CN108679452B - Door station deicing system - Google Patents

Abstract

The invention provides a door station deicing system which comprises a heating device, a detection device, a deicing device and a fixing device, wherein the heating device is connected with the detection device; the heating device comprises a control box, a heater and a water receiver, wherein the control box is connected with the heater, and the water receiver is provided with a water inlet pipe and an anti-overflow pipe; the detection device is a temperature sensor and is connected with the control box; the deicing device comprises a heat-conducting rubber tube and a circulating pump arranged on the heat-conducting rubber tube; the heat conducting rubber tube is arranged on the fixing device, and the fixing device is arranged in a region needing deicing. The deicing system is low in cost, the heating device is used for heating tap water, and the heat of the heated tap water is transferred to the pressure regulating pipeline through the deicing device, so that an ice breaking effect is achieved; the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by the aid of the fixing device which is convenient to assemble and disassemble, and the pressure regulating pipeline can be convenient to repair and maintain.

Description

Door station deicing system

Technical Field

The invention belongs to the field of deicing of urban gas valve stations, and particularly relates to a door station deicing system.

Background

LNG is an abbreviation for liquefied natural gas (liquefied natural gas). The city gas valve station is a receiving station for natural gas entering the city pipe network from the long pipeline, and also is a city distribution station, and has the functions of detection, filtration, metering, pressure regulation, heat tracing, odorization, distribution, remote measurement/remote control and the like.

The temperature difference is large after the pressure regulation of the pressure regulator of the door station, the pressure regulating pipeline is seriously frozen, so that the pressure regulator works unstably, equipment is always frozen and the like.

Disclosure of Invention

It is therefore an object of the present invention to provide a door station de-icing system that solves the problem of freezing of equipment due to severe icing of the pressure regulating pipeline.

In order to overcome the technical problems, the invention provides a door station deicing system, which comprises a heating device, a detection device, a deicing device and a fixing device; the heating device comprises a control box, a heater and a water receiver, wherein the control box is connected with the heater, the water receiver is arranged above the heater, and a water inlet pipe and an anti-overflow pipe are arranged on the water receiver; the detection device is a temperature sensor and is connected with the control box; the deicing device comprises a heat-conducting rubber tube and a circulating pump arranged on the heat-conducting rubber tube, and the circulating pump is connected with the control box; the heat-conducting rubber tube comprises a water inlet end and a water outlet end, and the water inlet end and the water outlet end are both arranged in the water receiver; the heat conducting rubber tube is arranged on the fixing device, and the fixing device is arranged in a region needing deicing.

Further, the fixing device comprises an elastic cloth and a connecting piece arranged on the elastic cloth, and a plurality of pipe penetrating holes are formed in the elastic cloth; the heat conducting rubber tube is inserted into the tube penetrating hole; the area needing deicing is a pressure regulating pipeline, and the pressure regulating pipeline sometimes needs maintenance, if the heat conducting rubber pipe is directly wound on the pressure regulating pipeline, the maintenance of the pressure regulating pipeline is hindered, so that the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by using the fixing device which is convenient to assemble and disassemble; after the pressure regulating pipeline is frozen, the area of the cross section of the pressure regulating pipeline can be enlarged, and the elastic cloth has certain tensile property and prevents the fixing device from falling off the pressure regulating pipeline; meanwhile, the elastic cloth can absorb partial water after ice is changed into water, the absorbed water can buffer deicing time, and the pressure regulating pipeline is prevented from being frequently heated rapidly during deicing to cause accelerated aging.

Further, the connecting piece is a magic tape; the magic tape is used as a connecting piece, and has the characteristics of light weight, good fixity, easy use and quick operation; and the maintenance cost is low, and excessive resource maintenance is not needed.

Further, the water inlet pipe is externally connected with a tap water system; the valve is arranged on the water inlet pipe, so that whether water is required to be introduced into the water receiver or not can be conveniently controlled.

Further, the overflow preventing full pipe is externally connected with a water collecting tank; the water collecting tank is used for collecting tap water overflowed from the overflow preventing full pipe and recycling the tap water.

Further, the connecting piece is a button; the price is low, the installation is convenient, and the replacement cost is low after the button is damaged; the stability after installation is not affected by humidity.

Further, the connecting piece is a zipper; the operation mode is quick and convenient, and the cost is low.

The beneficial effects of the invention are as follows: the deicing system is low in cost, the heating device is used for heating tap water, and the heat of the heated tap water is transferred to the pressure regulating pipeline through the deicing device, so that an ice breaking effect is achieved; the detection device can detect the temperature on the pressure regulating pipeline, and when the temperature on the pressure regulating pipeline is lower than a set value, the heat supply device only works, so that energy can be effectively saved; the pressure regulating pipeline sometimes needs to be maintained, if the heat conducting rubber pipe is directly wound on the pressure regulating pipeline, the maintenance of the pressure regulating pipeline is hindered, so that the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by using the fixing device which is convenient to assemble and disassemble, and the maintenance of the pressure regulating pipeline can be facilitated.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a door station deicing system according to the present invention;

FIG. 2 is a schematic structural view of the fixing device;

fig. 3 is a schematic structural view of the heat conducting rubber tube arranged on the fixing device.

Wherein, 1, a heating device; 11. a heater; 12. a water reservoir; 13. a water inlet pipe; 14. an overflow preventing full pipe; 2. a detection device; 3. a deicing device; 31. a heat conductive rubber tube; 311. a water inlet end; 312. a water outlet end; 32. a circulation pump; 4. a fixing device; 41. elastic cloth; 42. penetrating the pipe hole; 43. a connecting piece; 5. and a pressure regulating pipeline.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Specific embodiments of the present invention will be described below with reference to the accompanying drawings.

Example 1

Fig. 1 to 3 show a door station deicing system comprising a heating device 1, a detection device 2, a deicing device 3, and a fixing device 4; the heating device 1 comprises a control box (not shown), a heater 11 and a water reservoir 12, wherein the control box is connected with the heater 11, the water reservoir 12 is arranged above the heater 11, and a water inlet pipe 13 and an overflow preventing full pipe 14 are arranged on the water reservoir 12; the detection device 2 is a temperature sensor, and the detection device 2 is connected with the control box; the deicing device 3 comprises a heat-conducting rubber tube 31 and a circulating pump 32 arranged on the heat-conducting rubber tube 31, and the circulating pump 32 is connected with the control box; the heat-conducting rubber tube 31 comprises a water inlet end 311 and a water outlet end 312, and the water inlet end 311 and the water outlet end 312 are both arranged in the water reservoir 12; the heat conducting rubber tube 31 is arranged on the fixing device 4, and the fixing device 4 is arranged in a region needing deicing.

The fixing device 4 comprises an elastic cloth 41 and a connecting piece 43 arranged on the elastic cloth 41, wherein a plurality of pipe penetrating holes 42 are formed in the elastic cloth 41; the heat-conducting rubber tube 31 is inserted into the tube penetrating hole 42; the area needing deicing is a pressure regulating pipeline 5, and the pressure regulating pipeline 5 sometimes needs maintenance, if the heat conducting rubber pipe 31 is directly wound on the pressure regulating pipeline 5, the maintenance of the pressure regulating pipeline 5 is hindered, so the heat conducting rubber pipe 31 is fixed on the outer side of the pressure regulating pipeline 5 by using the fixing device 4 which is convenient to assemble and disassemble; after the pressure regulating pipeline 5 is frozen, the area of the cross section can be increased, and the elastic cloth 41 has certain tensile property and prevents the fixing device 4 from falling off from the pressure regulating pipeline 5; meanwhile, the elastic cloth 41 can absorb part of water after the ice is changed into water, the absorbed water can buffer deicing time, and the pressure regulating pipeline 5 is prevented from being rapidly heated to cause accelerated aging during deicing.

The connecting piece 43 is a magic tape; the magic tape is used as the connecting piece 43, and has the characteristics of light weight, good fixity, easy use and quick operation; and the maintenance cost is low, and excessive resource maintenance is not needed.

The water inlet pipe 13 is externally connected with a tap water system; for introducing tap water into the reservoir 12, the water inlet pipe 13 is provided with a valve (not shown) for facilitating the manipulation of whether water is to be drawn into the reservoir 12.

The overflow preventing full pipe 14 is externally connected with a water collecting tank (not shown); the water collection tank is used for collecting tap water overflowed from the overflow prevention pipe 14 and recycling the tap water.

The working mode is as follows: the heat conducting rubber tube 31 is inserted into the tube penetrating hole 42, so that the heat conducting rubber tube 31 is stacked and arranged on the elastic cloth 41, and the elastic cloth 41 is wrapped on the pressure regulating pipeline 5 through the connecting piece 43; when the temperature sensor detects that the temperature on the pressure regulating pipeline 5 is lower than a set value, the heater 11 heats tap water in the water reservoir 12, the circulating pump 32 introduces the heated tap water from the water inlet end 311 of the heat conducting rubber pipe 31, heat of the heated tap water is transferred to the pressure regulating pipeline 5, ice on the pressure regulating pipeline 5 is removed, and the tap water returns to the water reservoir 12 from the water outlet end 312; the water reservoir 12 can be replenished with tap water at any time through the water inlet pipe 13, and the overfill prevention pipe 14 can prevent tap water from being overfilled into the water reservoir 12, resulting in tap water overflowing from the water reservoir 12.

The beneficial effects of the invention are as follows: the deicing system is low in cost, the heating device is used for heating tap water, and the heat of the heated tap water is transferred to the pressure regulating pipeline through the deicing device, so that an ice breaking effect is achieved; the detection device can detect the temperature on the pressure regulating pipeline, and when the temperature on the pressure regulating pipeline is lower than a set value, the heat supply device only works, so that energy can be effectively saved; the pressure regulating pipeline sometimes needs to be maintained, if the heat conducting rubber pipe is directly wound on the pressure regulating pipeline, the maintenance of the pressure regulating pipeline is hindered, so that the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by using the fixing device which is convenient to assemble and disassemble, and the maintenance of the pressure regulating pipeline can be facilitated.

Example two

Fig. 1 to 3 show a door station deicing system comprising a heating device 1, a detection device 2, a deicing device 3, and a fixing device 4; the heating device 1 comprises a control box (not shown), a heater 11 and a water reservoir 12, wherein the control box is connected with the heater 11, the water reservoir 12 is arranged above the heater 11, and a water inlet pipe 13 and an overflow preventing full pipe 14 are arranged on the water reservoir 12; the detection device 2 is a temperature sensor, and the detection device 2 is connected with the control box; the deicing device 3 comprises a heat-conducting rubber tube 31 and a circulating pump 32 arranged on the heat-conducting rubber tube 31, and the circulating pump 32 is connected with the control box; the heat-conducting rubber tube 31 comprises a water inlet end 311 and a water outlet end 312, and the water inlet end 311 and the water outlet end 312 are both arranged in the water reservoir 12; the heat conducting rubber tube 31 is arranged on the fixing device 4, and the fixing device 4 is arranged in a region needing deicing.

The fixing device 4 comprises an elastic cloth 41 and a connecting piece 43 arranged on the elastic cloth 41, wherein a plurality of pipe penetrating holes 42 are formed in the elastic cloth 41; the heat-conducting rubber tube 31 is inserted into the tube penetrating hole 42; the area needing deicing is a pressure regulating pipeline 5, and the pressure regulating pipeline 5 sometimes needs maintenance, if the heat conducting rubber pipe 31 is directly wound on the pressure regulating pipeline 5, the maintenance of the pressure regulating pipeline 5 is hindered, so the heat conducting rubber pipe 31 is fixed on the outer side of the pressure regulating pipeline 5 by using the fixing device 4 which is convenient to assemble and disassemble; after the pressure regulating pipeline 5 is frozen, the area of the cross section can be increased, and the elastic cloth 41 has certain tensile property and prevents the fixing device 4 from falling off from the pressure regulating pipeline 5; meanwhile, the elastic cloth 41 can absorb part of water after the ice is changed into water, the absorbed water can buffer deicing time, and the pressure regulating pipeline 5 is prevented from being rapidly heated to cause accelerated aging during deicing.

The water inlet pipe 13 is externally connected with a tap water system; for introducing tap water into the reservoir 12, the water inlet pipe 13 is provided with a valve (not shown) for facilitating the manipulation of whether water is to be drawn into the reservoir 12.

The overflow preventing full pipe 14 is externally connected with a water collecting tank (not shown); the water collection tank is used for collecting tap water overflowed from the overflow prevention pipe 14 and recycling the tap water.

The connecting piece 43 is a button; the price is low, the installation is convenient, and the replacement cost is low after the button is damaged; the stability after installation is not affected by humidity.

The working mode is as follows: the heat conducting rubber tube 31 is inserted into the tube penetrating hole 42, so that the heat conducting rubber tube 31 is stacked and arranged on the elastic cloth 41, and the elastic cloth 41 is wrapped on the pressure regulating pipeline 5 through the connecting piece 43; when the temperature sensor detects that the temperature on the pressure regulating pipeline 5 is lower than a set value, the heater 11 heats tap water in the water reservoir 12, the circulating pump 32 introduces the heated tap water from the water inlet end 311 of the heat conducting rubber pipe 31, heat of the heated tap water is transferred to the pressure regulating pipeline 5, ice on the pressure regulating pipeline 5 is removed, and the tap water returns to the water reservoir 12 from the water outlet end 312; the water reservoir 12 can be replenished with tap water at any time through the water inlet pipe 13, and the overfill prevention pipe 14 can prevent tap water from being overfilled into the water reservoir 12, resulting in tap water overflowing from the water reservoir 12.

The beneficial effects of the invention are as follows: the deicing system is low in cost, the heating device is used for heating tap water, and the heat of the heated tap water is transferred to the pressure regulating pipeline through the deicing device, so that an ice breaking effect is achieved; the detection device can detect the temperature on the pressure regulating pipeline, and when the temperature on the pressure regulating pipeline is lower than a set value, the heat supply device only works, so that energy can be effectively saved; the pressure regulating pipeline sometimes needs to be maintained, if the heat conducting rubber pipe is directly wound on the pressure regulating pipeline, the maintenance of the pressure regulating pipeline is hindered, so that the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by using the fixing device which is convenient to assemble and disassemble, and the maintenance of the pressure regulating pipeline can be facilitated.

Example III

Fig. 1 to 3 show a door station deicing system comprising a heating device 1, a detection device 2, a deicing device 3, and a fixing device 4; the heating device 1 comprises a control box (not shown), a heater 11 and a water reservoir 12, wherein the control box is connected with the heater 11, the water reservoir 12 is arranged above the heater 11, and a water inlet pipe 13 and an overflow preventing full pipe 14 are arranged on the water reservoir 12; the detection device 2 is a temperature sensor, and the detection device 2 is connected with the control box; the deicing device 3 comprises a heat-conducting rubber tube 31 and a circulating pump 32 arranged on the heat-conducting rubber tube 31, and the circulating pump 32 is connected with the control box; the heat-conducting rubber tube 31 comprises a water inlet end 311 and a water outlet end 312, and the water inlet end 311 and the water outlet end 312 are both arranged in the water reservoir 12; the heat conducting rubber tube 31 is arranged on the fixing device 4, and the fixing device 4 is arranged in a region needing deicing.

The fixing device 4 comprises an elastic cloth 41 and a connecting piece 43 arranged on the elastic cloth 41, wherein a plurality of pipe penetrating holes 42 are formed in the elastic cloth 41; the heat-conducting rubber tube 31 is inserted into the tube penetrating hole 42; the area needing deicing is a pressure regulating pipeline 5, and the pressure regulating pipeline 5 sometimes needs maintenance, if the heat conducting rubber pipe 31 is directly wound on the pressure regulating pipeline 5, the maintenance of the pressure regulating pipeline 5 is hindered, so the heat conducting rubber pipe 31 is fixed on the outer side of the pressure regulating pipeline 5 by using the fixing device 4 which is convenient to assemble and disassemble; after the pressure regulating pipeline 5 is frozen, the area of the cross section can be increased, and the elastic cloth 41 has certain tensile property and prevents the fixing device 4 from falling off from the pressure regulating pipeline 5; meanwhile, the elastic cloth 41 can absorb part of water after the ice is changed into water, the absorbed water can buffer deicing time, and the pressure regulating pipeline 5 is prevented from being rapidly heated to cause accelerated aging during deicing.

The water inlet pipe 13 is externally connected with a tap water system; for introducing tap water into the reservoir 12, the water inlet pipe 13 is provided with a valve (not shown) for facilitating the manipulation of whether water is to be drawn into the reservoir 12.

The overflow preventing full pipe 14 is externally connected with a water collecting tank (not shown); the water collection tank is used for collecting tap water overflowed from the overflow prevention pipe 14 and recycling the tap water.

The connecting piece 43 is a zipper; the operation mode is quick and convenient, and the cost is low.

The working mode is as follows: the heat conducting rubber tube 31 is inserted into the tube penetrating hole 42, so that the heat conducting rubber tube 31 is stacked and arranged on the elastic cloth 41, and the elastic cloth 41 is wrapped on the pressure regulating pipeline 5 through the connecting piece 43; when the temperature sensor detects that the temperature on the pressure regulating pipeline 5 is lower than a set value, the heater 11 heats tap water in the water reservoir 12, the circulating pump 32 introduces the heated tap water from the water inlet end 311 of the heat conducting rubber pipe 31, heat of the heated tap water is transferred to the pressure regulating pipeline 5, ice on the pressure regulating pipeline 5 is removed, and the tap water returns to the water reservoir 12 from the water outlet end 312; the water reservoir 12 can be replenished with tap water at any time through the water inlet pipe 13, and the overfill prevention pipe 14 can prevent tap water from being overfilled into the water reservoir 12, resulting in tap water overflowing from the water reservoir 12.

The beneficial effects of the invention are as follows: the deicing system is low in cost, the heating device is used for heating tap water, and the heat of the heated tap water is transferred to the pressure regulating pipeline through the deicing device, so that an ice breaking effect is achieved; the detection device can detect the temperature on the pressure regulating pipeline, and when the temperature on the pressure regulating pipeline is lower than a set value, the heat supply device only works, so that energy can be effectively saved; the pressure regulating pipeline sometimes needs to be maintained, if the heat conducting rubber pipe is directly wound on the pressure regulating pipeline, the maintenance of the pressure regulating pipeline is hindered, so that the heat conducting rubber pipe is fixed on the outer side of the pressure regulating pipeline by using the fixing device which is convenient to assemble and disassemble, and the maintenance of the pressure regulating pipeline can be facilitated.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

The foregoing is a further detailed description of the invention in connection with the preferred embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (5)

1. The door station deicing system is characterized by comprising a heating device, a detection device, a deicing device and a fixing device; the heating device comprises a control box, a heater and a water receiver, wherein the control box is connected with the heater, the water receiver is arranged above the heater, and a water inlet pipe and an anti-overflow pipe are arranged on the water receiver; the detection device is a temperature sensor and is connected with the control box; the deicing device comprises a heat-conducting rubber tube and a circulating pump arranged on the heat-conducting rubber tube, and the circulating pump is connected with the control box; the heat-conducting rubber tube comprises a water inlet end and a water outlet end, and the water inlet end and the water outlet end are both arranged in the water receiver; the heat conducting rubber tube is arranged on the fixing device, and the fixing device is arranged in a region needing deicing; the fixing device comprises an elastic cloth and a connecting piece arranged on the elastic cloth, and a plurality of pipe penetrating holes are formed in the elastic cloth; the heat conducting rubber pipe is inserted into the pipe penetrating hole, and the water inlet pipe is externally connected with a tap water system.

2. A door station deicing system as set forth in claim 1 wherein said overfill prevention tube circumscribes a header tank.

3. A door station deicing system as set forth in claim 1, wherein said connector is a velcro.

4. A door station deicing system as set forth in claim 1, wherein said connector is a button.

5. A door station deicing system as set forth in claim 1, wherein said connecting member is a zipper.