KR200458416Y1 - Auto-pressurizing and control device for a motor of a water pump - Google Patents

Abstract

The present invention relates to an automatic pressurization and operation control structure of an absorption pump motor, in which a sensing assembly and a control assembly are installed in a main body. Parts of the sensing assembly can be simplified to feed water directly inside the body, which has the advantage of convenient water supply and assembly. In addition, since the check valve plug of the sensing assembly cannot rotate with respect to the injection cover, it is possible to prevent wear and loosening of the connection portion between the check valve plug and the injection cover due to the impact of the fluid. In addition, in the control assembly, the purpose of adjusting the position of the magnet spring switch by moving the magnet spring switch up and down simply by rotating the adjustment bolt can be used quite conveniently.

Description

AUTO-PRESSURIZING AND CONTROL DEVICE FOR A MOTOR OF A WATER PUMP}

The present invention is directed to an automatic pressurization and operation control structure of an absorption pump motor that senses fluid pressure and then determines whether to start operation of the motor by that pressure.

Absorption pumps are equipment that transports water from low to high for people to use. The conventional absorption pump is a water pump introduced into the pump by the pressure control structure installed between the inlet and the inlet of the main body, as shown in Taiwan Utility Model 'Automatic Pressure Control Structure of the Absorption Pump Motor' (No. 537370). It senses the inlet pressure and if the detected inlet pressure is sufficient, it indicates that the water supply is sufficient. Start the motor operation and pressurize the water. If the sensed inlet pressure is not sufficient, the motor is paused to prevent the motor from being tampered with.

However, the automatic pressurized control structure of the absorption pump motor according to the prior art is connected to the top cover and the check valve plug by using a position fixing column, and the spring jacket is installed, which is complicated in parts and inconvenient to assemble. In addition, the upper cover and the check valve plug are each formed with a circular concave groove to connect the position fixing column formed in a circular column shape, so that the check valve plug and the position fixing column are easily loosened when subjected to the impact of the fluid for a long time, and the pressure control is performed. Structures cannot perform their functions reliably. In addition, when water is to be pre-filled in the main body from the inlet, water can be filled only after disassembling the entire automatic pressurizing control structure, and a sensor capable of controlling whether the motor is started must be disassembled after disassembling the whole main body. It is possible to change the position and further adjust the incoming pressure that the sensor can sense.

As described above, there is a need to improve the automatic pressure control structure of the absorption pump motor according to the prior art.

In view of the above disadvantages present in the prior art, the present invention provides a water supply or a component only after the components of the automatic pressure control structure of the absorption pump according to the prior art are complicated and subjected to fluid shock to loosen and disassemble easily. An automatic pressurization and operation control structure of the absorption pump motor is provided to address the drawbacks that can be adjusted.

Automatic pressurization and operation control structure of the absorption pump motor devised to achieve the above object is as follows.

The present invention includes a body and a sensing assembly,

An impeller groove is formed on the front side of the main body, and an injection channel and an outlet channel communicating with the impeller groove are formed on the upper surface of the main body, and an inlet channel is formed on the side of the main body, and an injection hole is formed on the main body. An inner diaphragm is formed between the inlet channel and the injection channel, a through hole is formed in the inner diaphragm, and the through hole and the injection hole correspond to each other;

The sensing assembly is installed between the opening and the inlet of the main body, the sensing assembly includes a check valve plug, an injection cover, an injection plug and an elastic member,

The check valve plug is installed at a through position of the main body, and a magnet is sealed and fixedly installed therein, a lower assembly portion is formed extending in an axial direction on an upper surface thereof, a flange is formed around the flange, and the flange is the main body. The through hole is closed by pressure contact with the inner plate of the, the injection cover is fixedly installed at the injection port position of the upper surface of the main body is formed through the through-hole and the upper assembly is formed on the lower surface is extended,

The lower assembly portion of the check valve plug and the upper assembly portion of the injection cover are each a column body having a non-circular cross section, and the hollow sleeve provided with holes corresponding to the column body has a lower assembly portion and the injection cover of the check valve plug. The upper assembly of the fittings are connected to each other to prevent the check valve plug from rotating with respect to the injection cover,

The injection plug is detachably installed in the through hole of the injection cover to seal the through hole, and the elastic member is fitted to the upper assembly portion of the injection cover and the lower assembly portion of the check valve plug, and both ends thereof are respectively Pressure contact with the injection cover and the check valve plug.

The automatic pressurization and operation control structure of the absorption pump motor according to the present invention further includes a control assembly,

A receiving groove is further formed on the rear side of the main body, and a through hole communicating with the receiving groove is further formed on the upper surface of the main body.

The control assembly is installed in the receiving groove of the main body and includes a circuit board, an adjustment block and an adjustment bolt, the circuit board is provided with a magnetic spring switch, one side of the circuit board is hinged to the main body, the adjustment block is the circuit board And a screw hole is vertically penetrated therethrough, and the screw hole and the through hole of the main body correspond to each other, and the adjusting bolt passes through the through hole of the main body and the screw hole of the adjusting block sequentially and then adjusts the adjustment. In combination with the block, the lower end of the adjustment block is rotatably in contact with the body.

The present invention has the following advantages. Components of the sensing assembly are simplified to facilitate assembly and to be watered through the through-hole of the injection cover simply by removing the injection plug. This eliminates the need to remove the entire sensing assembly and allows for convenient watering. The present invention also effectively prevents the injection cover and the check valve plug from rotating, wear and loosening due to the impact of the fluid because the check valve plug cannot rotate relative to the injection cover. In addition, by simply rotating the adjusting bolt, the circuit board and the magnetic spring switch can be slightly moved up and down with the adjusting block to adjust the position of the magnetic spring switch, thereby achieving the purpose of adjusting the magnitude of the detectable inlet pressure. Therefore, there is no need to disassemble the absorption pump and it can be used quite conveniently.

1 is an exploded perspective view of the present invention.
Figure 2 is a partial cross-sectional view of the present invention from the front.
Figure 3 is a partial cross-sectional view of the operation of the present invention from the front.
Figure 4 is a partial cross-sectional view of the present invention from the back.
Figure 5 is a partial cross-sectional view of the operation of the present invention from the back.
Figure 6 is a partial cross-sectional view according to another embodiment viewed from the back of the operation of the present invention.

Referring to FIG. 1, the automatic pressurization and operation control structure of the absorption pump motor according to the present invention includes a main body 10, a sensing assembly 20, and a control assembly 30.

2 and 4, the impeller groove 11 is formed at the front side of the main body 10, the receiving groove 12 is formed at the rear side, and the receiving groove 12 can sense the water pressure. The pressure switch 13 is mounted, the impeller groove 11 is provided for installing the impeller connected to the motor. In addition, the upper surface of the main body 10 is formed by separating the injection channel 14 and the outlet channel 15 and the through-hole 16 in communication with the receiving groove 12 communicated with the impeller groove 11, the main body ( 10) The inflow channel 17 is formed in the side surface. An injection port 140 and an injection port 170 are formed on the main body 10 to correspond to the injection channel 14 and the acquisition channel 17, respectively, between the acquisition channel 17 and the injection channel 14. The inner diaphragm 18 is formed. A through hole 19 is formed through the inner diaphragm 18 so that the inflow channel 17 and the infusion channel 14 communicate with each other. In addition, the through hole 19 corresponds to each other with the injection hole 140.

The sensing assembly 20 is installed between the opening 19 and the injection port 140 of the body 10, the sensing assembly 20 is a check valve plug 21, the injection cover 22, the injection plug 23 ) And an elastic member 24.

The check valve plug 21 is formed at the position of the through hole 19 of the main body 10, and the magnet 211 is sealed and fixed inside the main body 10, and the lower assembly portion 212 extends in the axial direction on the upper surface thereof. It is molded and a flange 213 is molded around it. The lower assembly portion 212 may be formed in a column body having a circular cross section, and the flange 213 may be in pressure contact with the inner diaphragm 18 of the main body 10 so that the through hole ( 19) can be sealed. In addition, a rubber pad 214 is interposed between the flange 213 and the inner diaphragm 18 to buffer the mutual pressing force between the flange 213 and the inner diaphragm 18 to prevent water from flowing in the reverse direction. .

The injection cover 22 is installed at the injection hole 140 portion of the upper surface of the main body 10 and is fixed to the main body 10 by a plurality of fixing members 221. A washer 222 is installed between the injection cover 22 and the main body 10 to prevent leakage. In addition, the injection cover 22 has a through hole 223 formed therein, and an upper assembly part 224 is formed on the bottom thereof. A thread may be formed on a wall of the through hole 223, and the upper assembly part 224 may be formed of a hollow sleeve. The sleeve is provided with a column-shaped lower assembly portion 212 of the check valve plug 21 and holes corresponding to each other, so that the lower assembly portion 212 of the check valve plug 21 and the upper portion of the injection cover 22 are provided. The assembly portion 224 can be connected to the opposite. In addition, since the check valve plug 21 cannot rotate with respect to the injection cover 22, a connection portion between the injection cover 22 and the check valve plug 21 even when a fluid impacts the check valve plug 21. Rotation, wear and loosening can be effectively prevented.

A screw bolt 231 is formed in the injection plug 23, and the screw bolt 231 is installed through the through hole 223 having a threaded wall formed in the injection cover 22, so that the injection cover 22 is formed. By combining with the through-hole 231 of the injection cover 22 can be sealed. Subsequently, water can be injected directly from the through-hole 223 of the injection cover 22 by simply removing the injection plug 23 and there is no need to separate the entire sensing assembly 20 so that water can be conveniently supplied. Has

The elastic member 24 is fitted on the upper assembly portion 224 of the injection cover 22 and the lower assembly portion 212 of the check valve plug 21, and both ends thereof are the injection cover 22 and the check valve. The check valve plug 21 is in a natural state to seal the through-hole 19 of the main body 10 by pressurizing each of the plug 21.

The control assembly 30 is installed in the receiving groove 12 of the main body 10 and includes a circuit board 31, an adjusting block 32, an adjusting bolt 33, and a position fixing elastic sheet 34.

The circuit board 31 is electrically connected to the pressure switch 13, and a magnet spring switch 311 is installed thereon. The magnet spring switch 311 controls the turning on (starting) or the turning off (stop) by the magnetic response of the magnet 211 installed inside the check valve plug 21. A hinge hole 310 is formed at one side of the circuit board 31, and the circuit board 31 is hinged to the main body 10 by penetrating the fixing member through the hinge hole 310, and at least one other side of the circuit board 31. The guide hole 312 is formed vertically. The adjusting block 32 is fixedly installed in the circuit board 31, and a screw hole 321 is vertically penetrated therethrough, and the screw hole 321 corresponds to the through hole 16 of the main body 10. .

The adjusting bolt 33 is coupled to the adjusting block 32 after passing through the screw hole 321 of the adjusting block 32. In addition, the lower end of the adjustment bolt 33 is rotatably connected to the body (10).

The position fixing elastic sheet 34 is installed vertically on the circuit board 31, and the pressing portion 341 is formed in the middle portion thereof. The pressing unit 341 is in pressure contact with the circuit board 31 and sequentially passes through the at least one fixing member 35 through the position fixing elastic sheet 34 and the induction hole 312 of the circuit board 31. By doing so, it is fixedly coupled to the main body 10. When the adjusting bolt 33 is rotated, the adjusting block 32 may be operated to move along the adjusting bolt 33 to change its position. In addition, the circuit board 31 can be stably moved by the pressure of the pressing unit 341.

Referring to FIGS. 2 and 3, when a water source is connected to the inlet 170 of the main body 10, the water from the water source is in the inlet channel 17, the through hole 19, and the inlet channel 14. It is introduced into the impeller groove 11 via the pressurized by the impeller actuated by the motor and then discharged through the outlet channel 15 and the outlet 150 again. Here, when water flows into the inlet channel 17 of the body 10, the check valve plug 21 is pushed and moved upwards and further flows into the inlet channel 14. As the hydraulic pressure is different, the distance that the check valve plug 21 moves back is different from each other.

If the pressure of the water introduced by this design is not sufficient, the check valve plug 21 is not pushed to a position where the magnet 211 therein can react with the magnetic spring switch 311 of the control assembly 30. Thus, the magnetic spring switch 311 remains turned off and the motor does not drive the impeller. When the pressure of the introduced water is sufficient, the check valve plug 21 is pushed to a position where the magnet 211 therein can be sensitive to the magnet spring switch 311 of the control assembly 30. 311) is turned on. This allows the motor to start and operate the impeller to pressurize the water so that sufficient pressure can be supplied.

4 to 6, when the magnetic spring switch 311 is adjusted to change the magnitude of the hydraulic pressure that the sensing assembly 20 can detect, a driver may be mounted on the body 10. Simply insert the through hole 16 and rotate the adjustment bolt 33 to move the circuit board 31 and the magnet spring switch 311 up and down slightly with the adjustment block 32 to move the magnet spring switch 311. By the position of, it is possible to achieve the purpose of adjusting the magnitude of the detectable water pressure. Therefore, the absorption pump does not need to be disassembled and can be used quite conveniently.

10: main body 11: impeller groove 12: receiving groove
13: pressure switch 14: injection channel 140: injection hole
15: outlet channel 16: through hole 17: inlet channel
170: inlet 18: inner plate 19: through hole
20: detection assembly 21: check valve plug 211: magnet
212: lower assembly portion 213: flange 214: pad
22: injection cover 221: fixing member 222: washer
223: through hole 224: upper assembly portion 23: injection plug
231 screw bolt 24 elastic member 30 control assembly
31: circuit board 310: hinge hole 311: magnetic spring switch 312: induction hole 32: adjustment bolt
32: adjusting block 321: screw hole 34: position fixing elastic sheet 341: pressing portion 35: fixing member

Claims (6)

In the automatic pressurization and operation control structure of an absorption pump motor including a body and a sensing assembly,
An impeller groove is formed on the front side of the main body, and an injection channel and an outlet channel communicating with the impeller groove are formed on the upper surface of the main body, and an inlet channel is formed on the side of the main body. An injection hole is formed on the main body, and an inner diaphragm is formed between the inflow channel and the injection channel, a through hole is formed in the inner diaphragm, and the through hole and the injection hole correspond to each other.
The sensing assembly is installed between the opening and the inlet of the main body, the sensing assembly includes a check valve plug, an injection cover, an injection plug and an elastic member,
The check valve plug is installed at a through position of the main body, and the magnet is sealed and fixedly installed therein, an upper assembly is formed by extending the lower assembly portion in the axial direction, and a flange is formed around the flange. The through hole is closed by pressure contact with the inner plate, and the injection cover is fixedly installed at the injection hole position on the upper surface of the main body, and a through hole is formed thereon, and an upper assembly portion is extended and formed on the lower surface thereof.
The lower assembly portion of the check valve plug and the upper assembly portion of the injection cover are each a column body having a non-circular cross section, and the hollow sleeve provided with holes corresponding to each other with the column body is provided with a lower assembly portion of the check valve plug. By fitting the upper assembly of the injection cover to each other so that the check valve plug does not rotate relative to the injection cover,
The injection plug is detachably installed in the through hole of the injection cover to seal the through hole, and the elastic member is fitted to the upper assembly portion of the injection cover and the lower assembly portion of the check valve plug, and both ends thereof are respectively In pressure contact with the injection cover and the check valve plug,
Automatic pressurization and driving control structure of absorption pump motor. The method of claim 1,
Further comprising a control assembly,
An accommodation groove is further formed on the rear side of the main body, and a through hole communicating with the accommodation groove is further formed on an upper surface of the main body.
The control assembly is installed in the receiving groove of the main body and includes a circuit board, an adjustment block and an adjustment bolt, the circuit board is provided with a magnetic spring switch, one side of the circuit board is hinged to the main body, the adjustment block is the circuit board And a screw hole is vertically penetrated therethrough, and the screw hole and the through hole of the main body correspond to each other, and the adjusting bolt passes through the through hole of the main body and the screw hole of the adjusting block sequentially and then adjusts the adjustment. And a lower end of the adjustment block rotatably contacting the main body, wherein the absorption pump motor is coupled to the block. The method of claim 2,
At least one guide hole is formed longitudinally on the other side of the circuit board of the control assembly, wherein the control assembly further comprises a positioning elastic sheet, the positioning elastic sheet being vertically installed on the circuit board and the middle thereof. The pressing portion is molded in the portion, wherein the pressing portion is in pressure contact with the circuit board and is fixed to the main body by sequentially passing at least one fixing member through the position fixing elastic sheet and the induction hole of the circuit board of the absorption pump motor Automatic pressurization and driving control structure. 4. The method according to any one of claims 1 to 3,
In the sensing assembly, a thread is formed in a wall of the through hole of the injection cover, and a screw bolt is formed in the injection plug, and the screw bolt is installed through the through hole having a threaded wall of the injection cover to inject the injection cover. Automatic pressurization and driving control structure of the absorption pump motor. 4. The method according to any one of claims 1 to 3,
A rubber pad is provided between the flange of the check valve plug and an inner diaphragm of the main body, and a washer is installed between the injection cover and the main body. 4. The method according to any one of claims 1 to 3,
And the lower assembly portion of the check valve plug is a column body having a non-circular cross section, and the upper assembly portion of the injection cover is the sleeve corresponding to each other with the column body.

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