CN108240505B - Water valve and mounting bracket thereof - Google Patents

Abstract

The invention provides an automobile water valve and a mounting bracket thereof, which can ensure the structural strength on the premise of reducing the weight. The mounting bracket comprises a bracket body, wherein the bracket body comprises a connecting part connected with a valve body of an automobile water valve and a mounting part formed by bending relative to the connecting part, the mounting part is connected with an automobile body of an automobile, the connecting part and the mounting part are connected by adopting a bending angle with radian smaller than a preset value so as to form a bending part with a preset size, and the bending part is provided with more than two protruding parts protruding inwards from the outer cambered surface of the bending angle. The bending angle with a small radian is adopted at the bending position of the connecting part and the mounting part, the size of the bending position is expanded, and stress concentration is avoided; more than two protruding parts are arranged at the bending part for reinforcement, and the bent part is further bent under the action of vibration and is broken; the protruding part protrudes inwards from the outer arc surface of the bending angle, so that supporting force opposite to the bending direction is provided, and twisting deformation is prevented.

Description

Water valve and mounting bracket thereof

Technical Field

the invention relates to the technical field of valve body installation, in particular to a water valve and an installation support thereof.

Background

The water valve of the automobile is used as a switch for heating the whole automobile and needs to be stably and reliably installed on an engine, and the vibration frequency of the water valve is gradually increased due to limited installation space and gradually increased rotating speed of the engine, so that higher requirements are provided for an installation support used for installing the water valve; at this time, the mounting bracket should ensure structural strength on the premise of reducing weight.

The contradiction between weight reduction and strength guarantee exists in the prior art, and the high-strength requirement of the mounting bracket cannot be met. Especially at some bending locations. .

Therefore, it is desirable to design a water valve and a mounting bracket thereof so as to ensure structural strength while reducing weight.

Disclosure of Invention

The invention aims to provide a water valve and a mounting bracket thereof, which can ensure the structural strength on the premise of reducing the weight.

In order to achieve the purpose, the invention provides a mounting bracket of a water valve, which comprises a bracket body, wherein the bracket body comprises a connecting part and a mounting part formed by bending relative to the connecting part, the connecting part and the mounting part are connected by adopting a bending angle to form a bending part, the radian radius range of the bending part is 3-6 mm, the bending part is provided with more than two protruding parts protruding inwards from the outer cambered surface of the bending angle, and the protruding parts are arranged in parallel.

According to the mounting bracket, the bending positions of the connecting part and the mounting part are connected by adopting the bending angles with smaller radians, and the radian radius range of the bending positions is between 3mm and 6mm, so that the size of the bending positions is effectively expanded, the influence of bending on the strength of the bracket body is further reduced, the bracket body keeps certain strength at the bending positions, and stress concentration at the bending positions is avoided; the bending part is provided with more than two protruding parts, so that the bending part can be effectively prevented from being further bent under the vibration effect to be broken; particularly, the protruding part protrudes inwards from the outer arc surface of the bending angle, can form a complementary action with the bending direction of the bending angle, provides a supporting force in the direction opposite to the bending direction, and can share the torque action of further twisting towards the bending direction through the protruding part even if the support is subjected to the torque action, so that the support is prevented from being distorted and deformed, and the deformation resistance of the support is improved; moreover, the protruding parts are arranged in parallel, so that the whole bending position can be reinforced along the extending direction of the crease, and the integral strength of the bending position is improved; because the support body has realized high strength through the structural arrangement, need not to guarantee intensity through adopting thick and heavy material, just also correspondingly reduced the weight of installing support.

Optionally, each protruding portion extends from the bent portion to the connecting portion and the mounting portion, two ends of the protruding portion are respectively located at the connecting portion and the mounting portion, and the maximum length range of the protruding portion located at the connecting portion and the mounting portion is 1 mm-3 mm.

Optionally, the projections are symmetrically arranged about a midline of the bend.

Optionally, the height of each protrusion protruding inward is the same and is less than a predetermined height.

Optionally, the protrusion is an inwardly arched convex bubble.

Optionally, at least one side of the bracket body is provided with a turned edge, the turned edge is provided with a cutting groove at the bending position, and the width of the cutting groove is smaller than the arc length of the bending position.

Optionally, a chamfer part is arranged at the bottom of the groove; and/or the width of the cutting groove is 1-2 mm.

Optionally, the connecting portion is provided with a first connecting hole and a second connecting hole, the first connecting hole is arranged on one side of the connecting portion and is provided with a notch portion, and the second connecting hole is a full-surrounding hole with a continuous hole wall.

Optionally, the connecting portion is an L-shaped connecting plate, and the mounting portion is connected to a vertical portion of the L-shaped connecting plate and extends perpendicular to the L-shaped connecting plate.

The invention also provides a water valve, which comprises a valve body and a mounting bracket, wherein the mounting bracket is any one of the mounting brackets.

Drawings

FIG. 1 is a schematic perspective view of an assembled water valve and mounting bracket thereof according to an embodiment of the present invention;

FIG. 2 is a perspective view of the mounting bracket of FIG. 1;

FIG. 3 is a side view of the mounting bracket of FIG. 2;

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

In FIGS. 1-4:

The support comprises a support body 1, a connecting part 11, a first connecting hole 111, a second connecting hole 112, an installation part 12, a bent part 13, a protruding part 14, a flanging 15, a cutting groove 16 and a valve body 2.

Detailed Description

The invention provides a water valve and a mounting bracket thereof, which can ensure the structural strength on the premise of reducing the weight.

The present invention will be described in detail below with reference to the accompanying drawings so that those skilled in the art can accurately understand the technical solutions of the present invention.

the inner side and the outer side of the installation support are both referred to by the bending angle of the installation support, the direction at the inner side of the bending angle is the inner side, and the direction at the outer side of the bending angle is the outer side.

the first and second components described herein are only for distinguishing different components having the same or similar structure or different structures having the same or similar structure, and do not denote any particular limitation on the order.

As discussed in the background, the prior art requires a mounting bracket that is both strong and heavy.

As shown in fig. 1, in order to meet the above requirement, the present invention provides an installation bracket for a water valve, including a bracket body 1, where the bracket body 1 includes a connection portion 11 and an installation portion 12, the connection portion 11 and the installation portion 12 are connected with each other, the installation portion 12 is formed by bending the connection portion 11, where the connection portion 11 is used to implement connection with a valve body 2 of the water valve, the installation portion 12 is used to implement connection with a vehicle body, the water valve is located at one side of the connection portion 11, and after the installation portion 12 is connected with the vehicle body, the water valve is fixed at a side portion of the.

As shown in fig. 2, in the mounting bracket of the present invention, the bending angle between the connecting portion 11 and the mounting portion 12 is an arc angle with a radian smaller than a predetermined value, and the bending angle has a certain arc length, so as to form a bending portion 13 with a predetermined size, that is, the bending portion 13 is arranged in a small-angle and large-size structure, so as to avoid stress concentration at the bending portion 13; meanwhile, the bending part 13 is also provided with more than two protruding parts 14, and the protruding parts 14 protrude towards the inner side of the bending angle and are arranged by protruding inwards from the outer cambered surface of the bending angle.

By adopting the mounting bracket, on one hand, the radian of the bending angle is set to be smaller than a preset value to form small-angle bending, on the other hand, the size of the bending part 13 is expanded, and the arc length of the bending angle is extended, so that the bending part 13 has a preset size, the strength influence of bending on the bracket body 1 is effectively reduced, the structural strength of the bracket body 1 at the bending part 13 is improved, particularly, the structure of the bending part 13 is more uniform and stable, the local stress concentration is avoided, and the risk that the bracket body 1 is broken at the bending part 13 is further reduced to a greater extent.

Particularly, the bending part 13 is provided with more than two protruding parts 14, the protruding parts 14 protrude inwards from the outer arc surface of the bending angle, the bending direction of the protruding parts is opposite to that of the bending part 13, and then reverse torque resisting torsional deformation towards the bending direction is generated, the torsional transformation capacity of the support body 1 is improved, even if the water valve generates torsional deformation tendency due to frequent distance movement in the using process, the water valve can be effectively restrained, and the strength and the use reliability of the mounting support are improved.

Moreover, the protruding portion 14 can also be used as a reinforcing structure to reinforce the strength of the bent portion 13, and in addition, the bending angle of the bent portion 13 is small and the size of the bent portion 13 is large, so that the strength of the bent portion 13 can be ensured, and the risk that the mounting bracket is broken at the bent portion 13 is reduced.

In detail, the radian radius range of the bending part 13 is 3 mm-6 mm, so that the bending part has a preset size, the transitional connection between the connecting part 11 and the mounting part 12 is better realized, and the requirements of strength and bending connection can be met. Meanwhile, the protruding parts 14 are arranged in parallel, so that the extending direction of the crease of the whole bending part 13 is effectively strengthened, the crease is discontinuous, and the structural strength of the bending part is improved.

Herein, the predetermined value of the radian adopted by the bending angle can be comprehensively set according to the structural form of the mounting bracket, the connection requirement and the like, and the radian of the bending angle is less than pi/2, so that the bending part 13 is relatively smooth.

As shown in fig. 2, the bent portion 13 extends at the connecting portion 11 of the mounting portion 12 and the connecting portion 11, i.e. extends along the transverse direction of fig. 2; the predetermined size of the bending part 13 is an arc length part of the bending angle, which is matched with the bending angle and is an arc length range covered by the bending angle, and can also be understood as a distance between two end points of the bending part 13 in the extending direction of the arc length.

As shown in fig. 2, each protruding portion 14 extends from the bent portion 13 to the connecting portion 11 and the mounting portion 12, the protruding portions 14 are respectively located at the connecting portion 11 and the mounting portion 12, and the maximum length range of the protruding portions 14 located at the connecting portion 11 and the mounting portion 12 is 1mm to 3mm, so that both ends of each protruding portion 14 can extend beyond the edge line of the bent portion 13 at the same end as each other. If the orientation in fig. 2 is taken as a reference, the upper end of the protruding part 14 extends upwards above the upper end of the bend 13 and the lower end extends below the lower end of the bend 13. Specifically, the distance between two end points of the bending point 13 in the arc length extending direction is L1, and the distance between two end points of the protrusion 14 is L2, then L2 is greater than L1, and the protrusion 14 covers the entire extending area of the bending point 13. Wherein, the bending part 13 has two end points in the extending direction of the arc length, the whole bending part 13 extends in the axial direction, and the two end points form an axially extending straight line, namely the edge line at the two ends of the bending part 13; the two ends of the protruding portion 14 exceed the edge lines of the bending portion 13 means that the protruding portion 14 extends in the arc length direction of the bending portion 13, and the two ends of the protruding portion 14 both exceed the two end points of the bending portion 13 in the arc length direction.

At this time, the protruding portion 14 can reinforce the arc length direction of the whole bent portion 13, and the protruding portion 14 covers the edge line of the bent portion 13, so that the breakage of the bent portion 13 due to the weak edge can be avoided; moreover, the bending part 13 is provided with more than two protruding parts 14, the protruding parts 14 can be distributed at intervals in the axial direction of the bending part 13, and further the axial width of the whole bending part 13 is reinforced, and the overall strength of the bending part 13 is improved.

The axial direction mentioned here is referred to as a bending point 13, the bending point 13 is substantially an arc-shaped plate-shaped structure, and a direction to which a central axis of the arc-shaped plate points and a direction parallel to the central axis are the axial directions.

The protruding portion 14 may also be symmetrically disposed about a center line of the bending portion 13, where the center line is a central axis of the bending portion 13, and if the bending portion 13 is also symmetric about the central line, two ends of the protruding portion 14 extend out of the bending portion 13 by an equal distance. At this time, the protruding portion 14 can adjust the both ends of the fold 13 comprehensively. Alternatively, a person skilled in the art can set the relative position relationship between the protruding portion 14 and the bent portion 13 according to the use requirement to specifically and separately adjust the strength of the two ends of the bent portion 13, and is not limited to the symmetrical arrangement.

In a preferred embodiment, the height of the inward projection of each projection 14 may be the same, and the projection heights are each less than a predetermined height. The inward convex height refers to the inward convex height of the outer arc surface of the bending angle, and when the inward convex heights of the protruding portions 14 are the same, the acting force of the protruding portions 14 in the protruding direction can be kept consistent, so that the protruding portions 14 cooperate with each other, and the protruding portions converge in the protruding direction to form a resultant force resisting deformation of the support body 1 in the bending direction, and a better reinforcing effect is achieved.

Moreover, the protruding part protrudes inwards from the outer arc surface of the bending angle, and when the height of the protruding part is smaller than the preset height, the deformation capacity of the support body 1 can be avoided being exceeded, the breakage of the mounting support caused in the process of forming the protruding part 14 can be avoided, and the protruding part 14 can be made to have better use performance after being formed. The preset height can be comprehensively set according to the materials adopted by the mounting bracket, the size of the bending angle and the like.

In a particular embodiment, the protrusion 14 may be an inwardly arched convex bubble. This configuration can reduce the impact on the stent body 1 during the formation of the protruding portion 14; moreover, the arch convex bubble is easy to process, can form reverse bulge with the bending angle, and the bulge amount is easy to control.

On the basis, the bracket body 1 of the invention may further be provided with a flange 15, specifically, the flange 15 may be provided on at least one side of the bracket body 1, the flange 15 is provided with a cutting groove 16 at the bending part 13, and the width of the cutting groove 16 is smaller than the arc length of the bending part 13.

As shown in fig. 3 and 4, in order to ensure the use strength of the bracket body 1, a flange 15 may be provided on at least one side edge thereof, and specifically, one side edge thereof may be folded to form the flange 15; because the support body 1 has a bent part, after the support body 1 is turned over, the side edge of the support body 1 can form folds at the turned over part, or materials at the turned over part can be accumulated, so that the turned-over edge 15 is uneven. To solve this technical problem, the flange 15 of the present invention is provided with a notch 16 at the bend 13 to cut off excess material so that the flange 15 can extend flat in the extending direction of the side edge.

In addition, the size of the cutting groove 16 should be as small as possible, and two side edges of the cutting groove 16 should not exceed the edge lines of the bending parts 13 at the same side of the cutting groove to cut off a small amount of material, so as to ensure the strength of the stent body 1 and avoid the fracture of the stent body 1 caused by weak rings generated at the cutting groove 16; meanwhile, when the cutting groove 16 does not exceed the range of the bending part 13, the bracket body 1 can be effectively prevented from vibrating and breaking at the edge line of the bending part 13. In a preferred embodiment, the width of the cutting groove 16 is preferably 1 to 2 mm; the slot width refers to the dimension of the slot 16 in a direction perpendicular to the cut. With the dimension of the cut-out 16 in the direction of the cut-out as its depth, the depth should be greater than the thickness of the flange 15, as shown in fig. 3.

As shown in fig. 4, the bottom of the cutting groove 16 may further be provided with a chamfer, and specifically, the chamfer may be performed after the side of the stent body 1 is turned over, so as to effectively avoid generating stress at the bottom of the cutting groove 16 and prevent the cutting groove 16 from affecting the structural strength of the stent body 1.

Referring to fig. 1 again, the connection portion 11 may have a first connection hole 111 and a second connection hole 112, wherein the first connection hole 111 is disposed at one side of the connection portion 11, in the embodiment shown in fig. 1, the first connection hole 111 is disposed at one side where the flange 15 is not disposed, and the first connection hole 111 has a gap portion, that is, the first connection hole 111 is not a full-surrounding circular hole, but has a gap in a surrounding direction, and may be a U-shaped hole, and an opening of the U-shaped hole is the gap portion; the second connecting hole 112 is a fully-enclosed hole, that is, the hole walls of the second connecting hole 112 are continuously connected in the surrounding direction, and there is no gap, and the hole wall may be a circular hole.

At this time, the first connection hole 111 and the second connection hole 112 jointly realize the connection between the connection part 11 and the valve body 2 of the water valve, the connection part penetrating through the second connection hole 112 can realize the fixed connection between the connection part 11 and the valve body 2, and the connection part in the first connection hole 111 can realize the pre-positioning and auxiliary limiting functions; the cooperation of the first connection hole 111 and the second connection hole 112 can enable the connection pieces in the two connection holes to cooperate with each other without interference, thereby improving the installation convenience and reliability.

Two or more first connection holes 111 may be provided according to the requirement, or two or more second connection holes 112 may be provided, at this time, each first connection hole 111 may be arranged in a straight line to form a row of connection holes, each second connection hole 112 may also be arranged in a straight line to form a row of connection holes, and the first connection hole 111 and the second connection hole 112 may form two rows of connection holes parallel to each other, as shown in fig. 1.

Further, the connecting portion 11 may be specifically configured as an L-shaped connecting plate, and the mounting portion 12 may be connected to a vertical portion of the L-shaped connecting hole and extend perpendicular to the L-shaped connecting plate, as shown in fig. 1 and 2. At this time, the transverse portion of the L-shaped connecting plate is provided with the first connecting hole 111 and the second connecting hole 112 for connecting with the valve body 2, the vertical portion can be bent downwards from the connecting position with the transverse portion, then the lower end of the vertical portion is connected with the mounting portion 12, and the mounting portion 12 can extend approximately horizontally; the orientation herein is merely for convenience of description, and is illustrated by way of example in fig. 1 and 2.

The mounting part 12 is connected with the vehicle body in various ways, and specifically, the mounting part 12 can be provided with a connecting hole and then fixedly connected with the vehicle body through a connecting piece.

the invention also provides a water valve, which comprises a valve body 2 and a mounting bracket, wherein the mounting bracket is used for mounting. Since the structural form of the water valve is various, only the mounting bracket thereof is described in detail herein, and any water valve structure that can adopt the mounting bracket of the present invention and fix the water valve on one side of the mounting bracket can be used as the water valve of the present invention.

The water valve and its mounting bracket provided by the present invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the core concepts of the present invention. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. The mounting support of the water valve comprises a support body (1), wherein the support body (1) comprises a connecting part (11) and a mounting part (12) formed by bending the connecting part (11), and is characterized in that the connecting part (11) and the mounting part (12) are connected by adopting a bending angle to form a bending part (13), the radian radius range of the bending part (13) is 3-6 mm, the bending part (13) is provided with more than two protruding parts (14) protruding inwards from the outer arc surface of the bending angle, and the protruding parts (14) are arranged in parallel;

The height of each protruding part (14) protruding inwards is smaller than a preset height so as to avoid exceeding the deformation capacity of the bracket body (1).

2. The mounting bracket according to claim 1, wherein each of the protruding portions (14) extends from the bent portion (13) to the connecting portion (11) and the mounting portion (12), two ends of the protruding portion (14) are respectively located at the connecting portion (11) and the mounting portion (12), and a maximum length of the protruding portion (14) located at the connecting portion (11) and the mounting portion (12) ranges from 1mm to 3 mm.

3. The mounting bracket according to claim 2, characterized in that the projections (14) are arranged symmetrically with respect to the centre line of the bend (13).

4. A mounting bracket according to claim 1, characterised in that the protrusions (14) are of the same height projecting inwardly.

5. the mounting bracket of claim 1, wherein the protrusion (14) is an inwardly arched, arcuate blister.

6. The mounting bracket according to any one of claims 1-5, characterized in that at least one side of the bracket body is provided with a flange (15), the flange (15) is provided with a slot (16) at the bend (13), and the slot (16) has a slot width smaller than the arc length of the bend (13).

7. The mounting bracket of claim 6, wherein the groove bottom of the slot (16) is provided with a chamfer; and/or the width of the cutting groove (16) is 1-2 mm.

8. The mounting bracket according to claim 6, wherein the connecting portion (11) is provided with a first connecting hole (111) and a second connecting hole (112), the first connecting hole (111) is provided at one side of the connecting portion (11) and has a gap portion, and the second connecting hole (112) is a full surrounding hole with a continuous hole wall.

9. The mounting bracket according to claim 6, characterized in that the connecting portion (11) is an L-shaped web, and the mounting portion (12) is connected to a vertical portion of the L-shaped web and extends perpendicularly to the L-shaped web.

10. A water valve comprising a valve body (2) and a mounting bracket, characterised in that the mounting bracket is as claimed in any one of claims 1 to 9.