WO2010060365A1

WO2010060365A1 - Electronic flow regulating device

Info

Publication number: WO2010060365A1
Application number: PCT/CN2009/075077
Authority: WO
Inventors: 付杰; 彭金兴
Original assignee: 厦门市易洁卫浴有限公司
Priority date: 2008-11-26
Filing date: 2009-11-23
Publication date: 2010-06-03
Also published as: CN201327201Y

Abstract

An electronic flow regulating device for water supply system comprises a controller (1), a control circuit (2), a motor (3) and an regulating valve, the control circuit (2) receives the signal from the controller (1) and controls the rotation of the motor (3); the regulating valve comprises a valve body (7), an regulating rod (4), a push rod (5), an regulating sleeve (8) and a piston (6), the valve body (7) is provided with a water inlet (71) and a water outlet (72), the regulating rod (4) is connected with the motor (3) so as to rotate with the motor (3), the push rod (6) under the regulating rod (4) is threadedly connected with the regulating rod (4), the regulating sleeve (8) is sleeved outside the push rod (5) so as to limit the push rod (5) to just move in the axial direction, the lower end of the push rod (5) is fit to the piston (6), the piston (6) in the valve body (7) moves axially so as to regulate the water flow area between the water inlet (71) and the water outlet (72), and the lower end of the piston (6) can close the water outlet (72).

Description

Instruction manual

Title of Invention: Electronic Flow Regulators

[1] The present invention relates to an electronic flow regulating device, and more particularly to an electronic flow regulating device that is applied to a water supply system and that can intelligently control the flow rate of water.

Background technique

[2] Most of today's domestic water heaters are installed directly in the bathroom, or the water heaters are concealed. The nozzles and control water valves are installed only in the bathroom. The user controls the water valve to control the flow rate of the water by manual adjustment. The size of the water flow cannot be precisely adjusted, and the flow needs to be re-adjusted each time it is turned on, and an optimal flow rate cannot be set. In addition, in some public baths or massage baths with massage effects, it is necessary to set an optimal flow rate to achieve the best results.

Summary of the invention

[3] An object of the present invention is to provide an electronic flow rate adjusting device which is applied to a water supply system and can intelligently adjust the flow rate of water.

[4] To achieve the above object, the solution of the present invention is:

[5] An electronic flow regulating device is applied to a water supply system, comprising a controller, a control circuit, a motor and a regulating valve; the control circuit receives a signal from the controller to control the rotation of the motor; the regulating valve includes a valve body, and an adjustment The rod, the ejector rod, the adjusting sleeve and the piston have a water inlet and a water outlet, and the adjusting rod is connected with the motor, and is driven by the motor to rotate. The ejector rod is located below the adjusting rod, and is screwed with the adjusting rod, and the adjusting sleeve is arranged at the top The rod is rotated outside the rod to limit the rotation of the ejector rod, so that the ejector rod can only move along the axial direction. The lower end of the ejector rod cooperates with the piston. The piston is located in the valve body, and the axial movement adjusts the water passage area between the water inlet and the water outlet, and the piston The lower end can close the water outlet.

[6] The inner wall of the valve body forms a flange, a lower end of the return spring abuts against the recessed table, and an upper end abuts against the bottom of the piston.

[7] A flow meter is arranged on the pipeline connected to the outlet of the regulating valve, and the flowmeter is connected with the control circuit and feeds the measured flow rate to the control circuit.

[8] The motor is a brushless DC motor or a stepper motor or a synchronous motor.

[9] The controller is a control panel located on the surface of the water supply system. [10] The controller is a wireless remote controller or a wired controller.

[11] After the above scheme is adopted, the present invention can increase or decrease the flow rate through the controller, and the control circuit controls the motor to rotate forward or reverse after receiving the signal, and the adjustment rod is rotated, and the adjustment rod is driven on the ejector pin. The rod is limited by the rotation of the adjusting sleeve, and can only rise or fall along the axial direction, thereby driving the piston to move in the axial direction, adjusting the water passage area between the water inlet and the water outlet, and adjusting the flow rate. If a flow meter is added to the pipeline connected to the outlet of the regulating valve, the required flow rate can be set by the controller, and the control circuit receives the signal and compares it with the flow rate of the water fed back from the flow meter, and controls the forward rotation of the motor according to the comparison result. Or reverse the automatic adjustment of the flow size to achieve intelligent adjustment of the amount of water. In addition, the present invention can set the optimal flow rate, for example, when applied to a water heater, the default flow rate can be set every time the water is turned on, without the need to manually adjust the flow rate every time, which is very convenient.

DRAWINGS

1 is a schematic structural view of Embodiment 1 of the present invention;

[13] Figure 2 is a schematic diagram of the piston adjustment;

[14] Figure 3 is a schematic cross-sectional view of A-A in Figure 2;

Figure 4 is a schematic view of another embodiment of the present invention.

detailed description

[16] As shown in FIG. 1, a schematic view of a preferred embodiment of the present invention.

[17] An electronic flow regulating device provided by the present invention is applied to a water supply system, including a controller 1, a control circuit 2, a motor 3, and a regulating valve; the controller 1 may be a control panel disposed on a surface of the water supply system It can also be a remote controller. The control circuit 2 receives the signal from the controller 1, and controls the motor 3 to be reversed according to the signal. The motor 3 can be a brushless DC motor or a stepping motor.

[18] The regulating valve comprises a valve body 7, an adjusting rod 4, a jack 5, an adjusting sleeve 8 and a piston 6. The valve body 7 is provided with a water inlet 71 and a water outlet 72, respectively, and a water inlet pipe of the water supply system and The water outlet pipe is connected, the water inlet 71 is provided on the side wall of the valve body 7, the water outlet 73 is located at the bottom of the valve body 7, and the inner wall of the valve body 7 forms a flange 74;

[19] The adjusting lever 4 is connected to the rotating shaft 31 of the motor 3, and is rotated by the motor 3;

[20] The ejector rod 5 is located below the adjusting rod 4 and is screwed to the adjusting rod 4. Referring to FIG. 2, in the embodiment, the lower end rod of the adjusting rod ₄ forms an external thread, and the upper end of the ejector rod 5 forms a cavity with an internal thread. 51, the lower end of the adjusting rod 4 extends into the cavity ₅ 1 and is screwed thereto; [21] The adjusting sleeve 8 is fixedly disposed outside the ejector pin 5 and acts as a rotation limit on the ejector pin 5, so that the ejector pin 5 can only move in the axial direction. Referring to FIG. 3, the ejector pin 5 of this embodiment The cross section is hexagonal, and the adjusting sleeve 8 is formed with a matching shape and is sleeved outside the ejector pin ₅ so as to be unable to rotate;

[22] The lower end of the jack 5 cooperates with the piston 6, and can push the piston 6 to move downward. The lower end of the return spring 10 abuts against the recess 74 of the inner wall of the valve body 7, and the upper end abuts against the flange 61 at the bottom of the piston 6. The lower end of the piston 6 can close the water outlet 72. The axial movement of the piston 6 can adjust the water passing area of the water passage between the water inlet 71 and the water outlet 72, that is, adjust the flow rate of the water.

[23] When using 吋, if the user feels that the water volume is too large, the controller 1 can be used to select the amount of water to be reduced. After the control circuit 2 receives the signal from the controller 1, the motor 3 is controlled to rotate forward (or reverse). The adjusting rod 4 rotates, and the adjusting rod 4 is driven to the jack 5 so that the jack 5 drives the piston 6 to descend, reducing the distance between the piston 6 and the water outlet 32, thereby reducing the amount of water. Conversely, if the user feels that the amount of water is too small, the controller 1 can be used to increase the amount of water. After receiving the signal from the controller 1, the control circuit 2 controls the motor 3 to reverse (or forward), and the adjustment lever 4 is rotated. The adjusting rod 4 is driven to the jack 5 to raise the jack 5, and the piston 6 rises under the elastic force of the return spring 10, increasing the distance between the piston 6 and the water outlet 32, thereby increasing the amount of water.

[24] As shown in FIGS. 3 and 4, in another preferred embodiment of the present invention, the embodiment is substantially the same as the first embodiment described above, and the difference is that: on the outlet pipe connected to the water outlet 72 of the valve body 7. A flow meter 9 is added, and the flow meter 9 is connected to the control circuit 2 and feeds the measured flow rate data to the control circuit 2.

[25] The user can set the required flow rate through the controller 1, and after receiving the signal, the control circuit 2 compares it with the flow rate of the water fed back from the flow meter 9, and controls the motor 5 to rotate forward or reverse according to the comparison result, and the adjustment rod 4 is driven. Rotating, the adjusting rod 4 is driven on the jack 5, so that the jack 5 drives the piston 6 to rise or fall, and increases or decreases the distance between the piston 6 and the water outlet 32, thereby increasing or decreasing the flow rate of the water until the water flow rate It is consistent with the set flow rate, thereby achieving intelligent adjustment of the water flow rate. And the user can set the optimal flow rate through the controller 1, and the flow rate of the water discharged every time the water is discharged is the optimal flow rate, and it is convenient to manually adjust the flow rate every time.

[26] The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and equivalent substitutions or modifications made in accordance with the spirit of the present invention are still within the scope of the present invention. . Industrial applicability

[27] An electronic flow regulating device of the present invention has a simple structure and convenient use, and can automatically adjust the water inlet and the like. The water passage between the water outlets passes through the water area. It is applied to the water supply system to intelligently regulate the flow of water.

Claims

Claim

[Claim 1] An electronic flow regulating device applied to a water supply system, comprising: a controller, a control circuit, a motor and a regulating valve; the control circuit receives a signal from the controller to control the rotation of the motor; The utility model comprises a valve body, an adjusting rod, a ejector rod, an adjusting sleeve and a piston. The valve body is provided with a water inlet and a water outlet. The adjusting rod is connected with the motor, and is driven by the motor to rotate. The ejector rod is located below the adjusting rod and is screwed with the adjusting rod. The adjusting sleeve is arranged outside the ejector pin to limit the rotation of the ejector rod, so that the ejector rod can only move in the axial direction, the lower end of the ejector rod cooperates with the piston, the piston is located in the valve body, and the axial movement adjusts the water passage between the water inlet and the water outlet The water area, and the lower end of the piston can close the water outlet.

[Claim 2] The electronic flow regulating device according to claim 1, wherein: a flow meter is connected to the pipeline connected to the outlet of the regulating valve, and the flowmeter is connected with the control circuit and the measured flow rate is fed back to Control circuit.

[Claim 3] The electronic flow regulating device according to claim 1 or 2, wherein: the inner wall of the valve body forms a recess, a lower end of the return spring abuts against the recess, and the upper end abuts against the bottom of the piston.

[Claim 4] The electronic flow regulating device according to claim 3, wherein: the outer wall of the bottom of the piston has a flange, and the upper end of the return spring abuts against the flange.

[Claim 5] The electronic flow regulating device according to claim 1 or 2, wherein the motor is a brushless DC motor or a stepping motor or a synchronous motor.

[Claim 6] The electronic flow rate adjusting device according to claim 1 or 2, wherein the controller is a control panel provided on a surface of the water supply system.

[Claim 7] The electronic flow regulating device according to claim 1 or 2, wherein the controller is a wireless remote controller or a wired controller.