CN210117574U - Mounting seat and clothes treatment equipment - Google Patents

Abstract

The utility model belongs to the technical field of the damping shock attenuation, specifically provide a mount pad and clothing treatment facility. The utility model discloses aim at solving current mount pad when direct mount bolt and nut, bolt or nut can not with the problem of spanner chucking. Therefore, the utility model discloses a mount pad includes bottom plate, first curb plate and the second curb plate that forms through the technology of bending. The bottom plate is provided with a bottom flanging hole, the first side plate is provided with a first side flanging hole, the second side plate is provided with a second side flanging hole, and the flanging structures of the first side flanging hole and the second side flanging hole are far away from each other. Furthermore, internal threads are arranged in the three flanging holes. When the spanner is used, only the bolt is screwed up to the corresponding flanging hole, so that enough space is reserved for the spanner to clamp the bolt, and the arrangement of the nut is omitted.

Description

Mounting seat and clothes treatment equipment

Technical Field

The utility model belongs to the technical field of the damping shock attenuation, specifically provide a mount pad and clothing treatment facility.

Background

The existing drum washing machine mainly comprises a box body, an outer drum and an inner drum. Wherein, the outer cylinder is fixedly connected with the box body through a hanging spring and a shock absorber. Specifically, the top of the outer cylinder is fixedly connected with the top of the box body through a hanging spring, and the bottom of the outer cylinder is fixedly connected with the bottom of the box body through a shock absorber. The inner cylinder is rotatably disposed in the outer cylinder.

In the working process of the washing machine, because the clothes are unevenly distributed in the inner barrel, the inner barrel can drive the outer barrel to shake up and down, left and right when rotating. The shaking strength and amplitude of the outer cylinder can be reduced by arranging the hanging spring and the shock absorber. Especially, the vibration absorber can absorb and eliminate the vibration of the washing machine, prevent the washing machine from crawling, reduce the noise of the washing machine, further ensure the performance of the washing machine and prolong the service life of the washing machine.

Generally, the shock absorber comprises a sleeve and a plunger slidably connected with the sleeve, wherein a first mounting hole is formed in one end, away from the sleeve, of the plunger, and a second mounting hole is formed in one end, away from the plunger, of the sleeve. A bolt passing through the first mounting hole is fixedly connected with a box body of the washing machine, so that the plunger is pivotally connected to the box body; a bolt passing through the second mounting hole is fixedly connected with the outer tub of the washing machine, so that the sleeve is pivotally connected to the outer tub.

In the prior art, it is common to provide a mounting seat on the cabinet of the washing machine, and then pivotally connect the plunger and the mounting seat together by means of a bolt and a nut. Because the bottom plate or the side plate with the through hole on the mounting seat is of a plane structure, the operating space is insufficient for a worker to screw the bolt and the nut together through a wrench (with a certain thickness). In order to allow the wrench to clamp and tighten the bolt and the nut, a washer is required between the bolt and the mounting seat and between the nut and the mounting seat to allow the wrench to flow out of a sufficient space.

Accordingly, there is a need in the art for a new mounting base that addresses the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

In order to solve above-mentioned problem among the prior art, when solving current mount pad at the direct mount bolt and nut promptly, bolt or nut can not with the problem of spanner chucking, the utility model provides a mount pad, the mount pad includes bottom plate, first curb plate and the second curb plate that fixed connection or an organic whole were made, the bottom plate first curb plate with be provided with the flanging hole on at least one in the second curb plate.

In a preferred technical solution of the above-mentioned mounting seat, the flanging hole includes a bottom flanging hole provided on the bottom plate, and a flanging structure of the bottom flanging hole is located on one side of the bottom plate close to the first side plate.

In a preferred technical solution of the above-mentioned mounting seat, the flanging hole includes a first side flanging hole provided on the first side plate, and a flanging structure of the first side flanging hole is located on a side of the first side plate away from the second side plate.

In a preferred technical solution of the above-mentioned mounting seat, the flanging hole includes a second side flanging hole provided on the second side plate, and a flanging structure of the second side flanging hole is located on a side of the second side plate away from the first side plate.

In the preferred technical scheme of the installation seat, the flanging hole comprises a bottom flanging hole arranged on the bottom plate, a first side flanging hole arranged on the first side plate and a second side flanging hole arranged on the second side plate.

In a preferred technical scheme of the mounting seat, a flanging structure of the bottom flanging hole is positioned on one side of the bottom plate close to the first side plate; and/or the flanging structure of the first side flanging hole is positioned on one side of the first side plate, which is far away from the second side plate; and/or the flanging structure of the second side flanging hole is positioned on one side of the second side plate, which is far away from the first side plate.

In a preferred technical scheme of the mounting seat, at least one of the flanging holes is provided with an internal thread; and/or the flanging hole is made by a stamping process; and/or the bottom plate, the first side plate and the second side plate are formed by bending a metal plate and form a U-shaped structure together; and/or the thickness of the bottom plate, the first side plate and the second side plate is less than 5 mm.

In a preferred technical solution of the above mount, the thickness of the bottom plate, the first side plate and the second side plate is equal to 1 mm.

Furthermore, the utility model also provides a clothing treatment facility, clothing treatment facility includes the mount pad of any one of above-mentioned preferred technical scheme.

In a preferred embodiment of the above laundry treating apparatus, the laundry treating apparatus is a washing machine, a dryer, or a washing and drying all-in-one machine.

It can be understood by those skilled in the art that, in the preferred technical solution of the present invention, the flanging hole is provided on at least one of the bottom plate, the first side plate and the second side plate of the mounting seat, so that the bolt and/or the nut can be abutted against the protruding end of the flanging hole, thereby leaving enough space for the wrench to clamp the bolt and/or the nut, and preventing the situation of loose or tripping between the wrench and the bolt and/or the nut. One skilled in the art can understand that when only one of the bottom plate, the first side plate and the second side plate is provided with the flanging hole, a bolt matched with a screwdriver can be selected for use, and then a nut is matched with a wrench for use.

Preferably, the bottom plate, the first side plate and the second side plate are formed by bending a metal plate, and form a U-shaped structure together. The flanging hole comprises a bottom flanging hole arranged on the bottom plate, a first side flanging hole arranged on the first side plate and a second side flanging hole arranged on the second side plate, and the flanging structures of the first side flanging hole and the second side flanging hole are far away from each other. Furthermore, internal threads are arranged in the bottom flanging hole, the first side flanging hole and the second side flanging hole. When the spanner is used, only the bolt is screwed up to the corresponding flanging hole, so that enough space is reserved for the spanner to clamp the bolt, and the arrangement of the nut is omitted.

As can be understood by those skilled in the art, the flanging hole is a hole made by a stamping process, and under the condition of a hole structure with the same axial length, the stamping process can effectively reduce the thickness of materials relative to a casting process, thereby effectively reducing the material consumption and saving the production cost.

Drawings

Preferred embodiments of the present invention will now be described in conjunction with a variable damping shock absorber with reference to the accompanying drawings, wherein:

FIG. 1 is a schematic structural view of the variable damping shock absorber of the present invention in an assembled state;

FIG. 2 is a schematic structural view of the variable damping shock absorber of the present invention when it is not assembled;

FIG. 3 is an exploded view of the variable damping shock absorber of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 1;

fig. 5 is a schematic structural diagram of the mounting seat of the present invention;

FIG. 6 is a schematic structural view of a shock absorbing member according to the present invention;

FIG. 7 is an enlarged view of portion B of FIG. 3;

FIG. 8 is a cross-sectional view of the variable damping shock absorber of the present invention;

FIG. 9 is an enlarged view of portion C of FIG. 8;

fig. 10 is a schematic structural view of the damping ring of the present invention;

fig. 11 is a schematic plan view of an outer friction ring of the present invention.

List of reference numerals:

1. a plunger; 11. a first mounting hole; 12. a first reducing groove; 13. a first oil reservoir; 14. a second oil reservoir;

2. a sleeve; 21. a second mounting hole; 22. a second reducing groove;

3. a damping ring; 31. an inner friction ring; 311. a first bump structure; 32. an outer friction ring; 321. a second bump structure;

4. a shock-absorbing member; 41. a body; 42. a first protrusion; 43. a second protrusion;

5. a mounting seat; 51. a base plate; 511. a bottom flanging hole; 52. a first side plate; 521. a first side flanging hole; 53. a second side plate; 531. a second side flanging hole; 54. positioning blocks;

6. a tubular member;

7. and (4) bolts.

Detailed Description

It should be understood by those skilled in the art that the embodiments in this section are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. For example, although the embodiment of this section describes the mount of the present invention with reference to a variable damping shock absorber, the mount of the present invention can also be applied to any other feasible shock absorber and structure or device with hole structure. Those skilled in the art can make adjustments according to actual needs to adapt to specific applications, and the adjusted technical solution still falls into the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicating the directions or positional relationships are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 to 3, the damping-variable shock absorber of the present invention mainly includes a plunger 1, a sleeve 2, and a damping ring 3. The plunger 1 is inserted into the sleeve 2 in an axial sliding manner, the damping ring 3 is arranged between the sleeve 2 and the plunger 1 in a radial direction, the outer side end (outer circumferential surface) of the damping ring 3 abuts against the inner wall of the sleeve 2, and the inner side end (inner circumferential surface) of the damping ring 3 abuts against the outer wall (outer side wall) of the plunger 1. When the plunger 1 slides relative to the sleeve 2 in the axial direction, the damping ring 3 can generate a damping force to resist the sliding of the plunger 1. One end of the plunger 1, which is far away from the sleeve 2, is provided with a first mounting hole 11, and one end of the sleeve 2, which is far away from the plunger 1, is provided with a second mounting hole 21. The plunger 1 and the sleeve 2 are pivotally connected to other structures, devices or equipment through the first mounting hole 11 and the second mounting hole 21, respectively.

As shown in fig. 2 and 3, the variable damping shock absorber of the present invention further includes a shock-absorbing member 4 for a hole structure, a mounting seat 5, a rigid tubular member 6, and a bolt 7. In the mounted state, one damping member 4 is respectively clamped in the first mounting hole 11 and the second mounting hole 21, the tubular member 6 is inserted into the damping member 4, and the bolt 7 passes through the mounting seat 5 and the tubular member 6 to pivotally connect the mounting seat 5 with the plunger 1 and/or the sleeve 2.

As shown in fig. 4 and 5, the mounting base 5 of the present invention includes a bottom plate 51, a first side plate 52, and a second side plate 53. The bottom plate 51, the first side plate 52 and the second side plate 53 are formed by bending a metal plate, and form a U-shaped structure together. Furthermore, the base plate 51, the first side plate 52 and the second side plate 53 can be fixed together by any feasible means, such as welding the base plate 51, the first side plate 52 and the second side plate 53 together, forming the base plate 51, the first side plate 52 and the second side plate 53 together into the U-shaped structure by extrusion molding, and casting the base plate 51, the first side plate 52 and the second side plate 53 together by casting, as required by those skilled in the art.

Further, in a preferred embodiment of the present invention, the thickness of the metal plate, that is, the thickness of the bottom plate 51, the first side plate 52 and the second side plate 53 is less than 5mm, and further preferably, the thickness of the bottom plate 51, the first side plate 52 and the second side plate 53 is equal to 1 mm. Alternatively, one skilled in the art may set the bottom plate 51 and/or the first side plate 52 and/or the second side plate 53 to any feasible thickness, for example, the bottom plate 51 is set to have a thickness of 1mm, 1.5mm, 3mm, etc., the first side plate 52 is set to have a thickness of 1mm, 1.5mm, 3mm, etc., and the second side plate 53 is set to have a thickness of 1mm, 1.5mm, 3mm, etc., as required. The thicknesses of the bottom plate 51, the first side plate 52 and the second side plate 53 may be the same or different.

With continued reference to fig. 4 and 5, mount 5 includes a flanged hole, which in turn includes a bottom flanged hole 511 provided on bottom plate 51, a first side flanged hole 521 provided on first side plate 52, and a second side flanged hole 531 provided on second side plate 53. The bottom flanging hole 511, the first side flanging hole 521 and the second side flanging hole 531 are all manufactured through a stamping process, the flanging structure of the bottom flanging hole 51 is located on one side, close to the first side plate 52, of the bottom plate 51, the flanging structure of the first side flanging hole 521 is located on one side, away from the second side plate 53, of the first side plate 52, and the flanging structure of the second side flanging hole 531 is located on one side, away from the first side plate 52, of the second side plate 53. That is, the bottom burring hole 511 is punched in a direction close to the first side plate 52, the first side burring hole 521 is punched in a direction away from the second side plate 53, and the second side burring hole 531 is punched in a direction away from the first side plate 52.

Although not explicitly shown, in the preferred embodiment of the present invention, both the first side-flanging hole 521 and the second side-flanging hole 531 are provided with internal threads to match the external threads on the bolt 7. Further, it is also possible for those skilled in the art to provide an internal thread only on one of the first and second side-burring holes 521 and 531 and match the internal thread with the external thread on the bolt 7, as necessary. Further, one skilled in the art may also provide internal threads on the bottom flanging hole 511 as desired.

In another possible embodiment of the present invention, one skilled in the art may provide only one or two of the bottom flanging hole 511, the first side flanging hole 521 and the second side flanging hole 531 on the mounting seat 5 as required.

With continued reference to fig. 4 and 5, the base plate 51 is further provided with a positioning block 54, and the mounting base 5 is positioned to a fixed structure such as a cabinet of a washing machine by the positioning block 54.

As shown in fig. 6, the damping member 4 of the present invention includes a cylindrical body 41 and a protrusion fixedly connected to or integrally formed with the body 41, the protrusion is disposed at an axial end of the body 41, and a radial thickness of the protrusion in the body 41 is gradually increased from the axial end of the body 41. Specifically, the protrusions include a first protrusion 42 provided on a first end of the body 41 and a second protrusion 43 provided on a second end of the body 41, and the thickness of the first protrusion 42 gradually increases from the first end toward the second end such that the first protrusion 42 forms a trapezoidal protrusion; the thickness of the second projection 43 gradually increases from the second end toward the first end, so that the second projection 43 forms a trapezoidal projection.

With continued reference to fig. 6, the first projection 42 and the second projection 43 are each plural, and the plural first projections 42 and the plural second projections 43 are provided at equal intervals in the circumferential direction of the body 41. Alternatively, the plurality of first protrusions 42 and the plurality of second protrusions 43 may be arranged in a non-equidistant distribution as required by those skilled in the art.

Although not explicitly shown in the drawings, the shock-absorbing member 4 of the present invention is made of a rubber material having elasticity so as to improve the shock-absorbing performance of the shock-absorbing member 4, or one skilled in the art may use any feasible shock-absorbing material, such as plastic, foam, porous metal, etc., as needed.

As shown in fig. 2 and 3, in the mounted state, the body 41 of the shock-absorbing member 4 on the plunger 1 passes through the first mounting hole 11, the first protrusion 42 and the second protrusion 43 are respectively located at both ends of the first mounting hole 11, and the first protrusion 42 and the second protrusion 43 can respectively abut against both ends of the first mounting hole 11, preventing the shock-absorbing member 4 from being removed from the first mounting hole 11. The damping member 4 on the sleeve 2 is mounted in the same manner as on the plunger 1 and will not be described in more detail here.

Further, in another possible embodiment of the present invention, a person skilled in the art may retain only the first protrusion 42 or the second protrusion 43 on the shock-absorbing member 4 and then provide a stopper member on the other end of the shock-absorbing member 4, as needed. When mounting, the shock-absorbing member 4 is inserted into the first mounting hole 11 or the second mounting hole 21 through the first protrusion 42 or the second protrusion 43, and the end of the first mounting hole 11 or the second mounting hole 21 is abutted by the stopper member, so that the shock-absorbing member 4 is prevented from being removed from the first mounting hole 11 or the second mounting hole 21. Wherein, the stopping component can be a circular ring, a plurality of rectangular convex structures, a plurality of hemispherical convex structures and the like.

As shown in fig. 3 and 7, the plunger 1 of the present invention is provided with a first annular diameter-varying groove 12, a first oil reservoir 13, and a second oil reservoir 14 at one end extending into the sleeve 2. The first reducing groove 12 is used for mounting the damping ring 3, and the inner end of the damping ring 3 is always abutted against the bottom of the first reducing groove 12. The first oil storage groove 13 and the second oil storage groove 14 are respectively located on two sides of the first reducing groove 12 and used for containing lubricating oil, providing lubrication for the damping ring 3, reducing friction loss of the damping ring 3 and prolonging the service life of the damping ring 3.

As shown in fig. 8 and 9, the inner wall of the sleeve 2 is provided with an annular second diameter-changing groove 22, and the outer end of the damping ring 3 is always abutted against the bottom of the second diameter-changing groove 22. During the movement of the plunger 1, at least a portion of the second reducing groove 22 is aligned with the first reducing groove 12 so as to prevent the damping ring 3 from coming out of the first reducing groove 12 and/or the second reducing groove 22.

Although not explicitly shown in the drawings, in a preferred embodiment of the present invention, the first reducing grooves 12 and/or the second reducing grooves 22 are symmetrically arranged with respect to the respective radial directions, and the diameter of the first reducing grooves 12 is gradually increased from the middle to both sides, and the diameter of the second reducing grooves 22 is gradually decreased from the middle to both sides. Further, a person skilled in the art may provide only the first reducing groove 12 on the plunger 1 or only the second reducing groove 22 on the sleeve 2, as necessary.

As shown in fig. 9 and 10, the damping ring 3 of the present invention mainly includes an inner friction ring 31 and an outer friction ring 32. The utility model discloses a under the state that the variable damping bumper shock absorber assembled, the cover is established in first reducing groove 12 to interior friction ring 31 cover, and the outside of friction ring 31 is established including outer friction ring 32 cover to the outside end of outer friction ring 32 offsets with the bottom of second reducing groove 22 all the time.

As shown in fig. 2 and 10, both ends of the inner friction ring 31 are provided with a plurality of first protrusion structures 311 in the radial direction of the damping ring 3, and both ends of the outer friction ring 32 are provided with a plurality of second protrusion structures 321 in the axial direction of the damping ring 3. In the assembled state, the first projecting structures 311 and the second projecting structures 321 are engaged with each other, and the outer friction ring 32 (structures other than the second projecting structures 321) is confined between the first projecting structures 311 at both ends of the inner friction ring 31, so that the inner friction ring 31 and the outer friction ring 32 are fixed together. Further, the second protrusion 321 extends out of the first protrusion 311 in the axial direction of the damping ring 3, so that the damping ring 3 is in contact with the end of the first diameter-changing groove 12 and/or the second diameter-changing groove 22 through the second protrusion 321 when sliding to the end of the first diameter-changing groove 12 and/or the second diameter-changing groove 22, and plays a role of buffering, thereby reducing noise generated by collision.

Although not explicitly shown in the drawings, the damping ring 3 of the present invention is made of an elastic material, i.e., the inner friction ring 31 and the outer friction ring 32 are both made of an elastic material, which may be porous polyurethane or elastic rubber. Furthermore, one skilled in the art may also use metal for the inner friction ring 31 and/or the outer friction ring 32, for example, a C-shaped metal spring plate for the inner friction ring 31 and/or the outer friction ring 32. The purpose of the damping ring 3 made of an elastic material is to improve the deformability of the damping ring 3, i.e. to allow the damping ring 3 to deform properly as the radial dimensions of the first and/or second reducing grooves 12, 22 change.

As shown in fig. 10, the plurality of first protrusion structures 311 and the plurality of second protrusion structures 321 are respectively distributed at equal intervals around the circumference of the damping ring 3, or one skilled in the art may set the plurality of first protrusion structures 311 and the plurality of second protrusion structures 321 to be distributed at unequal intervals as needed.

With continued reference to fig. 10, the inner friction ring 31 is formed with a first opening (not labeled) that is present such that the inner friction ring 31 forms an open ring. When the inner friction ring 31 is deformed in the radial direction and the diameter becomes large, the first opening becomes large; when the inner friction ring 31 is deformed in the radial direction and becomes smaller in diameter, the first opening becomes smaller. The outer friction ring 32 is formed with a second opening (not shown) that exists such that the outer friction ring 32 forms an open ring. When the outer friction ring 32 is deformed in the radial direction and becomes larger in diameter, the second opening becomes larger; the second opening becomes smaller when the outer friction ring 32 is deformed in the radial direction and becomes smaller in diameter.

As shown in fig. 10 and 11, the outer friction ring 32 may be expanded for ease of installation. In order to save machining material, the first protruding structures 311 and the second protruding structures 321 have the same width along the circumferential direction of the damping ring 3. That is, when the outer friction ring 32 is unfolded, the interval (b) between two adjacent second convex structures 321 is equal to the width (b) of the second convex structures 321, so that the second convex structures 321 can be cut in plurality by one complete material sheet without wasting any material when being produced.

It will be appreciated by those skilled in the art that the damping ring 3 of the present invention is provided in the form of two combined members of the inner friction ring 31 and the outer friction ring 32 for convenience of manufacture, assembly and disassembly. To this end, one skilled in the art can, as required, in another possible embodiment of the present invention, integrally form the inner friction ring 31 and the outer friction ring 32 into a single structure, and retain the second protrusion 321, or provide a separate protrusion for eliminating the noise generated when the damping ring 3 collides with the plunger 1 and the sleeve 2. At this time, there is only one opening on the damping ring 3.

To sum up, the damping-variable shock absorber of the present invention reduces the noise generated when the damping ring 3 collides with the plunger 1 and the sleeve 2 by providing the second protrusion 321 on the damping ring 3; by providing the first projection 42 and the second projection 43 on the shock-absorbing member 4, the mounting between the shock-absorbing member 4 and the plunger 1 and the sleeve 2 is facilitated; through set up the turn-ups hole on mount pad 5 to set up the internal thread in the turn-ups hole, can with bolt complex prerequisite under, reduced the thickness of mount pad 5.

Further, although not shown in the drawings, the present invention also provides a laundry treating apparatus including at least one of a drum type washing machine, a drum type dryer, a drum type washing and drying all-in-one machine, a pulsator type washing machine, a pulsator type dryer, and a pulsator type washing and drying all-in-one machine. The laundry treating apparatus further includes the variable damping shock absorber described above. The drum type washing machine will be described below as an example.

Illustratively, the drum type washing machine includes a cabinet, an outer tub, an inner tub, a tension spring, and a variable damping damper. The top of the outer cylinder is connected with the top of the box body through a tension spring, and the bottom of the outer cylinder is connected with the bottom of the box body through a variable damping shock absorber. The inner cylinder is rotatably disposed in the outer cylinder. Since other structural features of the drum type washing machine are well known to those skilled in the art, they will not be described herein in detail.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A mounting seat is characterized by comprising a bottom plate, a first side plate and a second side plate which are fixedly connected or integrally manufactured,

at least one of the bottom plate, the first side plate and the second side plate is provided with a flanging hole.

2. The mount of claim 1, wherein the flanging hole comprises a bottom flanging hole disposed on the bottom plate, and the flanging structure of the bottom flanging hole is located on a side of the bottom plate close to the first side plate.

3. The mount of claim 1, wherein the flanging hole comprises a first side flanging hole disposed on the first side plate, and the flanging structure of the first side flanging hole is located on a side of the first side plate away from the second side plate.

4. The mount of claim 1, wherein the flanging hole comprises a second side flanging hole disposed on the second side plate, the flanging structure of the second side flanging hole being located on a side of the second side plate away from the first side plate.

5. The mount of claim 1, wherein the flanging hole comprises a bottom flanging hole disposed on the bottom plate, a first side flanging hole disposed on the first side plate, and a second side flanging hole disposed on the second side plate.

6. The mount of claim 5, wherein the flange structure of the bottom flanging hole is located on a side of the bottom plate adjacent to the first side plate;

and/or the flanging structure of the first side flanging hole is positioned on one side of the first side plate, which is far away from the second side plate;

and/or the flanging structure of the second side flanging hole is positioned on one side of the second side plate, which is far away from the first side plate.

7. The mount of claim 5, wherein at least one of the flanged holes is provided with an internal thread;

and/or the flanging hole is made by a stamping process;

and/or the bottom plate, the first side plate and the second side plate are formed by bending a metal plate and form a U-shaped structure together;

and/or the thickness of the bottom plate, the first side plate and the second side plate is less than 5 mm.

8. The mount of claim 7, wherein the thickness of the bottom plate, the first side plate, and the second side plate is equal to 1 mm.

9. A laundry treating apparatus, characterized in that the laundry treating apparatus comprises the mount of any one of claims 1 to 8.

10. The laundry processing apparatus according to claim 9, wherein the laundry processing apparatus is a washing machine, a dryer, or a washer-dryer.

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