CN112190208B - Self-adaptive whole-body cup washer for household cup body - Google Patents

Abstract

The invention discloses a self-adaptive whole-body cup washer for a household cup body, which comprises an inner cleaning mechanism, an outer clamping mechanism, a water pipe passage, an unlocking push rod, a device shell and a transmission device. Before working, the cup is placed into the cup washer, and the inner cleaning mechanism and the outer clamping mechanism cooperate to automatically clamp the cup and cover the cup. When the cleaning device works, the transmission device is started, and the gear set drives the internal cleaning device and the external clamping device to rotate reversely so as to achieve the cleaning effect. After the work is completed, the unlocking push rod is pushed, the clamping device is retracted, the cup is taken out, and the washing is completed. Compared with other existing cup washers, the cup washer has the advantages of low power consumption, low cost, simple operation, safety, stability, small size, portability and capability of automatically adapting to the size of the cup body.

Description

Self-adaptive whole-body cup washer for household cup body

Technical Field

The invention relates to a self-adaptive whole-body cup washing machine for a household cup body.

Background

The cup is a common container in daily life, and due to the continuous pursuit of people on life quality, more and more people add things into water, a large amount of residues are formed on the inner surface and the outer surface of the cup, particularly, the residues with good adhesion effect are added, so that the cup is difficult to clean, and meanwhile, due to the special shape of the water cup, the cup mouth is thin, the cup body is deep, and the residues on the cup are difficult to clean; in the prior art, a cup washer is used for replacing hand washing to wash the cup, but the traditional cup washer has the defects of complicated structure, higher cost, incapability of adapting to the cups with different cup body conditions, no good fixation on the cup and the like, and cannot be put into daily life efficiently.

Therefore, there is a need to develop a full-body cup washer that solves the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a cup washer which has a simple structure, can clean cups with different sizes and can stabilize the cups.

The technical scheme adopted for achieving the purpose of the invention is that the self-adaptive full-body cup washer for the household cup body comprises an internal self-adaptive cleaning mechanism, an external clamping mechanism, a water pipe passage mechanism, an unlocking push rod mechanism, a device shell and a transmission device.

The device shell comprises an inner cylinder and an outer cylinder, wherein the inner cylinder and the outer cylinder are both open at the upper end and closed at the lower end, the inner cylinder is provided with a cylindrical cavity S, and a cavity H is formed between the inner cylinder and the outer cylinder.

The bottom of the cavity S is provided with a transmission device, and the transmission device comprises an inner meshing claw transmission gear ring, a transmission gear, a main shaft transmission gear, a disc gear, a motor and a support rod.

The supporting rods are vertically arranged, the lower ends of the supporting rods are fixed at the bottom of the cavity S, and bearings are arranged at the upper ends of the supporting rods.

The horizontal internal meshing claw transmission gear ring is internally provided with a main shaft transmission gear coaxial with the internal meshing claw transmission gear ring, a plurality of transmission gears are meshed between the internal meshing claw transmission gear ring and the main shaft transmission gear, and the plurality of transmission gears are respectively connected with bearings on the plurality of support rods. The lower surface of the main shaft transmission gear is connected with a disc gear coaxial with the main shaft transmission gear, and the lower edge of the disc gear is provided with gear teeth matched with the motor gear.

The motor is fixed at the bottom of the cavity S, the output end of the motor is connected with a motor gear, and the motor gear is meshed with the disc gear.

The internal adaptive cleaning mechanism includes an internal brush bar, a main shaft, an adaptive cam, and a center rod. The main shaft and the central rod are hollow, and the central rod is inserted into the main shaft.

The lower ends of the main shaft and the central rod are fixed on the upper surface of the main shaft transmission gear, and a plurality of self-adaptive cams are sleeved on the central rod at equal intervals along the vertical direction.

The self-adaptive cam is connected with the central rod by a torsion spring, a plurality of convex rods are arranged on the self-adaptive cam, the convex rods are arranged at equal intervals along the circumference of the self-adaptive cam, one end, far away from the central rod, of each convex rod is hinged with an internal brush rod, and the internal brush rod penetrates through and stretches out of the side wall of the main shaft.

The external clamping mechanism arranged in the cavity S comprises an unlocking main rod, a locking support rod, a cleaning brush, a first locking tension spring, an external supporting main rod and a second locking tension spring. The lower ends of the three outer support main rods are fixed on the upper surface of the internal meshing claw transmission gear ring, and the three outer support main rods are arranged at equal intervals along the circumferential direction of the internal meshing claw transmission gear ring.

The upper end of the outer support main rod is inclined towards the axle center of the internal engaged claw transmission gear ring, and the upper end of the outer support main rod is hinged with the lower end of the unlocking main rod through a hinge point A. One side of the unlocking main rod facing the axle center of the internal meshing claw transmission gear ring is hinged with a plurality of locking support rods, the hinged position is recorded as a hinged point B, the hinged points B are arranged at equal intervals along the length direction of the unlocking main rod, and one end, far away from the unlocking main rod, of each locking support rod is connected with a cleaning brush.

And a pull rod is connected to the side wall of each external support main rod, which is away from the axle center of the internal meshing claw transmission gear ring, and is close to the hinging point A.

Each hinge point A is provided with a first locking tension spring, the upper end of the first locking tension spring is connected to the side wall of the unlocking main rod, and the lower end of the first locking tension spring is connected to the pull rod.

And a second locking tension spring is arranged at each hinge point B, the upper end of the second locking tension spring is connected to the corresponding locking support rod, and the lower end of the second locking tension spring is fixed on the unlocking main rod.

The locking tension spring and the second locking tension spring are both in a stretching state.

The unlocking push rod mechanism comprises an arc push rod, a connecting rod and an unlocking push rod, and the unlocking push rod is of a circular ring structure arranged in the cavity H.

One end of each connecting rod is fixed on the inner wall of the unlocking push rod, the other end of each connecting rod penetrates through the inner cylinder and stretches into the cavity S, and the three connecting rods are arranged at equal intervals along the circumferential direction of the unlocking push rod.

One end of the connecting rod extending into the cavity S is connected with an arc push rod, and the circle center direction of the arc push rod is positioned at one side of the arc push rod facing the axis of the cavity S.

The outer wall of the unlocking push rod is connected with a sliding block, the outer cylinder is provided with a horizontal arc-shaped groove for the sliding block to pass through and slide, and the sliding block extends out of the outer cylinder through the horizontal arc-shaped groove.

The water pipe passage mechanism comprises a circular ring pipeline, an inner water flow passage, an outer water flow passage, a shower head and a water inlet pipe. The water inlet pipe penetrates through the side wall of the device shell, which is close to the bottom of the device shell, and stretches into the cavity S, and one end of the water inlet pipe stretching into the cavity S is connected with the inner water flow passage and the outer water flow passage respectively.

The inner water flow passage passes through the main shaft transmission gear, the disc gear and the central rod from the lower end, the central rod and the shaft extend out from the upper end of the inner water flow passage, and the sprinkler is connected with the upper end of the inner water flow passage.

The circular ring pipeline is fixed on the inner wall of the inner cylinder close to the upper end of the inner cylinder, the upper end of the external water flow passage is communicated with the circular ring pipeline, and a plurality of water spray holes are formed in the circular ring pipeline.

The bottom of the device shell is provided with a drain pipe, and the drain pipe penetrates through the side walls of the inner cylinder and the outer cylinder.

In the initial state, the upper end of each unlocking main rod inclines towards the direction away from the axle center of the internal meshing claw transmission gear ring, and at the moment, the first locking tension spring has the minimum stretching length. Each unlocking main rod is in the same straight line with a plurality of locking support rods and a plurality of locking tension springs which are connected with the unlocking main rod, the uppermost locking support rod on each unlocking main rod extends out of the upper end of the connected unlocking main rod, the upper end of each locking support rod is overlapped with the lower end of the adjacent locking support rod above the locking support rod, at the moment, the second locking tension spring has the largest stretching length, and at the moment, the length of the inner hairbrush rod extending out of the main shaft is the largest.

When the cup is placed in the cup holder, the cup mouth of the cup is downward, the cup is covered on the inner self-adaptive cleaning mechanism, the cup wall isolates the inner self-adaptive cleaning mechanism from the outer clamping mechanism, the inner brush rod is pushed by the inner wall of the cup, and therefore the convex rod and the self-adaptive cam are pushed to rotate around the central rod until the cup is completely placed in the inner cylinder, and the brushes on the inner brush rods are tightly attached to the inner wall of the cup under the action of the torsion spring. And then the cup cover is buckled on the device shell, the lower surface of the cup cover pushes the uppermost locking support rod on each unlocking main rod to incline, the lower end of the uppermost locking support rod pushes the upper end of the locking support rod below the uppermost locking support rod, a plurality of locking support rods (203) are sequentially pushed, all the locking support rods incline towards the direction of the axle center of the internally meshed claw transmission gear ring under the action of the second locking tension spring, and a plurality of cleaning brushes are clung to the outer wall of the cup.

When the cup is cleaned, the motor is started to drive the inner brush rod and the cleaning brush to rotate in the opposite direction, and the outer wall and the inner wall of the cup are respectively flushed through the circular ring pipeline and the shower head.

After the cleaning is finished, a user dials the sliding blocks, the arc-shaped push rods dial the corresponding unlocking main rods to the direction close to the axis of the internal meshing claw transmission gear ring, so that a plurality of locking support rods and a plurality of second locking tension springs connected with each unlocking main rod are on the same straight line, and at the moment, the first locking tension springs have the largest stretching length. And then the sliding block is pulled back, and the unlocking main rod is restored to an initial state under the action of the first locking tension spring. Opening the cup cover and taking out the cup, and recovering the internal brush rod to an initial state under the action of the torsion spring.

Further, three horizontal arc grooves are formed in the side wall of the inner cylinder and located on the same horizontal plane of the inner cylinder, the arc grooves are used for the connecting rods to penetrate through and slide, and the three connecting rods penetrate through the corresponding arc grooves.

When a user dials the sliding block, the connecting rod slides in the corresponding arc-shaped groove.

Further, the two ends of the arc push rod are respectively marked as an end A and an end B, and the three arc push rods are respectively marked as a first arc push rod, a second arc push rod and a third arc push rod.

The end A of the first arc-shaped push rod is close to the end B of the second arc-shaped push rod, the end B of the first arc-shaped push rod is close to the end A of the third arc-shaped push rod, and the end A of the second arc-shaped push rod is close to the end B of the third arc-shaped push rod.

The end A of the first arc push rod is closer to the axle center of the internal meshing claw transmission gear ring than the end B of the second arc push rod, the end A of the second arc push rod is closer to the axle center of the internal meshing claw transmission gear ring than the end B of the third arc push rod, and the end A of the third arc push rod is closer to the axle center of the internal meshing claw transmission gear ring than the end B of the first arc push rod.

When a user dials the sliding blocks, the connecting rods push the corresponding arc-shaped push rods to rotate, and the A ends of the three arc-shaped push rods dial the three unlocking main rods to the direction close to the axle center of the internal engaged claw transmission gear ring respectively.

Further, one end of the water inlet pipe extending out of the device shell is positioned in the cleaning agent throwing box, and the cleaning agent throwing box is provided with a water inlet.

The cleaning agent feeding box is detachably arranged on the outer barrel, the upper end of the cleaning agent feeding box is open, and a user feeds the cleaning agent through the cleaning agent feeding box.

Further, the cross sections of the unlocking main rod and the locking support rod are U-shaped, the unlocking main rod comprises a first web plate and two first flanges, and the locking support rod comprises a second web plate and two second flanges.

When the locking support rod is hinged with the unlocking main rod, one end of the locking support rod is placed between the two first flanges, the two second flanges are hinged to the two first flanges respectively, the upper end of the second locking tension spring is hinged to the inner wall of the second web, and the lower end of the second locking tension spring is hinged to the inner wall of the first web.

When in an initial state, the locking support rod is positioned in the unlocking main rod, the first web plate is attached to the second web plate, and the second locking tension spring is positioned in the locking support rod. At this time, the upper end of each locking strut is overlapped in the U-shaped groove of the lower end of the adjacent locking strut above it.

The inner brush rod of the cup washer is designed to be in a telescopic state, is suitable for cups of different sizes, and can brush inner walls of the same cup with different inner diameters; in addition, the external cleaning system and the clamping system are integrally designed, so that the structure and the cost are simplified, and meanwhile, the cup can be effectively fixed, and the damage caused by shaking and dislocation during the washing of the cup is prevented.

Drawings

FIG. 1 is a perspective view of a cup washer of the present invention;

FIG. 2 is a schematic view of an internal adaptive cleaning mechanism;

FIG. 3 is a top view of an internal adaptive cleaning mechanism;

FIG. 4 is a schematic view of an external clamping mechanism;

FIG. 5 is a schematic view of a water line pathway mechanism;

FIG. 6 is a schematic illustration of an unlocking push rod mechanism;

FIG. 7 is a schematic view of a device housing;

fig. 8 is a schematic diagram of the transmission.

In the figure: an inner adaptive cleaning mechanism 1, an inner brush bar 101, a main shaft 102, an adaptive cam 103, a convex bar 1031, a center bar 104, an outer clamping mechanism 2, an unlocking main lever 202, a locking support lever 203, a cleaning brush 204, a first locking tension spring 205, an outer supporting main lever 206, a pull rod 2061, a second locking tension spring 207, a water pipe path mechanism 3, a circular pipe 301, an inner water flow path 302, an outer water flow path 303, a shower 304, a water inlet pipe 305, an unlocking push rod mechanism 4, an arc push rod 401, a connecting rod 402, an unlocking push rod 403, a slider 4031, a device housing 5, an inner cylinder 501, an outer cylinder 502, a drain pipe 503, a transmission device 6, an inner engagement claw transmission ring gear 601, a transmission gear 602, a main shaft transmission gear 603, a disc gear 604, a motor gear 605, a motor 606, a support lever, a cup cover 7, and a cleaning agent delivery box 8.

Detailed Description

The present invention is further described below with reference to examples, but it should not be construed that the scope of the above subject matter of the present invention is limited to the following examples. Various substitutions and alterations are made according to the ordinary skill and familiar means of the art without departing from the technical spirit of the invention, and all such substitutions and alterations are intended to be included in the scope of the invention.

Example 1:

Referring to fig. 1, the embodiment discloses a self-adaptive whole body cup washer for a household cup body, which comprises an internal self-adaptive cleaning mechanism 1, an external clamping mechanism 2, a water pipe passage mechanism 3, an unlocking push rod mechanism 4, a device shell 5 and a transmission device 6.

Referring to fig. 7, the device housing 5 includes an inner cylinder 501 and an outer cylinder 502, both of which are open at the upper end and closed at the lower end, the inner cylinder 501 having a cylindrical cavity S, and a cavity H between the inner cylinder 501 and the outer cylinder 502.

The bottom of the cavity S is provided with a transmission device 6, and the transmission device 6 comprises an inner meshed claw transmission gear ring 601, a transmission gear 602, a main shaft transmission gear 603, a disc gear 604, a motor gear 605, a motor 606 and a supporting rod 607.

Referring to fig. 7, the supporting rods 607 are vertically arranged, the lower ends of the supporting rods 607 are fixed at the bottom of the cavity S, and the upper ends are provided with bearings.

Referring to fig. 8, a spindle transmission gear 603 coaxial with the horizontal internal meshing claw transmission gear 601 is arranged in the internal meshing claw transmission gear 601, a plurality of transmission gears 602 are meshed between the internal meshing claw transmission gear 601 and the spindle transmission gear 603, and the plurality of transmission gears 602 are respectively connected with bearings on the plurality of support rods 607. The lower surface of the main shaft transmission gear 603 is connected with a disc gear 604 coaxial with the main shaft transmission gear 603, and the lower edge of the disc gear 604 is provided with gear teeth matched with a motor gear 605.

The motor 606 is fixed at the bottom of the cavity S, the output end of the motor 606 is connected with a motor gear 605, and the motor gear 605 is meshed with the disc gear 604.

Referring to fig. 2 or 3, the internal adaptive cleaning mechanism 1 includes an internal brush bar 101, a main shaft 102, an adaptive cam 103, and a center rod 104. The interior of the main shaft 102 and the central rod 104 are hollow, and the central rod 104 is inserted into the main shaft 102.

The lower ends of the main shaft 102 and the central rod 104 are fixed on the upper surface of the main shaft transmission gear 603, and a plurality of self-adaptive cams 103 are sleeved on the central rod 104 at equal intervals along the vertical direction.

The self-adaptive cam 103 is connected with the central rod 104 by a torsion spring, a plurality of convex rods 1031 are arranged on the self-adaptive cam 103, the convex rods 1031 are arranged at equal intervals along the circumference of the self-adaptive cam 103, one end, away from the central rod 104, of each convex rod 1031 is hinged with an inner brush rod 101, and the inner brush rod 101 penetrates through and stretches out of the side wall of the main shaft 102.

Referring to fig. 4, the external gripping mechanism 2 provided in the cavity S includes an unlocking main lever 202, a locking main lever 203, a cleaning brush 204, a first locking tension spring 205, an external supporting main lever 206, and a second locking tension spring 207. The lower ends of the three outer support main bars 206 are fixed to the upper surface of the ring gear 601, and the three outer support main bars 206 are arranged at equal intervals in the circumferential direction of the ring gear 601.

The upper end of the outer support main rod 206 is inclined toward the axis of the inner engaging claw driving gear ring 601, and the upper end of the outer support main rod 206 is hinged to the lower end of the unlocking main rod 202 through a hinge point a. One side of the unlocking main rod 202 facing the axis of the internal meshing claw transmission gear ring 601 is hinged with a plurality of locking support rods 203, the hinged position is recorded as a hinged point B, the hinged points B are arranged at equal intervals along the length direction of the unlocking main rod 202, and one end of the locking support rods 203, which is far away from the unlocking main rod 202, is connected with a cleaning brush 204.

The cross sections of the unlocking main rod 202 and the locking support rods 203 are U-shaped, the unlocking main rod 202 comprises a first web plate and two first flanges, and the locking support rods 203 comprise a second web plate and two second flanges. When one locking support rod 203 is hinged with the unlocking main rod 202, one end of the locking support rod 203 is placed between two first flanges, two second flanges are hinged to the two first flanges respectively, the upper end of the second locking tension spring 207 is hinged to the inner wall of the second web, and the lower end of the second locking tension spring is hinged to the inner wall of the first web.

A pull rod 2061 is connected to a side wall of each outer support main 206 facing away from the axle center of the inter-engaging claw driving gear ring 601, and the pull rod 2061 is close to the hinge point a.

A first locking tension spring 205 is provided at each hinge point a, and an upper end of the first locking tension spring 205 is connected to a side wall of the unlocking main lever 202, and a lower end is connected to the pulling lever 2061.

A second locking tension spring 207 is arranged at each hinge point B, the upper end of the second locking tension spring 205 is connected to the corresponding locking support rod 203, and the lower end of the second locking tension spring is fixed to the unlocking main rod 202.

The locking tension spring 205 and the second locking tension spring 207 are both in a stretched state.

Referring to fig. 6, the unlocking push rod mechanism 4 includes an arc push rod 401, a connecting rod 402, and an unlocking push rod 403, where the unlocking push rod 403 is a ring structure disposed in the cavity H.

The side wall of the inner barrel 501 is provided with three horizontal arc grooves, the three arc grooves are positioned on the same horizontal plane of the inner barrel 501, the arc grooves are used for the connecting rods 402 to pass through and slide, one ends of the three connecting rods 402 are fixed on the inner wall of the unlocking push rod 403, the other ends of the three connecting rods 402 pass through the corresponding arc grooves and extend into the cavity S, and the three connecting rods 402 are arranged at equal intervals along the circumference of the unlocking push rod 403.

One end of the connecting rod 402 extending into the cavity S is connected with an arc-shaped push rod 401, and the circle center direction of the arc-shaped push rod 401 is positioned at one side of the arc-shaped push rod 401 facing the axis of the cavity S.

Referring to fig. 6, two ends of the arc push rod 401 are respectively denoted as an a end and a B end, and three arc push rods 401 are respectively denoted as a first arc push rod, a second arc push rod and a third arc push rod.

The end A of the first arc-shaped push rod is close to the end B of the second arc-shaped push rod, the end B of the first arc-shaped push rod is close to the end A of the third arc-shaped push rod, and the end A of the second arc-shaped push rod is close to the end B of the third arc-shaped push rod.

The end A of the first arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the second arc push rod, the end A of the second arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the third arc push rod, and the end A of the third arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the first arc push rod.

The outer wall of the unlocking push rod 403 is connected with a sliding block 4031, the outer cylinder 502 is provided with a horizontal arc-shaped groove for the sliding block 4031 to pass through, and the sliding block 4031 extends out of the outer cylinder 502 through the horizontal arc-shaped groove.

Referring to fig. 5, the water pipe path mechanism 3 includes a circular pipe 301, an inner water flow path 302, an outer water flow path 303, a shower head 304, and a water inlet pipe 305. The water inlet pipe 305 penetrates through the side wall of the device housing 5 near the bottom thereof and extends into the cavity S, and one end of the water inlet pipe 305 extending into the cavity S is connected with the inner water flow passage 302 and the outer water flow passage 303 respectively. One end of the water inlet pipe 305 extending out of the device housing 5 is positioned in the cleaning agent feeding box 8, and the cleaning agent feeding box 8 is provided with a water inlet. The cleaning agent delivery box 8 is detachably arranged on the outer barrel 502, and the upper end of the cleaning agent delivery box 8 is open.

The inner water flow path 302 passes through the spindle drive gear 603, the disk gear 604 and the center rod 104 from the lower end, the center rod 104 and the shaft 102 are protruded from the upper end of the inner water flow path 302, and the sprinkler 304 is connected to the upper end of the inner water flow path 302.

The circular ring pipeline 301 is fixed on the inner wall of the inner cylinder 501 near the upper end thereof, the upper end of the outer water flow passage 303 is communicated with the circular ring pipeline 301, and a plurality of water spray holes are arranged on the circular ring pipeline 301.

The bottom of the device housing 5 is provided with a drain pipe 503, and the drain pipe 503 penetrates through the side walls of the inner cylinder 501 and the outer cylinder 502.

In the initial state, the upper end of each unlocking main lever 202 is inclined in a direction away from the axis of the ring gear 601, and the first locking tension spring 205 has a minimum tension length. Each unlocking main rod 202 is connected with a plurality of locking support rods 203 and a plurality of locking tension springs 205 on the same straight line, namely, the locking support rods 203 are positioned in the unlocking main rods 202, the first web plates are attached to the second web plates, the upper ends of the locking support rods 203 are overlapped in U-shaped grooves at the lower ends of the adjacent locking support rods 203 above the first web plates, the second locking tension springs 207 are positioned in the locking support rods 203, and the pulling force direction of the second locking tension springs 207 is parallel to the unlocking main rods 202 and the locking support rods 203, so that the pulling force does not enable the unlocking main rods 202 and the locking support rods 203 to incline relatively. Each locking support rod 203 on the uppermost part of the unlocking main rod 202 extends out of the upper end of the connected unlocking main rod 202, so that the locking support rods 203 can be conveniently stirred by the following cup cover 7 to incline, the upper end of each locking support rod 203 is overlapped with the lower end of the adjacent locking support rod 203 above the locking support rod 203, and the following locking support rods 203 can be conveniently and sequentially pushed to incline. The second locking tension spring 207 has the maximum extension length at this time, and the length of the inner bristle bar 101 extending out of the main shaft 102 is the maximum.

When the cup is placed in the cup holder, the cup mouth of the cup is downward, the cup is covered on the inner self-adaptive cleaning mechanism 1, the cup wall isolates the inner self-adaptive cleaning mechanism 1 from the outer clamping mechanism 2, the inner wall of the cup pushes the inner brush rod 101, so that the self-adaptive cam 103 and the torsion spring are subjected to external torque, the convex rod 1031 and the self-adaptive cam 103 are pushed to rotate around the center rod 104 until the cup is completely placed in the inner cylinder 501, and the brushes on the inner brush rods 101 are tightly attached to the inner wall of the cup under the action of the torsion spring. And then the cup cover 7 is buckled on the device shell 5, the lower surface of the cup cover 7 pushes the uppermost locking supporting rod 203 on each unlocking main rod 202 to incline, the lower end of the uppermost locking supporting rod 203 pushes the upper end of the lower locking supporting rod 203, a plurality of locking supporting rods 203 are sequentially pushed, all the locking supporting rods 203 incline towards the direction of the axle center of the internal engaged claw transmission gear ring 601 under the action of the second locking tension spring 207, and a plurality of cleaning brushes 204 are clung to the outer wall of the cup.

During cleaning, the motor 606 is started to drive the inner brush rod 101 and the cleaning brush 204 to rotate in the opposite direction, a user puts in the cleaning agent through the cleaning agent putting box 8, and washes the outer wall and the inner wall of the cup through the circular ring pipeline 301 and the shower head 304 respectively, and the waste water is discharged from the drain pipe 503.

After the cleaning is finished, a user dials the sliding blocks 4031, the connecting rods 402 slide in the corresponding arc grooves, the connecting rods 402 push the corresponding arc push rods 401 to rotate, the A ends of the three arc push rods 401 respectively dial the three unlocking main rods 202 towards the direction close to the axle center of the internal engaged claw transmission gear ring 601, so that a plurality of locking support rods 203 and a plurality of second locking tension springs 207 connected with each unlocking main rod 202 are on the same straight line, and at the moment, the first locking tension springs 205 have the largest stretching length. The sliding block 4031 is then pulled back, and the unlocking main lever 202 returns to the original state under the action of the first locking tension spring 205. The cup cover 7 is opened and the cup is taken out, and the inner brush lever 101 is restored to an original state by the torsion spring.

It should be noted that, the inner brush rods 101 on the multiple layers of adaptive cams 103 in this embodiment can completely adapt to the cups with changeable inner diameters, so as to achieve the purpose of brushing without dead angles. In addition, compare in other current cup washers, the cup washer product of this embodiment consumes low power, and the cost is lower, easy operation, and is safe stable, small and exquisite portable.

Example 2:

Referring to fig. 1, the embodiment discloses a self-adaptive whole body cup washer for a household cup body, which comprises an internal self-adaptive cleaning mechanism 1, an external clamping mechanism 2, a water pipe passage mechanism 3, an unlocking push rod mechanism 4, a device shell 5 and a transmission device 6.

Referring to fig. 7, the device housing 5 includes an inner cylinder 501 and an outer cylinder 502, both of which are open at the upper end and closed at the lower end, the inner cylinder 501 having a cylindrical cavity S, and a cavity H between the inner cylinder 501 and the outer cylinder 502.

The bottom of the cavity S is provided with a transmission device 6, and the transmission device 6 comprises an inner meshed claw transmission gear ring 601, a transmission gear 602, a main shaft transmission gear 603, a disc gear 604, a motor gear 605, a motor 606 and a supporting rod 607.

Referring to fig. 7, the supporting rods 607 are vertically arranged, the lower ends of the supporting rods 607 are fixed at the bottom of the cavity S, and the upper ends are provided with bearings.

Referring to fig. 8, a spindle transmission gear 603 coaxial with the horizontal internal meshing claw transmission gear 601 is arranged in the internal meshing claw transmission gear 601, a plurality of transmission gears 602 are meshed between the internal meshing claw transmission gear 601 and the spindle transmission gear 603, and the plurality of transmission gears 602 are respectively connected with bearings on the plurality of support rods 607. The lower surface of the main shaft transmission gear 603 is connected with a disc gear 604 coaxial with the main shaft transmission gear 603, and the lower edge of the disc gear 604 is provided with gear teeth matched with a motor gear 605.

The motor 606 is fixed at the bottom of the cavity S, the output end of the motor 606 is connected with a motor gear 605, and the motor gear 605 is meshed with the disc gear 604.

Referring to fig. 2 or 3, the internal adaptive cleaning mechanism 1 includes an internal brush bar 101, a main shaft 102, an adaptive cam 103, and a center rod 104. The interior of the main shaft 102 and the central rod 104 are hollow, and the central rod 104 is inserted into the main shaft 102.

The lower ends of the main shaft 102 and the central rod 104 are fixed on the upper surface of the main shaft transmission gear 603, and a plurality of self-adaptive cams 103 are sleeved on the central rod 104 at equal intervals along the vertical direction.

The self-adaptive cam 103 is connected with the central rod 104 by a torsion spring, a plurality of convex rods 1031 are arranged on the self-adaptive cam 103, the convex rods 1031 are arranged at equal intervals along the circumference of the self-adaptive cam 103, one end, away from the central rod 104, of each convex rod 1031 is hinged with an inner brush rod 101, and the inner brush rod 101 penetrates through and stretches out of the side wall of the main shaft 102.

Referring to fig. 4, the external gripping mechanism 2 provided in the cavity S includes an unlocking main lever 202, a locking main lever 203, a cleaning brush 204, a first locking tension spring 205, an external supporting main lever 206, and a second locking tension spring 207. The lower ends of the three outer support main bars 206 are fixed to the upper surface of the ring gear 601, and the three outer support main bars 206 are arranged at equal intervals in the circumferential direction of the ring gear 601.

The upper end of the outer support main rod 206 is inclined toward the axis of the inner engaging claw driving gear ring 601, and the upper end of the outer support main rod 206 is hinged to the lower end of the unlocking main rod 202 through a hinge point a. One side of the unlocking main rod 202 facing the axis of the internal meshing claw transmission gear ring 601 is hinged with a plurality of locking support rods 203, the hinged position is recorded as a hinged point B, the hinged points B are arranged at equal intervals along the length direction of the unlocking main rod 202, and one end of the locking support rods 203, which is far away from the unlocking main rod 202, is connected with a cleaning brush 204.

A pull rod 2061 is connected to a side wall of each outer support main 206 facing away from the axle center of the inter-engaging claw driving gear ring 601, and the pull rod 2061 is close to the hinge point a.

A first locking tension spring 205 is provided at each hinge point a, and an upper end of the first locking tension spring 205 is connected to a side wall of the unlocking main lever 202, and a lower end is connected to the pulling lever 2061.

A second locking tension spring 207 is arranged at each hinge point B, the upper end of the second locking tension spring 205 is connected to the corresponding locking support rod 203, and the lower end of the second locking tension spring is fixed to the unlocking main rod 202.

The locking tension spring 205 and the second locking tension spring 207 are both in a stretched state.

Referring to fig. 6, the unlocking push rod mechanism 4 includes an arc push rod 401, a connecting rod 402, and an unlocking push rod 403, where the unlocking push rod 403 is a ring structure disposed in the cavity H.

One ends of the three connecting rods 402 are fixed on the inner wall of the unlocking push rod 403, the other ends of the three connecting rods 402 penetrate through the inner cylinder 501 and extend into the cavity S, and the three connecting rods 402 are arranged at equal intervals along the circumferential direction of the unlocking push rod 403.

One end of the connecting rod 402 extending into the cavity S is connected with an arc-shaped push rod 401, and the circle center direction of the arc-shaped push rod 401 is positioned at one side of the arc-shaped push rod 401 facing the axis of the cavity S.

The outer wall of the unlocking push rod 403 is connected with a sliding block 4031, the outer cylinder 502 is provided with a horizontal arc-shaped groove for the sliding block 4031 to pass through, and the sliding block 4031 extends out of the outer cylinder 502 through the horizontal arc-shaped groove.

Referring to fig. 5, the water pipe path mechanism 3 includes a circular pipe 301, an inner water flow path 302, an outer water flow path 303, a shower head 304, and a water inlet pipe 305. The water inlet pipe 305 penetrates through the side wall of the device housing 5 near the bottom thereof and extends into the cavity S, and one end of the water inlet pipe 305 extending into the cavity S is connected with the inner water flow passage 302 and the outer water flow passage 303 respectively.

The inner water flow path 302 passes through the spindle drive gear 603, the disk gear 604 and the center rod 104 from the lower end, the center rod 104 and the shaft 102 are protruded from the upper end of the inner water flow path 302, and the sprinkler 304 is connected to the upper end of the inner water flow path 302.

The circular ring pipeline 301 is fixed on the inner wall of the inner cylinder 501 near the upper end thereof, the upper end of the outer water flow passage 303 is communicated with the circular ring pipeline 301, and a plurality of water spray holes are arranged on the circular ring pipeline 301.

The bottom of the device housing 5 is provided with a drain pipe 503, and the drain pipe 503 penetrates through the side walls of the inner cylinder 501 and the outer cylinder 502.

In the initial state, the upper end of each unlocking main lever 202 is inclined in a direction away from the axis of the ring gear 601, and the first locking tension spring 205 has a minimum tension length. Each unlocking main rod 202 is in the same straight line with a plurality of locking support rods 203 and a plurality of locking tension springs 205 which are connected with the unlocking main rod 202, the uppermost locking support rod 203 on each unlocking main rod 202 extends out of the upper end of the connected unlocking main rod 202, the upper end of each locking support rod 203 is overlapped with the lower end of the adjacent locking support rod 203 above the locking support rod 203, at the moment, the second locking tension spring 207 has the largest stretching length, and at the moment, the length of the inner hairbrush rod 101 extending out of the main shaft 102 is the largest.

When the cup is placed in the cup holder, the cup mouth of the cup is downward, the cup is covered on the inner self-adaptive cleaning mechanism 1, the cup wall isolates the inner self-adaptive cleaning mechanism 1 from the outer clamping mechanism 2, the inner wall of the cup pushes the inner brush rod 101, so that the convex rod 1031 and the self-adaptive cam 103 are pushed to rotate around the central rod 104 until the cup is completely placed in the inner cylinder 501, and the brushes on the inner brush rods 101 are tightly attached to the inner wall of the cup under the action of the torsion spring. And then the cup cover 7 is buckled on the device shell 5, the lower surface of the cup cover 7 pushes the uppermost locking supporting rod 203 on each unlocking main rod 202 to incline, the lower end of the uppermost locking supporting rod 203 pushes the upper end of the lower locking supporting rod 203, a plurality of locking supporting rods 203 are sequentially pushed, all the locking supporting rods 203 incline towards the direction of the axle center of the internal engaged claw transmission gear ring 601 under the action of the second locking tension spring 207, and a plurality of cleaning brushes 204 are clung to the outer wall of the cup.

During cleaning, the motor 606 is started to drive the inner brush rod 101 and the cleaning brush 204 to rotate in opposite directions, and the outer wall and the inner wall of the cup are respectively flushed through the circular pipeline 301 and the shower head 304.

After the cleaning is finished, the user dials the sliding blocks 4031, and the arc-shaped push rod 401 dials the corresponding unlocking main rod 202 towards the direction close to the axle center of the internal engaged claw transmission gear ring 601, so that the locking support rods 203 and the second locking tension springs 207 connected with each unlocking main rod 202 are on the same straight line, and at the moment, the first locking tension springs 205 have the largest stretching length. The sliding block 4031 is then pulled back, and the unlocking main lever 202 returns to the original state under the action of the first locking tension spring 205. The cup cover 7 is opened and the cup is taken out, and the inner brush lever 101 is restored to an original state by the torsion spring.

Example 3:

The main structure of this embodiment is the same as that of embodiment 2, and further, three horizontal arc grooves are disposed on the side wall of the inner cylinder 501, and the three arc grooves are located on the same horizontal plane of the inner cylinder 501, and the arc grooves allow the connecting rod 402 to pass through and slide, and the three connecting rods 402 pass through corresponding arc grooves.

When the user dials the slider 4031, the connecting bar 402 slides in the corresponding arcuate slot.

Example 4:

The main structure of this embodiment is the same as that of embodiment 3, further, referring to fig. 6, two ends of the arc push rod 401 are respectively denoted as an a end and a B end, and three arc push rods 401 are respectively denoted as a first arc push rod, a second arc push rod and a third arc push rod.

The end A of the first arc-shaped push rod is close to the end B of the second arc-shaped push rod, the end B of the first arc-shaped push rod is close to the end A of the third arc-shaped push rod, and the end A of the second arc-shaped push rod is close to the end B of the third arc-shaped push rod.

The end A of the first arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the second arc push rod, the end A of the second arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the third arc push rod, and the end A of the third arc push rod is closer to the axle center of the internal meshing claw transmission gear ring 601 than the end B of the first arc push rod.

When a user dials the sliding block 4031, the connecting rod 402 pushes the corresponding arc-shaped push rod 401 to rotate, and the ends A of the three arc-shaped push rods 401 dial the three unlocking main rods 202 to a direction approaching to the axle center of the internal engaged claw transmission gear ring 601 respectively.

Example 5:

The main structure of this embodiment is the same as that of embodiment 4, further referring to fig. 1, one end of the water inlet pipe 305 extending out of the device housing 5 is located in the detergent dispensing box 8, and the detergent dispensing box 8 is provided with a water inlet.

The cleaning agent delivery box 8 is detachably arranged on the outer barrel 502, the upper end of the cleaning agent delivery box 8 is open, and a user delivers cleaning agent through the cleaning agent delivery box 8.

Example 6:

the main structure of this embodiment is the same as that of embodiment 5, and further, the cross sections of the unlocking main lever 202 and the locking main lever 203 are all in U shapes, the unlocking main lever 202 includes a first web and two first flanges, and the locking main lever 203 includes a second web and two second flanges.

When one locking support rod 203 is hinged with the unlocking main rod 202, one end of the locking support rod 203 is placed between two first flanges, two second flanges are hinged to the two first flanges respectively, the upper end of the second locking tension spring 207 is hinged to the inner wall of the second web, and the lower end of the second locking tension spring is hinged to the inner wall of the first web.

In the initial state, the locking support rod 203 is located in the unlocking main rod 202, the first web plate is attached to the second web plate, the second locking tension spring 207 is located in the locking support rod 203, and the pulling force direction of the second locking tension spring 207 is parallel to the unlocking main rod 202 and the locking support rod 203, so that the pulling force does not enable the unlocking main rod 202 and the locking support rod 203 to incline relatively. At this time, the upper end of each locking strut 203 is overlapped in the U-shaped groove at the lower end of the adjacent locking strut 203 above, so that when the locking strut 203 at the uppermost end is pushed to incline, the locking struts 203 below can be pushed in sequence to realize locking.

Claims (5)

1. A self-adaptive whole-body cup washing machine for a household cup body is characterized in that: comprises an inner self-adaptive cleaning mechanism (1), an outer clamping mechanism (2), a water pipe passage mechanism (3), an unlocking push rod mechanism (4), a device shell (5) and a transmission device (6);

the device shell (5) comprises an inner cylinder (501) and an outer cylinder (502), wherein the upper end of the inner cylinder is open, the lower end of the outer cylinder is closed, the inner cylinder (501) is provided with a cylindrical cavity S, and a cavity H is formed between the inner cylinder (501) and the outer cylinder (502);

The bottom of the cavity S is provided with a transmission device (6), and the transmission device (6) comprises an inner meshed claw transmission gear ring (601), a transmission gear (602), a main shaft transmission gear (603), a disc gear (604), a motor gear (605), a motor (606) and a supporting rod (607);

The supporting rods (607) are vertically arranged, the lower ends of the supporting rods (607) are fixed at the bottom of the cavity S, and the upper ends of the supporting rods are provided with bearings;

A main shaft transmission gear (603) coaxial with the inner meshing claw transmission gear is arranged in the horizontal inner meshing claw transmission gear ring (601), a plurality of transmission gears (602) are meshed between the inner meshing claw transmission gear ring (601) and the main shaft transmission gear (603), and the plurality of transmission gears (602) are respectively connected with bearings on the plurality of support rods (607); the lower surface of the main shaft transmission gear (603) is connected with a disc gear (604) coaxial with the main shaft transmission gear, and the lower edge of the disc gear (604) is provided with gear teeth matched with a motor gear (605);

The motor (606) is fixed at the bottom of the cavity S, the output end of the motor (606) is connected with the motor gear (605), and the motor gear (605) is meshed with the disc gear (604);

The internal adaptive cleaning mechanism (1) comprises an internal brush rod (101), a main shaft (102), an adaptive cam (103) and a central rod (104); the main shaft (102) and the central rod (104) are hollow, and the central rod (104) is inserted into the main shaft (102);

The lower ends of the main shaft (102) and the central rod (104) are fixed on the upper surface of a main shaft transmission gear (603), and a plurality of self-adaptive cams (103) are sleeved on the central rod (104) at equal intervals along the vertical direction;

The self-adaptive cam (103) is connected with the central rod (104) by a torsion spring, a plurality of convex rods (1031) are arranged on the self-adaptive cam (103), the convex rods (1031) are arranged at equal intervals along the circumference of the self-adaptive cam (103), one end, far away from the central rod (104), of each convex rod (1031) is hinged with an inner brush rod (101), and the inner brush rods (101) penetrate through and extend out of the side wall of the main shaft (102);

The external clamping mechanism (2) arranged in the cavity S comprises an unlocking main rod (202), a locking supporting rod (203), a cleaning brush (204), a first locking tension spring (205), an external supporting main rod (206) and a second locking tension spring (207); the lower ends of the three external support main rods (206) are fixed on the upper surface of the internal meshing claw transmission gear ring (601), and the three external support main rods (206) are arranged at equal intervals along the circumferential direction of the internal meshing claw transmission gear ring (601);

The upper end of the outer support main rod (206) is inclined towards the axle center of the inner engaged claw transmission gear ring (601), and the upper end of the outer support main rod (206) is hinged with the lower end of the unlocking main rod (202) through a hinge point A; one side of the unlocking main rod (202) facing the axle center of the internal meshing claw transmission gear ring (601) is hinged with a plurality of locking support rods (203), the hinged part is marked as a hinged point B, the hinged points B are arranged at equal intervals along the length direction of the unlocking main rod (202), and one end of the locking support rods (203) far away from the unlocking main rod (202) is connected with a cleaning brush (204);

A pull rod (2061) is connected to the side wall of each outer support main rod (206) deviating from the axle center of the inner meshing claw transmission gear ring (601), and the pull rod (2061) is close to the hinging point A;

a first locking tension spring (205) is arranged at each hinge point A, the upper end of the first locking tension spring (205) is connected to the side wall of the unlocking main rod (202), and the lower end of the first locking tension spring is connected to the pull rod (2061);

a second locking tension spring (207) is arranged at each hinge point B, the upper end of the second locking tension spring (205) is connected to the corresponding locking support rod (203), and the lower end of the second locking tension spring is fixed to the unlocking main rod (202);

the locking tension spring (205) and the second locking tension spring (207) are both in a stretching state;

The unlocking push rod mechanism (4) comprises an arc push rod (401), a connecting rod (402) and an unlocking push rod (403), and the unlocking push rod (403) is of a circular ring structure arranged in the cavity H;

One end of each connecting rod (402) is fixed on the inner wall of the unlocking push rod (403), the other end of each connecting rod passes through the inner cylinder (501) and stretches into the cavity S, and the three connecting rods (402) are arranged at equal intervals along the circumferential direction of the unlocking push rod (403);

One end of the connecting rod (402) extending into the cavity S is connected with an arc-shaped push rod (401), and the circle center direction of the arc-shaped push rod (401) is positioned at one side of the arc-shaped push rod (401) facing the axis of the cavity S;

The outer wall of the unlocking push rod (403) is connected with a sliding block (4031), the outer cylinder (502) is provided with a horizontal arc-shaped groove for the sliding block (4031) to pass through and slide, and the sliding block (4031) extends out of the outer cylinder (502) through the horizontal arc-shaped groove;

The water pipe passage mechanism (3) comprises a circular ring pipeline (301), an inner water flow passage (302), an outer water flow passage (303), a shower head (304) and a water inlet pipe (305); the water inlet pipe (305) penetrates through the side wall of the device shell (5) close to the bottom of the device shell and stretches into the cavity S, and one end of the water inlet pipe (305) stretching into the cavity S is connected with the inner water flow passage (302) and the outer water flow passage (303) respectively;

The inner water flow passage (302) passes through the main shaft transmission gear (603), the disc gear (604) and the central rod (104) from the lower end, the central rod (104) and the shaft (102) extend out of the upper end of the inner water flow passage (302), and the sprinkler (304) is connected with the upper end of the inner water flow passage (302);

The circular pipeline (301) is fixed on the inner wall of the inner cylinder (501) close to the upper end of the inner cylinder, the upper end of the external water flow passage (303) is communicated with the circular pipeline (301), and a plurality of water spray holes are formed in the circular pipeline (301);

The bottom of the device shell (5) is provided with a drain pipe (503), and the drain pipe (503) penetrates through the side walls of the inner cylinder (501) and the outer cylinder (502);

In an initial state, the upper end of each unlocking main rod (202) is inclined in a direction away from the axis of the internal meshing claw transmission gear ring (601), and at the moment, the first locking tension spring (205) has the minimum stretching length; each unlocking main rod (202) is connected with a plurality of locking support rods (203) and a plurality of locking tension springs (205) on the same straight line, the uppermost locking support rod (203) on each unlocking main rod (202) extends out of the upper end of the connected unlocking main rod (202), the upper end of each locking support rod (203) is overlapped with the lower end of the adjacent locking support rod (203) above the locking support rod, at the moment, the second locking tension spring (207) has the largest stretching length, and at the moment, the length of the inner hairbrush rod (101) extending out of the main shaft (102) is the largest;

When the cup is placed in the cup holder, the cup mouth of the cup is downward, the cup is covered on the inner self-adaptive cleaning mechanism (1), the cup wall isolates the inner self-adaptive cleaning mechanism (1) from the outer clamping mechanism (2), the inner wall of the cup pushes the inner brush rod (101), so that the convex rod (1031) and the self-adaptive cam (103) are pushed to rotate around the central rod (104) until the cup is completely placed in the inner cylinder (501), and the brushes on the inner brush rods (101) are tightly attached to the inner wall of the cup under the action of the torsion springs; then the cup cover (7) is buckled on the device shell (5), the lower surface of the cup cover (7) pushes the uppermost locking support rod (203) on each unlocking main rod (202) to incline, the lower end of the uppermost locking support rod (203) pushes the upper end of the locking support rod (203) below the uppermost locking support rod, a plurality of locking support rods (203) are sequentially pushed, all the locking support rods (203) incline towards the direction of the axle center of the internally meshed claw transmission gear ring (601) under the action of a second locking tension spring (207), and a plurality of cleaning brushes (204) are tightly attached to the outer wall of the cup;

When in cleaning, the motor (606) is started to drive the internal hairbrush rod (101) and the cleaning hairbrush (204) to rotate in opposite directions, and the outer wall and the inner wall of the cup are respectively flushed through the circular pipeline (301) and the shower head (304);

After the cleaning is finished, a user dials the sliding blocks (4031), the arc-shaped push rods (401) dial the corresponding unlocking main rods (202) to the direction close to the axle center of the internal meshing claw transmission gear ring (601), so that a plurality of locking support rods (203) and a plurality of second locking tension springs (207) connected with each unlocking main rod (202) are on the same straight line, and at the moment, the first locking tension springs (205) have the largest stretching length; the sliding block (4031) is then pulled back, and the unlocking main rod (202) is restored to an initial state under the action of the first locking tension spring (205); the cup cover (7) is opened, the cup is taken out, and the internal brush rod (101) is restored to the initial state under the action of the torsion spring.

2. A home-use cup-adapting whole body cup washer as claimed in claim 1, wherein: three horizontal arc grooves are formed in the side wall of the inner barrel (501), the three arc grooves are located on the same horizontal plane of the inner barrel (501), the arc grooves are used for the connecting rods (402) to pass through and slide, and the three connecting rods (402) pass through the corresponding arc grooves;

When a user dials the sliding block (4031), the connecting rod (402) slides in the corresponding arc-shaped groove.

3. A home-use cup-adapting whole body cup washer as claimed in claim 1, wherein: two ends of the arc push rod (401) are respectively marked as an end A and an end B, and three arc push rods (401) are respectively marked as a first arc push rod, a second arc push rod and a third arc push rod;

The end A of the first arc-shaped push rod is close to the end B of the second arc-shaped push rod, the end B of the first arc-shaped push rod is close to the end A of the third arc-shaped push rod, and the end A of the second arc-shaped push rod is close to the end B of the third arc-shaped push rod;

The end A of the first arc-shaped push rod is closer to the axle center of the inner meshing claw transmission gear ring (601) than the end B of the second arc-shaped push rod, the end A of the second arc-shaped push rod is closer to the axle center of the inner meshing claw transmission gear ring (601) than the end B of the third arc-shaped push rod, and the end A of the third arc-shaped push rod is closer to the axle center of the inner meshing claw transmission gear ring (601) than the end B of the first arc-shaped push rod;

When a user dials the sliding block (4031), the connecting rod (402) pushes the corresponding arc-shaped push rod (401) to rotate, and the A ends of the three arc-shaped push rods (401) dial the three unlocking main rods (202) to the direction close to the axle center of the internal meshing claw transmission gear ring (601) respectively.

4. A home-use cup-adapting whole body cup washer as claimed in claim 1, wherein: one end of the water inlet pipe (305) extending out of the device shell (5) is positioned in the cleaning agent feeding box (8), and the cleaning agent feeding box (8) is provided with a water inlet;

the cleaning agent feeding box (8) is detachably arranged on the outer barrel (502), the upper end of the cleaning agent feeding box (8) is open, and a user feeds cleaning agent through the cleaning agent feeding box (8).

5. A home-use cup-adapting whole body cup washer as claimed in claim 1, wherein: the cross sections of the unlocking main rod (202) and the locking support rods (203) are U-shaped, the unlocking main rod (202) comprises a first web plate and two first flanges, and the locking support rods (203) comprise a second web plate and two second flanges; the width of the second web is smaller than that of the first web;

When one locking support rod (203) is hinged with the unlocking main rod (202), one end of the locking support rod (203) is placed between two first flanges, two second flanges are hinged to the two first flanges respectively, the upper end of a second locking tension spring (207) is hinged to the inner wall of a second web, and the lower end of the second locking tension spring is hinged to the inner wall of the first web;

In an initial state, the locking support rod (203) is positioned in the unlocking main rod (202), the first web plate is attached to the second web plate, and the second locking tension spring (207) is positioned in the locking support rod (203); at this time, the upper end of each locking strut (203) is overlapped in the U-shaped groove of the lower end of the adjacent locking strut (203) above it.