CN220256293U - Water tank mounting structure of water dispenser - Google Patents

Abstract

The utility model relates to a water tank mounting structure of a water dispenser, which is characterized by comprising a water dispenser body, a water tank, a side nesting structure and a lower nesting structure, wherein the side wall and the bottom of the water tank are detachably connected with the water dispenser body in a double nesting mode through the side nesting structure and the lower nesting structure respectively. The upper water tank and the water dispenser body are connected in a detachable and double-nested mode, the water tank can be limited on the water dispenser body very stably, so that the shaking amount of the water tank is very small when the water dispenser is moved, the probability of shifting, deforming and damaging a waterway butt joint structure between the water tank and the water dispenser body can be greatly reduced, the water dispenser can maintain good service performance for a long time, and the service life of the water dispenser is prolonged; the water tank is more convenient to move on the tabletop, so that a user can conveniently clean the tabletop.

Description

Water tank mounting structure of water dispenser

Technical Field

The utility model relates to the field of daily electrical appliances, in particular to a water tank structure of a water dispenser.

Background

The Chinese patent application number is: patent document CN202121838618.7 discloses a technical scheme named "clean drinking machine with detachable raw water tank", which comprises the following technical features: a main body of the water purifying and drinking machine and a raw water tank. The main body of the water purifying and drinking machine and the original water tank are in split design, and the original water tank is communicated with the main body of the water purifying and drinking machine in a butt joint way through an original concentrated water integrated pipe. When the clean drink machine main body and the original water tank are placed on the tabletop for use, the clean drink machine main body and the original water tank need to be moved when the tabletop is cleaned every time, special care is needed in the moving process, so that the clean drink machine main body or the original water tank is not pulled by the original concentrated water integrated pipe, and the convenience of tabletop cleaning is greatly affected. Even if only the main body of the water purifier is placed on the table top, the original concentrated water integrated pipe can prevent the table top from being cleaned.

Although a water purifying machine for placing the original water tank on the water purifying machine main body exists, most of the existing water purifying machines only have the side wall of the original water tank clamped on the side wall of the water purifying machine main body to realize limit, and the limit effect of the limit structure is limited. When the clean drink machine is moved, the original water tank is easy to shake greatly on the main body of the clean drink machine, so that the moving convenience of the clean drink machine can be influenced, the waterway butt joint structure between the original water tank and the main body of the clean drink machine is also easy to influence, the waterway butt joint structure is caused to displace, deform, damage and the like, and the usability of the clean drink machine is easy to reduce and the service life is shortened.

Therefore, it is necessary to redesign the water tank installation structure of the water dispenser.

Disclosure of Invention

The utility model aims to solve the problems and the defects, and provides a water tank mounting structure of a water dispenser, wherein a water tank and a water dispenser body are detachably connected in a double-nested way, so that the water tank can be extremely stably limited on the water dispenser body, and the shaking amount of the water tank is extremely small when the water dispenser is moved, so that the probability of displacement, deformation and damage of a waterway butt joint structure between the water tank and the water dispenser body can be greatly reduced, the service performance of the water dispenser can be kept well for a long time, and the service life of the water dispenser can be prolonged; the water tank is more convenient to move on the tabletop, so that a user can conveniently clean the tabletop.

The technical scheme of the utility model is realized as follows:

the utility model provides a water tank mounting structure of water dispenser, its characteristics are including water dispenser organism, water tank, side nested structure, lower nested structure, and wherein the lateral wall and the bottom of water tank are respectively through side nested structure, lower nested structure and the two nested connection that can dismantle of water dispenser organism realization.

Preferably, the water dispenser body comprises a main body part and a seat body part, wherein the seat body part is arranged on the side wall of the main body part, the side wall of the water tank is connected with the main body part in a detachable double-nested mode through a side nested structure, and the bottom of the water tank is connected with the main body part in a detachable double-nested mode through a lower nested structure.

Preferably, the main body part or the seat body part is provided with a raw water inlet, the main body part or the seat body part is provided with a waste water outlet, and the water tank is respectively provided with a raw water cavity and a waste water cavity, and the raw water cavity and the waste water cavity are respectively communicated with the raw water inlet and the waste water outlet in a butt joint way.

Preferably, the raw water inlet is formed in the top surface of the seat body, a first top-mounted part is arranged in the raw water inlet, a first top-pressure water passing component is arranged on the bottom surface of the water tank and is in butt joint communication with the raw water cavity, the first top-pressure water passing component is inserted in the raw water inlet in a sealing manner, and the first top-pressure water passing component and the first top-mounted part are opened after being mutually pressed.

Preferably, the first top pressure type water passing component comprises a first plug-in mounting column, a first diversion hole and a first elastic sealing component, wherein the first plug-in mounting column is vertically arranged on the bottom surface of the water tank, the first diversion hole is formed in the end surface of the lower end of the first plug-in mounting column and is communicated with the raw water cavity in a butt joint mode, the first elastic sealing component is arranged on the first diversion hole in a sealing mode, the first plug-in mounting column is inserted in the raw water inlet in a sealing mode, and the first elastic sealing component and the first top mounting component are mutually pressed in a propping mode, and then the first diversion hole is opened.

Preferably, the waste water outlet is formed in the top surface of the seat body, a second top-mounted part is arranged in the waste water outlet, a second top-pressure water passing component is arranged on the bottom surface of the water tank and is in butt joint communication with the waste water cavity, the second top-pressure water passing component is sealed and inserted in the waste water outlet, and the second top-pressure water passing component and the second top-mounted part are opened after being mutually pressed.

Preferably, the second top pressure type water passing component comprises a second plug-in mounting column, a second diversion hole and a second elastic sealing component, the second plug-in mounting column is vertically arranged on the bottom surface of the water tank, the second diversion hole is formed in the lower end face of the second plug-in mounting column and is communicated with the waste water cavity in a butt joint mode, the second elastic sealing component is arranged on the second diversion hole in a sealing mode, the second plug-in mounting column is inserted in the waste water outlet in a sealing mode, and the second elastic sealing component and the second top mounting component are mutually pressed in a propping mode to open the second diversion hole.

Preferably, the side nesting structure comprises a limiting convex hook and a hanging sleeve groove, wherein the limiting convex hook is arranged on the side wall of the main body part, the hanging sleeve groove is formed in the side wall of the water tank, and the hanging sleeve groove is hung and sleeved on the limiting convex hook.

Preferably, the lower nesting structure comprises nesting convex parts and nesting grooves, wherein the nesting convex parts are arranged on the bottom surface of the water tank, the nesting grooves are formed in the top surface of the base body, and the nesting convex parts are nested in the nesting grooves.

Preferably, a lifting sensing device is arranged between the water tank and the seat body.

The utility model has the beneficial effects that: on the water tank mounting structure, the side wall and the bottom of the water tank are respectively connected with the water dispenser body in a detachable double-nested mode through a side nested structure and a lower nested structure. The water tank can be limited on the water dispenser body extremely stably, so that the shaking amount of the water tank is extremely small when the water dispenser is moved, the probability of shifting, deforming and damaging a waterway butt joint structure between the water tank and the water dispenser body can be greatly reduced, and the water dispenser can maintain good service performance for a long time and prolong the service life of the water dispenser. When the water dispenser with the water tank mounting structure is used on the desktop, the water tank and the water dispenser body can be conveniently and rapidly moved at the same time, and the water dispenser is very convenient to move on the desktop, so that a user can conveniently clean the desktop.

Drawings

Fig. 1 is a schematic perspective view of a water tank installation structure of the present utility model.

Fig. 2 is a schematic diagram of a split structure of the water tank installation structure of the present utility model.

FIG. 3 is a schematic illustration of a partial water tank installation structure of the present utility model in a cut-away state.

FIG. 4 is a second schematic view of a part of the water tank installation structure of the present utility model in a cut-away state.

Fig. 5 is a schematic perspective view of a body of a drinking machine according to the present utility model.

FIG. 6 is a schematic view showing a split structure of a drinking machine according to the present utility model.

FIG. 7 is a second schematic view of a water dispenser according to the present utility model in a split state.

Fig. 8 is a schematic diagram showing a water tank in a cut-away state.

Fig. 9 is a second schematic diagram of the water tank in the cut-away state of the present utility model.

Fig. 10 is a third schematic view of the water tank in the cut-away state of the present utility model.

Fig. 11 is a schematic view showing a water tank in a cut-away state.

Fig. 12 is a schematic view showing a disassembled structure of the first elastic sealing assembly according to the present utility model.

Fig. 13 is a schematic diagram showing a disassembled structure of the second elastic sealing assembly according to the present utility model.

Fig. 14 is a schematic perspective view showing a use state of the present utility model.

Detailed Description

As shown in fig. 1 and 2, the water tank installation structure of the water dispenser of the utility model comprises a water dispenser body 1, a water tank 2, a side nested structure 3 and a lower nested structure 4, wherein the side wall and the bottom of the water tank 2 are detachably connected with the water dispenser body 1 in a double nested manner through the side nested structure 3 and the lower nested structure 4 respectively.

In the water tank installation structure, the side wall and the bottom of the water tank 2 are respectively connected with the water dispenser body 1 in a detachable double-nested mode through the side nested structure 3 and the lower nested structure 4. This not only can satisfy the demand of taking water tank 2 alone and receiving water and cleaning water tank 2 alone, can also extremely steadily inject water tank 2 on water dispenser organism 1 to can be when moving the water dispenser, make the quantity of rocking of water tank 2 minimum, this can greatly reduced water route butt joint structure between water tank 2 and the water dispenser organism 1 appears shifting, warp, the probability of damage, and then can make the water dispenser keep good performance for a long time and make the life extension of water dispenser. When the water dispenser with the water tank mounting structure is used on the desktop, the water tank 2 and the water dispenser body 1 can be conveniently and rapidly moved at the same time, and the water dispenser is very convenient to move on the desktop, so that a user can conveniently clean the desktop.

As shown in fig. 1 and 2, the water dispenser body 1 includes a main body 11 and a base 12, the base 12 is disposed on a side wall of the main body 11, detachable dual-nested connection is implemented between the side wall of the water tank 2 and the main body 11 through the side nested structure 3, and detachable dual-nested connection is implemented between the bottom of the water tank 2 and the main body 11 through the lower nested structure 4. The water dispenser body 1 is quite simple and reliable, which is not only beneficial to the manufacture of the water dispenser body 1, but also ensures that the limit function of the water dispenser body 1 to the water tank 2 is quite stable and reliable, thereby being beneficial to further improving the reliability and applicability of the water tank installation structure.

As shown in fig. 3 to 11, the main body 11 or the base 12 is provided with a raw water inlet 121, the main body 11 or the base 12 is provided with a waste water outlet 122, the water tank 2 is provided with a raw water chamber 21 and a waste water chamber 22, and the raw water chamber 21 and the waste water chamber 22 are respectively in butt joint communication with the raw water inlet 121 and the waste water outlet 122. Thus, the raw water and the waste water are both positioned on the same water tank, and the waste water can be poured out and the raw water cavity can be cleaned by disassembling the water tank 2 once, which is helpful for improving the convenience of cleaning and maintenance.

As shown in fig. 2, 4, 7, and 9 to 11, the raw water inlet 121 is formed on the top surface of the seat 12, a first top-mounted member 123 is disposed in the raw water inlet 121, a first top-pressure water passing component 5 is disposed on the bottom surface of the water tank 2, and is in butt-joint communication with the raw water cavity 21, and the first top-pressure water passing component 5 is sealingly inserted into the raw water inlet 121, and the first top-pressure water passing component 5 and the first top-mounted member 123 are opened after being mutually pressed. The water tank installation structure is more beneficial to guiding out raw water, and can ensure the comprehensiveness and smoothness of raw water guiding out, so that the water tank installation structure is better in service performance. The purpose of hiding the first top pressure type water passing component 5 and the raw water inlet 121 can be achieved well, the appearance of the water dispenser is coordinated and beneficial to use, and the water dispenser has high sanitation. Through the mutual cooperation of the first roof pressure formula water passing component 5 and the first roof-mounted part 123, can play the self-sealing effect when lifting the water tank 2, can conveniently pass through water like this, can avoid the water leakage on the water dispenser organism 1 again, this can not only improve the convenience of use, can also improve the reliability of this water tank mounting structure.

As shown in fig. 4 and 9, the first top-pressure water-passing assembly 5 includes a first plug-in column 51, a first guide hole 52, and a first elastic sealing assembly 53, where the first plug-in column 51 is vertically disposed on the bottom surface of the water tank 2, the first guide hole 52 is disposed on the lower end surface of the first plug-in column 51, and enables the first guide hole 52 to be in butt-joint with the raw water cavity 21, the first elastic sealing assembly 53 is sealingly disposed on the first guide hole 52, and the first plug-in column 51 is sealingly plugged in the raw water inlet 121, and the first elastic sealing assembly 53 and the first top-mounting member 123 are mutually pressed to open the first guide hole 52. Such a first top pressure type water passing component 5 has very high reliability, which not only can stably realize the downward pressure water passing, but also can automatically realize the sealing effect after losing the downward pressure effect, thereby being beneficial to further improving the reliability and the applicability of the water tank installation structure.

As shown in fig. 9 and 12, the first diversion hole 52 is a countersunk hole with a small upper end and a large lower end, the first elastic sealing assembly 53 includes a first shaft 531, a first spring 532, and a first seal 533, the first shaft 531 is a stepped shaft with a large end and a small other end, the first spring 532 is vertically disposed at the bottom of the large hole of the first diversion hole 52, the small end of the first shaft 531 sequentially passes through the small holes of the first spring 532 and the first diversion hole 52, and then is disposed in the raw water cavity 21, and the large end of the first shaft 531 is pressed against the lower end of the first spring 532, the first seal 533 is disposed in the raw water cavity 21, and the first seal 533 is connected with the small end of the first shaft 531, and further the first seal 533 is sealed and disposed on the upper hole of the first diversion hole 52. Such first elastic sealing component 53 not only can play very stable, reliable seal the effect, can also satisfy the demand that the roof pressure was opened very well, and when first elastic sealing component 53 received the roof pressure, first elastic sealing component 53 can realize sealing the effect voluntarily to help further improving the reliability and the suitability of this water tank mounting structure.

As shown in fig. 3 and fig. 7, the first top-setting member 123 is of a pipe structure, the inner hole of the first top-setting member 123 forms a first water guiding hole 1231, and the raw water channel 1211 inside the raw water inlet 121 is located on the inner wall of the first water guiding hole 1231, the first water guiding hole 1231 is of a hole structure with a small hole opening and a large hole opening, the first water guiding hole 1231 is provided with a first rod body 1232 capable of moving vertically, a first sealing ring 1233 is sleeved on the middle part of the first rod body 1232, a first elastic member 1234 is arranged in the first water guiding hole 1231, and the first elastic member 1234 elastically acts on the first rod body 1232 upwards, so that the upper end of the first rod body 1232 is ejected out of the first water guiding hole 1231 through the first elastic member 1234, and the first sealing ring 1233 is compressed on the hole opening of the raw water inlet 121. This achieves the purpose of automatically sealing the raw water passage 1211 to avoid the occurrence of water bleeding of the raw water inlet 121 when the water tank 2 is lifted, which contributes to further improving the reliability and applicability of the water tank installation structure.

As shown in fig. 7, the first elastic member 1234 is a coil spring, and the first elastic member 1234 is sleeved on the first rod 1232. Such first elastic member 1234 can provide very stable, reliable elasticity to can guarantee that the removal of first overhead piece 123 is very stable, accurate, and then can further improve the reliability and the suitability of this water tank mounting structure.

As shown in fig. 7 and 9, when the water tank 2 is lifted, the first elastic sealing assembly 53 seals the orifice of the first diversion hole 52 under the elastic force of the first spring 532, and the first sealing ring 1233 seals the first diversion hole 1231 under the elastic force of the first elastic member 1234. Therefore, water leakage can be avoided, and the actual use requirement can be met well.

As shown in fig. 4 and 12, in the actual manufacturing process, the large end of the first shaft 531 adopts a wheel-shaped structure, so as to form a plurality of first water holes 5311 penetrating axially on the large end of the first shaft 531, and the first water holes 5311 are in butt-joint communication with the first water guiding holes 1231. This not only can satisfy the demand of leading to water very well, can also guarantee that the main aspects of first axis body 531 have high structural strength to help further improving the reliability and the suitability of this water tank mounting structure.

As shown in fig. 4, the lower end surface of the first shaft 531 presses down on the first rod 1232. This satisfies the need to open the first water guide hole 1231.

As shown in fig. 2, 3, 5, 6, 8, 10 and 11, the waste water outlet 122 is formed on the top surface of the seat 12, a second top-mounted member 124 is disposed in the waste water outlet 122, a second top-pressure water passing component 6 is disposed on the bottom surface of the water tank 2, and is in butt-joint communication with the waste water chamber 22, and the second top-pressure water passing component 6 is sealingly inserted into the waste water outlet 122, and is opened after the second top-pressure water passing component 6 and the second top-mounted member 124 are mutually pressed. Therefore, the purpose of hiding the waste water leading-in structure can be achieved, the appearance of the water dispenser can be coordinated and beneficial to use, and the water dispenser has high sanitation. Through the mutual cooperation of the second roof pressure formula water passing component 6 and the second roof-mounted part 124, the effect of automatic sealing can be played when the water tank 2 is lifted, so that water can be conveniently passed through, water leakage can be avoided on the water dispenser body 1, the convenience of use can be improved, and the reliability of the water tank mounting structure can be improved.

As shown in fig. 3 and 8, the second top-pressing water-passing assembly 6 includes a second plug-in mounting post 61, a second guide hole 62, and a second elastic sealing assembly 63, where the second plug-in mounting post 61 is vertically disposed on the bottom surface of the water tank 2, the second guide hole 62 is opened on the lower end surface of the second plug-in mounting post 61, and the second guide hole 62 is in butt-joint communication with the waste water chamber 22, the second elastic sealing assembly 63 is sealingly disposed on the second guide hole 62, the second plug-in mounting post 61 is sealingly inserted in the waste water outlet 122, and the second elastic sealing assembly 63 and the second top-mounting member 124 are mutually pressed to open the second guide hole 62. Such second roof pressure formula water service assembly 6 has very high reliability, and this not only can realize pushing down the water service steadily, can also realize confined effect voluntarily after losing pushing down the effect to help further improving the reliability and the suitability of this water tank mounting structure.

As shown in fig. 9 and 13, the second diversion hole 62 is a countersunk hole with a small upper end and a large lower end, the second elastic sealing assembly 63 includes a second shaft body 631, a second spring 632, and a second sealing member 633, the second shaft body 631 is a stepped shaft with a large end and a small other end, the second spring 632 is vertically disposed at the bottom of the large hole of the second diversion hole 62, the small end of the second shaft body 631 sequentially passes through the small holes of the second spring 632 and the second diversion hole 62 and then is disposed in the waste water cavity 22, the large end of the second shaft body 631 is pressed against the lower end of the second spring 632, the second sealing member 633 is disposed in the waste water cavity 22, the second sealing member 633 is connected with the small end of the second shaft body 631, and the second sealing member 633 is sealed and disposed on the upper hole of the second diversion hole 62. Such second elastic sealing component 63 not only can play very stable, reliable seal the effect, can also satisfy the demand that the roof pressure was opened very well, and when second elastic sealing component 63 received the roof pressure, second elastic sealing component 63 can realize sealing the effect voluntarily to help further improving the reliability and the suitability of this water tank mounting structure.

As shown in fig. 6, the second top-setting member 124 is of a pipe structure, the inner hole of the second top-setting member 124 forms a second water guiding hole 1241, and the waste water channel 1221 inside the waste water outlet 122 is located on the wall of the second water guiding hole 1241, the second water guiding hole 1241 is of a hole structure with a small hole opening and a large hole opening, a second rod body 1242 capable of moving vertically is disposed in the second water guiding hole 1241, a second sealing ring 1243 is sleeved on the middle portion of the second rod body 1242, a second elastic member 1244 is disposed in the second water guiding hole 1241, and the second elastic member 1244 elastically acts on the second rod body 1242 upward, so that the upper end of the second rod body 1242 is ejected out of the second water guiding hole 1241 through the second elastic member 1244, and the second sealing ring 1243 is pressed on the hole opening of the waste water outlet 122. This achieves the purpose of automatically sealing the waste water passage 1221 to avoid the occurrence of water bleeding from the waste water outlet 122 when the water tank 2 is lifted, which contributes to further improvement in the reliability and applicability of the tank mounting structure.

As shown in fig. 6, the second elastic member 1244 is a coil spring, and the second elastic member 1244 is sleeved on the second rod 1242. Such a second elastic member 1244 can provide a very stable and reliable elastic force, so that the movement of the second overhead member 124 can be guaranteed to be very stable and accurate, and the reliability and applicability of the water tank installation structure can be further improved.

As shown in fig. 6 and 8, when the water tank 2 is lifted, the second elastic sealing assembly 63 seals the orifice of the second diversion hole 62 under the action of the elastic force of the second spring 632, and the second sealing ring 1243 seals the second diversion hole 1241 under the action of the elastic force of the second elastic member 1244. Therefore, water leakage can be avoided, and the actual use requirement can be met well.

As shown in fig. 3 and 13, in the actual manufacturing process, the large end of the second shaft body 631 adopts a wheel-shaped structure, so as to form a plurality of second water through holes 6311 penetrating axially on the large end of the second shaft body 631, where the second water through holes 6311 are in butt joint communication with the second water guiding holes 1241. This not only can satisfy the demand of leading to water very well, can also guarantee that the main aspects of second shaft body 631 have high structural strength to help further improving the reliability and the suitability of this water tank mounting structure.

As shown in fig. 3, the lower end surface of the second shaft body 631 is pressed downward against the second rod body 1242. This satisfies the need to open the second water guide hole 1241.

As shown in fig. 1 to 3 and 5, the side nesting structure 3 includes a limiting protruding hook 31 and a hanging sleeve groove 32, the limiting protruding hook 31 is disposed on a side wall of the main body 11, the hanging sleeve groove 32 is formed on a side wall of the water tank 2, and the hanging sleeve groove 32 is hung and sleeved on the limiting protruding hook 31. The side nested structure 3 is quite simple and reliable, which is not only beneficial to manufacture, but also enables the side nested structure 3 to have quite high reliability, thereby playing a quite stable and reliable limiting role on the side part of the water tank 2 and further ensuring that the water tank installation structure has quite high reliability.

As shown in fig. 2 and 3, the lower end of the hanging groove 32 penetrates through the bottom surface of the water tank 2, and the hanging groove 32 has an inverted V-shaped structure. Therefore, the hanging sleeve groove 32 can be hung and sleeved on the limiting convex hook 31, and the convenience of installation and positioning can be improved.

As shown in fig. 1 to 5, the lower nesting structure 4 includes a nesting protrusion 41 and a nesting groove 42, the nesting protrusion 41 is provided on the bottom surface of the tank 2, the nesting groove 42 is provided on the top surface of the seat body 12, and the nesting protrusion 41 is nested in the nesting groove 42. The lower nested structure 4 is quite simple and reliable, which is not only beneficial to manufacturing, but also enables the lower nested structure 4 to have quite high reliability, so that a quite stable and reliable limiting effect can be achieved on the side part of the water tank 2, and further the quite high reliability of the water tank mounting structure can be ensured.

As shown in fig. 2 and 5, the nesting groove 42 is formed in a C shape along the outer edge of the top surface of the base 12, and the nesting protrusion 41 is formed along the edge of the bottom surface of the water tank 2, so that the nesting protrusion 41 matches with the nesting groove 42. Therefore, the nesting convex part 41 can be conveniently embedded in the nesting groove 42, and a very stable and reliable limiting effect can be achieved, so that the reliability of the water tank mounting structure can be further improved.

As shown in fig. 1, a lifting sensing device 7 is disposed between the water tank 2 and the seat 12. Through the setting of mentioning induction system 7, can be convenient for realize coordinated control and safety protection's purpose to can be convenient for improve the variety of this water tank mounting structure control, and then help further improving the suitability of water dispenser.

As shown in fig. 1 and 2, the lift sensing device 7 includes a first magnetic switch 71 and a magnet block 72, the first magnetic switch 71 is disposed on the base 12, the magnet block 72 is disposed on the water tank 2, and the magnet block 72 is disposed corresponding to the first magnetic switch 71. This enables the lifting sensing device 7 to have a simple and reliable structure, thereby facilitating accurate and stable realization of the lifting sensing function, and further facilitating further improvement of the reliability and applicability of the tank mounting structure.

As shown in fig. 3, the bottom surface of the water tank 2 is provided with an insertion groove 201, and the magnet block 72 is inserted into the insertion groove 201. The first magnetically controlled switch 71 is disposed within the housing 12. This enables the magnet block 72 and the first magnetic switch 71 to accurately perform the related actions, thereby contributing to the improvement of the reliability of the tank mounting structure.

In the actual use process, the first magnetic control switch 71 is a normally open magnetic control switch, and the first magnetic control switch 71 is connected in series on a water outlet control circuit of the water dispenser; when the magnet block 72 approaches the first magnetic control switch 71, the first magnetic control switch 71 is closed; when the magnet block 72 is far away from the first magnetic switch 71, the first magnetic switch 71 is turned off. Thus, when the water tank 2 is lifted, the water outlet control circuit can be disconnected to avoid accidental water outlet, thereby contributing to the improvement of the use safety.

As shown in fig. 10 and 11, a partition plate 231 is disposed at the bottom middle of the inner cavity 23 of the water tank 2, the height of the partition plate 231 is less than half of the depth of the inner cavity 23 of the water tank 2, and the partition plate 231 partitions the inner cavity 23 to form an original water cavity 21 and a waste water cavity 22. This not only enables the water tank 2 to have a very simple structure, but also facilitates the storage of raw water and waste water, and greatly improves the convenience of cleaning the waste water chamber 22 of the raw water chamber 21.

As shown in fig. 2, the opening of the inner cavity 23 is covered with an openable shielding cover 24, and the shielding cover 24 can cover the raw water cavity 21 and the waste water cavity 22 at the same time. Thus ensuring very sanitary use.

As shown in fig. 1, 2, 10 and 11, the base 12 is provided with a second magnetic switch 125, the bottom of the raw water cavity 21 is provided with a vertical guiding and limiting portion 211, and the vertical guiding and limiting portion 211 is provided with a magnetic floating block 212, so that the magnetic floating block 212 is located right above the second magnetic switch 125. Therefore, the water level monitoring device has a very good water level monitoring function so as to prompt a user to store water in time, and dry burning can be avoided.

The magnetic levitation block 212 is composed of a hollow plastic capsule and a magnet block disposed on an outer wall or an inner wall of the hollow plastic capsule. The hollow plastic capsule can provide buoyancy, and the magnet block can generate magnetic force, so that the requirement of actual use can be met.

In the actual use process, the second magnetic control switch 125 adopts a normally open magnetic control switch, and the second magnetic control switch 125 is connected in series on a circuit loop with a light prompt component or/and a sound prompt component; when the magnetic levitation block 212 approaches the second magnetic control switch 125 along with the water level decrease, the second magnetic control switch 125 is closed under the condition that the raw water in the raw water cavity 21 is discharged or less, so that the light prompt or/and sound prompt purpose can be realized; when the magnetic levitation block 212 is far from the second magnetic switch 125, the second magnetic switch 125 is turned off. Therefore, the water shortage reminding device can play a very accurate role in reminding water shortage, and is helpful for improving the use safety.

As shown in fig. 10 and 11, the vertical guiding and limiting portion 211 is a vertical cylinder, a blocking cover 213 is covered on an upper port of the vertical guiding and limiting portion 211, at least one water through hole 214 extending vertically is formed in a side wall of the vertical guiding and limiting portion 211, a plurality of raised strips 215 extending vertically are formed on an inner wall of the vertical guiding and limiting portion 211, each raised strip 215 is arranged around a vertical center line of the vertical guiding and limiting portion 211, and the magnetic floating block 212 is arranged in an inner hole of the vertical guiding and limiting portion 211. By making the vertical guide limiting portion 211 a vertical cylinder, this can play an extremely stable and reliable limiting role on the magnetic floating block 212. By the arrangement of the raised strips 215, the contact area of the magnetic levitation block 212 can be reduced, so that the resistance to the vertical movement of the magnetic levitation block 212 can be reduced, and the vertical movement of the magnetic levitation block 212 can be smoother. Such vertical direction spacing portion 211 can play very stable, reliable spacing effect to magnetic levitation piece 212 to can guarantee that magnetic levitation piece 212 can realize vertical movement very steadily, and then help further improving the accuracy of water level monitoring.

As shown in fig. 14, in the actual manufacturing process, the seat 12 is positioned on the rear wall of the main body 11, which can prevent the water tank 2 from affecting the operation of the water dispenser.

Claims (10)

1. A water tank mounting structure of a water dispenser is characterized in that: the water dispenser comprises a water dispenser body (1), a water tank (2), a side nesting structure (3) and a lower nesting structure (4), wherein the side wall and the bottom of the water tank (2) are connected with the water dispenser body (1) in a detachable double nesting mode through the side nesting structure (3) and the lower nesting structure (4) respectively.

2. The water tank mounting structure of a water dispenser according to claim 1, wherein: the water dispenser body (1) comprises a main body part (11) and a seat body part (12), wherein the seat body part (12) is arranged on the side wall of the main body part (11), the side wall of the water tank (2) is connected with the main body part (11) through a side nested structure (3) in a detachable double nested mode, and the bottom of the water tank (2) is connected with the main body part (11) through a lower nested structure (4) in a detachable double nested mode.

3. The water tank mounting structure of a water dispenser according to claim 2, wherein: the water tank is characterized in that a raw water inlet (121) is formed in the main body part (11) or the base body part (12), a waste water outlet (122) is formed in the main body part (11) or the base body part (12), a raw water cavity (21) and a waste water cavity (22) are formed in the water tank (2) respectively, and the raw water cavity (21) and the waste water cavity (22) are communicated with the raw water inlet (121) and the waste water outlet (122) in a butt joint mode respectively.

4. A water tank mounting structure of a water dispenser according to claim 3, wherein: the raw water inlet (121) is formed in the top surface of the base body (12), a first jacking piece (123) is arranged in the raw water inlet (121), a first jacking type water passing component (5) is arranged on the bottom surface of the water tank (2), the first jacking type water passing component (5) is communicated with the raw water cavity (21) in a butt joint mode, the first jacking type water passing component (5) is inserted in the raw water inlet (121) in a sealing mode, and the first jacking type water passing component (5) and the first jacking piece (123) are opened after being mutually jacked.

5. The water tank mounting structure of a water dispenser according to claim 4, wherein: the first top pressure type water passing component (5) comprises a first inserting column (51), a first guide hole (52) and a first elastic sealing component (53), wherein the first inserting column (51) is vertically arranged on the bottom surface of the water tank (2), the first guide hole (52) is formed in the lower end face of the first inserting column (51) and is communicated with the raw water cavity (21) in a butt joint mode, the first elastic sealing component (53) is arranged on the first guide hole (52) in a sealing mode, the first inserting column (51) is inserted in the raw water inlet (121) in a sealing mode, and the first elastic sealing component (53) and the first top-mounted component (123) are pressed against each other to open the first guide hole (52).

6. A water tank mounting structure of a water dispenser according to claim 3, wherein: the waste water outlet (122) is formed in the top surface of the base body (12), a second jacking piece (124) is arranged in the waste water outlet (122), a second jacking type water passing component (6) is arranged on the bottom surface of the water tank (2), the second jacking type water passing component (6) is communicated with the waste water cavity (22) in a butt joint mode, the second jacking type water passing component (6) is inserted in the waste water outlet (122) in a sealing mode, and the second jacking type water passing component (6) and the second jacking piece (124) are opened after being jacked mutually.

7. The water tank mounting structure of a water dispenser as claimed in claim 6, wherein: the second top pressure formula water passing component (6) includes second cartridge post (61), second water conservancy diversion hole (62), second elastic sealing component (63), second cartridge post (61) vertical setting is on the bottom surface of water tank (2), second water conservancy diversion hole (62) are seted up on the lower extreme terminal surface of second cartridge post (61) to make second water conservancy diversion hole (62) and waste water chamber (22) butt joint intercommunication, second elastic sealing component (63) seal set up on second water conservancy diversion hole (62), sealed cartridge of second cartridge post (61) is in waste water export (122), second water conservancy diversion hole (62) are opened after second elastic sealing component (63) and second overhead piece (124) are mutually pushed up.

8. The water tank mounting structure of a water dispenser according to any one of claims 2 to 7, wherein: the side nested structure (3) comprises a limiting convex hook (31) and a hanging sleeve groove (32), wherein the limiting convex hook (31) is arranged on the side wall of the main body part (11), the hanging sleeve groove (32) is formed in the side wall of the water tank (2), and the hanging sleeve groove (32) is hung and sleeved on the limiting convex hook (31).

9. The water tank mounting structure of a water dispenser according to any one of claims 2 to 7, wherein: the lower nesting structure (4) comprises nesting convex parts (41) and nesting grooves (42), wherein the nesting convex parts (41) are arranged on the bottom surface of the water tank (2), the nesting grooves (42) are formed in the top surface of the seat body (12), and the nesting convex parts (41) are nested in the nesting grooves (42).

10. The water tank mounting structure of a water dispenser according to any one of claims 2 to 7, wherein: a lifting induction device (7) is arranged between the water tank (2) and the seat body (12).