CN208171458U - Temperature sensor heat-conductive assembly and connector - Google Patents

Abstract

The utility model discloses a kind of temperature sensor heat-conductive assembly and connectors.The temperature sensor heat-conductive assembly includes：Heat-conducting block, heat-conducting block have the contact portion of elastically deformable, are used for and measured body close contacting fit；The first holding tank is equipped on heat-conducting block；And heat conductive pad, heat conductive pad are placed in the first holding tank, heat conductive pad is configured to be embedded in heat conductive pad suitable for temperature sensor.In the temperature sensor heat-conductive assembly and connector of the utility model, heat conductive pad is placed in the first holding tank of heat-conducting block, and heat conductive pad and heat-conducting block can quickly and accurately transfer heat to temperature sensor.When secondary lock is located at locked position, heat-conducting block and the connection terminal Elastic Contact.Temperature sensor can quickly and accurately detect the temperature of connection terminal.

Description

Temperature sensor heat-conductive assembly and connector

Technical field

The utility model relates to a kind of temperature sensor heat-conductive assembly and connectors.

Background technique

New-energy automobile can realize the charging to automobile by setting cradle with external charging rifle grafting.Cradle packet Include connection terminal, one end of connection terminal be used for external charging rifle grafting, the other end of connection terminal is used for and conductor compression jointing Realize electrical connection.

With the fast development of new-energy automobile, fast charge technology becomes the effective means for reducing the charging time.By fast When filling technology and charging to automobile, due to the characteristic of fast charge technology, cradle needs to bear high voltage and larger in a short time Electric current.Especially, once conducting wire crimped with connection terminal place resistance increase or short time overcurrent in the case where, temperature will Sharply increase.

Crimp the temperature at place in order to detect cradle temperature, especially conducting wire with connection terminal, quick response and accurate Temperature detection technology become the necessary means of support vehicles safety.

In the prior art, temperature sensor and connection terminal interval are arranged, and the heat of connection terminal passes through air transmitted extremely The temperature sensor.This kind of temperature detection technology response speed is slow and not accurate enough, needs to improve.

Utility model content

The purpose of this utility model first is that in order to overcome it is in the prior art at least one is insufficient, provide it is a kind of can be quickly Detect the temperature sensor heat-conductive assembly and connector of connection terminal temperature.

In order to achieve the above object, the utility model is achieved through the following technical solutions：

One aspect according to the present utility model, provides a kind of temperature sensor heat-conductive assembly, which leads Hot component includes：Heat-conducting block, the heat-conducting block have the contact portion of elastically deformable, are used for and measured body close contacting fit； The first holding tank is equipped on the heat-conducting block；And heat conductive pad, the heat conductive pad is placed in first holding tank, described to lead Heat pad is configured to be embedded in the heat conductive pad suitable for temperature sensor.

Optionally, the contact portion is provided with contact surface, the contact surface is complementary with the shape of measured body.

Optionally, the heat-conducting block is made of insulating material.

Optionally, the heat-conducting block is thermally conductive adhesive curing part.

Optionally, the hardness of the heat-conducting block is greater than the hardness of the heat conductive pad.

Optionally, the heat conductive pad is thermally conductive silica gel.

Optionally, further include：Secondary lock secondary is locked equipped with the second holding tank described；The heat-conducting block is accommodated in institute It states in the second holding tank.

Optionally, the side that second holding tank extends to the secondary lock forms the second side opening；The heat-conducting block It is arranged across second side opening, makes the side of the prominent secondary lock of the contact portion.

Optionally, secondary the card slot for being additionally provided with and being connected to second holding tank is locked described；The heat-conducting block has The clamping part being accommodated in the card slot；The card slot carries out backstop to the clamping part to prevent the heat-conducting block from described the Two side openings skid off.

Optionally, first holding tank extends along the direction away from second side opening and forms the first side and opens Mouthful.

Optionally, further include：Temperature sensor, the temperature sensor are embedded in the heat conductive pad.

Another aspect according to the present utility model provides a kind of connector.The connector includes：Above-mentioned temperature sensor Heat-conductive assembly；Pedestal is equipped with receiving hole on the base；Connection terminal, the connection terminal are installed on the receiving hole；And Secondary lock, it is described secondary to lock equipped with the second holding tank；Wherein, the secondary lock is slidably connected on the base, with from first Beginning position is moved to locked position；The heat-conducting block is accommodated in second holding tank, and is configured as when the secondary lock It, can be with the connection terminal Elastic Contact when positioned at locked position.

Optionally, further include：Circuit board and temperature sensor, the temperature sensor are electrically connected to the circuit board, and It is embedded in the heat conductive pad.

Optionally, when the secondary lock is moved to locked position from initial position, the heat conductive pad deformation makes the temperature It is mobile relative to the heat conductive pad to spend sensor.

Optionally, the circuit board is connected on the pedestal by fastener；It is equipped in secondary lock along sliding The pilot hole that direction extends；The fastener penetrates the pilot hole.

Optionally, the circuit board be configured as when it is described it is secondary lock be located at locked position when, can to the heat-conducting block into Whereabouts gear.

Optionally, the connection terminal has the exposed division being exposed to outside the receiving hole；The heat-conducting block and the dew Portion's Elastic Contact out.

Optionally, further include：It is electrically connected to the conducting wire of the connection terminal, contact position of the heat-conducting block with connection terminal Setting in or close to the conducting wire and connection terminal link position.

Optionally, the connector is the charging socket of electric vehicle.

Compared with prior art, in the temperature sensor heat-conductive assembly and connector of the utility model, heat conductive pad is placed in In first holding tank of heat-conducting block, heat conductive pad and heat-conducting block can quickly and accurately transfer heat to temperature sensor.

When secondary lock is located at locked position, heat-conducting block and the connection terminal Elastic Contact.Temperature sensor can quickly, It is accurately detected the temperature of connection terminal.

By the detailed description referring to the drawings to the exemplary embodiment of the utility model, the utility model it is other Feature and its advantage will become apparent.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram for the connector that preferred embodiment provides of the utility model.

Fig. 2 is that Fig. 1 connector removes the structural schematic diagram after lid and conducting wire.

Fig. 3 is that Fig. 2 connector removes the structural schematic diagram after baffle.

Fig. 4 is that Fig. 2 connector removes the structural schematic diagram after circuit board.

Fig. 5 is the enlarged diagram of part A in Fig. 4.

Fig. 6 is the installation diagram of the temperature sensor heat-conductive assembly and connection terminal in Fig. 3

Fig. 7 is the cross-sectional view in the direction B-B along Fig. 6.

Fig. 8 is the explosive view of the temperature sensor heat-conductive assembly in Fig. 6.

Fig. 9 is the structural schematic diagram of the secondary lock in Fig. 8.

Figure 10 is the structural schematic diagram of the heat-conducting block in Fig. 8.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawing：

Fig. 1 to Fig. 5 is please referred to, is a kind of connector provided by the utility model.The connector includes pedestal 10, lid 11, connection terminal 15, circuit board 14, conducting wire 12 and temperature sensor heat-conductive assembly.Receiving hole, institute are equipped on the pedestal 10 Connection terminal 15 is stated to be fixedly installed in the receiving hole.

Please refer to Fig. 5 to Figure 10, the heat transfer that the temperature sensor heat-conductive assembly is used to generate part to be measured to institute State temperature sensor 40.The temperature sensor heat-conductive assembly includes heat-conducting block 20, heat conductive pad 30 and temperature sensor 40.It is described Heat-conducting block 20 has the contact portion 23 of elastically deformable, and the contact portion 23 with part to be measured for being engaged.In the present embodiment In, the part to be measured is the connection terminal 15.The contact portion 23 is provided with contact surface 230, the contact surface 230 and company The shape of connecting terminal 15 is complementary, to be engaged.For example, the contact surface 230 is arcwall face.

The first holding tank 22 is equipped on the heat-conducting block 20.The heat conductive pad 30 is placed in first holding tank 22 It is interior.The heat conductive pad 30 is arranged to be suitable for for the temperature sensor 40 being embedded in the heat conductive pad 30.The temperature passes Sensor 40 can be embedded in the heat conductive pad 30.The heat conductive pad 30 can transfer heat to the temperature sensor 40.

In the present embodiment, the conductor block 20 is made of insulating material, and will not influence the fax of the connection terminal 15 It leads.Specifically, the heat-conducting block 20 is thermally conductive adhesive curing part, and elastically deformable can be with 15 Elastic Contact of connection terminal.

For the temperature sensor 40 to be embedded in the heat conductive pad 30, the hardness of the heat-conducting block 20 is greater than described lead The hardness of heat pad 30.The heat-conducting block 20 has bigger hardness than the heat conductive pad 30.In this way, being easy to the temperature sensing Device 40 is embedded in softer heat conductive pad 30.Specifically, the heat conductive pad 30 is thermally conductive silica gel.For example, the thermally conductive silica gel is The thermally conductive silica gel TG4040 of ultra-soft, the thermal coefficient of the thermally conductive silica gel of ultra-soft are 4.0W/MK, the thermally conductive silica gel of ultra-soft it is soft or hard Degree is 40 (Shore 00).

To make the heat-conducting block 20 and 15 Elastic Contact of connection terminal, the temperature sensor heat-conductive assembly further includes Secondary lock 16.The secondary lock 16 is slidably connected on the pedestal 10, and can be moved to locked position from initial position.? The secondary lock 16 is when being moved to locked position from initial position, and the secondary lock 16 is from the radial side of the connection terminal 15 It is mobile towards the connection terminal 15.Baffle 13, the gear can be equipped with away from 10 direction side of pedestal in the secondary lock 16 Plate 13 carries out backstop limit to the secondary lock 16, falls off to prevent the secondary lock 16.

Fig. 8 to Figure 10 is please referred to, is equipped with the second holding tank 17 on the secondary lock 16, the heat-conducting block 20 is accommodated in institute It states in the second holding tank 17.Specifically, second holding tank 17 extends to the side of the secondary lock 16, forms second side and opens Mouth 170.The heat-conducting block 20 is arranged across second side opening 170, makes the prominent secondary lock 16 of the contact portion 23 Side.

For the heat-conducting block 20 to be reliably mounted in second holding tank 17, it is additionally provided on the secondary lock 16 The card slot 18 being connected to second holding tank 17.The heat-conducting block 20 has the clamping part 21 being accommodated in the card slot 18. The card slot 18 carries out backstop to the clamping part 21, to prevent the heat-conducting block 20 from skidding off from second side opening 170.Into One step, first holding tank 22 extends to the end face of the heat-conducting block 20 towards the direction away from second side opening 170, Form the first side opening 220.

The secondary lock 16 is slidably connected on the pedestal 10, the contact portion 23 is towards 15 side of connection terminal To setting.When the secondary lock 16 is moved to locked position from initial position, the secondary lock 16 is towards the connection terminal 15 directions are mobile.When the secondary lock 16 is located at locked position, the heat-conducting block 20 and 15 Elastic Contact of connection terminal.

The heat-conducting block 20 and 15 Elastic Contact of connection terminal, the heat-conducting block 20 is by the connection terminal 15 It deforms after extruding force, can be interference fitted, come into full contact with, contact area is big with the connection terminal 15.

The heat conductive pad 30 and heat-conducting block 20 are the good conductor of heat.The heat that the connection terminal 15 generates can pass through institute It states heat-conducting block 20 to conduct to the heat conductive pad 30, and then conducts to the temperature sensor 40.The temperature sensor 40 can be fast Speed, the temperature for being accurately detected the connection terminal 15.

In the present embodiment, Fig. 6 and Fig. 7 are please referred to, the temperature sensor 40 is connected electrically on the circuit board 14.Example Such as, the temperature sensor 40 is welded on the circuit board 14.It is connect in the temperature sensor 40 with the circuit board 14 Afterwards, the temperature sensor 40 is embedded in the heat conductive pad 30.

Specifically, second holding tank 17 be set to the secondary lock 16 away from 10 direction of pedestal, one side surface On.The circuit board 14 is connected on the pedestal 10 by fastener 60.The secondary lock 16 is located at the pedestal 10 and institute It states between circuit board 14.Pilot hole 19 is equipped on the secondary lock 16.Sliding of the pilot hole 19 along the secondary lock 16 Direction is extended.The fastener 60 penetrates in the pilot hole 19.When the secondary lock 16 is moved to locked position, institute Fastener 60 is stated to move in the pilot hole 19.For example, the fastener 60 is that the circuit board 14 is threaded in bottom Screw on seat 10.

When the secondary lock 16 is located at initial position, the heat-conducting block 20 and the setting of the connection terminal 15 interval or Be in contact setting, and the heat-conducting block 20 is located at the radial side of the connection terminal 15.

When the secondary lock 16 is moved to locked position from initial position, the circuit board 14 and the temperature sensor 40 is fixed.In 16 moving process of the secondary lock, the temperature sensor 40 is mobile relative to the heat conductive pad 30, described to lead Heat pad 30 deforms.

When the secondary lock is located at locked position, 20 elastic compression of heat-conducting block is in the secondary lock 16 and connecting pin Between son 15, the contact portion 23 of the heat-conducting block 20 and 15 Elastic Contact of connection terminal.The circuit board 14 covers described Second holding tank 17 can prevent the heat-conducting block 20 to be detached from second holding tank 17 to carry out backstop to the heat-conducting block 20.

In the present embodiment, described referring to Fig. 5, to make the heat-conducting block 20 and 15 Elastic Contact of connection terminal Connection terminal 15 has the exposed division 150 being exposed to outside the receiving hole.The heat-conducting block 20 can be in the band of the secondary lock 16 Dynamic lower Elastic Contact is in the exposed division 150.

The connection terminal 15 is electrically connected with the conducting wire 12.The pedestal 10 connects with the lid 11 lid, the conducting wire 12 are pierced by from the lid 11.To enable the temperature sensor 40 quickly and accurately to detect the conducting wire 12 and connecting pin The contact position of the junction temperature of son 15, the heat-conducting block 20 and connection terminal 15 be located at or close to the conducting wire 12 with The link position of connection terminal 15.In this way, the temperature sensor 40 can quickly and accurately detect the connection terminal 15 with The temperature of 12 junction of conducting wire prevents the conducting wire 12 and the resistance of 15 junction of connection terminal increases or the short time crosses conductance Temperature is caused sharply to increase.

In the present embodiment, the connector is the charging socket of electric vehicle.One end of the connection terminal 15 be used for External charging rifle is electrically connected to electrical connection, the other end with the battery of electric car.When external charging rifle and the connection terminal When 15 inserting, it can be charged by the connection terminal 13 to automobile batteries.The temperature sensor 40 can be quickly and accurately The temperature of the connection terminal 13 is detected, the temperature of the connection terminal 15 and 12 junction of conducting wire can be especially detected.

Compared with prior art, in the temperature sensor heat-conductive assembly and connector of the utility model, heat conductive pad 30 is placed In in the first holding tank 22 of heat-conducting block 20, heat conductive pad 30 and heat-conducting block 20 can quickly and accurately transfer heat to temperature biography Sensor 40.

When secondary lock 16 is located at locked position, heat-conducting block 20 and 15 Elastic Contact of connection terminal.Temperature sensor 40 can quickly and accurately detect the temperature of connection terminal 15.

The above is only the utility model preferred embodiments, are not used to the limitation protection scope of the utility model, any Modification, equivalent replacement or improvement within the spirit of the present invention etc. are all covered in the scope of the claims of the utility model.

Claims (19)

1. a kind of temperature sensor heat-conductive assembly, which is characterized in that including：

Heat-conducting block (20), the heat-conducting block (20) have the contact portion (23) of elastically deformable, for being in close contact with measured body Cooperation；The first holding tank (22) are equipped on the heat-conducting block (20)；And

Heat conductive pad (30), the heat conductive pad (30) are placed in first holding tank (22), and the heat conductive pad (30) is set It is embedded in the heat conductive pad (30) at temperature sensor is suitable for.

2. temperature sensor heat-conductive assembly according to claim 1, it is characterised in that：

It is provided with contact surface (230) in the contact portion (23), the contact surface (230) is complementary with the shape of measured body.

3. temperature sensor heat-conductive assembly according to claim 1, it is characterised in that：

The heat-conducting block (20) is made of insulating material.

4. temperature sensor heat-conductive assembly according to claim 1, it is characterised in that：

The heat-conducting block (20) is thermally conductive adhesive curing part.

5. temperature sensor heat-conductive assembly according to claim 1, it is characterised in that：

The hardness of the heat-conducting block (20) is greater than the hardness of the heat conductive pad (30).

6. temperature sensor heat-conductive assembly according to claim 1, it is characterised in that：

The heat conductive pad (30) is thermally conductive silica gel.

7. temperature sensor heat-conductive assembly according to claim 1, which is characterized in that further include：

Secondary lock (16) is equipped with the second holding tank (17) on the secondary lock (16)；The heat-conducting block (20) is accommodated in described In second holding tank (17).

8. temperature sensor heat-conductive assembly according to claim 7, it is characterised in that：

The side that second holding tank (17) extends to the secondary lock (16) forms the second side opening (170)；It is described thermally conductive Block (20) is arranged across second side opening (170), makes the side of the contact portion (23) the prominent secondary lock (16).

9. temperature sensor heat-conductive assembly according to claim 8, it is characterised in that：

The card slot (18) being connected to second holding tank (17) is additionally provided on the secondary lock (16)；

The heat-conducting block (20) has the clamping part (21) being accommodated in the card slot (18)；

The card slot (18) carries out backstop to the clamping part (21) to prevent the heat-conducting block (20) from second side opening (170) it skids off.

10. temperature sensor heat-conductive assembly according to claim 8, it is characterised in that：

First holding tank (22) extends along the direction away from second side opening (170) and forms the first side opening (220)。

11. temperature sensor heat-conductive assembly according to claim 1 to 10, which is characterized in that further include：

Temperature sensor (40), the temperature sensor (40) are embedded in the heat conductive pad (30).

12. a kind of connector, which is characterized in that including：

Temperature sensor heat-conductive assembly as described in any one of claim 1-6,8-10；

Pedestal (10) is equipped with receiving hole on the pedestal (10)；

Connection terminal (15), the connection terminal (15) are installed on the receiving hole；And

Secondary lock (16), the secondary lock (16) are equipped with the second holding tank (17)；

Wherein, the secondary lock (16) is slidably connected on the pedestal (10), to be moved to locked position from initial position；

The heat-conducting block (20) is accommodated in second holding tank (17), and is configured as being located at lock when the secondary lock (16) It, can be with the connection terminal (15) Elastic Contact when tight position.

13. connector according to claim 12, which is characterized in that further include：

Circuit board (14), and

Temperature sensor (40), the temperature sensor (40) is electrically connected to the circuit board (14), and is embedded at described thermally conductive It pads in (30).

14. connector according to claim 13, it is characterised in that：

When the secondary lock (16) is moved to locked position from initial position, heat conductive pad (30) deformation makes the temperature Sensor (40) is mobile relative to the heat conductive pad (30).

15. connector according to claim 13, it is characterised in that：

The circuit board (14) is connected on the pedestal (10) by fastener (60)；

The pilot hole (19) extended along glide direction is equipped on the secondary lock (16)；

The fastener (60) penetrates the pilot hole (19).

16. connector according to claim 13, it is characterised in that：

The circuit board (14) is configured as when the secondary lock (16) is located at locked position, can to the heat-conducting block (20) into Whereabouts gear.

17. connector according to claim 12, it is characterised in that：

The connection terminal (15) has the exposed division (150) being exposed to outside the receiving hole；

The heat-conducting block (20) and the exposed division (150) Elastic Contact.

18. connector according to claim 12, which is characterized in that further include：

It is electrically connected to the conducting wire (12) of the connection terminal (15), the contact position of the heat-conducting block (20) and connection terminal (15) Be located at or close to the conducting wire (12) and connection terminal (15) link position.

19. connector described in any one of 2-18 according to claim 1, it is characterised in that：

The connector is the charging socket of electric vehicle.