CN211815034U - Automatic put in drawing of liquid detergent and put mechanism, throw material box, washing machine - Google Patents

Abstract

The utility model provides a pumping and discharging mechanism for automatically putting in liquid detergent, which comprises a piston connecting rod component, a valve core component, a first driving component and a second driving component, wherein one end of the valve core component is connected with a valve core rotating shaft, and the other end is connected with a plurality of pumping and discharging cavities; one side of the pumping cavity is communicated with a detergent storage cavity in a one-way mode, and the other side of the pumping cavity is provided with a one-way discharge port; the valve core rotating shaft is axially provided with a first through hole, one end of the piston connecting rod assembly is movably arranged in the first through hole, and the first through hole is selectively communicated with a target drainage cavity through the valve core assembly. The utility model also provides a throw magazine and washing machine. The utility model discloses a take out and put the mechanism body and can realize putting in two kinds, three kinds or even more the automation of liquid detergent, and simple structure, set up to throw material box originally internally, occupation space is little, changes the pressure that the intracavity was taken out and put to the target through piston link assembly and controls the operation of taking out or putting the liquid detergent in chamber, can the automatic volume of putting in liquid detergent of accurate control.

Description

Automatic put in drawing of liquid detergent and put mechanism, throw material box, washing machine

Technical Field

The utility model relates to a household electrical appliances technical field especially relates to an automatic put in liquid detergent take out put mechanism, throw material box, washing machine.

Background

At present, various washing machines are provided with a material box feeding device for adding washing powder, laundry detergent, softener and other washing products, and users select and feed the washing products according to their own requirements. The magazine assembly provided by the prior art generally comprises a handle, an upper box body, a lower box body and a washing liquid box, wherein the washing liquid box needs to be pulled and pushed manually before washing, and then washing powder, washing liquid or softener is put in the corresponding position of the washing liquid box, so that the washing liquid box is inconvenient to draw if other articles exist in the hand of a user.

In addition, the amount of laundry detergent, such as liquid detergent, softener and the like, put in the detergent is not easy to control when the detergent is manually put in the detergent, and the washing effect is more or less directly influenced.

With the higher and higher requirements of people on living standard, the demands of customers on putting liquid washing products such as laundry detergent, softener and the like into the washing machine are more and more urgent. The existing automatic detergent throwing device mainly comprises a single-cavity throwing device (mainly throwing laundry detergent) and a double-cavity throwing device (mainly throwing laundry detergent and softener). The existing double-cavity throwing device needs two pumping mechanisms to automatically throw in two kinds of washing articles, each pumping mechanism is respectively connected with a containing cavity for containing liquid washing articles and a thrown containing cavity, at least two pumping mechanisms, two containing cavities for containing liquid washing articles and two thrown containing cavity parts are involved, the arrangement position and the connection relation among the parts need to be designed, the structure is relatively complex, and the cost is high. In addition, a pumping and discharging mechanism is arranged to realize automatic feeding of two kinds of washing articles, at least two motors are needed to drive the pumping and discharging mechanism to select the containing cavity for containing the liquid washing articles and the cavity for feeding the liquid washing articles, which are connected with the pumping and discharging mechanism, according to the types of the washing articles to be fed, so that the pumping and discharging mechanism has more structural components and large occupied space. For a device for automatically putting liquid detergent into three or more cavities, no better technology exists in the market at present, and a more complex structure is needed for realizing the device.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an automatic liquid detergent feeding and drawing mechanism, which realizes the automatic feeding of two, three or even more liquid detergents through one drawing and drawing mechanism body.

In order to achieve the above purpose, the utility model is realized by the following technical scheme.

The utility model has the first purpose of providing a drainage mechanism for automatically putting in liquid detergent, which comprises a drainage mechanism body arranged in a feeding box body, wherein the drainage mechanism body comprises a piston connecting rod component, a valve core component, a first driving component and a second driving component; wherein the content of the first and second substances,

one end of the valve core assembly is connected with the valve core rotating shaft, and the other end of the valve core assembly is connected with the plurality of drainage cavities; one side wall of the pumping cavity is communicated with a detergent storage cavity of the feeding box body in a one-way mode, the other side wall of the pumping cavity is provided with a one-way discharge port 1244, a first through hole is formed in the axial direction of the rotating shaft of the valve core, and one end of the piston connecting rod assembly is movably arranged in the first through hole;

the first driving assembly drives the valve core rotating shaft to rotate to the first through hole to be selectively communicated with the pumping cavity of the target, the second driving assembly drives one end of the piston connecting rod assembly to axially reciprocate in the first through hole to change the pressure in the pumping cavity of the target, so that the detergent in the detergent storage cavity communicated with the pumping cavity of the target in a one-way mode flows into the pumping cavity of the target or flows out from the discharge port, and the pumping or discharging of the detergent is realized.

Preferably, the piston connecting rod assembly comprises a piston connecting rod and a piston head, and the piston head is fitted in the first through hole, so that a sealed space is formed between a target pumping cavity communicated with the first through hole and the outer wall of the piston head; one end of the piston connecting rod is connected with the piston head, and the other end of the piston connecting rod is connected with the second driving assembly.

Preferably, the first driving assembly comprises a motor, a driving gear and a driven gear, wherein one end of the motor is provided with a motor rotating shaft, the driving gear is coaxially arranged on the motor rotating shaft, and the driven gear is meshed with the driving gear; the motor rotates to drive the motor rotating shaft to drive the driving gear and the driven gear to rotate, so that the valve core rotating shaft rotates to the first through hole to be communicated with a target drainage cavity.

Preferably, the second driving assembly comprises a rotating assembly, a rotating member and a convex rod eccentrically arranged on one surface of the rotating member, a long hole is formed in one end of the piston connecting rod, and one end of the convex rod is movably arranged in the long hole; the rotating component drives the rotating part to rotate, so that the convex rod performs circular motion and reciprocates in the long hole, and the piston connecting rod component is guided to reciprocate in the first through hole.

Preferably, the rotating assembly comprises a worm externally sleeved on the peripheral side of the rotating shaft of the motor and a worm wheel meshed with the worm, the driving gear and the worm wheel are respectively provided with a ratchet wheel, and the rotation directions of the two ratchet wheels are opposite; the rotating piece is a first ratchet wheel arranged on the worm wheel; wherein the content of the first and second substances,

the motor rotates to drive the motor rotating shaft to drive the worm to rotate and drive the worm wheel to rotate, so that the convex rod reciprocates in the long hole.

Preferably, the rotating assembly comprises bevel gears, the bevel gears comprise a driving bevel gear sleeved on the peripheral side of the motor rotating shaft and a driven bevel gear meshed with the driving bevel gear, the driving gear and the driven bevel gear are respectively provided with a ratchet wheel, and the rotation directions of the two ratchet wheels are opposite; the rotating piece is a ratchet wheel arranged on the driven bevel gear.

Preferably, the protruding rod is oval in cross section.

Preferably, the elongated hole covers the circular motion footprint of the protruding rod at all times during the reciprocating motion of the piston and connecting rod assembly, so that only the force in the axial direction of the first through hole is applied to the piston and connecting rod assembly by the second driving assembly.

Preferably, the length direction of the long hole is perpendicular to the reciprocating direction of the piston connecting rod assembly.

Preferably, the reciprocating direction of the piston connecting rod is parallel to the rotation axis of the motor rotating shaft.

Preferably, the valve core assembly comprises a movable valve plate connected with the valve core rotating shaft and a fixed valve plate attached to the other side, opposite to the valve core rotating shaft, of the movable valve plate, the movable valve plate is provided with a second through hole communicated with the first through hole and a blind hole communicated with the second through hole, the fixed valve plate is provided with a plurality of third through holes, and the third through holes are respectively communicated with the drawing cavity; wherein the content of the first and second substances,

the valve core rotating shaft rotates to drive the movable valve plate to rotate relative to the fixed valve plate, and the movable valve plate rotates until the blind hole is communicated with a target pumping cavity, so that the first through hole is communicated with the target pumping cavity.

Preferably, the number of blind holes is two, and along with the rotation of movable valve plate, two blind holes on the movable valve plate can communicate two third through-holes simultaneously.

Preferably, the number of the blind holes is one, and along with the rotation of the movable valve plate, the moving paths of the blind holes on the movable valve plate sequentially cover the plurality of third through holes.

Preferably, the valve core assembly further comprises a connecting piece, one side of the connecting piece is connected with one end of the valve core rotating shaft, the other side of the connecting piece is connected with the movable valve plate in a clamping mode, and the connecting piece is provided with a fourth through hole communicated with the first through hole.

Preferably, the valve core assembly further comprises a fixing piece, one surface of the fixing piece is attached to the fixing valve plate, and the fixing piece is provided with a plurality of drainage cavities which are respectively communicated with the plurality of third through holes.

Preferably, a one-way valve is respectively arranged at the one-way communication position of the pumping cavity and a detergent storage cavity of the feeding box body and at the discharge port, and the one-way valve is opened or closed along with the change of the pressure in the pumping cavity.

Preferably, the valve core assembly further comprises a fixed sleeve fixedly connected in the shell of the feeding box body and of a hollow structure with one side open, one end of the valve core rotating shaft is rotatably penetrated through one side wall of the fixed sleeve, the connecting piece and the movable valve plate are respectively rotatably arranged in the fixed sleeve, and the fixing piece is fixedly connected to one side of the fixed sleeve.

Preferably, the outer wall of the periphery of the movable valve plate is provided with a plurality of first grooves, and the periphery of one surface of the connecting piece is provided with a plurality of first lugs connected with the first grooves in a clamping manner.

Preferably, the peripheral outer wall of the fixed valve plate is provided with a plurality of second grooves, and the periphery of one surface of the fixed part is provided with a plurality of second lugs connected with the second grooves in a clamping mode.

Preferably, a plurality of third grooves with openings on two sides are formed in the peripheral side of the fixing piece, and a plurality of buckling pieces connected with the third grooves in a buckling mode are arranged on one surface of the fixing sleeve.

Preferably, the pumping cavity further comprises a plurality of suction ports convexly arranged on the outer surface of the fixing member, and a one-way valve for one-way communication between the pumping cavity and the detergent storage cavity is arranged at a port of the suction ports.

Preferably, the contact part of the fixing piece and the shell and the contact part of the fixing piece and the fixed valve plate are respectively provided with a sealing ring.

The second purpose of the utility model is to provide a feeding box for automatically feeding liquid detergent, which comprises a feeding box body, wherein the feeding box body comprises a shell, a plurality of detergent storage cavities arranged in the shell and a drawing and releasing mechanism body as the right; one side wall of each pumping cavity of the pumping mechanism body is communicated with one detergent storage cavity in a one-way mode.

Preferably, the washing machine further comprises a plurality of drainage cavities, a drainage port of each drainage cavity is communicated with one drainage cavity, and the drainage cavities are not communicated with the same detergent storage cavity in a cross mode or communicated with the same drainage cavity in a cross mode.

Preferably, a concave cavity is arranged on the outer wall of the shell, and the valve core assembly is arranged in the concave cavity.

The third purpose of the utility model is to provide a washing machine, including the washing machine body, still including set up in this internal as above of washing machine throw the material box body.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) the utility model provides a pair of automatic put in liquid detergent's drainage mechanism realizes putting in two kinds, three kinds even more liquid detergent's automation through a drainage mechanism body. In a preferred scheme, two operations of selecting a target pumping cavity and pumping can be completed through forward rotation or reverse rotation of a motor, the structure is simple, the occupied space is small, and the device is suitable for equipment needing to pump liquid detergent in various fields.

(2) In a preferred scheme, through carrying out circumference pivoted nose bar guide piston link assembly reciprocating motion in first through-hole, through the shape and size of control nose bar, slot hole, first through-hole, second through-hole, blind hole, third through-hole, pump drainage chamber, the automatic volume of puting in liquid detergent of accurate control, easily control.

(3) In a preferred scheme, take out and put the chamber and set up in the mounting, the mounting is connected with the fixed valve block joint, when needing to find the pump out chamber of accurate target, only need with the blind hole of movable valve block aim at with the target pump out the third through hole on the fixed valve block that the chamber is linked together can, easily accurate control is taken out the pump out chamber that puts the intracavity and find the target and is aimed at in a plurality of.

The above description is only an outline of the technical solution of the present invention, and some embodiments are described in detail below in order to make the technical means of the present invention clearer and to implement the technical solution according to the content of the description. The present invention is described in detail by the following examples.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a schematic perspective view of the drawing and releasing mechanism body of the present invention;

FIG. 2 is a first diagram illustrating an exploded structure of the pumping mechanism body;

fig. 3 is a schematic diagram of an explosion structure of the pumping mechanism body of the present invention;

fig. 4 is a schematic structural view of the ratchet mechanism of the present invention;

fig. 5 is a first cross-sectional view of the drawing and releasing mechanism body of the present invention;

fig. 6 is a second sectional view of the drawing mechanism body of the present invention;

fig. 7 is a schematic perspective view of the feeding box of the present invention;

fig. 8 is an explosion structure diagram of the feeding box of the present invention;

fig. 9 is a schematic perspective view of the casing of the feeding box of the present invention.

In the figure:

100. a pumping mechanism body;

11. a piston link assembly; 111. a piston connecting rod; 1111. a long hole; 112. a piston head; 113. a piston rubber ring;

12. a valve core assembly; 121. a movable valve plate; 1211. a second through hole; 1212. blind holes; 1213. a first groove; 122. a fixed valve plate; 1221. a third through hole; 1222. a second groove; 123. a connecting member; 1231. A first bump; 124. a fixing member; 1241. a second bump; 1242. a third groove; 1243. a suction port; 1244. a discharge port; 125. fixing a sleeve; 1251. a fastener; 126. a seal ring;

13. a spool shaft; 131. a first through hole;

14. drawing and releasing the cavity; 141. a first drainage cavity; 142. a second drainage cavity; 143. a third drainage cavity;

15. a first drive assembly; 151. a motor; 152. a motor shaft; 153. a driving gear; 1531. a second pawl; 154. a driven gear;

16. a second drive assembly; 161. a nose bar; 162. a worm; 163. a worm gear; 1631. a first pawl;

17. a ratchet wheel; 171. a first ratchet wheel; 172. a second ratchet wheel;

200. a feeding box body;

21. a housing; 211. a cavity.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses a more detailed description of the present invention, which will enable those skilled in the art to make and use the present invention. In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components. In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, and the like are used based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the dimension from top to bottom, "width" corresponds to the dimension from left to right, and "depth" corresponds to the dimension from front to back. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms concerning attachments, coupling and the like (e.g., "connected" and "attached") refer to a relationship wherein structures are secured or attached, either directly or indirectly, to one another through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

Example 1

As shown in fig. 1 to 3, the present invention provides a drainage mechanism for automatically dispensing liquid detergent, comprising a drainage mechanism body 100 disposed in a dispensing box body 200, wherein the drainage mechanism body 100 comprises a piston connecting rod assembly 11, a valve core assembly 12, a first driving assembly 15, and a second driving assembly 16; wherein the content of the first and second substances,

one end of the valve core component 12 is connected with a valve core rotating shaft 13, and the other end is connected with a plurality of sealed pumping and discharging cavities 14; each pumping cavity 14 is provided with a one-way discharge port 1244, one side wall of the pumping cavity 14 is in one-way communication with a detergent storage cavity of the feeding box body 200, the other side wall of the pumping cavity is provided with a one-way discharge port 1244, the discharge port 1244 corresponds to one liquid guide cavity, each pumping cavity 14 is not communicated with the same detergent storage cavity in a crossed manner or is not communicated with the same liquid guide cavity in a crossed manner, a valve core rotating shaft 13 is axially provided with a first through hole 131, one end of a piston connecting rod assembly 11 is movably arranged in the first through hole 131, and the first through hole 131 is selectively communicated with one of the pumping cavities 14 through a valve core assembly 12;

after the target pumping cavity 14 is set, the first driving assembly 15 drives the valve plug rotating shaft 13 to rotate until the first through hole 131 is selectively communicated with the target pumping cavity 14, the second driving assembly 16 drives one end of the piston connecting rod assembly 11 to axially reciprocate in the first through hole 131, and the pressure in the target pumping cavity 14 is changed, so that the liquid detergent in the detergent storage cavity which is communicated with the target pumping cavity 14 in a one-way mode flows into the target pumping cavity 14 or the liquid detergent in the target pumping cavity 14 flows out from the discharge port 1244, and pumping or discharging of the liquid detergent is realized.

In this embodiment, the number of the detergent storage chamber and the pumping chamber 14 is three, that is, the detergent storage chamber and the pumping chamber include a first pumping chamber 141, a second pumping chamber 142 and a third pumping chamber 143. For example, when the drainage mechanism body 100 of the present invention is applied to a washing machine, the drainage cavity refers to the cavity for directly pouring detergent into the washing machine bucket, the number of the drainage cavities is set according to the user's requirement, and further, the number of the drainage cavities is three. The detergent storage cavity, the liquid guide cavity and the pumping cavity 14 are in one-to-one correspondence to form three pumping systems, and the first pumping cavity 141, the second pumping cavity 142 and the third pumping cavity 143 are respectively used for pumping three washing products, namely the most common laundry detergent, softener and aromatic. As shown in fig. 5, the first through hole 131 is connected to the first pumping cavity 141, and at this time, the first pumping cavity 141 is a pumping cavity of the target.

As shown in fig. 2 and 3, the piston connecting rod assembly 11 includes a piston connecting rod 111 and a piston head 112, the piston connecting rod 111 is a rectangular thin plate, the outer shape and size of the piston head 112 is the same as the outer shape and size of the first through hole 131, and the piston head 112 is attached to the first through hole 131, so that a sealed space is formed between the target exhaust cavity 14 communicated with the first through hole 131 and the outer wall of the piston head 112; the piston rod 112 is connected at one end to the piston head 112 and at the other end to the second drive assembly 16. Furthermore, at least one piston rubber ring 113 with two rings for increasing the sealing performance is arranged on the periphery of the piston head, the piston rubber ring 113 is tightly attached between the outline of the first through hole 131 and the periphery outer wall of the piston head 112, and when the piston head 112 reciprocates in the first through hole 131 along with the piston connecting rod 111, the sealing degree in the drawing cavity 14 is ensured.

As shown in fig. 1 to fig. 3, the first driving assembly 15 includes a motor 151 having a motor shaft 152 at one end, a driving gear 153 coaxially disposed on the motor shaft 152, and a driven gear 154 engaged with the driving gear 153; the motor 151 rotates to drive the motor shaft 152 to drive the driving gear 153 to rotate together with the driven gear 154, so that the valve core shaft 13 can rotate until the first through hole 131 is communicated with the target pumping and discharging cavity 14, and the first through hole 131 where the piston connecting rod assembly 11 is located is aligned with the target pumping and discharging cavity 14 to perform pumping or pressing, so as to change the pressure of the target pumping and discharging cavity 14.

In one embodiment, the second driving assembly 16 is a linear motor connected to one end of the piston-connecting rod assembly 11, and directly drives the piston connecting rod 111 and the piston head 112 to reciprocate in the first through hole 131.

In one embodiment, the second driving assembly 16 includes a rotating assembly, a rotating member, and a protruding rod 161 eccentrically disposed on a surface of the rotating member, wherein one end of the piston connecting rod 111 is provided with a slot 1111, and one end of the protruding rod 161 is movably disposed in the slot 1111; the rotating member is rotated by the rotating member, so that the protruding rod 161 performs a circular motion and reciprocates in the long hole 1111, to guide the piston and connecting rod assembly 11 to reciprocate in the first through hole 131. In one embodiment, the slot 1111 is an elongated through hole, and one end of the protruding rod 161 penetrates through the slot 1111 and can reciprocate along the inner contour of the slot 1111. In one embodiment, the slot 1111 is an elongated blind hole, and one end of the protruding rod 161 is located in the slot 1111 and can reciprocate along the inner contour of the slot 1111.

Further, as shown in fig. 4, in the present embodiment, the rotating assembly includes a worm 162 externally sleeved on the peripheral side of the motor rotating shaft 152, and a worm wheel 163 engaged with the worm 162, a ratchet 17 is respectively disposed on the driving gear 153 and the worm wheel 163, the rotating directions of the two ratchets 17 are opposite, and the rotating member is a first ratchet 171 on the worm wheel 163; the motor 151 rotates to drive the motor shaft 152 to rotate to drive the worm 162 and the worm wheel 163 to rotate, so that the protruding rod 161 reciprocates in the slot 1111.

The worm wheel 163 is provided with a first ratchet wheel 171, and the worm wheel 163 is internally provided with a first pawl 1631 which is in one-way transmission with the first ratchet wheel 171, so that the worm wheel 163 and the first ratchet wheel 171 form a first ratchet mechanism; the driving gear 153 is provided with a second ratchet wheel 172, a second pawl 1531 which is in one-way transmission with the second ratchet wheel 172 is arranged in the driving gear 153, so that the driving gear 153 and the second ratchet wheel 172 form a second ratchet mechanism, the second ratchet wheel 172 is fixedly connected with the motor rotating shaft 152, and the rotating directions of the first ratchet wheel 171 and the second ratchet wheel 172 are opposite.

The first pawl 1631 is rotationally movable in one direction only while the first ratchet 171 is not rotatable in the other direction as the worm wheel 163 is rotated to push the first ratchet 171. The second ratchet 172 can only apply a force to the second pawl 1531 in one direction along with the rotation of the motor shaft 152, so that the driving gear 153 can only rotate in one direction, and the driving gear 153 cannot rotate in the other direction.

For example, when the motor 151 is transmitting, the motor shaft 152 drives the worm 162 and the second ratchet wheel 172 on the driving gear 153 to rotate, the second ratchet wheel 172 drives the second pawl 1531 to drive the driving gear 153 to rotate, and drives the driven gear 154 to rotate, and finally drives the valve core shaft 13 to rotate until the first through hole 131 is communicated with the target pumping and discharging cavity 14. At this time, due to the arrangement of the first ratchet wheel 171 of the worm wheel 163, the worm wheel 163 is rotated by the rotation of the worm 162, the first pawl 1631 rotates, and the first ratchet wheel 171 does not contact with the first pawl 1631, so that the first pawl 1631 does not rotate in the worm wheel 163, and the protruding rod 161 eccentrically arranged on the outer surface of the first ratchet mechanism 171 is also stationary and does not perform a circular motion, so that the piston link assembly 11 is in an inoperative state.

When the motor 151 rotates reversely, the second ratchet 172 rotates along with the motor shaft 152, but the second pawl 1531 does not contact with the second ratchet 172, the second ratchet 172 idles with respect to the driving gear 153, the driving gear 153 does not rotate, and the spool shaft 13 does not rotate. At this time, the worm 162 rotates the worm wheel 163, and the first pawl 1631 of the worm wheel 163 rotates to drive the first ratchet 171 to rotate, so that the protruding rod 161 eccentrically disposed on the outer surface of the first ratchet 171 performs a circular motion and reciprocates in the long hole 1111, so that the piston link assembly 11 reciprocates in the first through hole 131.

In one embodiment, the motion assembly includes bevel gears, the bevel gears include a driving bevel gear sleeved on the peripheral side of the motor shaft 152 and a driven bevel gear engaged with the driving bevel gear, the driving gear 153 and the driven bevel gear are respectively provided with a ratchet, and the rotation directions of the two ratchets are opposite. The rotating piece is a ratchet wheel arranged on the driven bevel gear. Other technical features and driving steps of the moving assembly are the same as those of the embodiment in which the moving assembly is a worm wheel and a worm, and are not described herein again.

In one embodiment, as shown in fig. 1, the cross section of the protruding rod 161 is an ellipse, the cross section of the long hole 1111 is a rounded rectangle with unequal leading edges, the length of the protruding rod 161 is consistent with the width of the long hole 1111, and the protruding rod 161 can reciprocate along the contour of the long hole 1111 so as to determine the distance of one-way movement of the piston and connecting rod assembly 11 according to the sizes of the protruding rod 161 and the long hole 1111.

The elongated hole 1111 always covers the circular motion footprint of the protruding rod 161 during the reciprocating motion of the piston and connecting rod assembly 11, so that the second drive assembly 16 exerts only a force in the axial direction of the first through hole 131 on the piston and connecting rod assembly 11. So as to prevent the acting force directed to the inner wall peripheral direction of the first through hole 131 from being applied to the piston connecting rod assembly 11, and further increase the friction force between the piston connecting rod assembly 11 and the contour of the first through hole 131 during the reciprocating motion in the first through hole 131, which results in the difficulty or failure of the reciprocating motion of the piston connecting rod assembly 11.

Further, the length direction of the long hole 1111 is perpendicular to the reciprocating direction of the piston link assembly 11, and the required length of the long hole 1111 is the minimum. The length of the long hole 1111 is consistent with the diameter of the circle where the protruding rod 161 moves circularly, so that the long hole 1111 always covers the circular motion footprint of the protruding rod 161 during the reciprocating motion of the piston link assembly 11.

The reciprocating direction of the piston connecting rod 111 is parallel to the rotation axis of the motor rotation shaft, which is convenient for the design and layout of the structure.

In this embodiment, as shown in fig. 2 and fig. 3, the valve core assembly 12 includes a movable valve plate 121 connected to the valve core rotating shaft 13, and a fixed valve plate 122 attached to another surface of the movable valve plate 121 opposite to the valve core rotating shaft 13, the movable valve plate 121 has a second through hole 1211 communicated with the first through hole 131, and a blind hole 1212 communicated with the second through hole 1211, the fixed valve plate 122 has a plurality of third through holes 1221, and the plurality of third through holes 1221 are respectively communicated with a pumping cavity 14; the valve core rotating shaft 13 rotates to drive the movable valve plate 121 to rotate relative to the fixed valve plate 122, and rotates until the blind hole 1212 is communicated with one of the third through holes 1221, so that the first through hole 131 is communicated with the target pumping and discharging cavity 14. In this embodiment, the number of the third through holes 1221 is three, and the number of the blind holes is one. The three third through holes 1221 are respectively in one-to-one correspondence communication with the first pumping cavity 141, the second pumping cavity 142, and the third pumping cavity 143. Along with the rotation of the movable valve plate 121, the movement path of the blind hole 1212 on the movable valve plate 121 can sequentially cover the three third through holes 1221, and when the target drawing and releasing cavity 14 is selected, the blind hole 1212 moves to cover the third through hole 1221 communicated with the target drawing and releasing cavity 14. Further, the first through hole 131 and the third through hole 1221 are coincident in central axis.

In another embodiment, the number of the blind holes 1212 is two, and as the movable valve plate 121 rotates, the two blind holes 1212 on the movable valve plate 121 can simultaneously communicate with the two third through holes 1221, and at this time, there are two pumping cavities 14 targeted for pumping cavities 14, such as the first pumping cavity 141 and the second pumping cavity 142. For example, the two blind holes 1212 may have the same size, and the two blind holes 1212 may communicate with the two third through holes 1221 at the same time, or one blind hole communicates with one third through hole 1221, and the other blind hole 1212 is in contact with the surface of the stationary valve plate 122 outside the third through hole 1221. For another example, the third through holes 1221 formed in the fixed valve plate 122 are respectively arranged on two circular paths with different diameters, the length of the two blind holes 1212 is different, and the two blind holes 1212 can respectively cover one of the third through holes 1221 arranged on the circular paths with different diameters along with the rotation of the movable valve plate 121.

Further, as shown in fig. 2 and 3, the valve core assembly 12 further includes a connecting member 123, one side of the connecting member 123 is connected to one end of the valve core rotating shaft 13, and the other side is connected to the movable valve plate 121 in a clamping manner. The connecting member 123 is provided with a fourth through hole 1232 communicated with the first through hole 131, and the shape and size of the fourth through hole 1232 are the same as those of the first through hole 131. In one embodiment, the connecting member 123 is integrated with the valve core rotating shaft 13; in another embodiment, the connection member 123 is provided separately from the spool rotation shaft 13.

In one embodiment, three pumping chambers 14 are disposed in the housing 21 of the batch charging box body 200.

In an embodiment, as shown in fig. 2 and fig. 3, the valve core assembly 12 further includes a fixing member 124 having one surface attached to the fixing plate 122, and the fixing member 124 is provided with three pumping cavities 14, namely a first pumping cavity 141, a second pumping cavity 142, and a third pumping cavity 143, which are respectively communicated with the three third through holes 1221. The pumping chamber 14 is in one-way communication with a detergent storage chamber of the feeding box body 200 through a one-way valve (not shown), and the discharge port 1244 of the pumping chamber 14 is provided with a one-way valve. Vent 1244 is aligned with the drainage lumen and fluid in the drainage lumen can flow into the drainage lumen while fluid in the drainage lumen cannot flow into the drainage lumen 14. In one embodiment, each drainage lumen 14 is in one-way communication with its respective drainage lumen via a one-way valve. In yet another embodiment, each pumping chamber 14 is separated from its corresponding drainage chamber, i.e. the pumping chamber 14 is not connected to the drainage chamber, and the side of the pumping chamber 14 provided with the check valve is aligned with the opening of the drainage chamber, so that the liquid in the pumping chamber 14 can be drained into the drainage chamber under the action of the piston-link assembly.

The drainage cavity 14 is arranged in the fixing member 124, the position relationship between the fixing member 124 and the movable valve plate 121 and the fixed valve plate 122 is relatively easy to determine, and the parts are easy to align during assembly and convenient to align with the target drainage cavity 14 during automatic delivery. When the detergent is automatically put in, the three third through holes 1221 on the fixed valve plate 122 are respectively aligned with the first pumping and discharging cavity 141, the second pumping and discharging cavity 142, and the third pumping and discharging cavity 143 on the fixed member one by one, the valve element rotating shaft 13 is driven by the first driving assembly 15 to rotate so as to drive the movable valve plate 121 to rotate until the blind hole 1212 on the movable valve plate 121 is communicated with the third through hole 1221 communicated with the pumping and discharging cavity 14 of the target, at this time, the first through hole 131, the second through hole 1211, the blind hole 1212, the third through hole 1221 communicated with the pumping and discharging cavity 14 of the target, and the pumping and discharging cavity 14 of the target are sequentially communicated, the piston connecting rod assembly 11 is driven by the second driving assembly 16 to reciprocate in the first through hole 131 so as to change the pressure in the pumping and discharging cavity 14 of the target, and further to pump the liquid detergent from the detergent storage cavity of the target into the pumping and discharging the detergent from the pumping and discharging cavity 14 of the target to the liquid guiding cavity of the target, the dosing of the liquid detergent can be accurately controlled. As shown, the target pumping chamber 14 is a first pumping chamber 141.

Further, as shown in fig. 2 and fig. 3, the valve core assembly 12 further includes a fixing sleeve 125 fixedly connected to the housing 21 of the feeding box body 200, and is of a hollow structure with an opening on one side, one end of the valve core rotating shaft 13 rotatably penetrates through a side wall of the fixing sleeve 125, the connecting element 123 and the movable valve plate 121 are rotatably disposed in the fixing sleeve 125, and the fixing element 124 is fixedly connected to one side of the fixing sleeve 125.

In one embodiment, as shown in fig. 2 and 3, the cross-sections of the connecting member 123, the movable valve plate 121, the fixed valve plate 122, the fixing member 124, and the fixing sleeve 125 are circular. The rotation number of turns of the motor 151 required when the blind hole 1212 of the movable valve plate 121 and the third through hole 1221 of the fixed valve plate 122 are communicated is conveniently calculated, and the alignment of the blind hole 1212 and the third through hole 1221 communicated with the target pumping and discharging cavity 14 is conveniently controlled.

As shown in fig. 2 and fig. 3, a plurality of first grooves 1213 are disposed on the outer wall of the movable valve plate 121, and a plurality of first protrusions 1231 connected to the first grooves 1213 in a clamping manner are disposed on the periphery of one surface of the connecting member 123. The number of the first grooves 1213 and the number of the first protrusions 1231 are both two. The movable valve plate 121 is clamped with the connecting member 123 from the side of the connecting member 123 where the first protrusion 1231 is disposed, and the two first grooves 1213 are located in the same diameter direction of the movable valve plate 121, so that the two first protrusions 1231 can clamp two sides of the movable valve plate 121.

The peripheral outer wall of the fixed valve plate 122 is provided with a plurality of second grooves 1222, and the periphery of one surface of the fixed member 124 is provided with a plurality of second protrusions 1241 connected with the second grooves 1222 in a clamping manner. The number of the second grooves 1222 and the number of the second bumps 1241 are four. The fixed valve plate 122 is clamped with the fixing member 124 from the side of the fixing member 124 provided with the second protrusion 1241, and the four second grooves 1222 are uniformly distributed along the peripheral side of the fixed valve plate 122, so that the clamping fixation of the second protrusion 1241 of the fixing member 124 to the fixed valve plate 122 is firmer.

The fixing member 124 is provided with a plurality of third grooves 1242 with openings on both sides, and a plurality of fasteners 1251 fastened to the third grooves 1242 are provided on one surface of the fixing sleeve 125. The number of the third grooves 1242 and the number of the fasteners 1251 are three. The three third grooves 1242 are uniformly distributed along the periphery of the fixing member 124, so that the fixing acting force of the fastening member 1251 on the fixing member 124 is uniformly distributed, and the fixing is more stable. The fixing sleeve 125 is connected with the fixing member 124 in a snap-fit manner to form a relatively sealed accommodating cavity, and the movable valve plate 121, the fixed valve plate 122 and the connecting member 123 are all located in the accommodating cavity formed by the fixing sleeve 125 and the fixing member 124.

In one embodiment, as shown in fig. 3, the pumping chamber 14 further includes a plurality of pumping ports 1243 protruding from the outer surface of the fixing member 124, so as to increase the size of the pumping chamber 14 and increase the variation of the liquid detergent during one pumping or discharging operation of the pumping mechanism body 100.

As shown in fig. 5 and 6, a discharge port 1244 is provided on a side wall of the suction chamber 14 corresponding to the drainage chamber, a check valve for one-way communication between the suction chamber 14 and the liquid storage chamber is provided at a port of the suction port 1243, and a check valve for one-way liquid communication between the suction chamber 14 and the drainage chamber is provided at a port of the discharge port 1244. The one-way valve opens or closes as the pressure within the pumping chamber 14 changes. That is, the pressure difference between both sides of the pumping chamber 14 and the detergent storage chamber and the pressure difference between both sides of the discharge port 1244 are higher than the set pressure difference of their corresponding check valves, the liquid detergent in the detergent storage chamber flows into the pumping chamber 14 or the liquid detergent in the pumping chamber 14 flows out. When the pressure difference between the two sides of the one-way valve is lower than the set pressure difference, the one-way valve is closed, and no liquid flows between the two cavities.

As shown in fig. 2, a sealing ring 126 is disposed at a contact portion of the fixing member 124 and the housing 21 of the feeding box body 200, and a sealing ring (not shown) is disposed at a contact portion of the fixing member 124 and the fixing valve plate 122 to ensure the sealing performance of the pumping chamber 14.

It should be understood that, as shown in fig. 5, the target pumping and releasing cavity 14 is a pumping and releasing cavity communicated with a detergent storage cavity corresponding to a need of automatically putting in liquid detergent and a drainage cavity corresponding to a need of automatically putting in liquid detergent, at this time, the target pumping and releasing cavity 14 is communicated with the blind hole 1212 through the third through hole 1221 and is finally communicated with the first through hole 131, and the piston connecting rod 111 reciprocates in the first through hole 131 to affect the pressure in the target pumping and releasing cavity 14. As shown in fig. 6, the two pumping chambers 14 are not communicated with the blind hole 1212, so that the piston connecting rod 111 reciprocates in the first through hole 131 without affecting the pressures in the two pumping chambers 14.

Example 2

As shown in fig. 7, 8 and 9, the utility model provides an automatic throw in feed box of liquid detergent, including throwing the feed box body 200, throw the feed box body 200 and include casing 21, set up a plurality of detergent storage chamber (not shown in the figure) in casing 21, as above take out put mechanism body 100, take out each of putting mechanism body 100 and take out put 14 lateral walls in chamber and a detergent storage chamber one-way intercommunication.

In one embodiment, the feeding box body 200 further includes a plurality of drainage chambers (not shown), and the drainage opening 1244 of each drainage chamber 14 is communicated with one drainage chamber, and the drainage chambers 14 are not communicated with the same detergent storage chamber or the same drainage chamber. In this embodiment, the number of the detergent storage chamber, the drainage chamber and the pumping chamber 14 is three.

In one embodiment, as shown in fig. 8 and 9, a cavity 211 is formed on the outer wall of the housing 21, the valve core assembly 12 is disposed outside the cavity 211, and the cavity 211 is shaped and sized to match the outer profile of the valve core assembly 12 disposed inside the cavity 211. The retaining sleeve 125 of the valve cartridge assembly 12 is fixedly attached within the recess 211. The first driving assembly 15 and the second driving assembly 16 are located outside the housing 21.

It should be understood that the housing 21 shown in fig. 7, 8 and 9 is only a simplified illustration and does not specifically show the specific structure of the detergent storage chamber and the drainage chamber, and the detergent storage chamber or the drainage chamber may be included in the housing shown by 21 in the drawings or outside the housing shown by 21 in the drawings, and it will be apparent to those skilled in the art that various modifications or technical feature substitutions can be made without departing from the principles of the present invention, and these modifications or technical feature substitutions are considered as the protection scope of the present invention.

Example 3

The utility model provides a washing machine, including the washing machine body, still including setting up as above in the washing machine body throw material box body 200. In this embodiment, the number of the detergent storage chamber, the drainage chamber and the pumping chamber 14 is three.

Before use, corresponding washing products such as laundry detergent, softener and detergent are respectively injected into the three detergent storage cavities.

When the laundry detergent dispensing device is used, for example, laundry detergent needs to be automatically dispensed, the motor rotates forward to drive the first driving assembly 15 to drive the valve element rotating shaft 13 to drive the movable valve plate 121 to rotate until the blind hole 1212 on the movable valve plate 121 is aligned with the third through hole 1221 on the fixed valve plate 122, which is communicated with the target pumping cavity 14 in one-way communication with the detergent storage cavity for storing the laundry detergent.

The motor rotates reversely, the second driving assembly 16 is driven to drive the piston connecting rod assembly 11 to move in the first through hole 131 in a single-pass mode, the pressure in the target pumping cavity 14 is reduced until the difference value of the pressure in the detergent storage cavity, which is higher than the pressure in the target pumping cavity 14, reaches the set pressure difference value between two sides of the one-way valve for one-way communication between the target pumping cavity 14 and the detergent storage cavity, and the laundry detergent in the detergent storage cavity for storing the laundry detergent enters the target pumping cavity 14. The motor continuously rotates reversely, the second driving assembly 16 is driven to drive the piston connecting rod assembly 11 to move in the other direction in the first through hole 131 in a return stroke mode, the pressure in the target pumping cavity 14 is increased until the pressure in the target pumping cavity 14 is higher than the pressure in the liquid guide cavity by a difference value, and the pressure difference value between two sides of a check valve arranged on one side of the liquid detergent cavity corresponding to the target pumping cavity 14 is reached, so that the laundry detergent in the target pumping cavity 14 enters the liquid guide cavity corresponding to the laundry detergent. And the motor continuously rotates reversely, when the washing liquid amount in the liquid guide cavity reaches the washing standard amount, the motor stops rotating, and the washing machine operates the washing operation.

The utility model provides an automatic put in liquid detergent's drainage mechanism can be used to two kinds, three kinds even more liquid detergent's automatic input. In a preferred scheme, worm gear transmission or bevel gear transmission and a pair of meshing gears's cooperation, make can accomplish the drainage chamber of selecting the target through the corotation of a motor 151 or reversal, two operations of drainage, and the motor, worm gear or a pair of bevel gear, driving gear and driven gear, piston link assembly all set up along drainage chamber axial direction, arrange compactly exquisitely, only need washing machine transversely leave certain fitting space can, do not occupy washing machine longitudinal space, do not influence the installation of other structures in the washing machine, simple structure occupies that space is little simultaneously promptly, be applicable to the equipment that needs drainage liquid detergent in each field. In addition, through the shape and size of control nose bar, slot hole, first through-hole, second through-hole, blind hole, third through-hole, pump drainage chamber, the automatic volume of puting in liquid detergent of accurate control.

While the embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments, which are fully applicable in all kinds of fields where the invention is suitable, and further modifications may readily be made by those skilled in the art, and the invention is thus not limited to the specific details and examples shown herein, without departing from the general concept defined by the claims and their equivalents.

Claims (25)

1. A pumping and releasing mechanism for automatically putting liquid detergent comprises a pumping and releasing mechanism body (100) arranged in a feeding box body (200), and is characterized in that the pumping and releasing mechanism body (100) comprises a piston connecting rod assembly (11), a valve core assembly (12), a first driving assembly (15) and a second driving assembly (16); wherein the content of the first and second substances,

one end of the valve core component (12) is connected with the valve core rotating shaft (13), and the other end of the valve core component is connected with a plurality of sealed pumping and discharging cavities (14); one side wall of the pumping cavity (14) is communicated with a detergent storage cavity of the feeding box body (200) in a one-way mode, and the other side wall of the pumping cavity is provided with a one-way discharge port (1244); a first through hole (131) is axially formed in the valve core rotating shaft (13), and one end of the piston connecting rod assembly (11) is movably arranged in the first through hole (131);

the first driving assembly (15) drives the valve core rotating shaft (13) to rotate until the first through hole (131) is selectively communicated with the target pumping and releasing cavity (14), the second driving assembly (16) drives one end of the piston connecting rod assembly (11) to axially reciprocate in the first through hole (131), and the pressure in the target pumping and releasing cavity (14) is changed, so that detergent in a detergent storage cavity which is in one-way communication with the target pumping and releasing cavity (14) flows into the target pumping and releasing cavity (14) or detergent in the target pumping and releasing cavity (14) flows out from a discharge port (1244), and pumping or releasing of the detergent is realized.

2. The pumping mechanism for automatically putting in liquid detergent according to claim 1, characterized in that the piston connecting rod assembly (11) comprises a piston connecting rod (111) and a piston head (112), the piston head (112) fits in the first through hole (131), so that a sealed space is formed between the pumping chamber (14) of a target communicated with the first through hole (131) and the outer wall of the piston head (112); one end of the piston connecting rod (111) is connected with the piston head (112), and the other end of the piston connecting rod is connected with the second driving assembly (16).

3. The pumping mechanism for automatically feeding liquid detergent according to claim 2, wherein the first driving assembly (15) comprises a motor (151) having a motor shaft (152) at one end, a driving gear (153) coaxially disposed on the motor shaft (152), and a driven gear (154) engaged with the driving gear (153); the motor (151) rotates to drive a motor rotating shaft (152) to drive the driving gear (153) and the driven gear (154) to rotate, so that the valve core rotating shaft (13) rotates until the first through hole (131) is communicated with a target pumping and discharging cavity (14).

4. The pumping mechanism for automatically dispensing liquid detergent as claimed in claim 3, wherein the second driving assembly (16) comprises a rotating assembly, a rotating member, and a protruding rod (161) eccentrically disposed on a surface of the rotating member, the piston rod (111) has a slot (1111) at one end, and the protruding rod (161) has one end movably disposed in the slot (1111); the rotating component drives the rotating piece to rotate, so that the convex rod (161) performs circular motion and reciprocates in the long hole (1111), and the piston connecting rod component (11) is guided to reciprocate in the first through hole (131).

5. The pumping mechanism for automatically dispensing liquid detergent according to claim 4, wherein the rotating assembly comprises a worm (162) sleeved on the periphery of the rotating shaft (152) of the motor and a worm wheel (163) engaged with the worm (162), the driving gear (153) and the worm wheel (163) are respectively provided with a ratchet (17), and the two ratchets (17) rotate in opposite directions; the rotating piece is a first ratchet wheel (171) arranged on the worm wheel (163); wherein the content of the first and second substances,

the motor (151) rotates to drive the motor rotating shaft (152) to drive the worm (162) to rotate, and drives the worm wheel (163) to rotate, so that the convex rod (161) reciprocates in the long hole (1111).

6. The pumping mechanism for automatically putting in liquid detergent according to claim 4, wherein the rotating assembly comprises bevel gears, the bevel gears comprise a driving bevel gear sleeved on the periphery of the motor rotating shaft (152) and a driven bevel gear engaged with the driving bevel gear, the driving gear (153) and the driven bevel gear are respectively provided with a ratchet wheel, and the rotation directions of the two ratchet wheels are opposite; the rotating piece is a ratchet wheel arranged on the driven bevel gear.

7. The pumping mechanism for automatically dispensing liquid detergent according to any one of claims 4 to 6, wherein the elongated hole (1111) covers the circular motion footprint of the protruding rod (161) at all times during the reciprocating motion of the piston-link assembly (11), so that the second driving assembly (16) only applies a force in the axial direction of the first through hole (131) to the piston-link assembly (11).

8. The pumping mechanism for automatically feeding liquid detergent according to any one of claims 4-6, wherein the length direction of the long hole (1111) is perpendicular to the reciprocating direction of the piston connecting rod assembly (11).

9. The pumping mechanism for automatically feeding liquid detergent according to any one of claims 4-6, wherein the reciprocating direction of the piston rod (111) is parallel to the rotation axis of the motor shaft.

10. The pumping mechanism for automatically putting in liquid detergent according to any one of claims 1-6, characterized in that the valve core assembly (12) comprises a movable valve plate (121) connected with the valve core rotating shaft (13), and a fixed valve plate (122) attached to the other side of the movable valve plate (121) opposite to the valve core rotating shaft (13), the movable valve plate (121) is provided with a second through hole (1211) communicated with the first through hole (131), and a blind hole (1212) communicated with the second through hole (1211), the fixed valve plate (122) is provided with a plurality of third through holes (1221), and the plurality of third through holes (1221) are respectively communicated with the pumping cavity (14); wherein the content of the first and second substances,

the valve core rotating shaft (13) rotates to drive the movable valve plate (121) to rotate relative to the fixed valve plate (122), and the movable valve plate rotates until the blind hole (1212) is communicated with a third through hole (1221) communicated with a target pumping cavity (14), so that the first through hole (131) is communicated with the target pumping cavity (14).

11. The pumping mechanism for automatically putting in liquid detergent according to claim 10, wherein the number of the blind holes (1212) is two, and the two blind holes (1212) of the movable valve plate (121) can be simultaneously communicated with the two third through holes (1221) along with the rotation of the movable valve plate (121).

12. The pumping mechanism for automatically putting in liquid detergent according to claim 10, wherein the number of the blind holes (1212) is one, and as the movable valve plate (121) rotates, the moving path of the blind holes (1212) on the movable valve plate (121) sequentially covers a plurality of third through holes (1221).

13. The pumping mechanism for automatically putting in liquid detergent according to claim 11 or 12, wherein the valve core assembly (12) further comprises a connecting piece (123), one side of the connecting piece (123) is connected with one end of the valve core rotating shaft (13), the other side of the connecting piece is connected with the movable valve plate (121) in a clamping manner, and the connecting piece (123) is provided with a fourth through hole (1232) communicated with the first through hole (131).

14. The drainage mechanism for automatically putting in liquid detergent according to claim 13, wherein the valve core assembly (12) further comprises a fixing member (124) having one surface attached to the fixed valve plate (122), and the fixing member (124) is provided with a plurality of drainage cavities (14) respectively communicated with the plurality of third through holes (1221).

15. The pumping mechanism for automatically dispensing liquid detergent as claimed in claim 14, wherein a one-way valve is disposed at a one-way communication between the pumping chamber (14) and a liquid storage chamber of the feeding box body (200) and at the discharge port (1244), and the one-way valve is opened or closed according to the pressure in the pumping chamber (14).

16. The pump mechanism for automatically dispensing liquid detergent as claimed in claim 14, wherein the valve core assembly (12) further comprises a fixing sleeve (125) fixedly connected to the inside of the casing (21) of the detergent dispensing box body (200) and having a hollow structure with an opening at one side, one end of the valve core shaft (13) is rotatably inserted into a side wall of the fixing sleeve (125), the connecting member (123) and the movable valve plate (121) are rotatably disposed in the fixing sleeve (125) respectively, and the fixing member (124) is fixedly connected to one side of the fixing sleeve (125).

17. The pumping mechanism for automatically releasing liquid detergent according to any one of claims 14-16, wherein the movable valve plate (121) has a plurality of first grooves (1213) on the peripheral outer wall, and the connecting member (123) has a plurality of first protrusions (1231) on the peripheral surface thereof for engaging with the first grooves (1213).

18. The pumping mechanism for automatically feeding liquid detergent according to any one of claims 14-16, wherein the peripheral outer wall of the fixed valve plate (122) is provided with a plurality of second grooves (1222), and the periphery of one surface of the fixed member (124) is provided with a plurality of second protrusions (1241) connected with the second grooves (1222) in a clamping manner.

19. The pumping mechanism for automatically dispensing liquid detergent as claimed in claim 16, wherein said fixing member (124) has a plurality of third grooves (1242) with two open sides around the periphery thereof, and a plurality of fasteners (1251) are disposed on a surface of said fixing cover (125) and snap-connected to said third grooves (1242).

20. A pumping mechanism for automatically delivering liquid detergent according to any of claims 14-16, wherein the pumping chamber (14) further comprises a plurality of suction ports (1243) protruded from the outer surface of the fixing member (124), and a check valve for one-way communication between the pumping chamber (14) and the liquid storage chamber is disposed at the end of the suction ports (1243).

21. The pumping mechanism for automatically dispensing liquid detergent as claimed in claim 16, wherein a sealing ring is disposed at a contact portion between the fixing member (124) and the housing (21) and a contact portion between the fixing member (124) and the stationary plate (122), respectively.

22. A feeding box for automatically feeding liquid detergent, which comprises a feeding box body (200), and is characterized in that the feeding box body (200) comprises a shell (21), a plurality of detergent storage cavities arranged in the shell (21), and a drawing and releasing mechanism body (100) as claimed in claim 1; one side wall of each drainage cavity (14) of the drainage mechanism body (100) is communicated with a detergent storage cavity in a one-way mode.

23. The dispensing box for automatically dispensing liquid detergent as claimed in claim 22, further comprising a plurality of drainage chambers, wherein the discharge port (1244) of each drainage chamber (14) is connected to one drainage chamber, and the plurality of drainage chambers (14) are not connected to the same detergent storage chamber or the same drainage chamber in a cross-connection manner.

24. The feeding box for automatically feeding liquid detergent as claimed in claim 22, wherein a cavity (211) is formed on an outer wall of the housing (21), and the valve core assembly (12) is externally disposed in the cavity (211).

25. A washing machine comprising a washing machine body, characterized in that it further comprises a dosing box body (200) according to claim 22 or 23, arranged inside said washing machine body.

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