2: cam

3: valve assembly 6: low housing

7: upper housing 8: diaphragm

9: bolt 15: inlet space

16: delivery space 17: operating space

18: bypass passage 19: through hole

20: support plate 21: spring

22: valve 23, 24: crimping projection

The present invention relates to a small high-pump pressurized pump having an overpressure increase prevention and airtight holding device. When the output pressure of the pump reaches a certain pressure, the higher pressure is bypassed and the maximum output pressure of the pump is increased. It is designed to be kept constant all the time, and the valve assembly in the pump can be maintained more completely airtight.

The small high lift pressurized pump is a pump widely used in water purification columns. The configuration of this pump is connected to the shaft of the motor unit 1 and the motor 1 to reciprocate the circular motion and the axial direction of the motor along with the driving of the motor. The cam 2 for performing the operation, the valve assembly 3 for suctioning the water on the inlet side by the movement of the cam 2, forcing the pressure up, and forcing the pump to the output side, and the inlet pipe A connected thereto ( 4) and an outlet 5 to which the discharge pipe B is connected to each other, and an upper housing 7 fastened to the low housing 6 so that the inner space is divided by the valve assembly 3.

The conventional pump configured as described above does not have an overpressure increase prevention device, and thus, due to the overload of the membrane filter for water purification, which is connected to the rear end of the pump (clogging of the filter, overpressure due to locking of the wastewater control valve, failure of the automatic wastewater control valve, etc.) This causes an increase in the output pressure of the pump, which increases the pressure in the delivery line, causing breakage and leakage due to overpressure.Increasing the output pressure causes an increase in the temperature inside the motor and an increase in the water temperature passing through the pump. Furthermore, there was a closed end to increase the internal temperature of a product equipped with a pump (water purifier, etc.) to reduce the performance of the motor and shorten the life of various components which are vulnerable to temperature such as a membrane filter installed at the rear of the pump.

In addition, the most important role in maintaining the airtightness of the pump is to maintain perfect airtightness at the contact surface between the diaphragm 8 assembled on the valve assembly 3 and the low housing 6.

However, in the conventional valve assembly 3, the contact surface with the diaphragm 8 assembled on the low housing 6 is planar. That is, when the upper housing 7 is forcibly fastened to the bolt 9 from the outside of the valve assembly 3, the smooth surface is in surface contact with the low housing 6 so as to maintain airtightness.

Therefore, if the foreign matter is attached to the poor or small side of the side, and when the bolt (9) between the upper housing (7) and the low housing (6) may occur as a gap due to the difference in the fastening force along the outer circumferential surface In this case, airtightness was not maintained and the pressure inside the pump leaked out through the gap, which caused leakage to the outside and pumping of the desired capacity.

The present invention is designed to solve the conventional problems as described above, if a high pressure or higher than the allowable value of the pump output side line (출력) is generated when the high pressure is returned to prevent damage and leakage of parts, and output over the allowable Its purpose is to reduce the unnecessary power consumption due to the increase in pressure and to maintain the tightness necessary for the smooth operation of the pump to improve the pumping capacity.

Referring to the configuration of the present invention for achieving the above object in detail based on the accompanying drawings as follows.

The motor 1 and the cam 2 which performs the cam motion in the circular direction and the motor side direction by the drive of this motor 1, the low housing 6 which accommodates the cam 2, and the said cam 2 Valve assembly for controlling the inlet 10 and the outlet 11 by check valves 12 and 13 in accordance with the direction of pressure, respectively, to suck the water on the inlet side by the movement of (3) and the inlet (4) to which the inlet pipe (A) is connected, respectively, the diaphragm (14) is in close contact with the valve assembly (3) so that the inner space is the inlet space (15) and the delivery space ( In the configuration consisting of an upper housing (7) fastened to the row housing (6) to be divided into 16),

The operating space 17 is formed in the upper housing 7 to pierce the bypass passage 18 communicating with the inlet space 15, and the support plate 20 is formed in the through hole 19 drilled in the delivery space 16. The valve 22 is elastically installed in the spring 21 in the inward direction so as to shut off at a predetermined pressure to prevent an overpressure increase, and between the upper housing 7 and the low housing 6 The outer circumferential surface of the check valves 12 and 13 for positioning the diaphragm 8 and controlling the respective inlet and outlet ports 11 to the valve assembly 3 in contact with the diaphragm 8. And a plurality of crimping protrusions 23 and 24 are protruded along the edge thereof and compressed to the diaphragm 8 to maintain airtightness.

According to the present invention described above, when overpressure is generated in the delivery space 16 above a predetermined pressure, the valve 22 which is blocking the through hole 19 is retracted and water is introduced into the working space 17. It is then returned to the bypass passage 18 to prevent overpressure.

Therefore, even if the water pressure is high (8kgf / ㎠) or the raw water pressure suddenly flows into the pump it is possible to prevent the leakage of the delivery line.

In addition, even in the airtight holding device having the diaphragm 8 as a contact surface of the low housing 6, a check valve 12 for controlling the inlet 10 and the outlet 11 to the valve assembly 3, respectively ( The pressing protrusions 23 and 24 protrude along the outer circumferential surface and the entire rim of the 13), thereby making sure the airtightness is ensured, thereby improving external leakage and pumping ability.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a cross-sectional view of a portion of the main portion cut in the assembled state of the present invention.

As shown in the figure, when the motor 1 is driven by the application of a power supply, the valve assembly is coupled by the movement of the cam 2 which is engaged with the motor side inside the row housing 6 and performs the cam movement in the motor side. 3) a pumping action is performed, and the outer housing 7 is fastened to the low housing 6 by a bolt 9 on the outside of the valve assembly 3.

The valve assembly 3 is provided with check valves 12 and 13 at both sides of the inlet 10 and the outlet 11 so as to suck water from the inlet side by the movement of the cam 2 and force pumping it back to a predetermined pressure. Attached and opened and closed in accordance with the pressure action direction to discharge the sucked water back to a predetermined pressure.

In the upper housing 7, an inlet 4 to which the inlet pipe A is connected and an outlet 5 to which the discharge pipe B are connected are opened, and the diaphragm 14 closely contacted with the valve assembly 3. The inner space is divided into the inlet space 15 and the delivery space 16 and the water sucked into the outer space 15 by the pumping action is pumped back to the delivery space 16 of the center side again. Pressurized through the discharge pipe (B) at a predetermined pressure to force the transfer, which is the same as in the prior art.

The most important feature of the present invention is that when the output side load abnormality occurs during transmission and the transmission is not normally performed, the amount of return can be returned to block the failure due to overpressure.

That is, the upper housing 7 is formed with an operating space 17 to seal the outside of the support plate 20. In addition, the bypass passage 18 interlocked with the inlet space 15 is drilled as shown in the drawing, and the outlet space 16 also drills the through hole 19 communicating with the working space 17.

On the other hand, the through-hole 19 is blocked by the valve 22 which is elastically installed in the spring 21 to the inner side of the support plate 20, by the elastic modulus of the spring 21, the discharge space portion ( If overpressure occurs at 16, the spring 21 is retracted as shown by the phantom line in FIG. 2 to open the through hole 19.

Therefore, when a load is generated in the delivery line and the delivery is not performed normally, when the pressure is increased due to the continuous pumping action, the through hole 19 is opened at the moment when the pressure is higher than the allowable pressure. The flow is returned to the bypass passage 18 again to block the delivery pressure from rising above the predetermined pressure.

When the pressure falls below the capacity of the spring 21, the valve 22 blocks the through hole 19 by elasticity again, and the pumping action is normally performed by pumping.

In addition, another important configuration feature in the present invention is to place the diaphragm 8 in the state of the thin plate between the upper housing (7) and the long-wooth housing (6), the diaphragm in the valve assembly (3) Compression projections 23 and 24 protruding along the circumference and the outer circumferential surface of the check valves 12 and 13 for controlling the respective inlet and outlet 11 to a position in contact with (8) It is to be pressed to the ram (8) to ensure a more secure airtight at the contact surface.

That is, as shown in the front view of the valve assembly 3 of FIG. 5, the check valves 12 and 13 which are in close contact with both sides of the inlet 10 and the outlet 11 which are drilled at three positions at each position and block the reverse flow in the reverse direction are provided. ), The pressing projection 23 protrudes inward along the circular circumferential surface indicating the unit chag member formed thereon, and the other pressing projection 24 protrudes along the entire edge of the valve assembly 3 to diaphragm in double. It is crimped and assembled to (8).

Therefore, when the upper housing 7 is fastened, in the process of pressing and assembling the outer circumferential surface of the valve assembly 3, the crimping protrusions 23 and 24 are pressed against the diaphragm 8 with a strong pressure so that the contact state thereof is reduced. Since the line contact is made, even if foreign matters are placed between them, the airtight state is maintained.

Claims (1)

A motor 2 and a cam 2 for carrying out a cam motion in a circular motion and a motor shaft direction by the driving of the motor 1, a low housing 6 for accommodating the cam 2, and the cam 2 Valve assembly for controlling the inlet port 10 and the outlet port 11 to the check valves 12 and 13 in accordance with the direction of action of the pressure so as to suck the obtained water by the movement of 3) and the inlet 4 to which the inlet pipe A is connected are opened, and the diaphragm 14 is in close contact with the valve assembly 3, and the inner space is the inlet space 15 and the outlet space 16. In the configuration consisting of the upper housing (7) fastened to the low housing (6) to be divided into a), the bypass passage (18) to form an operating space (17) in the upper housing (7) to communicate with the inlet space (15) ) And a predetermined pressure is provided in the through hole 19 bored in the delivery space 16 by the valve 22 elastically installed in the spring 21 in the inward direction of the support plate 20. The diaphragm 8 in a thin plate state is positioned between the upper housing 7 and the low housing 6, and the diaphragm 8 is provided in the valve assembly 3. A plurality of crimping protrusions 23 and 24 are protruded along the outer circumferential surface of the check valve 12 and 13 for controlling the respective inlet 10 and the outlet 11 to the position in contact with the edges thereof. A small high lift pressurized pump having an overpressure escalation prevention and airtight holding device, characterized in that the airtightness is maintained by being pressed against the ram.