KR101145359B1 - Bubble bypass apparatus for warm mat heating and warm mat assembly comprising the bubble bypass apparatus - Google Patents

Abstract

PURPOSE: A device of bypassing bubbles for heating a hot water mat is provided to reduce noises caused by bubbles because the bubbles with some of water are collected smoothly to a storage tank through bubble bypass pipes if circulation pipes are plugged. CONSTITUTION: A device of bypassing bubbles for heating a hot water mat comprises a storage tank(10), discharge pipes(20), inflow pipes(30), circulation pipes(40), a heater(50), bubble bypass pipes(60), and opening and closing members. The discharge pipes form a discharge passage of water discharged from the storage tank. The inflow pipes flows in the water to the storage tank again. The circulation pipes are connected to the inflow pipes and circulate the water into the mat. The heater heats the water discharged from the storage tank. The bubble bypass pipes connect the discharge pipes and inflow pipes. The water passing through the discharge pipes does not pass the circulation pipes and selectively flows in the inflow pipes through the bubble bypass pipes. The opening and closing members are placed in a link passage of the bubble bypass pipes.

Description

Bubble bypass apparatus for warm mat heating and Warm mat assembly comprising the bubble bypass apparatus}

The present invention relates to a bubble bypass device for hot water mat heating, and more particularly, when there is a circulatory disorder such as hot water not flowing smoothly on the mat side, the circulatory disorder can be detected quickly and precisely and occurs during the heating process of water. It relates to a bubble bypass device for heating the hot water mat heating structure is improved to suppress the generation of noise caused by bubbles.

Mats having a thermal insulation function is widely used to save energy required for heating in winter.

Among these mats, although an electric mat using electricity as an energy source is common, not only power consumption is increased but also a disadvantage of adversely affecting health by generation of electromagnetic waves.

In recent years, hot water mats have been developed and released in order to compensate for these drawbacks by using warm water generated by heating water to exert a warming function.

Piping unit for introducing hot water to the mat material of the hot water mat, as shown in Figure 1, the storage container 100 is the water is stored, and the discharge pipe to form a discharge path of the water flowing out of the storage container 100 (200), an inlet pipe (500) which enables re-inflow of water into the reservoir (100), and the outlet pipe (200) and the inlet pipe (500) respectively connected to the circulation of water to the mat (M) side It is provided with a circulation pipe 300 to enable, and a heater 400 for heating the water flowing out of the reservoir (100).

However, the piping unit for hot water mat heating according to the prior art having the configuration as described above, when the circulation pipe 300 of the flexible material is blocked by the user's carelessness or folding of the mat material, the discharge pipe 200 Circulatory disturbance of water occurs through.

When the heating of the water by the heater is continuously made without detecting such a circulation obstacle, the air bubbles generated by the heating do not circulate smoothly and are disposed between the reservoir 100 and the discharge pipe 200 as the flow is reversed. There is a problem in that a large noise is generated by hitting the check valve side and the check valve hits the inner wall of the case where the check valve is installed.

In addition, in the case of not detecting the sulfur failure quickly, the control unit sends a control signal in the normal state to the heater 400 and the check valve, etc., so that the water supply and heating cannot be immediately stopped, thereby further generating noise due to the circulation failure. It has resulted in worsening.

The present invention has been made to solve the above problems, the object of the present invention is to detect the circulatory failure quickly and precisely to prevent the disadvantages such as noise generated when the circulatory failure is a bubble for hot mat heating in advance. It is to provide a bypass device.

Another object of the present invention is to provide a hot water mat heating bubble bypass device and a hot water mat assembly having the same, which can improve product reliability by preventing product malfunctions such as noise generated when a circulation disorder occurs.

The present invention for achieving the above object is, a storage container in which water is stored, a discharge pipe forming a discharge path of the water discharged from the storage container, an inlet pipe to enable re-inflow of water into the storage container, the discharge pipe and the inlet A bubble bypass device for hot water mat heating, each having a circulation pipe connected to the pipe to enable circulation of water to the mat side, and a heater for heating the water flowing out of the reservoir, wherein the water passing through the discharge pipe is A bubble bypass pipe connecting the discharge pipe and the inlet pipe so as to selectively enter the inlet pipe without passing through a circulation pipe; And an opening and closing member disposed in the connection flow path formed in the bubble bypass pipe so as to selectively open and close the connection flow path formed in the bubble bypass pipe.

The connection flow path of the bubble bypass pipe is formed between the first flow path communicating with the discharge pipe, the second flow passage communicating with the inflow pipe, and the first flow passage and the second flow passage, A third channel having a large inner diameter, and the heater is disposed on a path of the discharge pipe, and the opening and closing member has a larger outer diameter than an inner diameter of the first and second channels and a smaller outer diameter than the inner diameter of the third channel. In the ball shape, when the water passing through the discharge pipe flows into the circulation pipe, the first flow path is closed, and when the circulation pipe is blocked, a portion of the water passed through the discharge pipe and generated by the heater It is characterized in that the bubble passes through the outer circumferential surface of the opening and closing member and the inner circumferential surface of the third flow path to flow into the inflow pipe side.

The present invention includes a; and a temperature sensor for detecting a circulation failure disposed on any one of the bubble bypass pipe and the inlet pipe so as to sense the temperature of the water introduced into the inlet pipe through the bubble bypass pipe; It is desirable to.

It is preferable that the bubble bypass pipe is provided with a check valve for preventing backflow so that water passing through the circulation pipe can be prevented from flowing back through the inlet pipe.

The present invention preferably further includes a sound absorbing material provided on the path of the discharge pipe so as to suppress noise caused by bubbles generated by water heating by the heater.

Hot water mat assembly according to the present invention for achieving the above object, the bubble bypass device for hot water mat heating having the configuration as described above; And a mat in which the circulation pipe is disposed.

In the bubble bypass device for hot water mat heating according to the present invention having the configuration as described above, as the bubble is smoothly recovered to the storage container via the bubble bypass tube along with a part of the water in the event of a circulation failure such as a clogged circulation pipe, As the bubbles collide with the reservoir after being flowed back to the check valve side between the reservoir and the discharge pipe, the noise generated can be significantly reduced.

In addition, in the present embodiment, by employing a circulatory failure detecting means, it is possible to suppress the generation of noise caused by bubbles, as well as to quickly detect the circulatory failure by sensing the temperature of the water flowing into the inlet pipe through the bubble bypass pipe during the circulatory failure. It can be sensed so as to cut off the inflow of water and the operation of the heater to the discharge pipe side, improve the durability of the parts to increase the reliability of the product as well as the advantages that can promote the safety of the user.

1 is a plan view of a bubble bypass device for hot water mat heating according to the prior art.
Figure 2 is a perspective view of the bubble bypass device for heating the hot water mat according to an embodiment of the present invention.
Figure 3 is an exploded perspective view of one embodiment of the present invention.
Figure 4 is a front view of one embodiment of the present invention.
5 is a plan view of one embodiment of the present invention.
Figure 6 is a cross-sectional view showing a flow path of water in the absence of a circulatory disorder of one embodiment of the present invention.
Figure 7 is a cross-sectional view showing the flow path of water at the time of the circulation disorder of one embodiment of the present invention.
Figure 8 is an exploded perspective view of the bubble bypass device for heating the hot water mat according to another embodiment of the present invention.
9 is a plan view of another embodiment of the present invention.

Figure 2 is a perspective view of the bubble bypass device for hot water mat heating according to an embodiment of the present invention, Figure 3 is an exploded perspective view of an embodiment of the present invention, Figure 4 is a front view of an embodiment of the present invention, Figure 5 is a present invention Figure 6 is a plan view of the embodiment, Figure 6 is a cross-sectional view showing a flow path of water when there is no circulation obstacle in one embodiment of the present invention, Figure 7 is a cross-sectional view showing a flow path of water during a circulation failure of an embodiment of the present invention.

As shown in the figure, the bubble bypass device for hot water mat heating according to the present invention is for keeping the mat warm using hot water, and includes a storage container 10, a discharge pipe 20, an inlet pipe 30, and a circulation pipe 40. ) And the heater 50, the bubble bypass tube 60 and the opening and closing member 70 is made.

The reservoir 10 is the water is stored, the discharge pipe 20 serves to provide a discharge path of the water introduced from the reservoir 10, the inlet pipe 30 of the water to the reservoir 10 It serves to enable the reflow, the circulation pipe 40 is connected to the discharge pipe 20 and the inlet pipe 30 to enable the circulation of water to the mat side, the heater 50 is the reservoir 10 It is arranged on the path of the discharge pipe 20 to heat the water flowing from the).

The bubble bypass pipe 60 connects the discharge pipe 20 and the inflow pipe 30 so that water passing through the discharge pipe 20 does not pass through the circulation pipe 40 but the inflow pipe 30. To be selectively introduced into the

That is, as illustrated in FIG. 6, when the circulation pipe 40 is not blocked and forms a normal flow path, water passing through the discharge pipe 20 does not flow into the bubble bypass pipe 60 and is a circulation pipe. Normal circulation to the inlet pipe (30) side via (40).

On the other hand, as shown in FIG. 7, when the circulation pipe 40 is blocked by twisting or being pressed by carelessness of a user (hereinafter referred to as `` circulation disorder ''), the water passing through the discharge pipe 20 A part is introduced to the inflow pipe 30 without passing through the circulation pipe 40.

In the present embodiment, the connection flow path 62 formed in the bubble bypass pipe 60, a part of the water passing through the discharge pipe 20 when the circulation failure by the interaction with the opening and closing member 70 flows in Of course, it is possible to adopt a variety of structures that can be introduced into the pipe (30).

As shown in FIGS. 6 and 7, the first passage 62a is in communication with the discharge pipe 20, the second passage 62b is in communication with the inlet pipe 30, and the third passage. The flow path 62c is formed between the first flow path 62a and the second flow path 62b and has an inner diameter larger than that of the first flow path 62a and the second flow path 62b.

In the present embodiment, the opening and closing member 70 is formed in a ball shape having an outer diameter larger than the inner diameters of the first and second flow paths 62b and smaller than the inner diameter of the third flow path 62c. In the first flow path (62a) is closed, in the case of circulation failure part of the water passing through the discharge pipe 20 and bubbles generated by the heater 50 is the outer peripheral surface of the opening and closing member 70 and the third flow path Passes between the inner circumferential surfaces of the 62c to be introduced to the inlet pipe 30 side.

In the bubble bypass device for hot water mat heating according to the present invention having such a configuration, bubbles are transferred to the storage container 10 through the bubble bypass pipe 60 together with a part of the water at the time of circulation failure such as the circulation pipe 40 being blocked. As it is smoothly recovered, the bubble is drawn back to the check valve 12 between the reservoir 10 and the discharge pipe 20 after the collision to derive the advantage that can significantly reduce the noise generated.

In this embodiment, it is possible to suppress the generation of noise caused by bubbles as described above, as well as to detect the temperature of the water flowing into the inlet pipe 30 through the bubble bypass pipe 60 in the case of circulation failure to prevent the circulation failure There is provided a circulatory obstacle detecting means for quickly detecting and blocking the inflow of water and the operation of the heater 50 to the discharge pipe 20 side.

In this embodiment, a temperature sensor 80 for detecting a circulation failure is employed as the circulation failure detecting means. That is, the temperature sensor 80 for detecting the circulation failure is separate from the steady state temperature sensor 85 that senses the temperature of the water that has always passed through the circulation pipe 40 at the time of normal circulation, on the path of the inlet pipe 30. By being disposed in, it passes through the bubble bypass tube 60 to sense the temperature of the water introduced into the inlet pipe (30).

The present embodiment employing such a temperature sensor 80 for detecting a circulation failure is via the bubble bypass tube immediately after being heated by the heater 50 disposed on the discharge pipe 20 in the event of a circulation failure. By quickly detecting the temperature of the hot water introduced into the inlet pipe 30, the circulatory failure signal can be sent to the controller to operate the heater 50 and the check valve 90 based on the electrical signal. This results in the advantage of quickly blocking additional water inflow and heating in the event of a circulatory disorder.

That is, according to the prior art in which only the steady state temperature sensor 85 is employed without the temperature sensor 80 for detecting the circulation failure in the present embodiment, only the temperature of the low-temperature water cooled by the circulation pipe 40 is passed. As detected by the steady-state temperature sensor 85, a normal control signal is applied to the controller. As a result, the controller operates the heater 50 and the check valve 90 normally. Will cause a vicious cycle of damage.

In this embodiment, the check valve 64 for preventing the backflow is provided in the bubble bypass pipe 60. The check valve 64 for preventing the backflow serves to prevent the water passing through the circulation pipe 40 from flowing back to the bubble bypass pipe 60 via the inlet pipe 30.

And, in this embodiment, as shown in Figure 6, the sound absorbing material 90 is provided on the path of the discharge pipe 20, the water is heated by the heater 50 when the normal circulation Bubbles are generated by contacting high temperature water with low temperature air outside the discharge pipe 20, which significantly suppresses the occurrence of noise due to a collision between such bubbles and hot water flowing into the discharge pipe 20. It becomes possible.

Bubble bypass device for hot water mat heating according to an embodiment of the present invention described above, the bubble bypass pipe 60 and the inlet pipe 30 is configured to be connected through the branch pipe (C), the other of the present invention 8 and 9, the bubble bypass tube 160 and the inlet tube 130 may be configured to be connected to the reservoir 110 through separate connection tubes 171 and 172, respectively. Can be.

As mentioned above, although preferred embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments but is defined by the claims, and it is obvious that various modifications and adaptations can be made in the technical field to which the present invention pertains. Do.

10: reservoir 12: check valve
20: discharge pipe 30: inlet pipe
40: circulation pipe 50: heater
60: bubble bypass 62: connection euro
62a: first euro 62b: second euro
62c: third flow path 64: check valve for preventing backflow
70: opening and closing member 80: temperature sensor for circulating failure detection
85: steady state temperature sensor 90: sound absorbing material
C: branch pipe M: mat

Claims (6)

delete A reservoir for storing water, a discharge pipe forming a discharge path of the water discharged from the reservoir, an inlet pipe allowing re-inflow of water into the reservoir, and a circulation of water to the mat side connected to the discharge pipe and the inlet pipe, respectively. In the bubble bypass device for hot water mat heating having a circulation pipe for enabling a, and a heater for heating the water flowing out of the reservoir,
A bubble bypass tube connecting the discharge pipe and the inlet pipe so that water passing through the discharge pipe selectively flows into the inlet pipe without passing through the circulation pipe; And an opening and closing member disposed in a connection flow path formed in the bubble bypass pipe so as to selectively open and close the connection flow path formed in the bubble bypass pipe.
The connection flow path of the bubble bypass pipe is formed between the first flow path communicating with the discharge pipe, the second flow passage communicating with the inflow pipe, and the first flow passage and the second flow passage, Consisting of a third euro with a large inner diameter,
The heater is disposed on the path of the discharge pipe,
The opening and closing member is formed in a ball shape having an outer diameter larger than the inner diameters of the first and second flow paths and smaller than the inner diameter of the third flow path, so that the water passing through the discharge pipe flows into the circulation pipe side. When the first passage is closed and a portion of the circulation pipe is blocked, a portion of the water passing through the discharge pipe and bubbles generated by the heater pass between the outer circumference of the opening and closing member and the inner circumference of the third flow path and enter the inflow pipe side. Bubble bypass device for hot water mat heating, characterized in that. The method of claim 2,
And a temperature sensor for detecting a circulation failure disposed on any one of the bubble bypass pipe and the inflow pipe so as to sense the temperature of the water introduced into the inflow pipe through the bubble bypass pipe. Bubble bypass device for hot water mat heating. The method of claim 2,
The bubble bypass pipe is a bubble bypass device for hot water mat heating, characterized in that the check valve for preventing the back flow is provided to prevent the water flowing through the circulation pipe from flowing back through the inlet pipe. The method of claim 2,
And a sound absorbing material provided on a path of the discharge pipe so as to suppress noise caused by bubbles generated by water heating by the heater. Bubble bypass device for heating the hot water mat of any one of claims 2 to 5; And
And a mat in which the circulation pipe is disposed.

Images