CN114541096B - Washing machine inner barrel assembly with stable installation monitoring structure - Google Patents

Abstract

The invention provides a washing machine inner cylinder component with a stable installation monitoring structure, which relates to the technical field of auxiliary assembly parts and comprises the following components: a load bearing housing; the inner side of the bearing shell is provided with a stable bearing frame, and the inner side of the stable bearing frame is provided with a bearing inner cylinder; the stable support frame is arranged on the inner side of the stable carrying frame; the bearing sliding block is sleeved on the outer side of one end of the bearing sliding column in a sliding manner; the assembly sliding block is sleeved on the outer side of the other end of the bearing sliding column in a sliding manner; the sliding bearing column is matched with the bearing spring through the assembly sleeve, so that the linkage sleeve is buffered and borne, meanwhile, the linkage sleeve is matched with the sliding bearing column, the bearing side plate is borne, meanwhile, the elastic supporting ball is matched with the rotating supporting frame, and the bottom of the bearing inner cylinder is rotationally buffered and supported; the problems that the inner cylinder of the pulsator washing machine is poor in structural stability, the pulsator washing machine is damaged due to long-time use and noise is large during driving due to poor stability are solved.

Description

Washing machine inner barrel assembly with stable installation monitoring structure

Technical Field

The invention relates to the technical field of auxiliary assembly parts, in particular to a washing machine inner barrel assembly with a stable installation monitoring structure.

Background

The washing machine is a cleaning electric appliance for washing clothes by utilizing the mechanical action of electric energy, and is divided into two types according to the rated washing capacity, namely, household use and collective use, wherein the mechanical force, the washing liquid and water are three elements in the washing process of the washing machine, and dirt and clothes fibers are separated by the mechanical force and the action of the washing liquid generated by the moving parts of the washing machine.

However, considering convenience and cost at present, the rental houses are generally provided with pulsator washing machines, the manufacturing cost of the pulsator washing machines is low at present, but the structural stability of the inner cylinder of the washing machine is poor, so that the pulsator washing machine is easy to damage due to long-time use, and the stability is poor, so that noise is high during driving, and the use practicability of the pulsator washing machine is affected.

Disclosure of Invention

In view of the above, the present invention provides a washing machine inner barrel assembly with a mounting stability monitoring structure, which has a stable support frame and a stable support structure, so that the pulsator washing machine can be more stable in use.

The invention provides a washing machine inner cylinder component with an installation stability monitoring structure, which specifically comprises: a load bearing housing;

the inner side of the bearing shell is provided with a stable bearing frame, and the inner side of the stable bearing frame is provided with a bearing inner cylinder; the stable support frame is arranged on the inner side of the stable carrier frame, and meanwhile, a bearing slide column is arranged on the inner side of the stable support frame; the bearing sliding block is sleeved on the outer side of one end of the bearing sliding column in a sliding manner, and a stable supporting structure is arranged on the side face of the bearing sliding block; the assembly sliding block is sleeved on the outer side of the other end of the bearing sliding column in a sliding manner; the positioning side plate is arranged on the outer side of the bearing inner cylinder, and a stable bearing structure is arranged at the bottom of the positioning side plate.

Optionally, the stabilizing carrier frame further includes:

the movable slotting is arranged on the inner side of the stable carrying frame in a penetrating way; the stable base is arranged at the top of the stable carrying frame; the flexible carrier sleeve is arranged at the top of the stable base; the positioning support sleeve is arranged at the tail end of the flexible carrying sleeve, and meanwhile, the positioning support sleeve is sleeved on the outer side of the carrying inner cylinder; and the bearing support is arranged at the bottom of the positioning support sleeve.

Optionally, the stabilizing frame further includes:

the assembly slot is formed in the inner side of the stable support frame; the positioning carrier blocks are arranged at four corners of the inner side of the assembly slot, and are sleeved at the tail end of the bearing slide column; the stabilizing springs are sleeved on the outer sides of the two ends of the bearing sliding column; and the detection device is arranged on the inner side of the assembly slot.

Optionally, the bearing slider includes:

the extrusion side block is arranged on the side surface of the bearing sliding block; the rotary carrying groove is formed at one end of the carrying slide block; the assembly rotating block is rotatably arranged on the inner side of the rotary carrying groove; the stabilizing support is arranged at the tail end of the assembly rotating block; and the linkage carrying groove is formed at the tail end of the stabilizing support column.

Optionally, the stabilizing support structure comprises:

the positioning load convex is arranged on the side surface of the stabilizing support column; the bearing opening penetrates through the inner side of the positioning bearing boss and bears the bearing pillar; the stable supporting block is arranged on the side face of the positioning carrying boss and is used for carrying out positioning carrying on the positioning side plate; positioning lateral protrusions which are arranged at two ends of the stable supporting block;

optionally, the assembly slide includes:

the pushing side block is arranged on the side face of the assembly sliding block; the bearing rotating groove is formed at one end of the assembly sliding block; the assembly shaft block is rotatably arranged on the inner side of the bearing rotating groove; the positioning support is arranged at the tail end of the assembly shaft block; the linkage connecting block is arranged at the tail end of the positioning support column, and meanwhile, the linkage connecting block is rotatably arranged at the inner side of the linkage carrying groove.

Optionally, the positioning side plate includes:

the assembly sleeve is arranged on one side surface of one end of the positioning side plate; the positioning clamp bulge is arranged on the inner sides of the assembly sleeve and the linkage sleeve; the sliding carrying column is arranged on the inner side of the assembly sleeve in a sliding manner; the bearing springs are sleeved on the outer sides of the two ends of the sliding bearing column, and are arranged on the inner sides of the assembling sleeve and the linkage sleeve; and the linkage sleeve is sleeved at the tail end of the sliding carrying column.

Optionally, the stabilizing load bearing structure comprises:

the bearing side plate is arranged at the bottom end of the positioning side plate; the assembly carrying groove is formed in the side face of the bearing side plate and can bear the bearing of the linkage sleeve; the bearing bottom plate is arranged at the bottom end of the bearing side plate; the assembly opening is arranged on the inner side of the bearing bottom plate in a penetrating way; the rotating support frame is arranged on the inner side of the assembly opening; and the elastic supporting ball is rotatably arranged on the inner side of the rotary supporting frame and is supported at the bottom of the bearing inner cylinder.

Advantageous effects

The washing machine inner barrel assembly with the installation stability monitoring structure according to the embodiments of the present invention has higher applicability in use compared to conventional devices.

In addition, bear the weight of the pillar through bearing the opening, and then make the pillar cooperation location brace, can cushion the location support to bearing the inner tube, and then when bearing the inboard clothing rotation side of inner tube and hit, stable spring can cushion support to bearing slider and assembly slider, and then make the pillar cooperation location brace provide the buffering holding power, thereby make stable supporting piece cooperation location side protruding, can stabilize the buffering support to the bearing inner tube that shakes, the noise that the reduction device produced, and can prevent to bear the inner tube and last the collision to produce the damage, extrusion side piece and the cooperation of pushing side piece simultaneously, can fix a position the biggest buffering power, thereby extrude detection device when rocking the exceeding buffering power, thereby make detection device detect the impact, thereby make the bearing inner tube carry out emergency stop and rotate, prevent that the improper operation from leading to bearing inner tube and damaging, further improve device's life.

In addition, can be when bearing the inner tube rotation through the location curb plate, fix a position steady support, thereby improve the stability of bearing the inner tube when rotating, the assembly sleeve cooperation bears the spring simultaneously, can make the slip and carry the post to the slip sleeve and cushion and bear, the slip of slip sleeve cooperation simultaneously carries the post, can bear the curb plate to bearing, the elasticity prop up ball cooperation simultaneously rotates the frame, can rotate the buffering support to bearing the inner tube bottom, and then make the bearing bottom plate can assist to support bearing the inner tube, further improve the stability of bearing the inner tube when rotating, thereby further improve the life who bears the inner tube.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of an external load bearing assembly structure according to an embodiment of the invention;

FIG. 2 shows a schematic overall front view of an apparatus according to an embodiment of the present invention;

FIG. 3 illustrates an overall bottom structural schematic view of an apparatus according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a stable carrier frame assembly structure according to an embodiment of the present invention;

FIG. 5 shows a schematic diagram of a front view of a stable frame assembly according to an embodiment of the present invention;

FIG. 6 shows a schematic diagram of an assembly slider assembly structure according to an embodiment of the present invention;

FIG. 7 shows a schematic diagram of a stable frame split structure according to an embodiment of the present invention;

FIG. 8 shows a schematic diagram of an assembly of positioning side plates according to an embodiment of the invention;

fig. 9 shows a schematic view of the load-bearing side plate assembly structure according to an embodiment of the invention.

List of reference numerals

1. A load bearing housing;

2. stabilizing the carrying frame;

201. movable slotting; 202. a stable base; 203. a flexible carrier sleeve; 204. positioning the support sleeve; 205. a bearing inner cylinder; 206. a load-bearing support;

3. stabilizing the support frame;

301. assembling and slotting; 302. positioning a carrier block; 303. a carrying strut; 304. a stabilizing spring; 305. a detection device;

4. a load-bearing slide block;

401. extruding the side blocks; 402. rotating the carrying groove; 403. assembling a rotating block; 404. a stabilizing post; 405. a linkage carrying groove; 406. positioning the carrying convex; 4061. a carrying opening; 4062. stabilizing the support block; 4063. positioning the lateral protrusions;

5. assembling a sliding block;

501. pushing the side blocks; 502. a bearing rotating groove; 503. assembling a shaft block; 504. positioning the support column; 505. a linkage joint block;

6. positioning a side plate;

601. assembling a sleeve; 602. positioning clamp protrusions; 603. sliding the carrying column; 604. a load-bearing spring; 605. a linkage sleeve; 606. a load bearing side plate; 6061. a mounting groove; 6062. a bearing bottom plate; 6063. a fitting opening; 6064. rotating the support frame; 6065. and (5) elastically supporting the ball.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 9:

the invention provides a washing machine inner cylinder assembly with a stable installation monitoring structure, which comprises: a carrying case 1;

the inner side of the bearing shell 1 is provided with a stable carrying frame 2, and the inner side of the stable carrying frame 2 is provided with a bearing inner cylinder 205; the stable support frame 3, the stable support frame 3 is installed on the inner side of the stable carrier frame 2, and meanwhile, the bearing strut 303 is installed on the inner side of the stable support frame 3; the bearing slide block 4 is sleeved outside one end of the bearing slide column 303 in a sliding manner, and meanwhile, a stable supporting structure is arranged on the side surface of the bearing slide block 4; the assembly sliding block 5 is sleeved outside the other end of the bearing sliding column 303 in a sliding manner; the positioning side plate 6, the positioning side plate 6 is arranged outside the bearing inner cylinder 205, and meanwhile, the bottom of the positioning side plate 6 is provided with a stable bearing structure.

As shown in fig. 8 and 9, the positioning side plate 6 includes:

the assembling sleeve 601, the assembling sleeve 601 is arranged on one end side surface of the positioning side plate 6; the positioning clamp protrusion 602, the positioning clamp protrusion 602 is installed on the inner sides of the assembling sleeve 601 and the linkage sleeve 605; a sliding carrying column 603, wherein the sliding carrying column 603 is slidably mounted on the inner side of the assembly sleeve 601; the bearing springs 604, the bearing springs 604 are sleeved outside the two ends of the sliding bearing post 603, and the bearing springs 604 are arranged inside the assembling sleeve 601 and the linkage sleeve 605; the linkage sleeve 605, the linkage sleeve 605 is sleeved at the tail end of the sliding carrying column 603; the stable bearing structure comprises: the bearing side plate 606 is arranged at the bottom end of the positioning side plate 6; the assembly loading groove 6061, the assembly loading groove 6061 is arranged on the side surface of the bearing side plate 606, and meanwhile, the assembly loading groove 6061 can bear the bearing sleeve 605; a bearing bottom plate 6062, the bearing bottom plate 6062 is mounted at the bottom end of the bearing side plate 606; an assembly opening 6063, wherein the assembly opening 6063 is penetrated and opened on the inner side of the bearing bottom plate 6062; a rotating frame 6064, the rotating frame 6064 being mounted inside the fitting opening 6063; an elastic supporting ball 6065, wherein the elastic supporting ball 6065 is rotatably arranged at the inner side of the rotary supporting frame 6064, and meanwhile, the elastic supporting ball 6065 is supported at the bottom of the bearing inner cylinder 205; can carry out the location through location curb plate 6 when bearing inner tube 205 and rotate, thereby improve the stability of bearing inner tube 205 when rotating, assembly sleeve 601 cooperation bearing spring 604 simultaneously, can make the slip carry post 603 to carry out the buffering to the interlocking sleeve 605 and bear, the interlocking sleeve 605 cooperation slip carries post 603 simultaneously, can bear the curb plate 606 to bearing, elasticity prop up ball 6065 cooperation rotation prop up frame 6064 simultaneously, can rotate the buffering to bear inner tube 205 bottom and support, and then make bearing bottom plate 6062 can assist to bear inner tube 205 and support, further improve the stability of bearing inner tube 205 when rotating, thereby further improve the life who bears inner tube 205.

As shown in fig. 1 to 7, the stable carrier 2 further includes:

the movable slotting 201 is arranged on the inner side of the stable carrying frame 2 in a penetrating way; the stable base 202, the stable base 202 is installed on the top of the stable carrier 2; a flexible carrier 203, the flexible carrier 203 being mounted on top of the stabilization base 202; the positioning support sleeve 204 is arranged at the tail end of the flexible carrier sleeve 203, and meanwhile, the positioning support sleeve 204 is sleeved outside the carrier inner cylinder 205; a bearing strut 206, the bearing strut 206 being mounted to the bottom of the positioning strut 204; the stable support frame 3 further comprises: the assembly slot 301, the assembly slot 301 is opened on the inner side of the stable support frame 3; the positioning carrier blocks 302 are arranged at four corners of the inner side of the assembly slot 301, and meanwhile, the positioning carrier blocks 302 are sleeved at the tail end of the bearing slide column 303; the stabilizing springs 304 are sleeved outside the two ends of the bearing sliding column 303; a detecting device 305, the detecting device 305 is installed inside the assembly slot 301; the bearing slide block 4 comprises: the extrusion side block 401, the extrusion side block 401 is installed on the side surface of the bearing slide block 4; a rotary carrying groove 402, wherein the rotary carrying groove 402 is arranged at one end of the carrying slide block 4; a mounting rotating block 403, wherein the mounting rotating block 403 is rotatably arranged on the inner side of the rotating carrying groove 402; a stabilizing support column 404, wherein the stabilizing support column 404 is mounted at the end of the assembly turning block 403; a linkage carrying groove 405, wherein the linkage carrying groove 405 is arranged at the tail end of the stabilizing support column 404; the stable support structure includes: a positioning load tab 406, the positioning load tab 406 being disposed on a side of the stabilization post 404; a bearing opening 4061, wherein the bearing opening 4061 is penetratingly opened at the inner side of the positioning carrier 406, and the bearing opening 4061 bears the bearing strut 206; the stabilizing support block 4062, the stabilizing support block 4062 is arranged on the side surface of the positioning carrier projection 406, and the stabilizing support block 4062 carries out positioning carrier on the positioning side plate 6; positioning lateral protrusions 4063, wherein the positioning lateral protrusions 4063 are arranged at two ends of the stabilizing support block 4062; the assembly slide 5 comprises: a pushing side block 501, wherein the pushing side block 501 is arranged on the side surface of the assembly sliding block 5; the bearing rotating groove 502 is formed in one end of the assembly sliding block 5; the assembly shaft block 503, the assembly shaft block 503 is rotatably installed on the inner side of the bearing rotating groove 502; a positioning stay 504, the positioning stay 504 being mounted to the end of the fitting shaft block 503; the linkage connection block 505, the linkage connection block 505 is installed at the tail end of the positioning pillar 504, and the linkage connection block 505 is rotatably arranged at the inner side of the linkage carrying groove 405; the bearing support column 206 is borne through the bearing opening 4061, and then the bearing support column 206 is matched with the positioning support sleeve 204, so that the bearing inner cylinder 205 can be subjected to buffer positioning support, and then when clothes on the inner side of the bearing inner cylinder 205 are in side collision during rotation, the bearing sliding block 4 and the assembling sliding block 5 can be subjected to buffer support by the stabilizing spring 304, and then the stabilizing support column 404 is matched with the positioning support column 504 to provide buffer supporting force, so that the stabilizing support block 4062 is matched with the positioning side projection 4063, the shaking bearing inner cylinder 205 can be subjected to stable buffer support, noise generated by the device is reduced, the bearing inner cylinder 205 can be prevented from being continuously collided to be damaged, meanwhile, the extrusion side block 401 is matched with the pushing side block 501, the maximum buffer force can be positioned, so that the detection device 305 is extruded when shaking exceeds the buffer force, the collision force is detected and collected by the detection device 305, the bearing inner cylinder 205 is subjected to emergency stop rotation, the bearing inner cylinder 205 is prevented from being damaged due to improper operation, and the service life of the device is further prolonged.

Specific use and action of the embodiment: in the invention, the bearing support column 206 is carried through the bearing opening 4061, and then the bearing support column 206 is matched with the positioning support sleeve 204, the bearing inner cylinder 205 is subjected to buffer positioning support, and then when the clothes at the inner side of the bearing inner cylinder 205 are in side collision, the bearing slide block 4 and the assembling slide block 5 are subjected to buffer support by the stabilizing spring 304, and then the stabilizing support column 404 is matched with the positioning support column 504 to provide buffer support force, so that the stabilizing support block 4062 is matched with the positioning side projection 4063, the shaking bearing inner cylinder 205 is subjected to stable buffer support, the noise generated by the device is reduced, the bearing inner cylinder 205 is prevented from being damaged due to continuous collision, meanwhile, the extrusion side block 401 is matched with the pushing side block 501, the maximum buffer force is positioned, the detection device 305 is extruded when the shaking exceeds the buffer force, so that the detection device 305 detects and collects the impact force, and thus the bearing inner cylinder 205 is subjected to emergency stop rotation, the positioning side plate 6 is subjected to positioning stable support when the bearing inner cylinder 205 is rotated, and meanwhile, the assembling sleeve 601 is matched with the bearing spring 604, the sliding sleeve 605 is subjected to buffer support by the sliding sleeve 605, and the sleeve 605 is matched with the sliding sleeve 603, and the sliding sleeve 603 is matched with the bearing side block 603, the bearing 205 is subjected to buffer support, and the bearing side block 401 is subjected to stable, and the bearing is further subjected to buffer support by the sliding support, and the bearing support of the bearing support 205 when the bearing inner cylinder 205 is matched with the bearing bottom plate 60and the bearing support block 606, and the bearing support frame is further subjected to bearing support 60, and the bearing support frame is further improved.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The above is only an exemplary embodiment of the present invention and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (4)

1. Possess washing machine inner tube subassembly of stable monitoring structure of installation, its characterized in that includes: a carrying case (1);

a stable carrying frame (2) is arranged on the inner side of the carrying shell (1), and a carrying inner cylinder (205) is arranged on the inner side of the stable carrying frame (2); the stabilizing support frame (3), the stabilizing support frame (3) is installed on the inner side of the stabilizing carrier frame (2), and meanwhile, the bearing slide column (303) is installed on the inner side of the stabilizing support frame (3); the bearing sliding block (4), the bearing sliding block (4) is sleeved on the outer side of one end of the bearing sliding column (303) in a sliding manner, and meanwhile, a stable supporting structure is arranged on the side face of the bearing sliding block (4); the assembly sliding block (5) is sleeved on the outer side of the other end of the bearing sliding column (303) in a sliding manner; the positioning side plate (6), the positioning side plate (6) is arranged on the outer side of the bearing inner cylinder (205), and a stable bearing structure is arranged at the bottom of the positioning side plate (6);

the stable support structure includes: a positioning load protrusion (406), wherein the positioning load protrusion (406) is arranged on the side surface of the stabilizing support column (404); a bearing opening (4061), wherein the bearing opening (4061) is arranged on the inner side of the positioning carrier projection (406) in a penetrating way, and the bearing opening (4061) bears the bearing support column (206); the stabilizing support block (4062), the stabilizing support block (4062) is arranged on the side face of the positioning carrier boss (406), and the stabilizing support block (4062) carries out positioning bearing on the positioning side plate (6); positioning scoliosis (4063), wherein the positioning scoliosis (4063) is arranged at two ends of the stable supporting block (4062);

the assembly slide block (5) comprises: the pushing side block (501), the pushing side block (501) is installed on the side face of the assembly sliding block (5); the bearing rotating groove (502), the bearing rotating groove (502) is arranged at one end of the assembly sliding block (5); the assembly shaft block (503), the assembly shaft block (503) is rotatably installed on the inner side of the bearing rotary groove (502); a positioning strut (504), the positioning strut (504) being mounted at the end of the mounting shaft block (503); the linkage connecting block (505), the linkage connecting block (505) is installed at the tail end of the positioning pillar (504), and meanwhile, the linkage connecting block (505) is rotatably arranged at the inner side of the linkage carrying groove (405);

the positioning side plate (6) comprises: the assembly sleeve (601), the assembly sleeve (601) is installed on one end side surface of the positioning side plate (6); the positioning clamp bulge (602), the positioning clamp bulge (602) is arranged on the inner sides of the assembling sleeve (601) and the linkage sleeve (605); a sliding carrying column (603), wherein the sliding carrying column (603) is slidably arranged on the inner side of the assembling sleeve (601); the bearing springs (604), the bearing springs (604) are sleeved outside the two ends of the sliding bearing column (603), and the bearing springs (604) are arranged inside the assembling sleeve (601) and the linkage sleeve (605); the linkage sleeve (605), the linkage sleeve (605) is sleeved at the end of the sliding carrying column (603);

the stable bearing structure comprises: the bearing side plate (606), the bearing side plate (606) is arranged at the bottom end of the positioning side plate (6); the assembly carrying groove (6061), the assembly carrying groove (6061) is arranged on the side surface of the bearing side plate (606), and meanwhile, the assembly carrying groove (6061) can bear the linkage sleeve (605); the bearing bottom plate (6062), the bearing bottom plate (6062) is installed at the bottom end of the bearing side plate (606); an assembly opening (6063), wherein the assembly opening (6063) is penetrated and arranged on the inner side of the bearing bottom plate (6062); a rotary support frame (6064), wherein the rotary support frame (6064) is arranged at the inner side of the assembly opening (6063); the elastic supporting ball (6065), the elastic supporting ball (6065) is rotatably arranged on the inner side of the rotary supporting frame (6064), and meanwhile the elastic supporting ball (6065) is supported at the bottom of the bearing inner cylinder (205).

2. A washing machine inner tub assembly having a mounting stability monitoring structure as claimed in claim 1, wherein: the stabilizing carrier (2) further comprises:

the movable slotting (201) is arranged on the inner side of the stable carrying frame (2) in a penetrating way; the stabilizing base (202) is arranged at the top of the stabilizing carrying frame (2); the flexible carrying sleeve (203), the flexible carrying sleeve (203) is installed on the top of the stable base (202); the positioning support sleeve (204), the positioning support sleeve (204) is arranged at the tail end of the flexible carrier sleeve (203), and the positioning support sleeve (204) is sleeved outside the carrier inner cylinder (205); and the bearing support column (206) is arranged at the bottom of the positioning support sleeve (204).

3. A washing machine inner tub assembly having a mounting stability monitoring structure as claimed in claim 1, wherein: the stable support frame (3) further comprises:

the assembly groove (301), the assembly groove (301) is opened on the inner side of the stable support frame (3); the positioning carrier blocks (302), the positioning carrier blocks (302) are arranged at four corners of the inner side of the assembly slot (301), and meanwhile, the positioning carrier blocks (302) are sleeved at the tail end of the bearing slide column (303); the stabilizing springs (304), the stabilizing springs (304) are sleeved outside the two ends of the bearing slide column (303); and the detection device (305) is arranged on the inner side of the assembly slot (301).

4. A washing machine inner tub assembly having a mounting stability monitoring structure as claimed in claim 1, wherein: the bearing slide block (4) comprises:

the extrusion side block (401), the extrusion side block (401) is installed on the side face of the bearing sliding block (4); a rotary carrying groove (402), wherein the rotary carrying groove (402) is arranged at one end of the carrying slide block (4); the assembly rotating block (403), the assembly rotating block (403) is rotatably installed on the inner side of the rotary carrying groove (402); a stabilization post (404), the stabilization post (404) being mounted at the end of the assembly turning block (403); and the linkage carrying groove (405), wherein the linkage carrying groove (405) is arranged at the tail end of the stabilizing support column (404).