CN103573992B - A kind of end-cap assembly for thermosistor - Google Patents

Abstract

The present invention relates to a kind of end-cap assembly for thermosistor, the end-cap assembly includes end cap, the first spring being arranged in the end cap and the back-up ring being fixedly mounted on the inside of the openend of the end cap of one end open, one end of first spring is crimped with the end cap, and the other end and the back-up ring of first spring are pressed into contact with.Using the thermosistor of the end-cap assembly of the present invention, design requirement is low, and life of product is long.

Description

A kind of end-cap assembly for thermosistor

Technical field

The present invention relates to mechanical field, in particular, it is related to a kind of end-cap assembly for thermosistor.

Background technology

Automobile needs timely make-up oil to ensure the normal operation of automobile between each part in the process of moving.As moistened Oil lubrication performance is not good enough, can cause the big heavy discount of automotive service life or even can lead to traffic accident tragedy.The lubrication of lubricating oil Performance and the temperature of its own have very big association, and when lubricating oil temperature is too high or too low, lubricating oil will lose lubrication Performance.

Lubricating oil temperature is typically in normally travel will not be too high, and snow is set in when vehicle excess load or in 4 wheel driven pattern When ground travels or is cross-country, vehicle is in fluid torque-converter transition skid condition downward driving, then it is too high to be likely to result in speed change oil temperature, from And lose greasy property.

The thermosistor of prior art passes through the back-up ring and the bullet installed in back-up ring both sides that are slidably mounted in thermostatic element The bypass of oil circuit is realized in the action of spring.The life-span of the thermosistor spring of this structure is shorter, the Structural Design Requirement of thermosistor compared with Gap between height, and back-up ring and thermostatic element causes real fluid leakage larger.

The content of the invention

It is an object of the invention to：To solve, thermosistor life-span described in above-mentioned prior art is shorter, Structural Design Requirement Higher defect provides a kind of end-cap assembly for thermosistor and the thermosistor using the end-cap assembly.

There is provided a kind of end-cap assembly for thermosistor, the end for defect of the invention to solve above-mentioned prior art The end cap of cap assemblies including one end open, the first spring being arranged in the end cap and it is fixedly mounted on opening for the end cap Back-up ring on the inside of mouth end, one end of first spring is crimped with the end cap, the other end of first spring and the gear Circle is pressed into contact with.

Preferably, the end-cap assembly also includes the spring seat being arranged between first spring and the gear figure, The spring seat is pressed into contact with first spring and the back-up ring respectively.

Preferably, the openend of the end cap is provided with the assembly for being secured to connection, and the assembly is substantially in two ends The cylindrical shape of opening, the inwall of the assembly is provided with the back-up ring being fixedly mounted, one end and the end cap of first spring Crimping, the other end of first spring is crimped with spring seat, and the spring seat is pressed into contact with the back-up ring.

Preferably, the spring seat is in straw hat shape, and the end of one end that the push rod exposes is located at the spring seat Cavity in.

Preferably, the push rod is structure as a whole with the spring seat, and the assembly and the back-up ring are integrated knot Structure.

The present invention additionally provides a kind of thermosistor to solve the defect of above-mentioned prior art, and the thermosistor flows with outside Body cooling device is connected, and the thermosistor includes the valve body provided with cavity and coordinates the thermostatic element being arranged in cavity, described Thermostatic element includes including the body of heat-sensitive materials and is slidably mounted on the push rod of the body first end, one end of the push rod Expose this external, the valve body also includes three interfaces connected respectively with the cavity：First interface, second interface and the 3rd Interface, heat-sensitive materials, which expand, when the thermostatic element is heated causes body to be connect relative to the push rod movement to seal the described 3rd Mouthful,

The top of the cavity is provided with opening, and the end-cap assembly that the openend is installed by sealing is closed, the end cap Component is the end-cap assembly described in claim-any one, and the openend of the end cap is towards the cavity inside, and the heat is dynamic The first end of the body of element and the openend of the end cap are pressed into contact with, and the other end of the body of the thermostatic element is provided with place In the second spring of compressive state.

Preferably, the initial deformation power of first spring is more than described second described in when sealing three interface Pressure suffered by spring.

Preferably, the runner of the 3rd interface and its correspondence external-connected port, the 3rd interface are communicated with the valve body Radius be more than the radius of the runner, bottom to the bottom of runner of the 3rd interface is that distance is A, the runner it is straight Footpath is B, wherein A/B >=1/16.

Preferably, the body the week side of boss of thermostatic element described in the thermosistor is provided with capping, and the external diameter of the capping is more than institute The internal diameter of the 3rd interface is stated, external diameter of the body close to described 3rd interface one end is less than the internal diameter of the 3rd interface, institute The one end and the capping for stating second spring are pressed into contact with, and its other end is pressed into contact with valve interior wall, the fixed peace of capping Dress is structure as a whole with the body of the thermostatic element.

Preferably, one end of the second spring is connected with the second end of the body of the thermostatic element, its other end with Valve interior wall is pressed into contact with, and the outer sidewall diameter of the body of the thermostatic element is more than the internal diameter of the 3rd interface.

Preferably, the second end of the body of the thermostatic element is provided with spring mountings, the body of the thermostatic element Outer sidewall diameter is more than the internal diameter of the 3rd interface, and the external diameter of the spring mountings is less than the internal diameter of the 3rd interface, One end of the second spring is fixedly connected with the spring mountings, and its other end is pressed into contact with valve interior wall.

Preferably, the body of the thermostatic element is ladder circle column, and the radius of its first end is more than the half of its second end Footpath, the second end of the thermostatic element body is arranged with the second bullet that internal diameter is less than the thermostatic element body first end external diameter Spring, the second end outer sidewall diameter of the body of the thermostatic element is more than the internal diameter of the 3rd interface, the second spring One end is fixedly connected with the spring mountings, and its other end is pressed into contact with valve interior wall.

Preferably, body of the second end end the week side of boss of the body of the thermostatic element provided with chamfering or the thermostatic element The second end end be taper.

The end-cap assembly for thermosistor of the present invention is had the advantages that specifically used when：

1) the initial deformation power of first spring is sealed more than the 3rd interface in the thermosistor for heat-exchanging loop of the invention Pressure when firmly suffered by second spring.When meeting this condition, during heat-sensitive materials expanded by heating in thermostatic element, thermostatic element Just can be first to the direction movement of the 3rd interface until blocking the 3rd interface.Hereafter cause to prevent heat-sensitive materials from continuing to expand Push rod pierces through the elastomeric element in thermostatic element, in cover internal there is provided the when initial deformation power is enclosed more than the 3rd interface First spring of the pressure suffered by two springs, after the 3rd interface is enclosed, heat-sensitive materials continue the power foot produced by expanding To promote the generation deformation of the first spring to alleviate active force of the push rod to thermostatic element inner resilient members.

2) thermosistor for heat-exchanging loop of the invention uses the capping being fixedly connected with thermostatic element to block the 3rd and connect Mouthful, reduce the fluid leakage point of thermosistor.

3) bottom to the bottom of runner of 3rd interface is apart from A and stream in the thermosistor for heat-exchanging loop of the invention A diameter of B in road ratio A/B >=1/16.Avoid second spring decrement it is larger when intercommunicating pore both sides oil circuit pressure drop meeting There is unbalanced situation.

Brief description of the drawings

Fig. 1 show the first embodiment structural representation for thermosistor end-cap assembly of the present invention；

Fig. 2 show the second embodiment structural representation for thermosistor end-cap assembly of the present invention；

Fig. 3 show the sectional view of the first embodiment of the thermosistor of the end-cap assembly using the present invention；

Fig. 4 show the sectional view of the second embodiment of the thermosistor of the end-cap assembly using the present invention；

Fig. 5 show the sectional view of the 3rd embodiment of the thermosistor of the end-cap assembly using the present invention.

Embodiment

The thermosistor of the present invention is specifically used when, and the heat-sensitive materials of thermostatic element are swollen according to the oil temperature in thermosistor Swollen or contraction, so that lubricating oil is controlled into the flow of the lubricating oil of external fluid cooling device, by the lubricating oil in speed changer Operating temperature control in effective range, the too high or too low for temperature of lubricating oil is not allowed, so that the lubricity of lubricating oil is more It is good, protection gearbox work.The end-cap assembly and thermosistor for thermosistor of the present invention is below in conjunction with the accompanying drawings discussed in detail Embodiment：

The term positions such as heretofore described top, bottom, left side, right side are all according to the relation in accompanying drawing up and down Come what is illustrated；

The initial deformation power of the first heretofore described spring 203 refers to, when the first spring 203 is by push rod 205 Pressure produces compression and make it that the first spring 203 is born when back-up ring 121 is not subjected to the pressure of the first spring 203 application Pressure.

It is all suitable for, hereafter repeats no more in statement all herein defined above.

As depicted in figs. 1 and 2, the top of cavity 112 is provided with opening, opening to the structural representation of the end-cap assembly of the present invention End is closed by sealing the end cap 101 installed, the one end open of end cap 101, and the openend of end cap 101 is towards inside cavity 112, end The first spring 203 is provided with lid 101, end cap 10l openend is provided with the back-up ring 121 being fixedly mounted, one end of the first spring 203 Crimped with end cap 101, the other end and the back-up ring 121 of the first spring 203 are pressed into contact with.

In thermosistor embodiment as shown in Figure 3-Figure 5, the first end of body 204 and the opening for end cap 101 of thermostatic element Mouth side pressure close contact, the other end of the body 204 of thermostatic element is provided with the second spring 206 in compressive state.

Specifically, when the initial deformation power of the first spring 203 is enclosed more than the 3rd interface 106 suffered by second spring 206 The pressure arrived.When meeting this condition, during heat-sensitive materials expanded by heating in thermostatic element, thermostatic element just can be first to the 3rd interface 106 direction movement is until block the 3rd interface 106.Hereafter push rod 205 is caused to pierce in order to prevent heat-sensitive materials from continuing to expand The elastomeric element in thermostatic element is worn, initial deformation power is provided with inside end cap 101 the when being enclosed more than the 3rd interface 106 First spring 203 of the pressure suffered by two springs 206, after the 3rd interface 106 is enclosed, heat-sensitive materials, which continue to expand, to be produced Raw power is enough to promote the first spring 203 to produce deformation to alleviate active force of the push rod 205 to thermostatic element inner resilient members.

In terms of the first spring 203 that the cover internal of the present invention is set can reduce thermosistor to designer and spring performance Requirement.Relative to existing moveable two springs for covering and being arranged on capping both sides, end-cap assembly of the invention makes Obtain the design of thermosistor, install simpler.And the end-cap assembly of the present invention make it that the service life of thermosistor is extended.

Specifically, being provided with spring seat 111 between the first spring 203 and back-up ring 121, push rod 205 passes through spring seat 111 It is pressed into contact with the first spring 203, spring seat 111 is pressed into contact with the first spring 203 and back-up ring 121 respectively.

In the preferred embodiment of end-cap assembly, as shown in Fig. 2 the openend of end cap 101, which is provided with, is secured to connection Assembly 131, assembly 131 is substantially in the cylindrical shape of both ends open, and back-up ring 121 is fixedly mounted on the inwall of assembly 131 On, one end of the first spring 203 is crimped with end cap 101, and the other end of the first spring 203 is crimped with spring seat 111, spring base Seat 111 is pressed into contact with back-up ring 121, and push rod 205 is structure as a whole or Split type structure with spring seat 111.The reality of the present embodiment Border is in use, performance is more excellent, good sealing effect.

Assembly 131 and back-up ring 121 can be structure as a whole or back-up ring 121 is fixedly mounted on assembly 131.

Spring seat 111 is provided with end cap 101, the other end of the first spring 203 is crimped with spring seat 111, spring base Seat 111 is pressed into contact with back-up ring 121.

Provided with the assembly 131 for being secured to connection in end cap 101, assembly 131 is substantially in the cylindrical shape of both ends open, One end of assembly 131 is fixedly connected with the openend of end cap 101, and the other end inwall of assembly 131 is provided with fixed installation Back-up ring 121, the other end of the first spring 203 is crimped with spring seat 111, and spring seat 111 is pressed into contact with back-up ring 121, this The openend end of body 204 and end cap 101 is pressed into contact with.

Specifically, spring seat 111 is in straw hat shape, the end of one end that push rod exposes is located at the cavity of spring seat 111 It is interior.

The embodiment of specific thermosistor has a variety of, as Figure 2-Figure 5, in a variety of thermosistor embodiments of the present invention In：Thermosistor includes the valve body 102 provided with cavity 112 and coordinates the thermostatic element being arranged in cavity 112, and thermostatic element includes Include the body 204 of heat-sensitive materials and be slidably mounted on the push rod 205 of the first end of body 204, body is exposed in one end of push rod 205 Outside 204, valve body 102 also includes three interfaces connected respectively with cavity 112：First interface 104, second interface 105 and the 3rd Interface 106, heat-sensitive materials, which expand, when thermostatic element is heated causes body 204 to be moved relative to push rod 205 with the interfaces of Feng Wei tri- 106。

In the first embodiment of specific thermosistor as shown in Figure 3：The week side of boss of body 204 of thermostatic element connects provided with fixed The capping 207 connect, the external diameter of capping 207, which is more than in the internal diameter of the 3rd interface 106, valve body 102, to be additionally provided with compressive state Second spring 206, second spring 206 is located between thermostatic element and the inwall of valve body 102.

Specifically, the initial deformation power of the first spring 203 is more than second spring when capping 207 seals three interfaces 106 Pressure suffered by 206, when thermostatic element is heated, body 204 moves down the movement of drive capping 207 and connect until sealing the 3rd Mouth 106, after the 3rd interface 106 is enclosed, the power produced by the heat-sensitive materials expanded by heating of thermostatic element is just enough to promote First spring 203 continues to compress.

It is fixedly connected or integrative-structure between capping 207 and body 204.

Second spring 206 can both be abutted with capping 207, and external diameter of the body 204 close to the one end of the 3rd interface 106 is less than the The internal diameter of three interfaces 106, one end and the capping 207 of second spring 206 are pressed into contact with, and its other end is compressed with the inwall of valve body 102 Contact.

Can also be that one end of second spring 206 is pressed with the end of body 204 directly with the second end abutting of body 204 Close contact, its other end is pressed into contact with the inwall of valve body 102.

It can also set spring mounting seat that second spring 206 is fixedly connected on into body 204 at the second end of body 204 On.

Further, the runner 113 of the 3rd interface 106 and its correspondence external-connected port is communicated with valve body 102, the 3rd connects The radius of mouth 106 is more than the radius of runner 113, and bottom to the bottom of runner 113 of the 3rd interface 106 is that distance is A, runner 113 a diameter of B, wherein A/B >=1/16.Avoid the second elastomeric element decrement it is larger when intercommunicating pore both sides oil circuit pressure Unbalanced situation occurs in drop.

In the second embodiment of thermosistor as shown in Figure 4：Installed provided with spring at second end of the body 204 of thermostatic element Portion 217, the outer sidewall diameter of the body 204 of thermostatic element is more than the internal diameter of the 3rd interface 106, the external diameter of spring mountings 217 Less than the internal diameter of the 3rd interface 106, one end of second spring 206 is fixedly connected with spring mountings 217, its other end and valve body 102 inwalls are pressed into contact with.When thermostatic element is heated, body 204 under the promotion of heat-sensitive materials to the 3rd interface 106 movement until Body 204 blocks the 3rd interface 106.When heat-sensitive materials continue to expand, the first spring 203 starts compression, and push rod 205 is to moving up It is dynamic.

Specifically, the initial deformation power of the first spring 203 is more than second spring 206 when capping 207 seals three interfaces 106 Suffered pressure, when thermostatic element is heated, body 204 moves down the drive movement of body 204 until sealing the 3rd interface 106, after the 3rd interface 106 is enclosed, the power produced by the heat-sensitive materials expanded by heating of thermostatic element is just enough to promote One spring 203 continues to compress.

Further, the runner 113 of the 3rd interface 106 and its correspondence external-connected port is communicated with valve body 102, the 3rd connects The radius of mouth 106 is more than the radius of runner 113, and bottom to the bottom of runner 113 of the 3rd interface 106 is that distance is A, runner 113 a diameter of B, wherein A/B >=1/16.Avoid the second elastomeric element decrement it is larger when intercommunicating pore both sides oil circuit pressure Unbalanced situation occurs in drop.

In the present embodiment, one end diameter that second spring 206 is connected with the spring mountings 217 is less than second spring The diameter of 206 other ends.

In thermosistor 3rd embodiment as shown in Figure 5：The body 204 of thermostatic element is ladder circle column, its first end Radius be more than the radius at its second end, the second end of thermostatic element body 204 is arranged with internal diameter less than thermostatic element body 204 The second spring 206 of first end external diameter, the second end outer sidewall diameter of the body 204 of thermostatic element is more than the 3rd interface 106 Internal diameter, one end of second spring 206 is fixedly connected with body 204, and its other end is pressed into contact with the inwall of valve body 102.When heat is dynamic When element is heated, body 204 is moved to the 3rd interface 106 until blocking the 3rd interface 106.

Specifically, body of the second end end the week side of boss of the body 204 of thermostatic element provided with chamfering, or thermostatic element 204 the second end end is taper.This structure is easy to body 204 not block the 3rd completely also but close to the 3rd interface 106 to connect During mouth 106, increase conducting area of the fluid from the 3rd interface 106.

Finally it should be noted that：Above example is merely to illustrate the present invention and not limits skill described in the invention Art scheme, therefore, although this specification with reference to the above embodiments to present invention has been detailed description, ability Domain it is to be appreciated by one skilled in the art that inventor herein still can modify or equivalent substitution to the present invention；And All technical schemes for not departing from the spirit and scope of the present invention and its improvement, it all should cover the claim model in the present invention In enclosing.

Claims (11)

1. a kind of thermosistor, the thermosistor is connected with external fluid cooling device, the thermosistor includes being provided with cavity (112) Valve body (102) and coordinate the thermostatic element being arranged in cavity (112), the thermostatic element includes including the sheets of heat-sensitive materials Expose body in body (204) and the push rod (205) for being slidably mounted on the body (204) first end, one end of the push rod (205) (204) outside, the valve body (102) also includes three interfaces connected respectively with the cavity (112)：First interface (104), Two interfaces (105) and the 3rd interface (106), heat-sensitive materials, which expand, when the thermostatic element is heated causes body (204) with respect to institute State push rod (205) mobile to seal the 3rd interface (106),

Characterized in that, the top of the cavity (112) is provided with opening, the end-cap assembly that the openend is installed by sealing is sealed Close, the end cap (101) of the end-cap assembly including one end open, the first spring (203) being arranged in the end cap (101) with And it is fixedly mounted on the back-up ring (121) on the inside of the openend of the end cap (101), one end of first spring (203) and institute End cap (101) crimping is stated, the other end and the back-up ring (121) of first spring (203) are pressed into contact with, the end cap (101) openend is internal towards the cavity (112), first end and the end cap of the body (204) of the thermostatic element (101) openend is pressed into contact with, and the other end of the body (204) of the thermostatic element is provided with the second bullet in compressive state Spring (206)；The initial deformation power of first spring (203) seals the 3rd interface more than the thermostatic element body (106) pressure when suffered by the second spring (206), when the thermostatic element is heated, the body (204) is first downward Movement is up to sealing the 3rd interface (106), after the 3rd interface (106) is enclosed, the temperature-sensitive thing of thermostatic element Power produced by matter expanded by heating is just enough to promote first spring (203) to produce deformation by the push rod (205).

2. thermosistor according to claim 1, it is characterised in that the end-cap assembly also includes being arranged on first bullet Spring seat (111) between spring (203) and the back-up ring (121), the spring seat (111) respectively with first spring (203) it is pressed into contact with the back-up ring (121).

3. thermosistor according to claim 2, it is characterised in that the openend of the end cap (101) is provided with and is secured to The assembly (131) of connection, the assembly (131) is substantially in the cylindrical shape of both ends open, the inwall of the assembly (131) Back-up ring (121) provided with fixed installation, one end of first spring (203) is crimped with the end cap (101), first bullet The other end of spring (203) is crimped with spring seat (111), and the spring seat (111) is pressed into contact with the back-up ring (121).

4. thermosistor according to claim 2, it is characterised in that the spring seat (111) is in straw hat shape, the push rod The end of the one end exposed is located in the cavity of the spring seat (111).

5. thermosistor according to claim 3, it is characterised in that the push rod (205) is with the spring seat (111) Integrative-structure, the assembly (131) and the back-up ring (121) are structure as a whole.

6. the thermosistor according to any one of claim 1 to 5, it is characterised in that be communicated with the in the valve body (102) The runner (113) of three interfaces (106) and its correspondence external-connected port, the radius of the 3rd interface (106) is more than the runner (113) radius, bottom to the bottom of runner (113) of the 3rd interface (106) is that distance is A, the runner (113) A diameter of B, wherein A/B >=1/16.

7. thermosistor according to claim 6, it is characterised in that the body (204) of thermostatic element described in the thermosistor The week side of boss is more than the internal diameter of the 3rd interface (106), the body provided with capping (207), the external diameter of the capping (207) (204) external diameter close to described 3rd interface (106) one end is less than the internal diameter of the 3rd interface (106), the second spring (206) one end is pressed into contact with the capping (207), and its other end is pressed into contact with valve body (102) inwall, the capping (207) it is fixedly mounted or is structure as a whole with the body (204) of the thermostatic element.

8. thermosistor according to claim 7, it is characterised in that one end of the second spring (206) and the heat are dynamic The second end connection of the body (204) of element, its other end is pressed into contact with valve body (102) inwall, the sheet of the thermostatic element The outer sidewall diameter of body (204) is more than the internal diameter of the 3rd interface (106).

9. thermosistor according to claim 8, it is characterised in that the second end of the body (204) of the thermostatic element is set There are spring mountings (217), the outer sidewall diameter of the body (204) of the thermostatic element is more than the 3rd interface (106) Internal diameter, the external diameter of the spring mountings (217) is less than the internal diameter of the 3rd interface (106), the second spring (206) One end is fixedly connected with the spring mountings (217), and its other end is pressed into contact with valve body (102) inwall.

10. thermosistor according to claim 9, it is characterised in that the body (204) of the thermostatic element is stepped cylindrical Shape, the radius of its first end is more than the radius at its second end, and it is small that the second end of the thermostatic element body (204) is arranged with internal diameter In the second spring (206) of thermostatic element body (204) the first end external diameter, the of the body (204) of the thermostatic element Two end outer sidewall diameters are more than the internal diameter of the 3rd interface (106), and one end and the spring of the second spring (206) are pacified Dress portion (217) is fixedly connected, and its other end is pressed into contact with valve body (102) inwall.

11. the thermosistor according to claim any one of 8-10, it is characterised in that the body (204) of the thermostatic element The second end end of body (204) of the second end end the week side of boss provided with chamfering or the thermostatic element be taper.