CN211227739U - Reciprocating siphon type washing machine - Google Patents

Abstract

The utility model discloses a reciprocating siphon washing machine, the shape, size, water supply and drainage, inner and outer cylinders and a controller of which are similar to each part of the traditional full-automatic impeller washing machine, and the inner wall of the inner cylinder is provided with a plurality of layers of groove rails in sine wave shape; the check clip which is connected with the upper wall of the groove rail by a movable joint is obliquely vertical to the lower wall of the groove rail; the press-pull cover is embedded and connected by a bottom cover and a top cover through a hoop or a bearing, a Y-shaped rotating handle which can be twisted is arranged at the center of the top cover, three end points of the Y-shaped rotating handle are respectively connected with a telescopic rod through movable joints, a bearing or the hoop is sleeved on a rod head of the telescopic rod and extends to the edge of the cover, and the three telescopic rods are evenly distributed to trisect the circular top cover; an electromagnetic sucker is arranged at the upper opening eave of the outer cylinder, and the electromagnetic sucker is connected with a rotation stopping push rod in a sucking mode. The utility model discloses the dirty ulceration in the clothing is dissolved out, is appeared, is extracted out to the positive and negative pressure difference that utilizes the push-pull production from top to bottom to pull out as the owner, push-pull and use, the passing through of washing, the passing through of floating, the cleaning performance is good.

Description

Reciprocating siphon type washing machine

Technical Field

The utility model relates to a washing machine, concretely relates to reciprocal hydrocone type washing machine.

Background

As is well known, the conventional washing machine mainly uses a pulsator type or a drum type, and washes laundry by using a friction manner of water flow and the laundry, which has disadvantages of water consumption, time consumption, easy entanglement, low cleaning degree, and the like.

Disclosure of Invention

The utility model aims at: a reciprocating siphon washing machine is designed, wherein a circular top cover is used for drawing clothes in an inner barrel, and positive and negative pressure difference generated by up-down pressing is used for dissolving out, separating out and drawing out dirt in the clothes, so that the cleaning effect is improved mainly by drawing out, pressing and drawing out are used simultaneously, and the washing is thorough, the rinsing is thorough.

The technical solution of the utility model is that: the washing machine comprises a shell, an outer cylinder, an inner cylinder, a motor and a controller, wherein the appearance, the size, a water supply and drainage system, the inner cylinder, the outer cylinder and the controller of the washing machine are similar to all parts of the traditional full-automatic impeller type washing machine; the method is characterized in that: the inner wall of the inner cylinder is provided with a plurality of layers of groove tracks which undulate in a sine wave shape, the heights of all peaks are equal, and the heights of all valleys are equal; the check card is arranged in the groove rail of the inner cylinder, one end of the check card is connected with the upper wall of the groove rail by a movable joint, and the other end of the check card is obliquely vertical to the lower wall of the groove rail; the press-pull cover is embedded and connected by a bottom cover and a top cover through a hoop or a bearing, the diameter of a hard part of the press-pull cover is slightly smaller than the inner diameter of the inner cylinder, the flexible skirt edge of the cover edge is larger than the diameter of the inner cylinder, a Y-shaped rotating handle capable of being screwed is arranged at the center of the top cover, three end points of the Y-shaped rotating handle are respectively connected with a telescopic rod through movable joints, a bearing or the hoop is sleeved on a rod head of the telescopic rod and extends to the cover edge, and the three telescopic rods are evenly distributed at intervals; an electromagnetic sucker is arranged at the upper opening eave of the outer cylinder, and the electromagnetic sucker is connected with a rotation stopping push rod in a sucking mode.

Furthermore, the fluctuation of each layer of groove tracks of the inner cylinder is different, the fluctuation of the inner cylinder is larger towards the upper layer, the fluctuation of the lowest layer is minimum, the fluctuation is sequentially increased upwards, and the fluctuation of the uppermost layer is maximum.

Furthermore, the sinusoidal groove rail of the inner cylinder has at least three peaks and three valleys, and all the position points which are separated by 120-degree arcs on the groove rail have the same height.

Furthermore, a plurality of slender water throwing holes are arranged at the upper half part and the peak of the groove rail along the corner line at the included angle between the upper wall surface and the vertical surface.

Furthermore, three positioning rings are evenly distributed on the cover surface of the top cover of the press-pull cover at intervals of 120 degrees, and the telescopic rod penetrates through the positioning rings to be integrated with the top cover.

Furthermore, a clamping groove is formed in the valley bottom of the groove rail, and the flexible regular-triangular clothes binding frame is inserted into the clamping groove of the groove rail through a vertex angle buckle and is fixed on the inner barrel in a tightening mode.

The inner cylinder is composed of a cylindrical cylinder body and a tray, the cylindrical cylinder body is in transmission connection with the motor, and the tray is located at the bottom of the cylindrical cylinder body and is installed on the shell.

The operating principle of the reciprocating siphon washing machine is as follows: when the Y-shaped rotating handle is rotated forwards, the bearing or the hoop of the rod head of the telescopic rod extends out of the edge of the cover and is inserted into the groove rail of the inner cylinder, and when the rod head of the telescopic rod is rotated backwards, the rod head of the telescopic rod retracts into the cover; when the washing machine is used for washing, the electromagnetic actuator is powered off, the rotation stopping push rod falls to abut against the telescopic rod on the cover surface of the press-pull cover, the possible follow-up rotation of the top cover of the press-pull cover during the rotation of the inner cylinder is prevented, and the electromagnetic actuator is powered on during the dehydration, so that the rotation stopping push rod is folded on the upper brim of the outer cylinder; when the inner cylinder rotates clockwise, the hoop extending into the groove rail of the inner cylinder rolls along the groove rail in an undulated manner, and when the rotation stopping push rod abuts against the telescopic rod of the top cover of the press-pull cover, the press-pull cover is forced to move up and down relative to the inner cylinder to be drawn or pressed and pulled in a reciprocating manner; when the inner barrel rotates clockwise (forward) washing, the hoop in the groove rail passes through the check card, when the inner barrel rotates anticlockwise (reverse) in a dehydration mode, the check card blocks the hoop in the groove rail to prevent the hoop from passing through, namely, the check card plays a role in one-way passing, and when the inner barrel rotates reversely, the pressing and pulling cover card is blocked at the valley bottom.

The utility model has the advantages of it is following:

1. the electromagnetic actuator controls the retraction and falling of the rotation stopping push rod, the electromagnetic actuator is powered off during washing, the rotation stopping push rod falls to abut against the telescopic rod protruding from the top of the press-pull cover, possible rotation of the top cover during washing of the inner cylinder is prevented, the electromagnetic actuator is powered on during dehydration, and the rotation stopping push rod is retracted to the upper brim of the outer cylinder.

2. The diameter of the hard part of the press-pull cover is slightly smaller than the inner diameter of the inner cylinder, the flexible skirt edge of the cover edge is larger than the diameter of the inner cylinder, the sealing performance can be improved, the press-pull cover can be conveniently placed into the inner cylinder or taken out of the inner cylinder, the skirt edge covers the wall of the inner cylinder after the press-pull cover is placed in the inner cylinder, and the press-pull cover moves up and down like a water.

3. The press-pull cover is embedded by a bottom cover and a top cover through a hoop or a bearing, the bottom cover at the lower layer is taken by clothes and the top cover at the upper layer does not rotate.

4. The sine wave-shaped groove rails on the inner wall of the inner cylinder are provided with three peaks and three valleys, all position points which are separated by 120-degree arcs on the groove rails are equal in height, the fluctuation of each layer of groove rails is different, the fluctuation of the groove rails is larger towards the upper layer, the fluctuation of the groove rails is the smallest at the lowest layer, the fluctuation of the groove rails is sequentially increased upwards, the fluctuation of the groove rails is the largest at the uppermost layer, the corresponding groove layers are selected according to the washing amount during washing, and the up-down stroke of the press-pull cover is correspondingly.

5. And a plurality of slender water throwing holes are arranged at the upper half part and the crest of the groove rail along the angle between the upper wall surface and the vertical surface so as to facilitate dewatering.

6. The Y-shaped rotating handle capable of being twisted is arranged at the circle center of the top cover, three end points of the Y-shaped rotating handle are respectively connected with a telescopic rod through movable joints, a bearing or a hoop is sleeved on a rod head of the telescopic rod and extends to the cover edge, the three telescopic rods are evenly distributed at intervals of 120-degree arcs to trisect the circular top cover, the Y-shaped rotating handle is rotated in the same direction, the bearing or the hoop of the rod head of the telescopic rod extends out of the cover edge and is inserted into a groove rail of the inner cylinder, and the telescopic rod retracts into the cover after.

7. The check card is arranged in the groove rail of the inner cylinder, one end of the check card is connected with the upper wall of the groove rail by a movable joint, and the other end of the check card is obliquely vertical to the lower wall of the groove rail; when the inner barrel rotates clockwise (forward) washing, the hoop in the groove rail passes through the check card, and when the inner barrel rotates anticlockwise (reverse) in a dewatering mode, the check card blocks the hoop in the groove rail to prevent the hoop from passing through, so that a one-way passing effect is achieved, and the pressing and pulling cover is blocked at the valley bottom.

8. The clamping groove is formed in the inner cylinder wall at the valley bottom of the groove rail, the regular triangular clothes binding frame is inserted into the clamping groove through the top corner buckle and fixed on the groove rail, the tightening is not necessary, and clothes are prevented from being piled up in a leaning mode in the washing process due to the flexible clothes binding frame.

9. The non-return card prevents the equipment from being damaged because the inner cylinder rotates at high speed and the cover can be driven to do violent up-and-down movement.

10. The washing machine has no impeller, and the whole process of washing and dewatering is realized only by matching the positive rotation and the negative rotation of the inner cylinder with the up-and-down pumping and pressing of the press-pull cover, the washing is thorough, the rinsing is thorough, the cylinder rotates for a circle, and the cover completes three times of pumping and pulling in the inner cylinder.

11. The speed of the speed regulator is regulated to realize strong and weak washing change, no dead angle and no winding are generated under atmospheric pressure, clothes can be fully washed and rinsed, good sealing requirements are not required during drawing, and positive and negative pressure conversion can be generated.

12. The pressing and pulling cover is provided with an unpowered connecting rod, so that the drawing and pulling can be completed by up-and-down fluctuation.

13. The washing power transmission process is that the motor is an inner cylinder → the top cover, and the washing power transmission process is that the motor is an inner cylinder after dehydration.

14. Most of the structures of the traditional full-automatic impeller are reserved, only the impeller is removed, the structure of the inner barrel is changed, the press-pull cover and accessories matched with the press-pull cover are designed, press-pull washing is realized, and future production is facilitated.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the operation of the inner and outer barrels and the press-pull cover of FIG. 1;

FIG. 3 is a schematic view of the inner barrel of FIG. 2;

FIG. 4 is a schematic view of the push-pull cap of FIG. 2;

FIG. 5 is a schematic top view of the push-pull cap of FIG. 4;

FIG. 6 is a schematic view of a corset frame;

fig. 7 is a schematic view of the usage state of fig. 6.

In the figure: the device comprises a shell 1, an outer cylinder 2, an inner cylinder 3, a motor 4, a control panel 5, a groove rail 6, a check card 7, a press-pull cover 8, a bottom cover 9, a top cover 10, a Y-shaped rotating handle 11, a telescopic rod 12, a bearing or a hoop 13, an electromagnetic suction device 14, a rotation-stopping push rod 15, a positioning ring 16, a clothes-binding frame 17, a vertex angle buckle 18 and a clamping groove 19.

Detailed Description

The technical solution of the present invention is further described with reference to the accompanying drawings, but the technical solution is not limited thereto, and the improvements on the basis are all within the protection scope of the present invention.

As shown in fig. 1 and 2, the washing machine comprises a shell 1, an outer cylinder 2, an inner cylinder 3, a motor 4 and a controller, wherein the appearance, size, water supply and drainage system, the inner cylinder, the outer cylinder and the controller of the washing machine are similar to each component of a traditional full-automatic pulsator washing machine, the outer cylinder 2 and the inner cylinder 3 are concentrically arranged in the inner cavity of the shell 1, the motor 4 at the bottom of the shell 1 is in transmission connection with the inner cylinder 3, and a control panel 5 of the controller is arranged at the top of the shell 1; the method is characterized in that: the inner wall of the inner cylinder 3 is provided with a plurality of layers of groove tracks 6 which undulate in a sine wave shape, each peak is equal in height, and each valley is equal in height; the check card 7 is arranged in the groove rail 6 of the inner cylinder, one end of the check card is connected with the upper wall of the groove rail by a movable joint, and the other end of the check card is obliquely vertical to the lower wall of the groove rail; the press-pull cover 8 is embedded and connected by a bottom cover 9 and a top cover 10 by a hoop or a bearing, the diameter of a hard part of the press-pull cover is slightly smaller than the inner diameter of the inner cylinder, a flexible skirt edge is larger than the diameter of the inner cylinder, a Y-shaped rotating handle 11 which can be screwed is arranged at the circle center of the top cover 10, three end points of the Y-shaped rotating handle 11 are respectively connected with a telescopic rod 12 by movable joints, a bearing or a hoop 13 is sleeved on a rod head of the telescopic rod 12 and extends to the edge of the cover, and the three telescopic rods are evenly distributed at; an electromagnetic actuator 14 is arranged at the upper opening eave of the outer cylinder 2, and the electromagnetic actuator 14 is connected with a rotation stopping push rod 15 in an actuation mode.

As shown in fig. 3, the groove tracks 6 of each layer of the inner cylinder 3 have different undulations, the undulations of the lowermost layer are the smallest as the upper layer is larger, and the undulations of the uppermost layer are the largest as the lower layer is larger.

Furthermore, the sinusoidal groove track 6 of the inner cylinder 3 has at least three peaks and three valleys, and all the positions separated by 120-degree arcs on the groove track have the same height.

Furthermore, a plurality of slender water throwing holes are arranged at the upper half part and the peak of the groove rail along the corner line at the included angle between the upper wall surface and the vertical surface.

As shown in fig. 4 and 5, three positioning rings 16 are evenly distributed on the cover surface of the top cover 10 of the press-pull cover 8 at intervals of 120 degrees, and the telescopic rod 12 penetrates through the positioning rings 16 to be integrated with the top cover 10.

As shown in fig. 6, a slot is formed in the inner cylinder wall at the valley bottom of the groove rail, and the regular triangular clothes binding frame 17 is inserted into the slot 19 through the corner fastener 18 and fixed on the groove rail 6.

Wherein, inner tube 3 comprises cylinder barrel and tray, and motor 4 is connected to cylinder barrel transmission, and the tray is located the bottom of cylinder barrel and installs on casing 1.

When washing clothes: putting the clothes into the inner drum 3, and covering the press-pull cover 8 on the clothes; screwing the Y-shaped knob 11 tightly, so that a bearing or a hoop 13 of a rod head of the telescopic rod 12 extends out and is inserted into a corresponding groove rail 6 of the inner barrel 3, a groove refers to the height of clothes placed in the barrel and does not exceed the bottom of the valley, and when the pull-out cover is used as far as possible and descends to the valley, the clothes can be pressed and can smoothly pass through the valley; injecting washing water to slightly soak the clothes, wherein the water level is controlled by a liquid level controller; when the inner cylinder 3 rotates clockwise under the drive of the motor 4, the bearing or the hoop 13 in the groove rail 6 is rotated, and the top cover 10 is propped against by the rotation-stopping push rod 15, so that the bearing or the hoop 13 can only move up and down along the fluctuation of the eaves groove rail 6 at the propped point, and the cover does not rotate together with the inner cylinder 3; at the moment, the inner cylinder rotates forwards, the top cover moves up and down, and because the heights of all points on the groove track of the inner cylinder, which are separated by 120-degree arcs, are equal and the distances between the three telescopic rods are also 120-degree arcs, the heights of the three bearings or cuffs 13 extending into the groove track are always kept equal, so that the press-pull cover 8 performs balanced vertical movement up and down when the inner cylinder rotates forwards for washing, and the press-pull or the pull-out of clothes is realized; when the clothes are dehydrated, the inner drum 3 rotates reversely, the non-return card 7 in the groove rail 6 blocks the bearing or the hoop 13, the rotation stopping push rod 15 is sucked and retracted, and the cover rotates together with the inner drum to spin-dry the clothes.

Claims (7)

1. The appearance, size, water supply and drainage system, inner and outer cylinders and controller of the washing machine are the same as each component of the traditional full-automatic pulsator washing machine, the outer cylinder and the inner cylinder are concentrically arranged in the inner cavity of the shell, the motor at the bottom of the shell is in transmission connection with the inner cylinder, and the control panel of the controller is arranged at the top of the shell; the method is characterized in that: the inner wall of the inner cylinder is provided with a plurality of layers of groove tracks which undulate in a sine wave shape, the heights of all peaks are equal, and the heights of all valleys are equal; the check card is arranged in the groove rail of the inner cylinder, one end of the check card is connected with the upper wall of the groove rail by a movable joint, and the other end of the check card is obliquely vertical to the lower wall of the groove rail; the press-pull cover is embedded and connected by a bottom cover and a top cover through a hoop or a bearing, the diameter of a hard part of the press-pull cover is slightly smaller than the inner diameter of the inner cylinder, the flexible skirt edge of the cover edge of the press-pull cover is slightly larger than the diameter of the inner cylinder, a Y-shaped rotating handle capable of being screwed is arranged at the circle center of the top cover, three end points of the Y-shaped rotating handle are respectively connected with a telescopic rod through movable joints, a bearing or a hoop is sleeved on the rod head of the telescopic rod and extends to the cover edge, and the three telescopic rods are evenly distributed; an electromagnetic sucker is arranged at the upper opening eave of the outer cylinder, and the electromagnetic sucker is connected with a rotation stopping push rod in a sucking mode.

2. The reciprocating siphon type washing machine according to claim 1, wherein: the undulation of each layer of groove track of the inner cylinder is different, the undulation of the lower layer is larger and larger towards the upper layer, the undulation of the lowest layer is minimum, the undulation is increased upwards in sequence, and the undulation of the uppermost layer is maximum.

3. The reciprocating siphon type washing machine according to claim 1, wherein: the sinusoidal wave-shaped groove rail of the inner cylinder has at least three peaks and three valleys, and all the position points which are separated by 120-degree arcs on the groove rail have the same height.

4. The reciprocating siphon type washing machine according to claim 1, wherein: and a plurality of slender water throwing holes are arranged at the upper half part and the crest of the groove rail along the corner line at the included angle between the wall surface and the vertical surface.

5. The reciprocating siphon type washing machine according to claim 1, wherein: three positioning rings are evenly distributed on the cover surface of the top cover of the press-pull cover at intervals of 120 degrees, and the telescopic rod penetrates through the positioning rings to be integrated with the top cover.

6. The reciprocating siphon type washing machine according to claim 1, wherein: the inner cylinder wall at the valley bottom of the groove rail is provided with a clamping groove, and the regular-triangle-shaped clothes binding frame is inserted into the clamping groove through the angle clamping buckle and fixed on the inner cylinder wall.

7. The reciprocating siphon type washing machine according to claim 1, wherein: the inner cylinder comprises cylinder barrel and tray, and the motor is connected to cylinder barrel transmission, and the tray is located the bottom of cylinder barrel and installs on the casing.

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