KR101195398B1 - Thermostatic fluid flow intermitting apparatus - Google Patents

Abstract

Electronic freeze protection device of the present invention is a fluid flow pipe 210 that is introduced through the inlet 202 and discharged through the discharge port 204, and a fluid discharge hole 222 for discharging the fluid flowing in the fluid flow pipe 210 Fluid discharge means consisting of a drive motor (320) operating to raise and lower the valve (230) by forward and reverse rotation to control the opening and closing of the valve 230, and the temperature of the fluid flowing in the fluid flow pipe (210) When the sensing sensor 240 and the sensing temperature of the fluid sensed by the sensing sensor 240 detects that the fluid discharge temperature is the operation to operate the fluid discharge means so that the fluid is discharged through the fluid discharge hole 222 The circuit part 400, the propeller 420 rotatably installed by the fluid flow in the fluid flow pipe 210, the magnet 440 attached to the shaft end of the propeller 420, and the magnet 440 Coil 460 installed to generate electromotive force by rotation It includes a charging means of the operation circuit 400 made of.
According to the present invention, since the opening and closing using the temperature sensor is small, there is little variation in opening and closing, and the valve opening and closing temperature does not change even when the water pressure in the pipe is changed because it is not the principle of opening and closing using the water pressure in the pipe. In addition, when the current level of the battery falls below a certain level, the valve automatically opens and operates the generator, so there is no fear that the battery may be discharged and not operate.

Description

Electronic freeze protection device {Thermostatic fluid flow intermitting apparatus}

The present invention relates to an electronic freeze protection device, and more particularly, an electronic freeze protection device having an automatic charging function of a battery in case of opening or closing the valve without changing the water pressure of the fluid flow pipe, and also in case the battery is discharged. It is about.

In general, water inside the water pipe, which is a representative fluid flow pipe, freezes when the outside temperature becomes very low, such as winter, and thus, when water freezes in the pipe, the volume increases, causing cracks in the water pipe.

Accordingly, various apparatuses and methods have been used to prevent this.

However, in most cases, the heater is installed, so that the fluid flow pipe is heated so as not to freeze, there is a problem in that the power consumption is severe and the maintenance cost is high.

Another example is the use of floating power. In the case of this type of floating power, valves are installed in the basement to prevent water from freezing as it is kept warm by the temperature of the ground. There is a risk of freezing.

Accordingly, the present applicant has developed a technology to prevent the freezing of the water pipe by discharging a small amount of water inside the water pipe when the outside temperature decreases by opening and closing operation of the opening and closing means interlocked with the shrinkage and expansion of the corrugated pipe, "freeze prevention Apparatus was disclosed in Utility Model Registration No. 20-0309420 (2003.3.21) and Patent Registration No. 10-0716544.

By the way, the conventional freeze protection device disclosed is a structure for discharging water by the gas force and the spring inside the corrugated pipe, but there are disadvantages such as various restrictions such as the size of the corrugated pipe and deformation of the corrugated pipe according to the water pressure, and moreover, In case of large size, such as industrial water pipe, the outflow of water to prevent freezing should be increased by the size of the pipe. Therefore, the size of the corrugated pipe and the valve spring should be designed in consideration of this. There was this following issue.

Accordingly, in the freeze protection device according to the applicant's patent registration No. 10-0966852, as shown in FIG. 1, an inlet portion 102 and an outlet 104 are installed on a water pipe, and an exhaust port 106 is provided below. A corrugated pipe 140 connected to the housing 100 and a temperature sensing unit 150 protruding out of the housing 100 to contract and expand in a vertical direction in the housing 100 according to an external temperature change; Opening and closing valve 130 is installed on the lower side of the corrugated pipe 140 and the water inlet pipe so as to move up and down by the contraction of the corrugated pipe 140 so that the water in the housing 100 flows into the water inlet pipe 160 of the lower portion ( Water discharge means 190 connected to one end of the water inlet pipe 160 to discharge the water from the exhaust port 106 of the housing 100 by the cylinder operation by the amount of water introduced into the interior and the inflow force of the water through the 160 Including a small amount of water and the force of the water flowing out as the temperature changes outside Water can be effectively prevented by the water discharged through the hydraulic cylinder, which is operated by the hydraulic cylinder, and the capacity of only the hydraulic cylinder can be replaced to ensure the water to prevent the freeze at any size of pipe or hydraulic pressure. In addition, although the control to adjust the amount of water discharged, this also has the disadvantage that the various restrictions, such as the limitation of the size of the corrugated pipe and the deformation of the corrugated pipe according to the water pressure as in the prior art is not solved.

As another example, when the temperature of the fluid reaches the freezing point by opening and closing the valve by using the displacement during contraction and expansion with gas, metal, and other substances that contract and expand with temperature, There is a way to maintain the temperature by discharging the fluid of the fluid, but as the temperature range of the contraction and expansion is not constant, the discharge of the fluid may be increased, the maintenance cost is high, and also the opening and closing temperature range is reduced Since there is a restriction on the water pressure there is a problem that the constraints on the application conditions.

The present invention has been invented to solve the above problems, an object of the present invention is to detect whether the water temperature in the fluid flow pipe is a set discharge temperature to operate the valve to open and close the discharge port to prevent the freezing of the fluid flow pipe The prevention device is to provide an electronic freeze protection device.

Another object of the present invention is to provide an electronic freeze protection device that can minimize the temperature range for discharging fluid by sensing the temperature of the fluid in the flow pipe, and can widen the application range by minimizing the restriction of water pressure.

Still another object of the present invention is to provide an electronic freeze protection device which prevents freezing by automatically opening a valve by an automatic filling function when the power is cut off or when the power is exhausted to discharge the fluid to the outside.

Electronic freeze protection device according to an embodiment of the present invention is a fluid flow pipe that is introduced through the inlet and discharged through the discharge port, and fluid discharge means for controlling the opening and closing of the fluid discharge hole for discharging the fluid flowing in the fluid flow pipe; And a sensor for sensing the temperature of the fluid flowing in the fluid flow pipe, and the fluid discharging means for discharging the fluid through the fluid discharge hole when the temperature of the fluid sensed by the sensor is a fluid discharge temperature. It includes an operation circuit unit.

The fluid discharge means may be composed of a valve installed to open and close the fluid discharge hole by lifting and lowering, and a drive motor that operates to lift and lower the valve by forward and reverse rotation.

The electronic freeze protection device of the present invention includes a propeller rotatably installed by a fluid flow in a fluid flow tube, a magnet attached to an end of the shaft of the propeller, and installed around the magnet such that electromotive force is generated by the rotation of the magnet. It may further include a charging means of the operation circuit portion made of a coil.

When the operation circuit portion is discharged, the operation circuit portion can be charged by operating the fluid discharge means to open the fluid discharge hole to generate a fluid flow in the fluid flow tube to rotate the propeller.

According to the present invention, since the opening and closing using the temperature sensor is small, there is little variation in opening and closing, and the valve opening and closing temperature does not change even when the water pressure in the pipe is changed because it is not the principle of opening and closing using the water pressure in the pipe. In addition, when the current level of the battery falls below a certain level, the valve automatically opens and operates the generator, so there is no fear that the battery may be discharged and not operate.

1 is a schematic view showing the structure of a conventional freeze protection device,
Figure 2 is a schematic diagram showing the configuration of the electronic freeze protection device according to an embodiment of the present invention,
3 is an operating state diagram of FIG. 2.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of the embodiment according to the present invention. In the following description of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

Figure 2 shows the configuration of the electronic freeze protection device according to an embodiment of the present invention. As shown in FIG. 2, the electronic freeze protection device 200 of the present invention includes a fluid flow pipe 210 introduced through an inlet 202 and discharged through an outlet 204, and the fluid flow pipe 210. Fluid discharge means for controlling the opening and closing of the fluid discharge hole 222 for discharging the fluid flowing therein, a detection sensor 240 for sensing the temperature of the fluid flowing in the fluid flow pipe 210, and the detection sensor 240 It includes an operating circuit 400 for operating the fluid discharge means so that the fluid is discharged through the fluid discharge hole 222 when the temperature of the fluid sensed by the fluid discharge temperature.

The fluid discharge means may include a valve 230 installed to open and close the fluid discharge hole 222 by lifting and lowering, and a driving motor 320 that operates to lift and lower the valve 230 by forward and reverse rotation. 300 can be stored.

A gear unit 322 is formed on a drive shaft of the drive motor 320, and as the gear unit 322 meshes with the gear unit 232 of the valve 230, the forward and reverse rotation of the drive motor 320 is performed. The valve 230 moves up and down to open and close the fluid discharge hole 222.

On the other hand, the operation circuit unit 400 of the present invention is a circuit unit with a battery built-in, as a charging means of the battery built in the operation circuit unit 400, the propeller 420 rotatably by the fluid flow in the fluid flow pipe 210 ), A magnet 440 is attached to the shaft end of the propeller 420, and a coil 460 is installed around the magnet 440 to generate an electromotive force by the rotation of the magnet 440 The battery of the operation circuit unit 400 may be charged.

Referring to Figure 3 describes the operation of the electronic freeze protection device 200 of the present invention configured as described above are as follows.

When the detection sensor 240 senses the temperature of the fluid flowing in the fluid flow tube 210 and is delivered to the operation circuit unit 400, the operation circuit unit 400 presets the temperature of the fluid detected by the detection sensor 240. If the fluid discharge temperature, the drive motor 320 is rotated forward to raise the valve 230 to open the fluid discharge hole 220, a portion of the fluid flowing in the fluid flow pipe 210 to the fluid discharge hole 220 By discharging through to prevent the fluid flow pipe 210 is frozen.

On the contrary, if the temperature of the fluid sensed by the detection sensor 240 is a preset discharge cutoff temperature, the operation circuit unit 400 rotates the driving motor 320 in reverse to lower the valve 230 to discharge the fluid 220. ) To stop the discharge of the fluid through the fluid discharge hole (220).

In addition, the electronic freeze protection device 200 of the present invention, when the battery built in the operation circuit unit 400 is discharged, the drive motor 320 is rotated forward to raise the valve 230 to increase the fluid discharge hole 220 Open. Accordingly, the flow of the fluid is generated in the fluid flow pipe 210, whereby electromotive force is generated by the rotation of the propeller 420 and the rotation of the magnet 440, thereby charging the battery of the operation circuit unit 400. Therefore, it prevents malfunction due to battery discharge.

As described above, since the electronic freeze protection device of the present invention opens and closes using a temperature sensor, the opening and closing of the electronic device is less likely to open and close using the water pressure in the pipe. do.

What has been described above is just one preferred embodiment of the electronic freeze protection device according to the present invention, and the present invention is not limited to the above-described embodiment, and therefore, the subject matter of the present invention as claimed in the following claims. Without departing from the scope of the present invention, any person having ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

202: inlet 204: outlet
210: fluid flow pipe 220: housing
222: fluid discharge hole 230: valve
232: gear part of the valve 240: detection sensor
300: housing 320: motor
322: gear portion of the motor 400: operation circuit portion
420: propeller 440: magnet
460 coil

Claims (4)

As a freeze protection device,
A fluid flow pipe introduced through the inlet and discharged through the outlet,
Fluid discharge means for controlling the opening and closing of the fluid discharge hole for discharging the fluid flowing in the fluid flow pipe;
A detection sensor for sensing a temperature of a fluid flowing in the fluid flow pipe;
When the temperature of the fluid sensed by the sensor detects that the fluid discharge temperature includes an operating circuit for operating the fluid discharge means so that the fluid is discharged through the fluid discharge hole
Electronic freeze protection.
The method of claim 1,
The fluid discharge means
A valve installed to open and close the fluid discharge hole by raising and lowering;
Composed of a drive motor that operates to raise and lower the valve by rotating forward and backward
Electronic freeze protection.
The method of claim 1,
A propeller rotatably installed by the fluid flow in the fluid flow pipe,
A magnet attached to the shaft end of the propeller,
Further comprising a charging means of the operating circuit portion made of a coil installed around the magnet to generate an electromotive force by the rotation of the magnet
Electronic freeze protection.
The method of claim 3, wherein
When discharging the operating circuit portion, by operating the fluid discharge means to open the fluid discharge hole to generate a fluid flow in the fluid flow pipe to rotate the propeller to charge the operating circuit portion
Electronic freeze protection.

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