There is not pipe soap device

文档序号:928417 发布日期:2021-03-05 浏览:5次 中文

阅读说明:本技术 一种无管给皂装置 (There is not pipe soap device ) 是由 邓浩 于 2020-12-09 设计创作,主要内容包括:本发明公开了一种无管给皂装置,包括储液主体和出皂主体,所述储液主体包括储液罐以及加液机构,所述加液机构与所述储液罐相连通;所述出皂主体可与所述加液机构相连接;所述出皂主体包括出液机构以及与所述出液机构相连通的储液机构,所述储液机构通过所述加液机构供给液体,通过按压所述出液装置以吸取所述储液机构内的液体、并从所述出液装置喷射出;通过出皂主体和储液主体分体设置,不需要其他辅助装置连接即可使用,便于用户使用;通过加液机构给储液机构加液,操作简单方便且实用。(The invention discloses a tubeless soap feeding device, which comprises a liquid storage main body and a soap discharging main body, wherein the liquid storage main body comprises a liquid storage tank and a liquid adding mechanism, and the liquid adding mechanism is communicated with the liquid storage tank; the soap outlet main body can be connected with the liquid adding mechanism; the soap outlet main body comprises a liquid outlet mechanism and a liquid storage mechanism communicated with the liquid outlet mechanism, the liquid storage mechanism supplies liquid through the liquid adding mechanism, and the liquid outlet device is pressed to absorb the liquid in the liquid storage mechanism and eject the liquid from the liquid outlet device; the soap outlet main body and the liquid storage main body are arranged in a split manner, so that the soap can be used without being connected by other auxiliary devices, and is convenient for users to use; liquid is added to the liquid storage mechanism through the liquid adding mechanism, and the liquid adding mechanism is simple, convenient and practical to operate.)

1. A tubeless soap dispensing apparatus, comprising:

the liquid storage main body comprises a liquid storage tank and a liquid adding mechanism, and the liquid adding mechanism is communicated with the liquid storage tank; and

the soap outlet main body can be connected with the liquid adding mechanism; the soap outlet main body comprises a liquid outlet mechanism and a liquid storage mechanism communicated with the liquid outlet mechanism, the liquid storage mechanism supplies liquid through the liquid feeding mechanism, and the liquid outlet device is pressed to absorb the liquid in the liquid storage mechanism and eject the liquid from the liquid outlet device.

2. The tubeless soap dispensing device of claim 1 wherein the reservoir mechanism comprises a variable volume reservoir or a fixed volume reservoir, the fixed volume reservoir comprising a waterproof, breathable structure.

3. The tubeless soap dispensing apparatus of claim 2 wherein the variable volume reservoir comprises a piston cylinder and a piston movably disposed within the piston cylinder, the reservoir further comprising a fluid passing member, the piston slidably and sealingly engaging the fluid passing member.

4. The tubeless soap dispensing apparatus of claim 3 wherein the variable-volume storage chamber further comprises a first spring disposed at a lower end of the piston and sleeved over the liquid passing member.

5. The tubeless soap dispensing device of claim 3 wherein the one end of the liquid passing member is provided with a fourth one-way valve through which liquid flows to the reservoir.

6. The tubeless soap dispensing device of claim 2 wherein the waterproof, air-permeable structure includes a waterproof, air-permeable membrane, the fixed-volume storage chamber further including the fourth one-way valve, liquid passing through the fourth one-way valve into the fixed-volume storage chamber, air being vented from the waterproof, air-permeable membrane, and liquid being stored in the fixed-volume storage chamber.

7. The tubeless soap dispensing device of claim 1 wherein the dispensing mechanism comprises a gas-liquid mixing foamer or a non-aspirating liquid squirt.

8. The tubeless soap dispensing device according to claim 1, wherein the liquid outlet mechanism comprises a pressing unit and a liquid outlet body, the pressing unit and the liquid outlet body are movably and hermetically arranged, the pressing unit is pressed to be communicated with the liquid storage mechanism, and the pressing unit is released to close the liquid storage mechanism.

9. The pipeless soap dispensing device of claim 1, wherein the liquid adding mechanism comprises a soap outlet slot, a pump, a power supply, a circuit board, and a liquid adding switch, the pump, the power supply, the circuit board, and the liquid adding switch are electrically connected; the soap outlet main body is inserted into the soap outlet slot; the soap outlet slot is communicated with the flow passage of the pump.

10. The tubeless soap dispensing apparatus of claim 9 wherein the liquid charging switch is a touch travel switch or a manual switch or an inductive switch or a timed switch.

11. The tubeless soap dispensing apparatus of claim 10 wherein the reservoir is integral with or separate from the liquid adding mechanism.

Technical Field

The invention relates to a bathroom product technology, in particular to a pipeless soap supply device.

Background

Generally, the shower gel is used mostly when people take a bath, the shower gel is smeared on the body, the shower gel is smeared on one part by pressing, the shower gel is smeared on the body for several times by pressing, the shower gel is pressed for several times, and the bottles of the common shower gel are placed on a storage rack, so that the hands can go back and forth with the storage rack for several times, the operation is very troublesome, and a soap outlet device is needed to press the shower gel for many times; the soap feeding device is placed on the storage rack, the shower gel is stored in the soap storage end, and the shower gel is smeared on the body by holding the soap outlet end; the soap outlet end and the soap storage end are connected through a connecting pipe in the existing soap supply device, so that the soap supply device is still inconvenient to use due to the fact that the soap outlet end is dragged by the connecting pipe when being held.

Disclosure of Invention

The invention provides a tubeless soap feeding device for solving the problems.

In order to achieve the purpose, the invention adopts the technical scheme that:

a tubeless soap dispensing device comprising:

the liquid storage main body comprises a liquid storage tank and a liquid adding mechanism, and the liquid adding mechanism is communicated with the liquid storage tank; and

the soap outlet main body can be connected with the liquid adding mechanism; the soap outlet main body comprises a liquid outlet mechanism and a liquid storage mechanism communicated with the liquid outlet mechanism, the liquid storage mechanism supplies liquid through the liquid feeding mechanism, and the liquid outlet device is pressed to absorb the liquid in the liquid storage mechanism and eject the liquid from the liquid outlet device.

Preferably, the liquid storage mechanism comprises a variable-volume storage cavity or a fixed-volume storage cavity, and the fixed-volume storage cavity comprises a waterproof and breathable structure.

Preferably, the storage cavity with the variable volume comprises a piston cylinder and a piston, the piston is movably arranged in the piston cylinder, the liquid storage mechanism is further provided with a liquid passing part, and the piston is sleeved outside the liquid passing part in a sliding sealing manner. Preferably, the storage cavity with the variable volume further comprises a first spring, and the first spring is arranged at the lower end of the piston and sleeved on the liquid passing part.

Preferably, one end of the liquid passing part is provided with a fourth one-way valve, and liquid flows to the liquid storage cavity through the liquid passing part.

Preferably, the waterproof breathable structure comprises a waterproof breathable film, the storage cavity with the fixed volume further comprises a fourth one-way valve, liquid enters the storage cavity with the fixed volume through the fourth one-way valve, air is discharged from the waterproof breathable film, and the liquid is stored in the storage cavity with the fixed volume.

Preferably, the liquid outlet mechanism comprises a gas-liquid mixing foaming device or a non-suction liquid spraying device.

Preferably, the liquid outlet mechanism comprises a pressing unit and a liquid outlet body, the pressing unit and the liquid outlet body are movably arranged in a sealing mode, the pressing unit is pressed to be communicated with the liquid storage mechanism, and the pressing unit is released to close the liquid storage mechanism.

Preferably, the liquid adding mechanism comprises a soap outlet slot, a pump, a power supply, a circuit board and a liquid adding switch, and the pump, the power supply, the circuit board and the liquid adding switch are electrically connected; when the soap outlet main body is inserted into the soap outlet slot, the soap outlet main body is attached to the liquid adding switch; the soap outlet slot is communicated with the flow passage of the pump.

Preferably, the liquid charging switch adopts a touch travel switch, a manual switch, an inductive switch or a timing switch.

Preferably, the liquid storage tank and the liquid adding mechanism are arranged integrally or separately.

The invention has the beneficial effects that:

1) the soap outlet main body of the soap outlet end and the liquid storage main body of the soap storage end are arranged in a split mode, and the soap storage end can be used without being connected with other auxiliary devices, so that the soap storage end is convenient for users to use.

2) The soap outlet end is provided with a liquid storage mechanism, and liquid is supplied by the liquid storage mechanism when the soap dispenser is used; after the liquid in the liquid storage mechanism is used up, the liquid feeding mechanism is inserted into the soap discharging main body, and then the liquid feeding mechanism is controlled to feed liquid to the liquid storage mechanism through the association of the liquid feeding switch and the soap discharging main body, so that the liquid storage mechanism is simple, convenient and practical to operate.

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 specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a cross-sectional view of a first embodiment of a tubeless soap dispensing apparatus of the present invention in an operational state.

Fig. 2 is a cross-sectional view of a first embodiment of a tubeless soap dispensing apparatus of the present invention in an inoperative condition.

Fig. 3 is a cross-sectional view of a second embodiment of a tubeless soap dispensing device of the present invention.

Fig. 4 is a cross-sectional view of a third embodiment of a tubeless soap dispensing device of the present invention.

Fig. 5 is a cross-sectional view of the soap dispensing housing of a tubeless soap dispensing device of the present invention.

Reference numbers in the figures:

1. a liquid storage main body;

11. a liquid storage tank; 111. a liquid storage body; 112. a cover;

12. a liquid adding mechanism; 121. a liquid adding switch; 122. a circuit board; 123. a power source; 124. a pump; 125. a liquid feeding shell; 1251. a soap outlet slot; 1252. a second air passing hole;

13. a split type liquid storage tank;

2. discharging the soap main body;

21. a liquid outlet mechanism; 210. a liquid outlet rod; 2101. a liquid through hole; 2102. a liquid passing hole; 2103. a second boss; 211. a pressing member; 2111. a liquid outlet hole; 212. a foam net; 213. a first check valve; 214. a compressed gas chamber; 215. a second spring; 216. a second one-way valve; 217. compressing the liquid chamber; 218. discharging liquid from the liquid body; 2181. a second stepped through hole; 219. a third check valve;

22. a liquid storage mechanism; 221. a fourth check valve; 222. a liquid storage cavity; 223. a piston; 224. a first spring; 225. a liquid passing part; 2251. a first boss; 2252. a first stepped through hole; 226. A vent lumen; 227. a waterproof breathable film;

23. a soap outlet shell; 231. a first air passing hole; 232. a first through hole; 233. a second through hole; 234. a first cavity; 235. and (4) discharging the soap body.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 5, a tubeless soap dispensing device according to a preferred embodiment of the present invention includes a liquid storage body 1 and a soap dispensing body 2, wherein the liquid storage body 1 includes a liquid storage tank 11 and a liquid adding mechanism 12, and the liquid adding mechanism 12 is communicated with the liquid storage tank 11; the soap discharging main body 2 can be connected with the liquid adding mechanism 12; the soap outlet main body 2 comprises a liquid outlet mechanism 21 and a liquid storage mechanism 22 communicated with the liquid outlet mechanism 21, wherein the liquid storage mechanism 22 supplies liquid through the liquid adding mechanism 12, and the liquid outlet device is pressed to absorb the liquid in the liquid storage mechanism 22 and eject the liquid from the liquid outlet device.

The first embodiment is as follows:

the soap outlet main body 2 further comprises a soap outlet shell 23 with a first cavity 234, the upper end and the lower end of the first cavity 234 are respectively provided with a first through hole 232 and a second through hole 233, and the side wall of the first cavity 234 is provided with a first air passing hole 231; the liquid outlet mechanism 21 is arranged at the upper end of the first cavity 234 and penetrates through the first through hole 232, the liquid storage mechanism 22 is arranged at the lower end of the first cavity 234, and the liquid storage mechanism 22 and the outer side of the soap outlet shell 23 are in air circulation through the first air passing hole 231; the liquid storage mechanism 22 is a storage cavity with variable volume.

In this embodiment, the storage cavity with a variable volume includes a piston cylinder, a piston 223, a liquid passing member 225, and a first spring 224, the piston cylinder is a section of the soap outlet casing 23 near the lower end, the piston 223 is movably disposed in the piston cylinder, a cavity in the piston cylinder on one side of the upper surface of the piston 223 is set as a liquid storage cavity 222, a cavity in the piston cylinder on one side of the lower surface of the piston 223 is set as a vent cavity 226, and the vent cavity 226 is communicated with the first air passing hole 231; the piston 223 is slidably and hermetically sleeved outside the liquid passing part 225, and the first spring 224 is arranged at the lower end of the piston 223 and sleeved on the liquid passing part 225; a first boss 2251 is disposed at the lower end of the liquid passing element 225, and the first boss 2251 is used to limit the first spring 224 to prevent the first spring 224 from sliding off; the outer side walls of the liquid passing piece 225 and the piston 223 are respectively provided with a first sealing groove and a second sealing groove, and the first sealing groove and the second sealing groove are respectively provided with a first sealing ring and a second sealing ring; the first sealing ring sealingly engages the liquid passing member 225 with the inner wall of the first cavity 234 to prevent liquid from entering the vent cavity 226 from a gap between the liquid passing member 225 and the inner wall of the first cavity 234; the second seal ring sealingly engages the piston 223 with the inner wall of the first chamber 234 to prevent air from entering the reservoir 222 from the gap between the piston 223 and the inner wall of the first chamber 234 or to prevent liquid in the reservoir 222 from flowing to the vent chamber 226 from the gap between the piston 223 and the inner wall of the first chamber 234; the side surface of the piston 223 sleeved on the liquid passing part 225 is a wavy surface so as to reduce the contact area between the piston 223 and the side surface of the liquid passing part 225; the piston 223 may be made of rubber, silicon gel, or soft plastic, and the piston 223 is in interference fit with a side surface of the liquid passing member 225, when the piston 223 and the liquid passing member 225 move relatively, the piston 223 does not interfere with the liquid passing member 225, and can seal a gap between the piston 223 and the liquid passing member 225 to prevent the gas in the vent cavity 226 and the liquid in the liquid storage cavity 222 from being mixed with each other.

In this embodiment, the liquid passing member 225 has a first stepped through hole 2252 through the upper and lower surfaces thereof, one end of the first stepped through hole 2252 away from the liquid outlet mechanism 21 is provided with a fourth check valve 221, liquid flows to the liquid storage chamber 222 through the first stepped through hole 2252, and the liquid cannot flow back from the liquid storage chamber 222 due to the action of the fourth check valve 221.

In this embodiment, the liquid outlet mechanism 21 adopts a gas-liquid mixing foaming device; the liquid outlet mechanism comprises a liquid outlet body 218 and a pressing unit, the pressing unit and the liquid outlet body 218 are movably arranged in a sealing mode, the pressing unit is pressed to be communicated with the liquid storage mechanism 22, and the pressing unit is released to close the liquid storage mechanism 22; a fourth sealing groove is formed in the outer side wall of the liquid outlet body 218, which is close to one end of the liquid storage mechanism 22, and a fourth sealing ring is arranged on the fourth sealing groove, so that the liquid outlet mechanism 21 is in sealing fit with the inner wall of the first cavity 234, and gas or liquid on two sides of the liquid outlet body 218 is prevented from streaming mutually; the pressing unit comprises a liquid outlet rod 210 and a pressing piece 211, the liquid outlet body 218 is provided with a second step through hole 2181 penetrating through the upper end and the lower end of the liquid outlet body, one end of the liquid outlet rod 210 is sleeved in the second step through hole 2181, and the pressing piece 211 is arranged at the upper end of the liquid outlet rod 210 in a covering manner; one end of the liquid outlet rod 210, which is close to the pressing piece 211, is located outside the second step through hole 2181, a second boss 2103 is convexly arranged on the side wall of the liquid outlet rod 210, a second spring 215 is sleeved between the second boss 2103 and the upper surface of the liquid outlet body 218, and a compressed gas cavity 214 is formed by the outer wall of the liquid outlet rod 210, which is located outside the second step through hole 2181, and the inner wall of the first cavity 234; the second step through hole 2181 comprises a sealing cavity close to one end of the liquid outlet rod 210 and a compressed liquid cavity 217 with a diameter larger than that of the sealing cavity, a liquid passing hole 2102, at least two third sealing grooves and a valve groove are formed in the side wall of one end, close to the second step through hole 2181, of the liquid outlet rod 210, and a liquid passing hole 2101 penetrating through the liquid passing hole 2102 and the upper surface of the liquid outlet rod 210 is formed in the liquid outlet rod 210; the two third sealing grooves are respectively arranged at the upper side and the lower side of the liquid passing hole 2102, the valve grooves are arranged below the third sealing groove close to the liquid storage mechanism 22, third sealing rings are arranged on the third sealing grooves, the third sealing rings ensure that liquid in the compressed liquid cavity 217 only flows to the compressed gas cavity 214, the valve grooves are provided with second one-way valves 216, and the second one-way valves 216 ensure that the liquid in the compressed liquid cavity 217 cannot flow back when flowing to the liquid passing hole 2101; the pressing member 211 is pressed to push the liquid outlet rod 210 to move downwards, the liquid passing hole 2102 enters the compressed liquid cavity 217, and liquid enters the liquid passing hole 2101 from the compressed liquid cavity 217. A liquid outlet 2111 which is communicated with the pressing piece 211 is formed in the pressing piece 211, and the liquid outlet 2111 is communicated with the liquid through hole 2101; a foaming net 212 is arranged in the liquid outlet 2111, and liquid flows through the foaming net 212 to foam and split the liquid such as shower gel and other washing liquid into fine molecules for users to use; a first one-way valve 213 is disposed between the liquid outlet rod 210 and the pressing member 211, and the first one-way valve 213 ensures that the liquid does not flow back to the liquid passing hole 2101 when flowing to the liquid outlet hole 2111.

In this embodiment, the liquid adding mechanism 12 includes a liquid adding housing 125, a pump 124 disposed in the liquid adding housing 125, a power supply 123, a circuit board 122, and a liquid adding switch 121 disposed on the surface of the liquid adding housing 125, wherein the pump 124, the power supply 123, the circuit board 122 and the liquid adding switch 121 are electrically connected; the liquid adding shell 125 is further provided with a soap outlet slot 1251, and when the soap outlet main body 2 is inserted into the soap outlet slot 1251, the soap outlet main body 2 is attached to the liquid adding switch 121; the liquid adding switch 121 adopts a touch travel switch, a manual switch, an inductive switch, a timing switch or the like, and the protection scope of the invention is only required to provide a signal for the circuit board 122 to start the switch for electric work; when the soap discharging main body 2 is attached to the liquid adding switch 121, the liquid adding switch 121 receives a signal and can start liquid adding; a second air passing hole 1252 corresponding to the first air passing hole 231 is formed in the soap outlet slot 1251, and air enters the vent cavity 226 through the second air passing hole 1252 and the first air passing hole 231; the soap outlet 1251 is also communicated with the flow passage of the pump 124.

In this embodiment, the liquid storage tank 11 is disposed at one side of the liquid adding mechanism 12, the liquid storage tank 11 includes a liquid storage body 111 and a cover 112, the liquid storage body 111 has a second cavity and an opening penetrating through the second cavity, and the cover 112 is disposed on the opening; the liquid storage body 111 is communicated with a flow channel of the pump 124; when the cover 112 is opened, the liquid can be added from the opening and stored in the second cavity for the pump 124 to pump, and the liquid can be supplied to the liquid storage mechanism 22 through the soap outlet 1251 for standby.

Whether the liquid storage body 111 and the liquid feeding shell 125 are integrally arranged or separately arranged, the liquid can be supplied as long as the liquid storage body 111 and the pump 124 can be communicated; in this embodiment, the liquid storage body 111 and the liquid feeding housing 125 are integrally disposed.

Example two:

stock solution mechanism 22 is waterproof ventilative structure, set up a soap body 235 on the second through-hole 233, go out soap body 235 including the second step through-hole 2181 that upwards offers, stock solution chamber 222 that offers downwards and link up second step through-hole 2181 with the valve opening of stock solution chamber 222, the stock solution chamber is close to 1 one end of stock solution body is provided with a fourth check valve 221, be provided with a third check valve 219 on the valve opening, still be provided with a waterproof ventilated membrane 227 on going out soap body 235, liquid gets into the stock solution chamber and pass through waterproof ventilated membrane 227 will the gas outgoing in the stock solution intracavity only remains liquid storage in the stock solution intracavity. Other structures are the same as those of the first embodiment, and are not described herein again.

Example three:

the liquid discharge mechanism 21 may be a liquid discharge system, such as a nozzle direct-injection type, a push direct-injection type, a spray gun, a non-suction liquid ejection device, or the like. The liquid outlet mechanism 21 in the embodiment adopts a spray gun; the liquid storage body 111 and the liquid adding shell 125 are arranged in a split manner, and the liquid storage tank is a split type liquid storage tank 13; the liquid adding switch 121 is a manual ordinary switch, the soap outlet body 2 is inserted into the soap outlet slot 1251, and liquid adding can be carried out by manually pressing the liquid adding switch 121. Other structures are the same as the first embodiment and the second embodiment, or belong to the existing structures, and are not described herein again.

The working principle of the invention is briefly described as follows:

when the soap dispenser 2 is inserted into the soap dispenser socket 1251 and the liquid in the liquid storage chamber 222 is in a full storage state, a user needs to use the soap dispenser to pull the soap dispenser 2 out of the soap dispenser socket 1251 and press the pressing member 211, the pressing member 211 pushes the liquid outlet rod 210 to move down, the liquid passing hole 2102 enters the compressed liquid chamber 217, the second spring 215 is compressed at the same time, the gas in the compressed gas chamber 214 is pressed, the gas is discharged from the gap between the soap dispenser housing 23 and the pressing member 211, at this time, in order to balance the gas pressure between the compressed gas chamber 214 and the compressed liquid chamber 217, the gas in the compressed liquid chamber 217 is discharged from the liquid outlet hole 2111 through the liquid passing hole 2101, and the liquid in the liquid storage chamber 222 is drawn along the compressed liquid passing hole 217 to the liquid passing hole 2101, And is discharged from the liquid outlet hole 2111 for use by a user; when the user stops pressing the pressing piece 211, the liquid outlet rod 210 and the pressing piece 211 are pushed by the extending force of the second spring 215 to move upwards, the liquid passing hole 2102 moves upwards into the sealed cavity, and the liquid in the compressed liquid cavity 217 cannot pass through the liquid passing hole 2102, so that more liquid can be obtained through multiple operations; meanwhile, air enters the ventilation cavity 226 through two air passing holes, and the elastic force of the first spring 224 pushes the piston 223 to move upwards, so that the pressures on the upper side and the lower side of the piston 223 reach an equilibrium state; in the second embodiment, the liquid in the liquid storage chamber 222 flows to the compressed liquid chamber 217, and the gas enters the liquid storage chamber 222 from the waterproof and gas-permeable membrane 227, so that the internal and external pressures of the liquid storage chamber 222 are balanced.

After the user uses the soap dispenser, the soap dispenser 2 is inserted into the soap dispenser slot 1251, the liquid adding switch 121 is a touch travel switch, the soap discharging main body 2 can be jointed with the liquid adding switch 121, the priming switch 121 communicates a priming signal to the circuit board 122, the circuit board 122 activates the power supply 123 to operate the pump 124, the pump 124 pumps the liquid in the liquid storage body 111, flows from the soap outlet 1251 to the first stepped through hole to flow into the liquid storage cavity 222 for storage, the piston 223 is pushed by the liquid to move downwards, the air in the ventilation cavity 226 is discharged out of the soap discharging body 2 through the two air passing holes, when the first spring 224 is compressed to the shortest state, the reaction force of the first spring 224 and the hydraulic pressure in the reservoir chamber 222 make the pressures on both sides of the piston 223 in an equilibrium state; in the second embodiment, the gas in the liquid storage cavity 222 is pressed by the liquid added by the liquid adding mechanism 12 and is discharged out of the liquid storage cavity 222 from the waterproof and breathable membrane 227; at this time, no liquid is added into the reservoir 222 to indicate that the reservoir is full, the pump 124 continues to operate continuously to generate a large current, and when the current is too large, the pump 124 is powered off and stops operating. In another embodiment, the liquid adding switch 121 is a manual switch, and a user manually opens the liquid adding switch 121 to control the liquid adding mechanism 12 to add liquid into the liquid storage cavity 222, and manually closes the liquid adding switch 121 after the liquid is completely added, so that other same working principles are not described in detail.

The soap outlet main body 2 at the soap outlet end and the liquid storage main body 1 at the soap storage end are arranged in a split manner, and can be used without being connected by other auxiliary devices, so that the soap box is convenient for a user to use; a liquid storage mechanism 22 is arranged at the soap outlet end, and liquid is supplied by the liquid storage mechanism 22 when the soap dispenser is used; after the liquid in the liquid storage mechanism 22 is used up, the soap outlet main body 2 is inserted into the liquid adding mechanism 12, and then the liquid adding switch 121 is associated with the soap outlet main body 2 to control the liquid adding mechanism 12 to add liquid to the liquid storage mechanism 22, so that the liquid storage mechanism is simple, convenient and practical to operate.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

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