CN209951057U - Water dispenser capable of damping - Google Patents

Abstract

A shock-absorbing water dispenser comprising: a water reservoir, the water reservoir comprising: water tank, adapter, shunt, outer blotter and interior blotter, the water tank has: outer layer board and inner holding board, outer layer board is closer to the lateral wall of water tank than inner holding board, and the shunt has: the plug, the cross ejector rod, the flow dividing channel and the flow dividing plate are sequentially fixed, the flow dividing plate surrounds the side face of the flow dividing channel, the cross ejector rod is inserted into the adapter, the outer cushion pad is located between the flow dividing plate and the outer supporting plate, and the inner cushion pad is located between the flow dividing plate and the inner supporting plate. The water dispenser not only can play a role in buffering and damping during the installation of the barreled water, but also does not need to be provided with complex mechanical structures such as a motor, a gear and the like, does not have the problem of oxidation or deformation, and has the advantages of simple structure, lower cost and long service life.

Description

Water dispenser capable of damping

Technical Field

The utility model relates to the field of water dispensers, in particular to a water dispenser capable of damping.

Background

The drinking machine is a device which heats or cools the barreled purified water (or mineral water) and is convenient for people to drink. The barreled water is placed above the machine and is matched with the barreled water for use. The existing water dispenser often needs to be pushed down by large force to open the barrel cover in the installation process of the barreled water, so that the operation not only causes inconvenience in installation, but also easily causes the deviation and even damage of the adapter of the water dispenser.

Chinese patent CN108552954A discloses a water dispenser for preventing water purification bucket from rocking, the box top of this water dispenser is equipped with places the mouth, place the mouth with prevent rocking device swing joint, place a mouthful below and be equipped with the top-open ware, the top-open ware passes through the connecting plate to be fixed inside the box, place and be connected with the internal thread cover on the mouth, the cooperation through external thread cover and internal thread cover comes to realize the at the uniform velocity decline to water purification bucket, reduce the impact that direct whereabouts produced, effectively cushion, the reduction rocks. However, the anti-shaking device of the water dispenser is too complex in structure, the assembly difficulty of the water dispenser is increased, and the manufacturing cost is also increased.

Chinese patent CN108577546A discloses a multifunctional water dispenser, this multifunctional water dispenser passes through shrinkage pool and thimble swing joint that fixed sleeve upper end set up, at the in-process of user installation bottled water, along with the extrusion of bottled water, the thimble can be submerged in the shrinkage pool gradually, simultaneously the damping spring of thimble surface is along with continuous compressed, the produced elasticity of self is big more, prevent that the thimble from submerging in the shrinkage pool, when the interface of bottled water is punctured to the thimble, the thimble can move out from the shrinkage pool under the damping spring's of compressed effect, reset again, thereby play a fine cushioning effect. However, the damping spring of the water dispenser is easy to generate oxidation phenomenon in the using process, and the spring is easy to deform too much and cannot be recovered due to overlarge acting force, so that the service life of the water dispenser is shortened.

Aiming at the defects of the prior art, the water dispenser which can achieve the damping effect, is convenient for a user to install barreled water, and has simple structure and long service life is necessarily designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses technical scheme is to above-mentioned condition, but provides a absorbing water dispenser in order to solve above-mentioned problem, the water dispenser includes: a housing, a cold water outlet, a hot water outlet, a reservoir and a heating tank, the cold water outlet, the hot water outlet and the overflow chamber being located outside the housing, the reservoir and the heating tank being located inside the housing, the reservoir comprising: a water tank, an adapter, a diverter, an outer cushion and an inner cushion, the water tank having: the water tank comprises a cold water channel, a hot water channel, an outer supporting plate and an inner supporting plate, wherein the cold water channel and the hot water channel are both protruded downwards from the bottom wall of the water tank, the outer supporting plate is closer to the side wall of the water tank than the inner supporting plate, the cold water channel is communicated with a cold water outlet, and the hot water channel is communicated with a hot water outlet; the flow divider has: the device comprises a top head, a cross ejector rod, a flow distribution channel and a flow distribution plate, wherein the top head, the cross ejector rod and the flow distribution channel are sequentially fixed, and the flow distribution plate is surrounded on the side surface of the flow distribution channel; the cross ejector rod is inserted into the adapter, the flow distribution channel is communicated with the hot water channel, the outer cushion pad is positioned between the flow distribution plate and the outer supporting plate, and the inner cushion pad is positioned between the flow distribution plate and the inner supporting plate.

Further, the outer surface of the inner buffer pad is provided with three outer grooves, and the inner surface of the inner buffer pad is provided with three inner grooves; the outer cushion has an outer groove on an outer surface and an inner groove on an inner surface.

Furthermore, the lower surface of the flow distribution plate is provided with four supporting ribs which are arranged in a circumferential array mode, and the outer ends of the supporting ribs are abutted with the inner surface of the inner cushion pad.

Further, the water dispenser still includes: an overflow chamber formed of a transparent material, the water tank having: the overflow channel protrudes outwards from the side wall of the water tank, the overflow channel is communicated with the overflow chamber, and the overflow channel is closer to the upper end of the water tank than the outer supporting plate.

Further, the water reservoir further comprises: a plastic ring is arranged on the upper surface of the plastic ring,

further, the water reservoir further comprises: tray, position circle and cavernosum, the position circle passes the cavernosum with the tray, the cross ejector pin passes the position circle, the cavernosum with the tray all is located in the adapter, the cavernosum is located the tray with between the flow distribution plate.

Further, the side of position circle has last constant head tank and lower constant head tank, the cavernosum embedding in last constant head tank, the opening embedding of adapter lower extreme in the constant head tank down.

Further, the water reservoir further comprises: the side of the flow channel is provided with a sealing groove, the sealing ring is embedded in the sealing groove, and the sealing ring is abutted to the inner surface of the hot water channel.

Further, the inside of the hot water channel is provided with an inner claw, the side surface of the hot water channel is provided with an outer claw, and the upper surface of the outer claw is abutted with the lower surface of the inner claw.

Further, the upper end of the plug is provided with a tip.

After the technical scheme is adopted, the utility model discloses an effect is: the water dispenser with the structure can play a role in buffering and damping in the installation process of the barreled water, does not need to be provided with complex mechanical structures such as a motor and a gear, does not have the problem of oxidation or deformation, and has the advantages of simple structure, lower cost and long service life.

Drawings

FIG. 1 is a schematic view of a water dispenser according to the present invention;

FIG. 2 is an internal view of the water dispenser according to the present invention;

FIG. 3 is a schematic view of a water reservoir in accordance with the present invention;

fig. 4 is a schematic view of a water tank according to the present invention;

fig. 5 is an internal view of a water tank according to the present invention;

fig. 6 is a schematic view of a diverter according to the present invention;

fig. 7 is a schematic view of a retainer ring according to the present invention;

fig. 8 is a schematic view of an outer cushion according to the present invention.

Detailed Description

The technical solution of the present invention is further described below by way of examples:

the utility model provides a but absorbing water dispenser, combine shown in figure 1 and figure 2, the water dispenser includes: the water heater comprises a shell 1, a cold water outlet 2, a hot water outlet 3, a refrigeration switch 4, an overflow chamber 5, a water receiver 6, a heating box 7 and a refrigerator 8, wherein the cold water outlet 2, the hot water outlet 3, the refrigeration switch 4 and the overflow chamber 5 are located outside the shell 1, the water receiver 6, the heating box 7 and the refrigerator 8 are located inside the shell 1, the cold water outlet 2 is communicated with the lower end of the water receiver 6, the hot water outlet 3 is communicated with the lower end of the water receiver 6 through the heating box 7, the overflow chamber 5 is formed by a transparent material, the overflow chamber 5 is communicated with the middle of the water receiver 6, the refrigerator 8 is connected with a power supply through the refrigeration switch 4, and the refrigerator.

Specifically, the refrigerator 8 includes: a compressor 81, a condenser 82, an expansion valve 83 and an evaporator 84, the compressor 81, the condenser 82, the expansion valve 83 and the evaporator 84 being in turn communicated and forming a closed loop, as shown in fig. 3, the evaporator 84 surrounding the water reservoir 6. When the refrigeration switch 4 is turned off, the refrigerator 8 is in a non-working state, and the cold water outlet 2 outputs normal temperature water.

Specifically, the water dispenser further comprises: a temperature sensor 9, the temperature sensor 9 extending from the outside to the inside of the water reservoir 6. The temperature sensor 9 is used for detecting the temperature in the water storage device 6, and the problem that the water dispenser is damaged due to overhigh or overlow temperature caused by continuous heating or refrigeration under the condition of no water is avoided.

Wherein, the cold water outlet 2 and the hot water outlet 3 are both provided with water outlet switches, the water receiver 6 is used for receiving water in barreled water, the refrigerator 8 is used for refrigerating the water in the water receiver 6 and outputting the water through the cold water outlet, and the heating box 7 is used for heating the water flowing out of the water receiver 6 and outputting the water through the hot water outlet 3. In the present invention, the structure and principle of heating and cooling the water source are the same as those of the water dispenser in the prior art, and will not be described in detail herein.

In particular, in the present invention, when the water reservoir 6 is displaced due to improper installation of the barreled water, the water flow may be blocked, and the overflow chamber 5 may receive the water that cannot flow out of the water reservoir 6. In addition, when a user sees that water is discharged from the overflow chamber 5, the water dispenser can be overhauled in time.

Specifically, as shown in connection with fig. 3 and 5, water reservoir 6 comprises: water tank 61, adapter 62, plastic ring 63, flow divider 64, tray 65, spacer ring 66, sponge 67, outer cushion 68, inner cushion 69 and sealing ring 610. The adapter 62 is embedded in the upper end of the water tank 61, the plastic ring 63 surrounds the side of the adapter 62 and abuts the upper end of the housing 1, and the flow divider 64 extends through the adapter 62 to the inside of the water tank 61. The shape of the adapter 62 matches the shape of the head of the barreled water for supporting the barreled water; the plastic ring 63 is matched with the shell 1 to position the adapter 62, so that the possibility of deviation or damage of the adapter 62 caused by improper installation of barreled water can be reduced; the flow divider 64 is used to divide the water supply to the cold water outlet 2 and the hot water outlet 3.

Specifically, as shown in fig. 4, the water tank 61 has: the temperature measuring device comprises a cold water channel 611, a hot water channel 612, an overflow channel 613, a temperature measuring chamber 614, an outer supporting plate 615 and an inner supporting plate 616, wherein the cold water channel 611 and the hot water channel 612 are protruded downwards from the bottom wall of the water tank 61, the inner part of the hot water channel 612 is provided with an inner claw 617, the overflow channel 613 is protruded outwards from the side wall of the water tank 61, the outer supporting plate 615 and the inner supporting plate 616 are both positioned inside the water tank 61, the outer supporting plate 615 is closer to the side wall of the water tank 61 than the inner supporting plate 616, the overflow channel 613 is closer to the upper end of the water tank 61 than the outer supporting plate 615, and the outer supporting plate 615. The cold water passage 611 communicates with the cold water outlet 2, the hot water passage 612 communicates with the hot water outlet 3, the overflow passage 613 communicates with the overflow chamber 5, and the temperature sensor 9 is inserted into the temperature measuring chamber 614.

Specifically, as shown in fig. 6, the flow divider 64 has: the top 641, the cross ejector rod 643, the diversion channel 644 and the diversion plate 647 are fixed in sequence, and the top 641, the cross ejector rod 643 and the diversion channel 644 surround the diversion plate 647 on the side surface of the diversion channel 644. Wherein, the top 641 is a hemisphere, the horizontal section of the cross top 643 is a cross shape, the cross top 643 is inserted into the adaptor 62, and the diversion passage 644 is communicated with the hot water passage 612. After the barreled water is completely installed, the top 641 pushes the barrel cover open, the water source firstly flows into the diversion channel 644 through the gap of the cross top bar 643 and flows into the heating box 7 through the hot water channel 612, and after the heating box 7 is full of water, the water source bypasses the diversion plate 647, enters the lower end of the water tank 61 and flows into the cold water channel 611.

Specifically, the outer cushion 68 is positioned between the diverter plate 647 and the outer support plate 615 and the inner cushion 69 is positioned between the diverter plate 647 and the inner support plate 616. That is, the upper end of the outer cushion 68 abuts against the flow dividing plate 647, and the lower end abuts against the outer support plate 615; the inner cushion 69 abuts the diverter plate 647 at its upper end and the inner support plate 616 at its lower end. The outer cushion 68 and the inner cushion 69 can play a role in buffering and shock absorption in the installation process of the barreled water, and the problem that the adapter is deviated or even damaged due to overlarge impact force is avoided.

More specifically, as shown in fig. 8, the outer cushion 68 and the inner cushion 69 are both ring-shaped, and the outer surface of the inner cushion 69 has three outer grooves 691 and the inner surface has three inner grooves 692; the outer cushion 68 has an outer groove on its outer surface and an inner groove (not shown) on its inner surface. Since the pressure of the barreled water is concentrated at the middle position, the above arrangement can improve the shock absorbing capability of the inner cushion 69 and balance the buffering and shock absorbing effects of the inner cushion 69 and the outer cushion 68.

More specifically, with continued reference to fig. 6, the lower surface of the diverter plate 647 has four support ribs 648 arranged in a circumferential array, with the outer ends of the support ribs 648 abutting the inner surface of the inner cushion pad 69. The four support ribs 648 are provided to prevent the inner cushion 69 from shifting. In addition, the outer end of the outer cushion 68 abuts against the side wall of the water tank 61, and the outer cushion 68 is prevented from being displaced.

Specifically, the positioning ring 66 passes through the sponge body 67 and the tray 65, the cross ejector 643 passes through the positioning ring 66, the sponge body 67 and the tray 65 are both located in the adapter 62, and the sponge body 67 is located between the tray 65 and the shunt plate 647. Tray 65 and cavernosum 67 cooperation can further play buffering, absorbing effect, and in addition, cavernosum 67 has the adsorption affinity, can slow down the velocity of flow at water source, avoids because bottled water installation is improper, the water source velocity of flow is too fast and lead to the problem of overflow.

More specifically, the retainer ring 66 has an upper retainer 661 and a lower retainer 662 on its side, the sponge 67 being fitted into the upper retainer 661, and the opening at the lower end of the adapter 62 being fitted into the lower retainer 662. The adapter 62 is more securely positioned by the positioning ring 66 engaging the plastic ring 63.

Specifically, the upper end of the plug 641 has a tip 642. The tip 642 can increase the pressure when the barreled water is installed, so that the top 641 can open the barrel cover more easily.

Specifically, the side surface of the flow dividing passage 644 has a sealing groove 645 and an outer claw 646, the sealing ring 610 is embedded in the sealing groove 645, and the sealing ring 610 abuts against the inner surface of the hot water passage 612, thereby preventing water at the lower end of the water tank 11 from flowing into the hot water passage 612; the upper surface of outer jaw 646 abuts the lower surface of inner jaw 617 to prevent upward movement of diverter channel 644 away from hot water channel 612.

Therefore, the water dispenser with the structure can play a role in buffering and damping in the installation process of the barreled water, does not need to be provided with complex mechanical structures such as a motor and a gear, does not have the problem of oxidation or deformation, and has the advantages of simple structure, lower cost and long service life.

It is specifically noted that the terms "first", "second" and "third" in the present application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. All directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture, and if the specific posture is changed, the directional indicator is changed accordingly.

The above-mentioned embodiments are merely preferred examples of the present invention, and do not limit the scope of the present invention, so all equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (10)

1. A shock-absorbing water dispenser, the water dispenser comprising: a housing, a cold water outlet, a hot water outlet, a reservoir and a heating tank, the cold water outlet, the hot water outlet being located outside the housing, the reservoir and the heating tank being located inside the housing, characterized in that:

the water reservoir includes: a water tank, an adapter, a diverter, an outer cushion and an inner cushion, the water tank having: the water tank comprises a cold water channel, a hot water channel, an outer supporting plate and an inner supporting plate, wherein the cold water channel and the hot water channel are both protruded downwards from the bottom wall of the water tank, the outer supporting plate is closer to the side wall of the water tank than the inner supporting plate, the cold water channel is communicated with a cold water outlet, and the hot water channel is communicated with a hot water outlet;

the flow divider has: the device comprises a top head, a cross ejector rod, a flow distribution channel and a flow distribution plate, wherein the top head, the cross ejector rod and the flow distribution channel are sequentially fixed, and the flow distribution plate is surrounded on the side surface of the flow distribution channel;

the cross ejector rod is inserted into the adapter, the flow distribution channel is communicated with the hot water channel, the outer cushion pad is positioned between the flow distribution plate and the outer supporting plate, and the inner cushion pad is positioned between the flow distribution plate and the inner supporting plate.

2. The shock-absorbing water dispenser according to claim 1, wherein: the outer surface of the inner buffer cushion is provided with three outer grooves, and the inner surface of the inner buffer cushion is provided with three inner grooves; the outer cushion has an outer groove on an outer surface and an inner groove on an inner surface.

3. The shock-absorbing water dispenser according to claim 1, wherein: the lower surface of the flow distribution plate is provided with four supporting ribs which are arranged in a circumferential array mode, and the outer ends of the supporting ribs are abutted to the inner surface of the inner cushion pad.

4. The shock-absorbing water dispenser according to claim 1, wherein: the water dispenser further comprises: an overflow chamber located outside of the housing, the overflow chamber being formed of a transparent material, the water tank having: the overflow channel protrudes outwards from the side wall of the water tank, the overflow channel is communicated with the overflow chamber, and the overflow channel is closer to the upper end of the water tank than the outer supporting plate.

5. The shock-absorbing water dispenser according to claim 1, wherein: the water reservoir further comprises: and the plastic ring surrounds the side surface of the adapter and is abutted against the upper end of the shell.

6. The shock-absorbing water dispenser according to claim 5, wherein: the water reservoir further comprises: tray, position circle and cavernosum, the position circle passes the cavernosum with the tray, the cross ejector pin passes the position circle, the cavernosum with the tray all is located in the adapter, the cavernosum is located the tray with between the flow distribution plate.

7. The shock-absorbing water dispenser of claim 6, wherein: the side of position circle has last constant head tank and lower constant head tank, the cavernosum embedding in last constant head tank, the opening embedding of adapter lower extreme is in the constant head tank down.

8. The shock-absorbing water dispenser according to claim 1, wherein: the water reservoir further comprises: the side of the flow channel is provided with a sealing groove, the sealing ring is embedded in the sealing groove, and the sealing ring is abutted to the inner surface of the hot water channel.

9. The shock-absorbing water dispenser according to claim 1, wherein: the hot water channel is internally provided with an inner claw, the side surface of the hot water channel is provided with an outer claw, and the upper surface of the outer claw is abutted with the lower surface of the inner claw.

10. The shock-absorbing water dispenser according to claim 1, wherein: the upper end of the plug is provided with a tip.

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