CN211398750U - Anti-condensation icing pipe joint - Google Patents
Anti-condensation icing pipe joint Download PDFInfo
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- CN211398750U CN211398750U CN201922473882.4U CN201922473882U CN211398750U CN 211398750 U CN211398750 U CN 211398750U CN 201922473882 U CN201922473882 U CN 201922473882U CN 211398750 U CN211398750 U CN 211398750U
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Abstract
An anti-condensation icing pipeline joint comprises a main valve body, a resistance wire ring and a control panel; the outer side of a flange connecting pipe at one end of the main valve body is connected with a resistance wire ring; is connected with one end of the control panel through a resistance wire coil; is connected with the outer side of the main valve body through a control panel. The temperature of the resistance wire coil is adjusted through a temperature switch on the control panel. The utility model overcomes former pipeline is outside very easily freezes when the sky is cold, and the inoxidizing coating of artifical parcel needs often to be changed, and overhauls the problem of difficulty when appearing leaking, has simple structure, can prevent frostbite automatically, and it is effectual to prevent frostbite, and the energy consumption is low, reasonable in design, compact structure's characteristics.
Description
Technical Field
The utility model belongs to the technical field of the pipe-line equipment, a freezing pipe joint of anti-condensation is related to.
Background
A pipeline is a device for transporting a gas, liquid or fluid with solid particles, connected by pipes, pipe couplings, valves, etc. Generally, a fluid is pressurized by a blower, a compressor, a pump, a boiler, etc., and then flows from a high pressure portion to a low pressure portion of a pipe, or is transported by the pressure or gravity of the fluid itself. In the cold weather, the external pipeline is easy to freeze, and the existing method for solving the problem of pipeline freezing is to wrap cotton cloth and foam outside the pipeline to keep the temperature of the water pipe, wherein a protective layer wrapped manually is exposed outdoors and needs to be replaced frequently, and the pipeline is difficult to repair when leakage occurs.
Disclosure of Invention
The utility model aims to solve the technical problem of providing an anti-freezing pipeline joint which has simple structure and adopts the flange connecting pipe at one end of the main valve body to be connected with a resistance wire coil; the resistance wire coil is connected with one end of the control panel; the control panel is connected with the outer side of the main valve body. The temperature of the resistance wire ring is adjusted through the temperature switch on the control panel, so that the anti-freezing device can automatically prevent freezing, and has the advantages of good anti-freezing effect, low energy consumption, reasonable design and compact structure.
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: an anti-condensation icing pipeline joint comprises a main valve body, a resistance wire ring and a control panel; the outer side of a flange connecting pipe at one end of the main valve body is connected with a resistance wire coil; the resistance wire coil is connected with one end of the control panel; the control panel is connected with the outer side of the main valve body.
The inner side of the main valve body is made of non-toxic and corrosion-resistant materials. When the valve is used, the main valve body can enhance the corrosion resistance, improve the water supply quality and transport various liquids.
The main valve body is of a hollow structure, and flange connecting pipes are arranged at two ends of the main valve body. When the valve is installed, one end of the flange connecting pipe is connected with one end of the main valve body, the other end of the flange connecting pipe is matched with a pipe to be connected, the connection is convenient, and the structure is stable.
The resistance wire coil is of an annular spring-shaped structure and is connected with one end of the control panel. When the temperature control device is used, the temperature of the resistance wire coil is controlled by the temperature switch of the control panel, and water in the flange connecting pipe is prevented from being condensed at low temperature.
The outer layer of the resistance wire ring is provided with an insulating rubber layer and is connected with one end of the control panel. During the use, the insulating rubber layer is the same with resistance wire circle's structure, and the diameter is greater than resistance wire circle's diameter, prevents that danger from appearing in resistance wire circle when work heats.
The control panel is provided with a temperature switch to control the temperature regulation of the resistance wire coil. When the pipeline anti-freezing device is used, the temperature switch realizes the adjustment of the cold and the heat of the pipeline, and the pipeline anti-freezing device is safe, convenient, good in automatic anti-freezing effect, low in energy consumption and convenient to connect.
The control panel is provided with a signal lamp connected with the resistance wire coil. When the pipeline cold and hot monitoring system is used, the signal lamp is used for monitoring the pipeline cold and hot in real time, and is safe, convenient, compact in structure and wide in applicability.
An anti-condensation icing pipeline joint comprises a main valve body, a resistance wire ring and a control panel; the outer side of a flange connecting pipe at one end of the main valve body is connected with a resistance wire coil; the resistance wire coil is connected with one end of the control panel; the control panel is connected with the outer side of the main valve body. The structure is simple, and the outer side of the flange connecting pipe at one end of the main valve body is connected with the resistance wire coil; is connected with one end of the control panel through a resistance wire coil; is connected with the outer side of the main valve body through a control panel. The temperature of the resistance wire ring is adjusted through the temperature switch on the control panel, so that the anti-freezing device can automatically prevent freezing, and has the advantages of good anti-freezing effect, low energy consumption, reasonable design and compact structure.
In a preferred scheme, the inner side of the main valve body is made of non-toxic and corrosion-resistant materials. When the valve is used, the main valve body can enhance the corrosion resistance, improve the water supply quality and transport various liquids.
In a preferred scheme, the main valve body is of a hollow structure, and flange connecting pipes are arranged at two ends of the main valve body. When the valve is installed, one end of the flange connecting pipe is connected with one end of the main valve body, the other end of the flange connecting pipe is matched with a pipe to be connected, the connection is convenient, and the structure is stable.
In a preferred scheme, the resistance wire coil is of an annular spring-shaped structure and is connected with one end of the control panel. When the temperature control device is used, the temperature of the resistance wire coil is controlled by the temperature switch of the control panel, and water in the flange connecting pipe is prevented from being condensed at low temperature.
In a preferred scheme, an insulating rubber layer is arranged on the outer layer of the resistance wire coil and is positioned on the outer layer of the resistance wire coil and connected with one end of the control panel. During the use, the insulating rubber layer is the same with resistance wire circle's structure, and the diameter is greater than resistance wire circle's diameter, prevents that danger from appearing in resistance wire circle when work heats.
In a preferred scheme, the control panel is provided with a temperature switch for controlling the temperature adjustment of the resistance wire coil. When the pipeline anti-freezing device is used, the temperature switch realizes the adjustment of the cold and the heat of the pipeline, and the pipeline anti-freezing device is safe, convenient, good in automatic anti-freezing effect, low in energy consumption and convenient to connect.
In a preferred scheme, the control panel is provided with a signal lamp which is connected with the resistance wire coil. When the pipeline cold and hot monitoring system is used, the signal lamp is used for monitoring the pipeline cold and hot in real time, and is safe, convenient, compact in structure and wide in applicability.
An anti-condensation icing pipeline joint comprises a main valve body, a resistance wire ring and a control panel; the outer side of a flange connecting pipe at one end of the main valve body is connected with a resistance wire ring; is connected with one end of the control panel through a resistance wire coil; is connected with the outer side of the main valve body through a control panel. The temperature of the resistance wire coil is adjusted through a temperature switch on the control panel. The utility model overcomes former pipeline is outside very easily freezes when the sky is cold, and the inoxidizing coating of artifical parcel needs often to be changed, and overhauls the problem of difficulty when appearing leaking, has simple structure, can prevent frostbite automatically, and it is effectual to prevent frostbite, and the energy consumption is low, reasonable in design, compact structure's characteristics.
Drawings
The invention will be further explained with reference to the following figures and examples:
fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a front view of fig. 1.
Fig. 3 is a side view of fig. 2.
Fig. 4 is a schematic top view of fig. 2.
In the figure: the main valve body 1, the flange connecting pipe 11, the resistance wire coil 2, the insulating rubber layer 21, the control panel 3, the temperature switch 31 and the signal lamp 32.
Detailed Description
As shown in fig. 1 to 4, an anti-freezing pipeline joint comprises a main valve body 1, a resistance wire coil 2 and a control panel 3; the outer side of a flange connecting pipe 11 at one end of the main valve body 1 is connected with a resistance wire coil 2; the resistance wire coil 2 is connected with one end of the control panel 3; the control panel 3 is connected with the outer side of the main valve body 1. The structure is simple, and the outer side of a flange connecting pipe 11 at one end of the main valve body 1 is connected with the resistance wire coil 2; is connected with one end of a control panel 3 through a resistance wire coil 2; is connected with the outer side of the main valve body 1 through a control panel 3. The temperature of the resistance wire ring 2 is adjusted through the temperature switch 31 on the control panel 3, so that the anti-freezing device can automatically prevent freezing, and has the advantages of good anti-freezing effect, low energy consumption, reasonable design and compact structure.
In a preferred scheme, the inner side of the main valve body 1 is made of a non-toxic corrosion-resistant material. When the main valve body 1 is used, the corrosion resistance can be enhanced, the water supply quality is improved, and various liquids can be transported.
In a preferred scheme, the main valve body 1 is of a hollow structure, and two ends of the main valve body are provided with flange connecting pipes 11. During installation, one end of the flange connecting pipe 11 is connected with one end of the main valve body 1, the other end of the flange connecting pipe is matched with a pipe to be connected, the connection is convenient, and the structure is stable.
In a preferred scheme, the resistance wire coil 2 is of an annular spring-shaped structure and is connected with one end of the control panel 3. When the temperature control device is used, the temperature of the resistance wire coil 2 is controlled by the temperature switch 31 of the control panel 3, and water in the flange connecting pipe 11 is prevented from being condensed at low temperature.
In a preferred scheme, an insulating rubber layer 21 is arranged on the outer layer of the resistance wire coil 2 and is positioned on the outer layer of the resistance wire coil 2 and connected with one end of the control panel 3. When the heating resistor is used, the insulating rubber layer 21 and the resistor wire ring 2 are the same in structure, and the diameter of the insulating rubber layer is larger than that of the resistor wire ring 2, so that danger is prevented when the resistor wire ring 2 is heated in work.
In a preferred scheme, the control panel 3 is provided with a temperature switch 31 for controlling the temperature adjustment of the resistance wire coil 2. When the pipeline anti-freezing device is used, the temperature switch 31 can adjust the cold and heat of the pipeline, and the pipeline anti-freezing device is safe, convenient, good in automatic anti-freezing effect, low in energy consumption and convenient to connect.
In a preferred scheme, the control panel 3 is provided with a signal lamp 32 connected with the resistance wire coil 2. When the pipeline cooling and heating monitoring device is used, the signal lamp 32 monitors the cooling and heating of the pipeline in real time, and is safe, convenient, compact in structure and wide in applicability.
When the anti-condensation icing pipeline joint is installed and used, the outer side of the flange connecting pipe 11 at one end of the main valve body 1 is connected with the resistance wire coil 2; the resistance wire coil 2 is connected with one end of the control panel 3; the control panel 3 is connected with the outer side of the main valve body 1, and the temperature of the resistance wire ring 2 is adjusted by the temperature switch 31 on the control panel 3, so that the automatic anti-freezing valve can automatically prevent freezing, has a good anti-freezing effect, is low in energy consumption, and is reasonable in design and compact in structure.
When the main valve body 1 is used, the corrosion resistance can be enhanced, the water supply quality is improved, and various liquids can be transported.
During installation, one end of the flange connecting pipe 11 is connected with one end of the main valve body 1, the other end of the flange connecting pipe is matched with a pipe to be connected, the connection is convenient, and the structure is stable.
When the temperature control device is used, the temperature of the resistance wire coil 2 is controlled by the temperature switch 31 of the control panel 3, and water in the flange connecting pipe 11 is prevented from being condensed at low temperature.
When the heating resistor is used, the insulating rubber layer 21 and the resistor wire ring 2 are the same in structure, and the diameter of the insulating rubber layer is larger than that of the resistor wire ring 2, so that danger is prevented when the resistor wire ring 2 is heated in work.
When the pipeline anti-freezing device is used, the temperature switch 31 can adjust the cold and heat of the pipeline, and the pipeline anti-freezing device is safe, convenient, good in automatic anti-freezing effect, low in energy consumption and convenient to connect.
When the pipeline cooling and heating monitoring device is used, the signal lamp 32 monitors the cooling and heating of the pipeline in real time, and is safe, convenient, compact in structure and wide in applicability.
The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.
Claims (7)
1. An anti-condensation icing pipe joint is characterized in that: the valve comprises a main valve body (1), a resistance wire ring (2) and a control panel (3); the outer side of a flange connecting pipe (11) at one end of the main valve body (1) is connected with the resistance wire coil (2); the resistance wire coil (2) is connected with one end of the control panel (3); the control panel (3) is connected with the outer side of the main valve body (1), and the temperature of the resistance wire coil (2) is adjusted through a temperature switch (31) on the control panel (3).
2. The anti-icing duct joint of claim 1, further comprising: the inner side of the main valve body (1) is made of non-toxic and corrosion-resistant materials.
3. The anti-icing duct joint of claim 1, further comprising: the main valve body (1) is of a hollow structure, and flange connecting pipes (11) are arranged at two ends of the main valve body.
4. The anti-icing duct joint of claim 1, further comprising: the resistance wire coil (2) is of an annular spring-shaped structure and is connected with one end of the control panel (3).
5. The anti-icing duct joint of claim 1, further comprising: the outer layer of the resistance wire ring (2) is provided with an insulating rubber layer (21) which is positioned on the outer layer of the resistance wire ring (2) and is connected with one end of the control panel (3).
6. The anti-icing duct joint of claim 1, further comprising: the control panel (3) is provided with a temperature switch (31) for controlling the temperature regulation of the resistance wire coil (2).
7. The anti-icing duct joint of claim 1, further comprising: the control panel (3) is provided with a signal lamp (32) connected with the resistance wire coil (2).
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CN201922473882.4U CN211398750U (en) | 2019-12-31 | 2019-12-31 | Anti-condensation icing pipe joint |
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CN201922473882.4U CN211398750U (en) | 2019-12-31 | 2019-12-31 | Anti-condensation icing pipe joint |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112066267A (en) * | 2020-09-04 | 2020-12-11 | 江阴市大江环保科技有限公司 | Device and method for reforming compressed air pipeline in ship industry |
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2019
- 2019-12-31 CN CN201922473882.4U patent/CN211398750U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112066267A (en) * | 2020-09-04 | 2020-12-11 | 江阴市大江环保科技有限公司 | Device and method for reforming compressed air pipeline in ship industry |
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