CN211862542U - Anti-collision mechanism for water bucket faucet of water dispenser - Google Patents

Abstract

The utility model provides a water dispenser cask bellmouth anticollision institution relates to the water dispenser field, and this water dispenser cask bellmouth anticollision institution installs on the water dispenser body. The water dispenser comprises a base, a water inlet pipe, a bearing seat and a buffering assembly, wherein the base is arranged at a barreled water interface of a water dispenser body, the water inlet pipe is positioned at the axis of the base, the water inlet pipe and the bearing seat are arranged in concentric circles, the bearing seat is arranged on the base, and the buffering assembly is arranged on the water inlet pipe. The anti-collision mechanism for the water barrel faucet of the water dispenser is characterized in that a faucet plate and a spring are arranged in a faucet seat to form preliminary buffering. And the second stage of buffering is formed by the matching of the rubber block, the steel wire and the spring II. Meanwhile, the supporting seat is released from the dragging of the rubber block, the supporting seat extrudes the annular air bag I, the annular air bag II is expanded to support the supporting seat, and the buffering is performed in the third stage again. Through setting up multistage buffering, when avoiding the installation of bottled water and water dispenser top striking cause the fracture. Playing a role of protection.

Description

Anti-collision mechanism for water bucket faucet of water dispenser

Technical Field

The utility model relates to a water dispenser technical field specifically is a water dispenser cask bellmouth anticollision institution.

Background

The drinking machine is a device which heats or cools 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.

For example, a movable tray for a water dispenser is disclosed in Chinese patent net, and the patent number is 201920258275.3. The device is provided with a canned water connecting port on the top, the machine body is provided with a water outlet switch, the bottom of the machine body is connected with a movable bracket, and barreled water is placed into the canned water connecting port. Water can be discharged by opening the water outlet switch.

The above devices still suffer from some disadvantages. Due to the different strength of people. When people with large strength buckle the barreled water into the barreled water connecting port, the barreled water and the top barreled water connecting port are impacted by too much force. And when the person with small strength buckles the bottled water into the bottled water connecting port, the person with small strength can not support the bottled water because the bottled water is heavier, so that the bottled water falls down automatically. And also collides with the filler water connection port. Resulting in cracking of the top of the dispenser and the connecting port for the water in the can. So that the water dispenser can not be damaged and can not be used.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a water dispenser cask bellmouth anticollision institution, solved among the above-mentioned background art general water dispenser top and the easy fracture behind the bottled water striking, lead to the water dispenser to receive the damage, problem that can not normal use.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an anti-collision mechanism for a bucket faucet of a water dispenser is arranged on a water dispenser body. Including base, inlet tube, accepting seat and buffering subassembly, the base is established at water dispenser body bottled water kneck, and the inlet tube is located base axis department, base, inlet tube, accepting the seat and setting up for the concentric circles, accept the seat and establish on the base, accept the seat upper end and be equipped with the turn-ups and extend to the base top, the buffering subassembly is established on the inlet tube, the buffering subassembly upper end with accept the seat and be connected, the buffering subassembly lower extreme is connected with the base.

Preferably, a plurality of bearing plates are arranged in the bearing seat and distributed annularly, one end of each bearing plate is connected with the inner wall of the bearing seat, and the bottom of each bearing plate is connected with a first spring.

Preferably, the buffering component comprises a rubber block, a steel wire, a rubber sleeve and a second spring, the rubber block is sleeved on the water inlet pipe and can slide up and down along the axis of the water inlet pipe, the steel wire is distributed around the rubber block, the upper end of the steel wire is connected with the bearing seat, the rubber sleeve is located below the rubber block, and the second spring is located in the rubber sleeve.

Preferably, the bottom of the flanging of the bearing seat is provided with a first annular air bag, a second annular air bag is arranged below the first annular air bag, an air pipe is connected between the first annular air bag and the second annular air bag, and the second annular air bag is positioned below the bearing seat.

Preferably, the inner wall of the base is provided with a barb, and the upper end of the barb vertically extends upwards into the bearing seat.

(III) advantageous effects

The utility model provides a water dispenser cask bellmouth anticollision institution. The method has the following beneficial effects:

1. the anti-collision mechanism for the water barrel faucet of the water dispenser is characterized in that a faucet plate and a spring are arranged in a faucet seat to form preliminary buffering. And the second stage of buffering is formed by the matching of the rubber block, the steel wire and the spring II. Meanwhile, the supporting seat is released from the dragging of the rubber block, the supporting seat extrudes the annular air bag I, the annular air bag II is expanded to support the supporting seat, and the buffering is performed in the third stage again. Through setting up multistage buffering, when avoiding the installation of bottled water and water dispenser top striking cause the fracture. Playing a role of protection.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the structure of the present invention;

FIG. 3 is a partial sectional view of the structure of the present invention;

FIG. 4 is a side sectional view of the structure of the present invention;

FIG. 5 is a sectional view showing the structure of the present invention;

fig. 6 is a reference diagram for the structure of the present invention.

In the figure: 1 base, 11 barbs, 2 water inlet pipes, 3 bearing seats, 31 sponge rings, 4 bearing plates, 5 first springs, 6 buffer components, 61 rubber blocks, 62 steel wires, 63 rubber sleeves, 64 second springs, 7 first annular air bags, 8 second annular air bags, 9 air pipes, 10 water dispenser bodies and 101 channels.

Detailed Description

The embodiment of the utility model provides a water dispenser cask bellmouth anticollision institution, as shown in figure 1-6, installs on water dispenser body 10. With the attached drawings, the top of the water dispenser body 10 is provided with a barreled water interface, and the whole device is positioned in the barreled water interface. Comprises a base 1, a water inlet pipe 2, a bearing seat 3 and a buffer component 6. The base 1 is placed at the barreled water interface of the water dispenser body 10, and the water inlet pipe 2 is welded at the axis of the base 1. The base 1, the water inlet pipe 2 and the bearing seat 3 are arranged in a concentric circle. The bearing seat 3 is hollow in the middle.

With reference to fig. 3 and 5. The bearing seat 3 is positioned on the base 1. The upper end of the bearing seat 3 is provided with a flange and extends to the upper part of the base 1. A sponge ring 31 is fixedly bonded in the flanging of the bearing seat 3. The sponge ring 31 contacts with the top of the water dispenser body 10. The damping assembly 6 is arranged on the water inlet pipe 2. As shown in fig. 4, the buffer assembly 6 blocks the inlet of the inlet pipe 2 in the initial state. The upper end of the buffering component 6 is connected with the bearing seat 3, and the lower end of the buffering component 6 is connected with the base 1. When the water storage device works, the barreled water is inversely inserted into the bearing seat 3, and the water inlet pipe 2 is inserted into the barreled water. At this time, the barreled water extrudes the buffer assembly 6 to make the buffer assembly 6 slide downwards, so that the water inlet of the water inlet pipe 2 extends into the barreled water.

The bearing seat 3 is internally provided with a plurality of bearing plates 4. A plurality of receiving plates 4 are distributed annularly. A channel for the barreled water to extend into is formed among the plurality of bearing plates 4. One end of the bearing plate 4 is welded with the inner wall of the bearing seat 3. The bottom of the bearing plate 4 is welded with a first spring 5. The bearing plate 4 is made of silica gel material and has certain toughness. When the water outlet end of the barreled water extends into the bearing plate 4, the bearing plate 4 bends to press the first extrusion spring 5. The barreled water is buffered to a certain extent through the first spring 5 and the bearing plate 4.

The buffer assembly 6 comprises a rubber block 61, a steel wire 62, a rubber sleeve 63 and a second spring 64. The rubber block 61 is sleeved on the water inlet pipe 2. In the initial state the rubber block 61 blocks the inlet of the inlet pipe 2. The rubber block 61 can slide up and down along the axis of the water inlet pipe 2. The steel wires 62 are distributed around the rubber block 61. The lower end of the steel wire 62 is welded with the surface of the rubber block 61, and the upper end of the steel wire 62 is welded with the bearing seat 3. When the rubber block 61 slides down, the steel wire 62 drives the bearing seat 3 to descend. The rubber boot 63 is located below the rubber block 61. The top of the rubber sleeve 63 is fixedly bonded with the bottom of the rubber block 61, and the bottom of the rubber sleeve 63 is fixedly bonded with the bottom of the inner wall of the base 1. The second spring 64 is positioned in the rubber sleeve 63. When the rubber block 61 descends to press the second spring 64, the buffer is performed by the elastic force of the second spring 64.

As can be seen from the attached figures 3 and 5, the bottom of the flanging of the bearing seat 3 is provided with a first annular air bag 7. The top of the annular air bag 7 is contacted with the bottom of the flanging of the bearing seat 3. An annular air bag II 8 is arranged below the annular air bag I7. The second annular air bag 8 is positioned below the bearing seat 3. The annular air bag II 8 is placed on the base 1. When the bearing seat 3 is down, the annular air bag 8 can be contacted. An air pipe 9 is communicated between the annular air bag I7 and the annular air bag II 8. When the bearing seat 3 descends, the flanging of the bearing seat 3 firstly contacts the first annular air bag 7 to extrude the first annular air bag 7, air in the first annular air bag 7 is pressed into the second annular air bag 8, the second annular air bag 8 expands, and the bottom of the bearing seat 3 contacts the second annular air bag 8. The second annular air bag 8 cushions the descending of the bearing seat 3 to a certain extent.

Compared with the prior art, the anti-collision mechanism for the water dispenser bucket faucet port is provided with a faucet plate 4 and a spring 5 arranged in a faucet base 3 to form preliminary buffering. And the second stage of buffering is formed by the matching of the rubber block 61, the steel wire 62 and the second spring 64. Meanwhile, the rubber block 61 is removed from descending to pull the bearing seat 3, the bearing seat 3 is made to extrude the annular air bag I7, the annular air bag II 8 is expanded to support the bearing seat 3, and the buffering in the third stage is performed again. Through setting up multistage buffering, when avoiding the installation of bottled water and water dispenser top striking cause the fracture. Playing a role of protection.

As can be seen from the attached figure 5, the water dispenser body 10 is provided with a channel 101, and the first annular air bag 7 and the air pipe 9 are both arranged in the channel 101.

The inner wall of the base 1 is welded with a barb 11. The upper end of the barb 11 extends vertically upwards into the bearing seat 3. The barb 11 hooks the bottom of the inner wall of the socket 3. The height of the socket plate 3 is restricted by the barb 11. When the bottom of the inner wall of the socket 3 contacts with the barb 11. The socket 3 reaches the uppermost position. While the barbs 11 enhance the security of the overall device.

The working principle is as follows: when the device is used, the barreled water is inversely inserted into the whole device, and the barreled water extends into the bearing seat 3 and contacts with the bearing plate 4. The bearing plate 4 bends to press the first spring 5, and the first spring 5 deforms to generate elasticity. Then the barreled water continues to descend, the water inlet pipe 2 is inserted into the barreled water, the end part of the barreled water touches the rubber block 61, the rubber block 61 descends, the bearing seat 3 is driven to descend, the annular air bag I7 is extruded, and the annular air bag II 8 is expanded. The second annular air bag 8 is expanded to contact with the bearing seat 3. Meanwhile, the second spring 64 is pressed to generate elastic force. The impact of the barreled water is buffered by the buffer force at a plurality of positions.

In summary, the receiving plate 4 and the first spring 5 are arranged in the receiving base 3 of the anti-collision mechanism for the receiving opening of the water barrel of the water dispenser to form preliminary buffering. And the second stage of buffering is formed by the matching of the rubber block 61, the steel wire 62 and the second spring 64. Meanwhile, the rubber block 61 is removed from descending to pull the bearing seat 3, the bearing seat 3 is made to extrude the annular air bag I7, the annular air bag II 8 is expanded to support the bearing seat 3, and the buffering in the third stage is performed again. Through setting up multistage buffering, when avoiding the installation of bottled water and water dispenser top striking cause the fracture. Playing a role of protection.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a water dispenser cask faucet anticollision institution, installs on water dispenser body (10), its characterized in that: including base (1), inlet tube (2), accept seat (3) and buffer assembly (6), establish at water dispenser body (10) bottled water kneck base (1), inlet tube (2) are located base (1) axis department, base (1), inlet tube (2), accept seat (3) and set up for the concentric circles, accept seat (3) and establish on base (1), accept seat (3) upper end and be equipped with the turn-ups and extend to base (1) top, buffer assembly (6) are established on inlet tube (2), buffer assembly (6) upper end with accept seat (3) and be connected, buffer assembly (6) lower extreme is connected with base (1).

2. The anti-collision mechanism for the water dispenser bucket faucet of claim 1, which is characterized in that: a plurality of bearing plates (4) are arranged in the bearing seat (3), the bearing plates (4) are distributed annularly, one end of each bearing plate (4) is connected with the inner wall of the bearing seat (3), and the bottom of each bearing plate (4) is connected with a first spring (5).

3. The anti-collision mechanism for the water dispenser bucket faucet of claim 1, which is characterized in that: buffer unit (6) include block rubber (61), steel wire (62), rubber sleeve (63) and two (64) springs, block rubber (61) cover is on inlet tube (2), and block rubber (61) can be followed the axis of inlet tube (2) and slided from top to bottom, and steel wire (62) distribute around block rubber (61), and steel wire (62) upper end is connected with accepting seat (3), and rubber sleeve (63) are located block rubber (61) below, and two (64) springs are located rubber sleeve (63).

4. The anti-collision mechanism for the water dispenser bucket faucet of claim 1, which is characterized in that: the bottom of the flanging of the bearing seat (3) is provided with a first annular air bag (7), a second annular air bag (8) is arranged below the first annular air bag (7), an air pipe (9) is connected between the first annular air bag (7) and the second annular air bag (8), and the second annular air bag (8) is positioned below the bearing seat (3).

5. The anti-collision mechanism for the water dispenser bucket faucet of claim 1, which is characterized in that: the inner wall of the base (1) is provided with a barb (11), and the upper end of the barb (11) vertically extends upwards into the bearing seat (3).

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