CN109973706B

CN109973706B - Fluid control device

Info

Publication number: CN109973706B
Application number: CN201810237481.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Zhejiang Sanhua Intelligent Controls Co Ltd
Current assignee: Zhejiang Sanhua Intelligent Controls Co Ltd
Priority date: 2017-12-28
Filing date: 2017-12-28
Publication date: 2022-11-15
Anticipated expiration: 2037-12-28
Also published as: CN109973706A; CN109973702A; CN109973702B

Abstract

The invention discloses a fluid control device, which comprises a control part, a transmission part and a shell part, wherein the control part comprises a gear train, the transmission part comprises a first end part and a second end part, the first end part is meshed with the output end of the gear train, the second end part extends into the shell part, the transmission part comprises a middle shaft, a sleeve and a base part, at least part of the middle shaft is positioned in the sleeve, at least part of the base part is positioned outside the sleeve, at least part of the sleeve separates the middle shaft and the base part, the middle shaft can rotate relative to the sleeve, the base part can rotate relative to the sleeve, the middle shaft is provided with the first end part, the base part is provided with the second end part, and at least part of the sleeve is hermetically arranged with the shell part. According to the technical scheme, the sleeve and the shell are arranged in a sealing mode, and the sealing performance between the transmission part and the shell is improved.

Description

Fluid control device

Technical Field

The present invention relates to the field of fluid control.

Background

The fluid control device is used in a vehicle thermal management system, for example, an air conditioning system, battery cooling, battery heating, and the like, and the fluid control device may be used to switch flow paths in the system, adjust the flow rate of the flow paths, and the like.

Generally, a fluid control device includes a rotatable actuating lever, and switching of a flow path and flow rate adjustment of the flow path are performed by rotation of the actuating lever. Since the actuating rod is selectively operated during the operation of the fluid control device and the actuating rod is operated according to the external operation, the sealing performance between the actuating rod and the peripheral components is related to the leakage performance of the fluid control device.

Disclosure of Invention

The invention provides a fluid control device with good sealing performance, in particular to reduce leakage. A fluid control device comprising a transmission portion and a housing portion, the transmission portion comprising a central shaft, a sleeve and a base portion, at least part of the central shaft being located inside the sleeve, at least part of the base portion being located outside the sleeve, at least part of the sleeve separating the central shaft from the base portion, the central shaft comprising a first core portion, the base portion comprising a second core portion which rotates with rotation of the first core portion, the central shaft being rotationally movable relative to the sleeve, the base portion being rotationally movable relative to the sleeve, the fluid control device comprising a seal, at least part of the sleeve being sealingly arranged with the housing portion via the seal.

Above-mentioned technical scheme's transmission part includes middle part axle, sleeve, base portion, and the sleeve separates the at least part of middle part axle and base portion, and the middle part axle can rotate to the sleeve relatively, and the base portion can rotate to the sleeve relatively, through sleeve and the sealed setting of casing part, helps improving the leakproofness between transmission part and the casing part.

Drawings

FIG. 1 is a schematic view of the external structure of one embodiment of the present invention;

FIG. 2 is a schematic partially exploded view of the structure shown in FIG. 1;

FIG. 3 is a schematic cross-sectional view of the structure shown in FIG. 1;

FIG. 4 is an enlarged view of part A of FIG. 3;

FIG. 5 is a plan view of the connector of the embodiment of FIG. 3;

FIG. 6 is a schematic structural diagram of the cover of the embodiment shown in FIG. 3;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6;

fig. 8 is a cross-sectional view illustrating a matching structure of the transmission part and the core part of the embodiment shown in fig. 3.

Detailed Description

Referring to fig. 1 and 2, fig. 1 is a schematic external view of a fluid control device. Figure 2 illustrates a partially exploded view of the structure shown in figure 1. Fig. 2 illustrates a structure of the fluid control apparatus 100, in which the fluid control apparatus 100 includes a control member 1, a transmission portion 2, and a housing portion 3, and the control member 1 is assembled and fixed to the housing portion 3, for example, by a nut.

Referring to fig. 3 in combination, fig. 3 illustrates a cross-sectional view of the fluid control device 100, the control unit 1 comprises a housing 11, a motor 12 and a gear train 13, the housing 11 being fixedly arranged with the housing portion 3. The motor 12 and the gear train 13 are accommodated in the housing 11, and the motor 12 drives the gear train 13 to move during operation. The housing 11 comprises positioning holes 14, which positioning holes 14 are located at the side of the housing 11 facing the housing part 3.

One end of the transmission part 2 engages with the output 136 of the gear train 13 of the control member and the other end of the transmission part 2 extends inside the housing part 3, so that the transmission part 2 can be rotationally moved inside the housing part 3 under the influence of the control member 1. As a specific embodiment, the housing 11 includes a protrusion 15, the protrusion 15 protrudes toward the housing portion 3, and the protrusion 15 is opened with a positioning hole 14. Of course, the housing 11 may not be provided with the boss. Here, the output end of the gear train refers to the final stage output of the gear train, and is not limited to the end of a certain part.

More specifically, referring to fig. 3, 4 and 5, the transmission part 2 includes a first end 21 and a second end 22, the gear train 13 includes a connecting member 131, the connecting member 131 includes an outer rim 132 and a cylinder 133, the outer rim 132 has a larger diameter than the cylinder 133, the outer rim 132 and the cylinder 133 are integrated, the outer rim 132 is provided with splines, and the outer rim 132 can rotate under the linkage of gears. At least part of the cylinder part 133 is positioned in the positioning hole 14, the cylinder part 133 comprises an inner hole 134, the first end part 21 extends into the inner hole 134, the cylinder part 133 is provided with an inner wall 135, the inner wall 135 is at least a part of a wall part forming the inner hole 134, the first end part 21 is limited with the inner wall 135, the first end part 21 is meshed with the cylinder part 133, and the first end part 21 can rotate along with the cylinder part 133, so that the cylinder part 133 can drive the first end part 21 to rotate in the rotating process. Wherein an end portion refers to a portion located at a distance from the end position.

Specifically, the first end 21 has a non-circular cross-section, such as a square, rectangle, flower, or spline-shaped or other shape, the first end 21 is in a limited fit with the inner wall 135, the first end 21 has at least a first outer wall 211 and a second outer wall 212, the first outer wall 211 is angularly disposed to the second outer wall 212, the inner wall 135 has at least a first inner wall portion 1351 and a second inner wall portion 1352, the first inner wall portion 1351 is angularly disposed to the second inner wall portion 1352, the first outer wall 211 is fitted to the first inner wall portion 1351, and the second outer wall 212 is fitted to the second inner wall portion 1352. In this way, the first end portion 21 and the barrel portion 133 are fixed in the circumferential direction by the limit of the first outer wall, the second outer wall, the first inner wall portion and the second inner wall portion, so that the first end portion can move along with the movement of the barrel portion.

As another embodiment, the first end portion 21 extends into the positioning hole 14, and the first end portion 21 is engaged with the output end 136 of the gear train, the first end portion 21 can rotate with the gear train, and the first end portion 21 can have a spline structure, for example. Thus, when the motor 12 works, the output shaft of the motor 12 can drive the first end portion 21 to rotate through the gear train 13.

The second end 22 of the transmission part 2 comprises at least one first axial projection 221, the first axial projection 221 projecting relatively away from the control part 1; the first axial protrusion 221 may be one, and has an annular structure; the number of the first axial protrusions 221 may also be two, and two are symmetrical structures; the first axial protrusions 221 may also be three or more, three or more being in the form of a circular array; of course, this is merely exemplary and the plurality of first axial protrusions may also be in other forms, such as in the form of a sector or otherwise.

The fluid control device 100 comprises a core part 4, the core part 4 comprises a sheet body 41, the sheet body 41 and the second end part 22 are arranged in a limiting or fixing mode, the sheet body 41 is provided with notches 411 facing the transmission part 2, the number and the shape of the notches 411 correspond to those of the first axial protrusions 221, and the first axial protrusions 221 are located in the notches 411. Through the arrangement of the first axial protrusions and the notches, the sheet body 41 can be driven to rotate by the transmission part.

The second end portion 22 includes a second axial protrusion 222 and a second bottom wall portion 223, the second axial protrusion 222 is closer to the center of the central axis than the first axial protrusion 221, the second bottom wall portion 223 surrounds the periphery of the second axial protrusion 222, the second axial protrusion 222 axially protrudes relative to the second bottom wall portion 223, the shape of the second axial protrusion is not limited by the fact that the second bottom wall portion 223 surrounds the periphery of the second axial protrusion 222, and the second axial protrusion may be a columnar structure, a block structure, or other forms.

The core portion 4 includes an elastic member 42, the elastic member 42 is sleeved outside the second axial protrusion 222, the elastic member 42 is located between the second bottom wall portion 223 and the sheet body 41, one end of the elastic member 42 abuts against the second bottom wall portion 223, and the other end of the elastic member 42 abuts against the sheet body 41. Support through elastic component 42 and press lamellar body 41, play certain cushioning effect, alleviate the transmission part and to lamellar body 41 excessive application of force, effectively reduce the risk of lamellar body wearing and tearing.

The housing portion 3 includes a main body 31 and a cover 32, and the main body 31 and the cover 32 are assembled and fixed, for example, by screws/bolts. The housing 11 is assembled and fixed to the cover 32, for example, by screws/bolts. The body 31 includes a body cavity 311 and a body wall 312, the core portion 4 is located in the body cavity 311, and the body wall 312 is at least a part of a wall portion forming the body cavity 311. The cover 32 includes a second flange portion 321, the second flange portion 321 includes an outer wall portion 3221, the outer wall portion 3221 is disposed opposite to at least a portion of the main body wall 312, and the outer wall portion 3221 is sealingly disposed with at least a portion of the main body wall 312.

For example, the housing portion 3 includes a sealing ring 33, the sealing ring 33 is sleeved outside the outer wall portion 3221, and the outer wall portion 3221, the sealing ring 33 and the corresponding portion of the main body wall 312 are tightly fitted to each other, so as to improve the sealing performance between the cover body and the main body.

Referring to fig. 3, 6, and 7, the cover 32 includes a through hole 322, the transmission part 2 passes through the through hole 322, and the through hole 322 is disposed coaxially with the positioning hole 14. The cover 32 includes at least a first annular wall 323, a third bottom wall 324 and a second annular wall 325, the first annular wall 323 is a part of the wall forming the through hole 322, and the first annular wall 323 is matched with at least part of the transmission part 2; the distance between the second annular wall portion 325 and the center position is larger than the distance between the first annular wall portion 323 and the center position with the middle shaft of the power transmission portion 2 as the center position, and the second annular wall portion 325 is fitted to at least part of the power transmission portion 2; the first annular wall 323 and the second annular wall 325 can be used for circumferential limitation of the transmission part 2, so as to improve the coaxiality of the transmission part 2 and the sheet body 41 and help to prevent the transmission part 2 from deviating from the central position in rotation. The third bottom wall portion 324 is a stepped wall with respect to the first annular wall portion 323, the third bottom wall portion 324 is disposed corresponding to at least a portion of the transmission portion 2, and the third bottom wall portion 324 can be used for limiting the position of the transmission portion 2.

Referring to fig. 2-8, the transmission part 2 comprises a central shaft 23, a sleeve 24, and a base part 25, at least part of the central shaft 23 being located inside the sleeve 24, at least part of the base part 25 being located outside the sleeve 24, the sleeve 24 separating at least part of the central shaft 23 from at least part of the base part 25. Wherein, the first end portion 21 is disposed on the middle shaft 23, and the second end portion 22 is disposed on the base portion 25; the base part 25 is rotatable with the intermediate shaft 23. At least part of the sleeve 24 is arranged to seal with the housing part 2 so that the central shaft 23 is isolated from the fluid flow chamber inside the housing part 2, thus avoiding the problem of fluid leakage due to rotation of the central shaft. By central axis is herein meant that it is located in a substantially central position of the housing part, and is not limited to an absolute central/central position.

At least part of the middle shaft 23 passes through the through hole 322, at least part of the sleeve 24 passes through the through hole 322, the sleeve 24 comprises a flange 241 and a cylindrical wall 242, the flange 241 extends outwards from the cylindrical wall 242, at least part of the cylindrical wall 242 passes through the through hole 322, at least part of the cylindrical wall 242 is matched with the first annular wall 323, and more specifically, at least part of the cylindrical wall 242 is arranged with the first annular wall 323 in a tight fit manner, for example, in a tight fit manner. At least a portion of the cylindrical wall portion 242 is hermetically provided with the housing portion 2 so that the main body chamber 311 is isolated from the external space.

The cover 32 includes a top wall 326, the top wall 326 includes a first stepped portion 3261, the first stepped portion 3261 is arranged in a stepped manner with the first annular wall 323, the fluid control device includes a sealing member 3263, at least a portion of the sealing member 3263 is located at the first stepped portion 3261, and at least a portion of the flange 241 is arranged in contact with the sealing member 3263 to seal the flange and the top wall.

The flange 241 is fixedly arranged with the top wall portion, for example, the top wall portion 326 includes a hole 3261, the flange 241 has a through hole 243 matched with the hole of the top wall portion 326, the hole 3261 is matched with the through hole 243, the fluid control device includes a bolt or a rivet, the bolt or the rivet is inserted into the hole 3261 and the through hole 243 to realize the fastening arrangement of the flange and the top wall portion, and thus the effective sealing of the flange and the top wall portion is ensured. More specifically, the top wall portion 326 includes a second stepped portion 3262, the second stepped portion 3262 is closer to the first end portion 21 relative to the first stepped portion 3261 along the axial direction of the driving portion, the second stepped portion 3262 is farther from the center of the driving portion relative to the first stepped portion 3261 along the circumferential direction of the driving portion, the flange 241 has a bottom surface 244, at least part of the bottom surface 244 is disposed in contact with the second stepped portion 3261, and at least part of the bottom surface 244 is disposed in contact with the sealing member 3263. The sleeve 24 is fixedly disposed with the top wall portion 326 such that the sleeve 24 is fixedly disposed in the body cavity 311, which helps to improve the concentricity of the transmission portion. In addition, the flange 241 and the top wall 326 are fixedly arranged, so that the sleeve 24 stably seals the main body cavity, and since the sleeve 24 does not shift during the operation of the fluid control device, the fit between the sleeve 24 and the cover 32 is firmer, and the sealing performance between the two is better, so that leakage is not easy to cause.

As a specific embodiment, the lid body 32 may further include a first flange portion 327, the first flange portion 327 protrudes toward the control part 1, the first flange portion 327 is provided with a top wall portion 326, and the top wall portion 326 is fixedly provided with the flange 241. The top wall portion 326 includes a second stepped portion 3262, the second stepped portion 3262 is closer to the first end portion 21 than the first stepped portion 3261 in an axial direction of the power transmission portion, the second stepped portion 3262 is farther from a center of the power transmission portion than the first stepped portion 3261 in a circumferential direction of the power transmission portion, the flange 241 has a bottom surface 244, at least a portion of the bottom surface 244 is disposed in contact with the second stepped portion 3261, and at least a portion of the bottom surface 244 is disposed in contact with the seal 3263.

At least part of the middle shaft 23 is located inside the sleeve 24 and is closely arranged with the inner wall of the sleeve 24 or arranged with a gap, the middle shaft 23 can rotate relative to the sleeve 24, the middle shaft 23 comprises a first base 231 and a first magnetic core part 232, the first base 231 is provided with a first end part 21, the first base 231 is provided with a long section 2311, and the long section 2311 extends into the shell part 3; the first core portion 232 is located outside at least part of the long section 2311.

As an embodiment, the first core portion 232 is sleeved on at least a part of the exterior of the long segment 2311, the first core portion 232 may be annularly sleeved on at least a part of the exterior of the long segment, and the first core portion 232 and the first base 231 may be injection molded into an integral structure. Herein, the injection-molded integral structure means that the first core portion 232 and the first base portion 231 are separate parts before being assembled, and are formed as one integral piece by injection-molding the two. As another embodiment, the first magnetic core 232 may be plural and distributed annularly, and the first magnetic core 232 is arranged outside the long segment 2311. Of course, the first magnetic core portion may be distributed in other shapes. At least part of the base part 25 is sleeved outside the sleeve 24, the base part 25 is arranged in close contact with or in clearance with at least part of the cylindrical wall part 242 of the sleeve 24, the base part 25 can rotate relative to the sleeve 24, the base part 25 comprises a second base part 251 and a second magnetic core part 252, the second base part 251 is provided with the second end part 22, and at least part of the second base part 251 is arranged in close contact with or in clearance with the second annular wall part 325; in one embodiment, the second core portion 252 may be annular, the second core portion 252 is at least partially sleeved outside the sleeve 24, at least a portion of the second base 251 is at least partially sleeved outside the second core portion 252, and the second core portion 252 and the second base 251 may be injection molded into an integral structure. As another embodiment, the second magnetic core 252 may be plural and distributed in an annular shape, and the second magnetic core 252 is disposed outside at least a portion of the sleeve 24. Of course, the second magnetic core portion may also be distributed in other shapes.

The second end 22 of the base portion 25 includes a first bottom wall portion 224, the first bottom wall portion 224 and a second bottom wall portion 223 are located on opposite sides of the second end 22, at least a portion of the cylindrical wall portion 242 is located between the first bottom wall portion 224 and the central shaft 23, and the cylindrical wall portion 242 isolates the central shaft 23 from the base portion 25.

The first core portion 232 starts to rotate under the action of the control component 1, and since the mutual attraction exists between the first core portion 232 and the second core portion 252, the second core portion 252 can rotate along with the first core portion 232, so that the sheet body 41 can be driven to rotate, and the functions of fluid control and flow regulation can be realized.

It should be noted that: although the present invention has been described in detail with reference to the above embodiments, those skilled in the art should understand that those skilled in the art can still make combination, modification or equivalent substitutions on the present invention, and all technical solutions and modifications thereof that do not depart from the spirit and scope of the present invention should be covered in the claims of the present invention.

Claims

1. A fluid control device comprising a transmission portion and a housing portion, the transmission portion comprising a central shaft, a sleeve, and a base portion, at least a portion of the central shaft being located inside the sleeve, at least a portion of the base portion being located outside the sleeve, at least a portion of the sleeve separating the central shaft and the base portion, the central shaft comprising a first core portion, the base portion comprising a second core portion that rotates with rotation of the first core portion, the central shaft being rotationally movable relative to the sleeve, the base portion being rotationally movable relative to the sleeve, the fluid control device comprising a seal, at least a portion of the sleeve being sealingly disposed with the housing portion via the seal;

the casing part comprises a cover body, the cover body comprises a through hole, at least part of the middle shaft penetrates through the through hole, at least part of the sleeve penetrates through the through hole, the cover body at least comprises a first annular wall part, the first annular wall part is a part of wall part forming the through hole, and the first annular wall part is matched with at least part of the sleeve.

2. The fluid control device according to claim 1, characterized in that: the fluid control device comprises a control member comprising a gear train, the transmission portion comprising a first end and a second end, the first end being in engagement with an output of the gear train, the second end extending into the interior of the housing portion, the middle shaft comprising a first base, the first base providing the first end and the first base having a long section, the long section extending into the interior of the housing portion, the first magnetic core being located outside at least part of the long section; the base portion includes a second base portion, the second base portion is provided with the second end portion, the second magnetic core portion is located outside at least a portion of the sleeve, and at least a portion of the second base portion is located outside the second magnetic core portion.

3. The fluid control device according to claim 2, characterized in that: the first magnetic core part is annular, and the first magnetic core part is sleeved outside at least part of the long section part; or the first magnetic core parts are distributed annularly, and the first magnetic core parts are arranged outside at least part of the long section part;

the first magnetic core part and the first base part are molded into an integral structure.

4. The fluid control device according to claim 2, characterized in that: the second magnetic core part is annular, and the second magnetic core part is sleeved outside at least part of the sleeve; or the second magnetic core parts are distributed in an annular shape and are arranged outside at least part of the sleeve;

the second magnetic core part and the second base part are molded into an integral structure.

5. The fluid control device according to claim 1 or 2 or 3 or 4, characterized in that: the sleeve comprises a flange and a cylinder wall part, the flange extends outwards from the cylinder wall part, at least part of the cylinder wall part penetrates through the through hole, and at least part of the cylinder wall part is matched with the first annular wall part; the flanging is matched with the cover body.

6. The fluid control device according to claim 5, characterized in that: the cover body comprises a second annular wall part, the middle shaft of the transmission part is used as a central position, the distance between the second annular wall part and the central position is larger than the distance between the first annular wall part and the central position, the second annular wall part is matched with at least part of the sleeve, and the transmission part comprises a second end part;

the second end includes a first bottom wall portion, at least a portion of the cylindrical wall portion being located between the first bottom wall portion and the central shaft, the cylindrical wall portion isolating the central shaft from the base portion.

7. The fluid control device according to claim 5, characterized in that: the cover body comprises a top wall part, the top wall part comprises a first step part, the first step part and the first annular wall part are arranged in a step mode, at least part of the sealing element is located at the first step part, at least part of the flanging is arranged in contact with the sealing element, and the flanging and the top wall part are fixedly arranged;

the transmission part comprises a first end part, the top wall part comprises a second step part, the second step part is closer to the first end part relative to the first step part along the axial direction of the transmission part, the second step part is farther away from the center of the transmission part relative to the first step part in the circumferential direction of the transmission part, the flanging is provided with a bottom surface, at least part of the bottom surface is in contact with the second step part, and at least part of the bottom surface is in contact with the sealing piece.

8. The fluid control device according to claim 5, characterized in that: the fluid control device comprises a control component, the cover body comprises a top wall portion and a first flange portion, the first flange portion protrudes towards the control component, the first flange portion is arranged on the top wall portion, the top wall portion comprises a first step portion, the first step portion and the first annular wall portion are arranged in a step mode, the fluid control device comprises a sealing piece, at least part of the sealing piece is located on the first step portion, at least part of the flanging is arranged in contact with the sealing piece, and the flanging and the top wall portion are fixedly arranged;

9. The fluid control device according to claim 2, 3 or 4, wherein: the control component comprises a connecting piece, the connecting piece comprises an outer edge part and a barrel part, the diameter of the outer edge part is larger than that of the barrel part, the outer edge part and the barrel part are of an integral structure, the barrel part comprises an inner hole, a first end part extends into the inner hole, the first end part is meshed with the barrel part, and the first end part can rotate along with the barrel part;

and/or the control component comprises a shell, the shell comprises a bulge, the bulge protrudes towards the shell part, the bulge is provided with a positioning hole, and at least part of the cylinder part is positioned in the positioning hole.

10. The fluid control device according to claim 9, wherein: the section of thick bamboo portion has the inner wall, the inner wall is for forming at least partly wall portion of hole, first end with the spacing setting of inner wall, first end has first outer wall and second outer wall at least, first outer wall with the second outer wall is the angle setting, the inner wall has first inner wall portion and second inner wall portion at least, first inner wall portion with the second inner wall portion is the angle setting, just first outer wall with first inner wall portion cooperates, the second outer wall with the cooperation of second inner wall portion.

11. The fluid control device according to claim 2, 3 or 4, wherein: the control part comprises a housing including a positioning hole at a side of the housing facing the housing part, the first end extends into the positioning hole and engages with the output end of the gear train, the first end being rotatable with the gear train.

12. The fluid control device according to claim 2, 3 or 4, wherein: the second end portion includes at least one first axial projection projecting relatively away from the control member; the fluid control device includes a core portion including a blade that is positioned or secured with the second end, the blade having a notch facing the drive portion, the notch corresponding to the first axial projection, and the first axial projection being located in the notch.

13. The fluid control device according to claim 2, 3 or 4, wherein: the second end portion including at least one first axial projection projecting relatively away from the control member, the second end portion including a second axial projection located closer to a center of the central shaft than the first axial projection, and a second bottom wall portion surrounding the second axial projection, the second axial projection projecting axially relative to the second bottom wall portion; the fluid control device comprises a core body part, the core body part comprises a sheet body and an elastic piece, the elastic piece is sleeved outside the second axial bulge, one end of the elastic piece abuts against the second bottom wall part, and the other end of the elastic piece abuts against the sheet body.

14. The fluid control device according to claim 1, characterized in that: the shell part comprises a main body, and the main body and the cover body are assembled and fixed; the body comprises a body cavity and a body wall, the fluid control device comprises a core part, the core part is positioned in the body cavity, and the body wall is at least one part of a wall part forming the body cavity;

the lid includes a second flange portion including an outer wall portion disposed opposite to at least a portion of the main body wall, and the outer wall portion is sealingly disposed between the outer wall portion and at least a portion of the main body wall.