KR102134233B1 - Cooling water heating device for battery with water temperature sensor separation prevention structure - Google Patents

Abstract

An objective of the present invention is to provide a cooling water heating device for a battery with a structure for preventing damage to a temperature sensor. According to the present invention, a cooling water heating device for a battery with a separation prevention structure of a temperature sensor comprises: a lower housing (100) having an inlet unit (110) into which cooling water flows and an outlet unit (120) to discharge the cooling water; a heating plate (200) coupled to cover and block an opened upper side of the lower housing (100); a heating member (300) arranged in an internal space formed by coupling the lower housing (100) and the heating plate (200); a thermal fuse (400) coupled onto the heating plate (200); an upper housing (500) coupled to the upper end of the lower housing (100); and a water temperature sensor (700) coupled onto the lower housing (100) to be separated. A sensor fastening part (130) protruding in a hollow shape and a clamp ring (140) for separation prevention of the water temperature sensor (700) coupled onto the sensor fastening part (130) are included on the lower housing (100). The sensor fastening part (130) protrudes to the outside of the lower housing (100) while communicating with the internal space of the lower housing (100), and includes a fastening body (131) having a hollow pipe shape for insertion of the water temperature sensor (700) and an interference prevention part (133) protruding outwards on a side of the fastening body (131).

Description

Cooling water heating device for battery with water temperature sensor separation prevention structure}

The present invention relates to a cooling water heating device for a battery, and more specifically, in a state in which a temperature sensor for detecting and adjusting the temperature of the cooling water discharged from the cooling water heating device in the heating process through the heating body is fixed on the cooling water heating device. , It relates to a cooling water heating device for a battery having a structure to prevent the breakage of the temperature sensor may be caused by interference with the surroundings.

Vehicles that use engines that use gasoline, diesel, etc. as the energy source are the most common types of vehicles at present, but these energy sources for vehicles are not only environmentally responsible, but also require a new energy source due to various causes such as a decrease in oil reserves. As it is becoming increasingly popular, electric vehicles, hybrid cars, and fuel cell vehicles are being put into practical use or development.

However, in electric vehicles, hybrid cars, and fuel cell vehicles, unlike conventional vehicles using engines that use oil as an energy source, it is difficult or difficult to apply a heating system using cooling water. That is, in the case of a vehicle using a conventional oil-based engine as a driving source, a large amount of heat is generated in the engine, a cooling water circulation system for cooling the engine is provided, and heat absorbed from the engine is heated indoors. To use it. However, there is a limit to using such a conventional heating method, since a lot of heat generated from an engine does not occur in a driving source of an electric vehicle, a hybrid car, and a fuel cell vehicle.

Accordingly, in electric vehicles, hybrid cars, and fuel cell vehicles, various studies have been conducted such as adding a heat pump to an air conditioning system so that it can be used as a heat source, or providing a separate heat source such as an electric heater. have.

Among them, the electric heater can be used to heat the cooling water more easily without significantly affecting the air conditioning system, and is currently widely used. The electric heater includes an air-heated heater in the form of directly heating air blown into a vehicle interior, and a coolant-heated heater (or coolant heater) in the form of heating the coolant.

In Korean Patent Publication (10-2019-0024388), which proposes a cooling water heating heater, it is possible to prevent overheating of the heating element by improving the responsiveness of overheating detection of the heating element, and the failure factor in the portion where the temperature fuse is combined is reduced. Disclosed is a coolant heater with improved durability.

On the other hand, looking at the function of the temperature fuse on the cooling water heater, it can be confirmed that the temperature is detected in real time by checking the temperature in real time when the temperature or heat of the heating element is transmitted to the temperature fuse through the cover plate. There is a problem in that the temperature of the heating element and the temperature of the cooling water are indirectly checked through heat applied through the cover plate.

On the other hand, even if the temperature sensing sensor capable of directly checking the temperature of the coolant is detachably coupled to the housing constituting the heater, the position setting of the temperature sensing sensor installed for disturbing conditions of the surrounding environment may change. There is a problem that there is.

That is, when the temperature sensing sensor is coupled on the housing constituting the heater, improvement of the housing for stable positioning of the temperature sensing sensor is required.

Republic of Korea Patent Publication No. 10-2019-0024388 "Cooling water heater" (2019.03.08.)

An object of the present invention is to solve the above problems, in a state in which a temperature sensor for sensing and adjusting the temperature of the cooling water discharged from the cooling water heating device in the course of heating through the heating body is fixed on the cooling water heating device, with surroundings It is characterized in that it provides a cooling water heating device for a battery having a structure to prevent the breakage of the temperature sensor may occur due to interference.

Cooling water heating device for a battery having a temperature sensing sensor departure prevention structure according to the present invention for achieving the above object, the lower housing is formed with an inlet portion 110 for cooling water inlet and an outlet portion 120 for cooling water discharge (100); A heating plate 200 coupled to cover the open upper side of the lower housing 100; A heating member 300 provided in the inner space formed by the combination of the lower housing 100 and the heating plate 200; A temperature fuse 400 coupled on the heating plate 200; An upper housing 500 coupled to an upper end of the lower housing 100; And a water temperature sensing sensor 700 detachably coupled to the lower housing 100, the sensor fastener 130 and the sensor fastener 130 formed to protrude in a hollow shape on the lower housing 100. ) Clamp ring 140 for preventing departure of the water temperature sensor 700 coupled to the sensor, and the sensor fastener 130 is connected to the inner space of the lower housing 100 while the lower part Interference formed protruding outward of the housing 100 but protruding outwardly on the side of the fastening body 131 and the fastening body 131 having a hollow pipe shape for insertion of the water temperature sensor 700 It is provided with a prevention tool (133).

The heating plate 200 is on the upper surface of the main plate 210 and the main plate 210 having a structure that covers the open upper side of the lower housing 100 at the same time as it contacts the top of the heating member 300. For the mounting of the thermal fuse 400 in a stacked state, a fuse cover (which is a structure having a hollow shape of a structure including an outer plate 220 formed with a fuse mounting portion 221 bent in an upward direction and having an upper and lower portion open) With the 410 inserted into the space between the temperature fuse 400 and the fuse mounting portion 221, the coupling protrusion formed in the fuse cover 410 on the coupling hole 223 formed through the fuse mounting portion 221 The temperature fuse 400 is stably coupled on the heating plate 200 through a structure in which 411 is fitted.

The fuse cover 410 is bent in a manner that wraps the upper edge of the coupling protrusion 411 and the temperature fuse 400 that are fitted from the inside to the outside into the coupling hole 223 formed in the fuse mounting portion 221 It includes a stepped portion 413 is formed.

According to the present invention, all the objects of the present invention described above can be achieved.

Cooling water heating device for a battery having a structure for preventing the departure of the temperature sensing sensor according to the present invention is fixed on the cooling water heating device by detecting a temperature of the cooling water discharged from the cooling water heating device during the heating process through the heating element In the state, it has a structure that prevents damage to the temperature sensor that may occur due to interference with the surroundings.

That is, in the process of combining the temperature sensing sensor on the sensor fastener formed on the cooling water outlet side of the housing, the sensor fastener on the sensor fastener to block the interference between the sensor fastener and the clamp ring fastening the temperature sensor It has a structure formed to protrude outward.

1 shows a configuration of a cooling water heating device for a battery having a structure for preventing departure of a temperature sensor according to an embodiment of the present invention.
FIG. 2 shows an exploded state of the cooling water heating device for the battery of FIG. 1.
3 is a sectional view taken along AA of the cooling water heating device for the battery of FIG. 1.
4 is a sectional view taken along line BB of the cooling water heating device for the battery of FIG. 1.
5 shows a configuration for stably fixing a temperature fuse seated on a heating plate having a double-stacked plate structure on the present invention by using an outer plate and a fuse cover forming a heating plate.
6 shows a structure for fastening the temperature sensing sensor through the sensor fastener and the clamp ring.

Hereinafter, the configuration and operation of the embodiment of the present invention will be described in detail with reference to the drawings.

1 to 3, the cooling water heating device for a battery having a structure for preventing the departure of the temperature sensor according to the present invention is formed in a concave container shape with an open upper side, an inlet portion 110 through which cooling water flows, and cooling water The lower housing 100 is formed with the outlet portion 120 is discharged, the heating plate 200 coupled to cover the open upper side of the lower housing 100, the lower housing 100 and the heating plate 200 The heating member 300 provided in the inner space formed by the combination of the temperature fuse 400 coupled to the heating plate 200, the lower side is formed in the shape of an open concave container and is provided at the upper end of the lower housing 100. Based on the combined upper housing 500, the heating plate 200, the lower housing 100 and the sealing member 600 disposed on the coupling portion of the upper housing 500 and detachable on the lower housing 100 It includes a combined water temperature sensor 700.

The heating member 300 is configured to supply power through a separate HV battery (not shown) having a variable region of 200 to 460 V, and is connected to a voltage connector 810 that is an HV cable from the HV battery to the heating member 300 , And the positive electrode cable extending from the voltage connector 810 is connected to the positive electrode of the heating member 300 through the temperature fuse 400. Meanwhile, the negative electrode cable extending from the voltage connector 810 is connected to the negative electrode of the heating member 300. On the positive cable extending from the voltage connector 810, an ON/OFF switch that opens and closes a circuit by a controller and a temperature fuse 400 that operates according to its own temperature are connected.

The temperature fuse 400 has a structure that is connected to the positive electrode of the positive electrode cable and the heating member 300 through a cold pin formed at both ends thereof, thereby conveniently replacing the thermal fuse 400. When the temperature fuse 400 inserted in the power circuit using the cold pin is opened, the power to the heating member 300 is cut off.

The lower housing 100 is formed in a concave container shape at the lower side and can be arranged such that the open side faces the upper side, an inlet portion 110 through which cooling water flows is formed at one side in the longitudinal direction, and cooling water is discharged at the other side in the longitudinal direction. The outlet portion 120 may be formed.

Hereinafter, a structure to prevent damage that may occur due to interference with the surroundings when the water temperature sensor 700 is coupled to the lower housing 100 will be described with reference to FIG. 6.

The lower housing 100 includes a clamp ring 140 for preventing departure of the sensor fastener 130 protrudingly formed and the water temperature sensing sensor 700 coupled on the sensor fastener 130. The sensor fastener 130 is formed to protrude to the outside of the lower housing 100 in a state in communication with the inner space of the lower housing 100, but a fastening body having a hollow pipe shape for insertion of the water temperature sensor 700 131) and an interference prevention hole 133 protruding outwardly on the side surfaces of the fastening body 131. The interference prevention tool 133 is formed on the outer circumferential surface of the fastening body 131 so that a pair has a predetermined distance along its longitudinal direction. The clamp ring 140 is fastened on the fastening body 131 while being inserted through the space between the pair of interference prevention devices 133. That is, in the state in which the water temperature detection sensor 700 is coupled on the fastening body 131, a ring through hole (not shown) formed in the outer circumferential surface of the fastening body 131 in the space between the pair of interference prevention devices 133 Through the clamp ring 140 is bound to the water temperature sensor 700.

The lower housing 100 may be formed of, for example, a metal material, and may also be formed of various materials or shapes.

The heating plate 200 may be coupled to the lower housing 100 in a manner that covers the open upper side of the lower housing 100, and the opened upper opening of the lower housing 100 is sealed by the heating plate 200. Can be. When the coolant flows into the first space, which is the inner space formed by the combination of the lower housing 100 and the heating plate 200, the coolant flows, and when the coolant flows into the inlet pipe, which is the inlet 110, the lower housing 100 It may be configured to pass through the first space of) and discharged through the outlet pipe that is the outlet portion 120.

The heating plate 200 has a structure in contact with the heating member 300 on the lower side and a temperature fuse 400 on the upper side. Through the above structure, it functions to transfer heat from the heating member 300 to the temperature fuse 400.

The heating plate 200 is stacked on the upper surface of the main plate 210 and the main plate 210 having a structure that directly contacts the upper end of the heating member 300 and covers the open upper side of the lower housing 100. It includes an outer plate 220, the fuse mounting portion 221 for the mounting of the temperature fuse 400 in the state.

The heating member 300 may be various types and types of heating elements capable of generating heat, and for example, a sheath heater may be used. The heating member 300 includes a heating element that converts electrical energy into thermal energy by resistance when current flows, and an insulator that electrically insulates the heating element from the outside and transfers heat of the heating element to the outside. The heating element may be a nichrome wire, and the insulator may be magnesium oxide. The heating member 300 is configured in a heater tube shape made of a heating element and an insulator, thereby expanding the contact area with the heat exchange fluid to efficiently exchange heat.

Sis heater is an electric heater that can be generated by electric resistance due to the built-in heating wire inside the protective tube.The heating tube is coiled in a metal protective tube and filled with magnesium oxide, which is an insulating powder, to fill it together to insulate the heating cable and the protective tube. It's a heater. Such a sheath heater may be formed in a coil shape made by winding a heater having a long tube shape several times, and may be formed in various shapes. The heating member 300 is disposed under the heating plate 200 and may be provided inside the lower housing 100, and both ends of the longitudinal direction of the heating member 300 are coupled to and fixed to the heating plate 200. Can. In addition, both ends in the longitudinal direction of the heating member 300 may be formed to penetrate the heating plate 200 and protrude upward from the upper surface of the heating plate 200, and both ends of the heating member 300 are wound in a coil form. It may be formed in a straight line from both ends of the portion to the upper side can be coupled to pass through the heating plate 200. At this time, the heating member 300, the straight portion through the heating plate 200 is coupled to the heating plate 200 by welding or the like, the coupling portion can be sealed, the heating member 300 using a sealing material, the heating plate 200 The portion penetrating through may be sealed.

The temperature fuse 400 may be formed of a bimetal or the like that can regulate the operation by blocking the current flowing when the temperature exceeds a specific temperature, and the temperature fuse 400 may be coupled to contact the heating plate 200. Specifically, the temperature fuse 400 may be a bimetal temperature control switch made of two types of metals having different thermal expansion coefficients, and the thermal expansion coefficient employed in the temperature fuse 400 is based on stability of heat transferred from the heating member 300. When the temperature exceeds the limit, the power-off function may be exhibited.

At this time, the temperature fuse 400 may be disposed to be in contact with the upper surface of the main plate 210, a part is inserted into the recess groove 211 formed concave downward from the upper surface of the heating plate 200. In addition, a voltage connector 810 and a ground connector 820 may be formed on the upper housing 500, and the connectors 810 and 820 may be electrically connected to the heating plate 200.

The upper housing 500 may be formed of, for example, a plastic material, and formed in a concave container shape upward, so that the open side faces downward. The upper housing 500 may be coupled to the upper end of the lower housing 100. For example, the upper portion of the lower housing 100 and the upper portion of the upper housing 500 may be arranged to come into contact with each other, and the upper portion of the lower housing 100 is spaced along the circumference to form a plurality of fastening holes and the upper housing 500 ) Has a through hole formed at a position corresponding to a plurality of fastening holes, and may be combined by separate fastening means.

A temperature fuse 400 or the like may be provided in the second space, which is an inner space formed by the combination of the upper housing 500 and the heating plate 200.

4 and 5, the main plate 210 is inserted into the lower part of the temperature fuse 400 into the recess groove 211 formed concave from the upper surface to the lower side, thereby coupling the upper surface and temperature of the heating plate 200 The fuse 400 is arranged to contact. Meanwhile, an insertion fastener 213 having a separate structure may be disposed on the recess groove 211 to insert the lower end of the temperature fuse 400.

The outer plate 220 is formed by bending the fuse mounting portion 221 upwardly to stably fix the temperature fuse 400 through coupling with the fuse cover 410. A coupling hole 223 for fixing the coupling protrusion 411 formed on the fuse cover 410 is formed on the fuse mounting portion 221.

The fuse cover 410 may be a structure having a hollow shape of an upper and lower portion of an open structure, specifically, a coupling protrusion 411 that is fitted into the coupling hole 223 formed in the fuse mounting portion 221 from the inside to the outside. And a stepped portion 413 bent in a manner surrounding the upper edge of the temperature fuse 400.

The combined method is as follows. In the state in which the temperature fuse 400 is inserted through the fuse mounting portion 221 formed to be bent in the upper direction on the outer plate 220, the lower end of the temperature fuse 400 is placed on the recess 211 formed in the main plate 210. Arrange to rest. In this state, the fuse cover 410 is inserted into the space between the elastic fuse mounting unit 221 and the temperature fuse 400. The coupling protrusion 411 and the stepped portion 413 have a stable coupling structure through a relationship between the coupling hole 223 and the temperature fuse 400, respectively.

On the other hand, the fuse cover 410 may have a structure that spreads outwards as a whole in the downward direction, and the coupling protrusion 411 is a rounded shape as a whole, and has a shape that gradually decreases in diameter as it goes outward. That is, the fuse cover 410 is pushed to the end, so that the stepped portion 413 and the upper end of the temperature fuse 400 come into contact with each other, so that the fuse cover 410 and the coupling protrusion 411 have a stronger locking structure.

As described above, the present invention is to secure a temperature fuse on a heating plate having a double-stacked plate structure, and stabilizes the temperature fuse through a fuse mounting portion formed in an upward direction on the outer plate and the outer plate constituting the heating plate. It is to provide a coupling structure to be fixed.

The heating plate 200 may be formed of a flat plate made of metal, and may be formed of various materials or shapes.

Meanwhile, the heating plate 200 may include a controller function. The controller is a part that serves to control the operation of the heating member 300, both ends of the heating member 300 is coupled to the controller can be electrically connected.

Cooling water heating device for a battery having a structure for preventing the departure of the temperature sensing sensor according to the present invention is fixed on the cooling water heating device by detecting a temperature of the cooling water discharged from the cooling water heating device during the heating process through the heating element In the state, it has a structure that prevents damage to the temperature sensor that may occur due to interference with the surroundings.

The present invention has been described through the above embodiments, but the present invention is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present invention, and those skilled in the art will recognize that such modifications and changes also belong to the present invention.

100: lower housing
130: sensor fastener
131: fastening body
133: interference prevention device
140: clamp ring
200: heating plate
300: heating element
400: temperature fuse
500: upper housing
600: sealing member
700: water temperature sensor

Claims (3)

A lower housing 100 having an inlet portion 110 through which cooling water is introduced and an outlet portion 120 through which cooling water is discharged;
A heating plate 200 coupled to cover the open upper side of the lower housing 100;
A heating member 300 provided in the inner space formed by the combination of the lower housing 100 and the heating plate 200;
A temperature fuse 400 coupled on the heating plate 200;
An upper housing 500 coupled to an upper end of the lower housing 100; And
Includes a; water temperature sensor 700 is detachably coupled to the lower housing 100;
The lower housing 100 includes a clamp ring 140 for preventing departure of a sensor fastener 130 formed in a hollow shape and a water temperature sensing sensor 700 coupled on the sensor fastener 130,
The sensor fastener 130 is formed to protrude outward of the lower housing 100 in a state of communicating with the inner space of the lower housing 100, but in the form of a hollow pipe for insertion of the water temperature sensor 700 It has a fastening body 131 having an interference prevention tool 133 that protrudes outwardly on the side of the fastening body 131,
Cooling water heating device for batteries having a structure for preventing the sensor from coming off.
According to claim 1,
The heating plate 200 is on the upper surface of the main plate 210 and the main plate 210 having a structure that covers the open upper side of the lower housing 100 at the same time as it contacts the top of the heating member 300. In order to mount the temperature fuse 400 in a stacked state, an outer plate 220 having a fuse mounting part 221 bent upward is formed,
A coupling hole formed through the fuse mounting portion 221 while the fuse cover 410, which is a structure having a hollow shape having an upper and lower portion open, is inserted into the space between the temperature fuse 400 and the fuse mounting portion 221. Characterized in that to stably couple the temperature fuse 400 on the heating plate 200 through a structure in which the coupling protrusion 411 formed on the fuse cover 410 on the 223 is fitted,
Cooling water heating device for batteries having a structure for preventing the sensor from coming off.
According to claim 2,
The fuse cover 410 is bent in a manner that wraps the upper edge of the coupling protrusion 411 and the temperature fuse 400 that are fitted from the inside to the outside in the coupling hole 223 formed in the fuse mounting portion 221 The stepped portion 413 is formed,
Cooling water heating device for batteries having a structure for preventing the sensor from coming off.

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