CN213670979U - Water-gas separation hot air drying structure of bottle washing machine - Google Patents

Abstract

A water-gas separation hot air drying structure of a bottle washer comprises a fan, a heating component, a three-way pipe, an elbow, a one-way valve and an inner water pipe; the heating component comprises a connecting pipe and a heating piece, and the heating piece is arranged in the connecting pipe; the fan is communicated with the connecting pipe; the three-way pipe is respectively communicated with the connecting pipe, the elbow and the one-way valve; the inner water pipe is communicated with the one-way valve; when the bottle washing machine is used for drying, a hot air path is formed by the communication of the fan, the connecting pipe, the three-way pipe, the elbow, the one-way valve and the inner water pipe; the bottle washing machine forms a washing water path through the inner water pipe during washing and cuts off the flow through the one-way valve. The utility model discloses an above-mentioned structure's improvement adopts the one-way effect of damming of check valve, enables hot-blast wind path and washing water route and sets an organic whole, and the while is at the mutual noninterference of during operation, has not only improved the integrated level of bottle cleaning machine, can also strengthen the practicality of bottle cleaning machine, and the problem of flowing backward appears in the moisture that can avoid the washing water route simultaneously.

Description

Water-gas separation hot air drying structure of bottle washing machine

Technical Field

The utility model relates to a water-gas separation hot air drying structure of bottle cleaning machine.

Background

The bottle washing machine is suitable for special equipment for brush type washing and water flushing type washing of glass bottles, plastic bottles and the like, and the special equipment is used independently or cooperatively.

The bottle cleaning machine drying effect who commonly uses on the existing market is not good, washs and still can have residual moisture inside the household utensils after the drying, and the user need transfer the household utensils to special oven and carry out high temperature baking to the household utensils and dry and get rid of residual water, causes the user to use inconveniently, and damage or secondary pollution problem also can appear in the household utensils transfer process simultaneously, influence the experimental result. Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water-air separation hot air drying structure of bottle cleaning machine to it is poor to overcome bottle cleaning machine drying effect among the prior art, and the water in water route probably flows backward the return air circuit and leads to leaking the electric leakage, damaging the weak point of electrical part.

According to the steam-water separation hot air drying structure of this purpose design, including the fan, its characterized in that: the heating device also comprises a heating component, a three-way pipe, an elbow, a one-way valve and an inner water pipe; wherein, heating element includes the connecting pipe and generates heat the piece, generates heat the setting and in the connecting pipe inside.

The fan is communicated with the connecting pipe.

The three-way pipe is respectively communicated with the connecting pipe, the elbow and the one-way valve.

The inner water pipe is communicated with the one-way valve.

The bottle washing machine forms a hot air path through the communication of the fan, the connecting pipe, the three-way pipe, the elbow, the one-way valve and the inner water pipe when drying.

The bottle washing machine forms a washing water path through the inner water pipe during washing and cuts off the flow through the one-way valve.

The elbow is positioned below the three-way pipe and communicated with the three-way pipe, and an elbow outlet is arranged below the elbow and communicated with the inner container of the bottle washing machine.

The one-way valve is positioned on one side of the three-way pipe and communicated with the three-way pipe; the inner water pipe is positioned on one side of the one-way valve and the two are communicated with each other.

The connecting pipe is positioned above the three-way pipe and is communicated with the three-way pipe.

The three-way pipe is respectively provided with an upper communicating port, a lower communicating port and a side communicating port.

The connecting pipe is positioned above the three-way pipe, and one end of the connecting pipe is bent and provided with a hot air outlet communicated with the upper communicating port.

The elbow is positioned below the three-way pipe, and the upper end of the elbow is provided with an elbow inlet communicated with the lower communicating port.

The one-way valve is positioned on one side of the three-way pipe, and one end of the one-way valve is provided with a one-way inlet communicated with the side communicating port.

The other end of the connecting pipe is provided with a hot air inlet; the fan is provided with an air outlet communicated with the hot air inlet.

The other end of the one-way valve is provided with a one-way outlet; the inner water pipe is provided with a connector communicated with the one-way outlet.

The inner water pipe is also provided with a waterway inlet, an upper water outlet and a lower water outlet respectively; wherein, the inner water pipe is communicated with the water supply end through a waterway inlet, and the upper water outlet and the lower water outlet are respectively communicated with the inner container of the bottle washing machine.

The utility model discloses an above-mentioned structure's improvement utilizes the intercommunication of fan, connecting pipe, three-way pipe, elbow, check valve and interior water pipe to form hot-blast wind path, recycles the rivers of interior water pipe and flows and form the washing water route to make hot-blast wind path and washing water route set an organic whole, in order to improve the integrated level of bottle cleaning machine. Then, through the one-way interception function of the one-way valve, hot air in the hot air path can flow to each component and then enter the bottle washing machine, water in the washing water path can only flow in the inner water pipe and enter the bottle washing machine, so that the water flow direction and the air flow direction are effectively ensured to be different and not interfered with each other, the problems that the water in the water path possibly flows back to the air path, the bottle washing machine leaks water and leaks electricity, electric appliances are damaged and the like are effectively solved, the risks of water leakage, electricity leakage and device damage of the bottle washing machine are avoided, the water in the vessel, the inner container and the water in the water path can be completely dried by the bottle washing machine during drying, the effective drying effect is achieved, meanwhile, the operation that the washed vessel which is not completely dried is transferred to an oven for drying is reduced, and the time, labor force and possible damage or secondary pollution problems of the vessel are.

Compared with the prior art, the method has the following advantages:

1. the heating element is arranged in the connecting pipe, so that low-temperature air sucked by the fan can be heated into high-temperature air, and the high-temperature air is rapidly blown to the connecting pipe, the three-way pipe, the elbow, the one-way valve and the inner water pipe, and the drying effect of the bottle washing machine is improved.

2. The one-way effect of damming of check valve enables hot-blast wind path and washing water route to set up an organic whole, and the while is at the during operation mutual noninterference, not only improved the integrated level of bottle cleaning machine, can also strengthen the practicality of bottle cleaning machine.

3. The side of the hot air path is provided with the one-way valve, and particularly, the simple design of high-level air inlet and low-level water outlet is adopted, so that the problem of backward flowing of the water in the washing water path can be further avoided.

In summary, the integrated LED lamp has the characteristics of simple and reasonable structure, excellent performance, high integration level, low manufacturing cost, convenience in use, safety, reliability and the like, and is high in practicability.

Drawings

Fig. 1 is an exploded schematic view of an embodiment of the present invention.

Fig. 2 is a schematic flow diagram of a hot air path according to an embodiment of the present invention.

Fig. 3 is a schematic view illustrating a flow of a washing water path according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-3, the water-gas separation hot air drying structure of the bottle washer comprises a fan 1, a heating component 2, a three-way pipe 3, an elbow 4, a one-way valve 5 and an inner water pipe 6; the heating assembly 2 includes a connecting pipe 21 and a heating element 24, and the heating element 24 is disposed inside the connecting pipe 21.

The blower 1 communicates with the connection pipe 21.

The three-way pipe 3 is respectively communicated with the connecting pipe 21, the elbow 4 and the one-way valve 5.

The inner water pipe 6 is communicated with the one-way valve 5.

When the bottle washing machine is used for drying, a hot air path is formed by the communication of the fan 1, the connecting pipe 21, the three-way pipe 3, the elbow 4, the one-way valve 5 and the inner water pipe 6.

The bottle washing machine forms a washing water path through the inner water pipe 6 during washing and is shut off through the check valve 5.

The hot air path is formed by the communication of the fan 1, the connecting pipe 21, the three-way pipe 3, the elbow 4, the check valve 5 and the inner water pipe 6, and the washing water path is formed by the water flow of the inner water pipe 6, so that the hot air path and the washing water path are integrated, and the integration level of the bottle washing machine is improved. Then, through the one-way interception function of the one-way valve 5, hot air in the hot air path can flow to each component and then enter the bottle washing machine, water in the washing water path can only flow in the inner water pipe 6 and enter the bottle washing machine, so that the water flow direction and the air flow direction are effectively ensured to be different and are not interfered with each other, the problems that the water in the water path possibly flows back to the air path to cause water leakage and electricity leakage of the bottle washing machine and damage electrical devices are effectively solved, the risk that the bottle washing machine has no water leakage, electricity leakage and device damage is ensured, the water in vessels, inner containers and the water path can be completely dried by the bottle washing machine during drying, the effective drying effect is achieved, meanwhile, the operation that the vessels which are not completely dried after being cleaned are required to be transferred to an oven for drying is reduced, and the time, labor force and possible damage or secondary pollution problems of the vessels are reduced.

Specifically, the elbow 4 is positioned below the three-way pipe 3 and communicated with the three-way pipe, and an elbow outlet 42 is arranged below the elbow 4 and communicated with the inner container of the bottle washing machine.

The one-way valve 5 is positioned at one side of the three-way pipe 3 and communicated with the three-way pipe; the inner water pipe 6 is positioned at one side of the one-way valve 5 and is communicated with the one-way valve and the one-way valve.

The connecting pipe 21 is located above the tee 3 and the two are communicated with each other.

More specifically, the three-way pipe 3 is provided with an upper communication port 31, a lower communication port 32, and a side communication port 33, respectively.

The connecting pipe 21 is located above the three-way pipe 3, and one end of the connecting pipe is bent to form a hot air outlet 23 communicated with the upper communicating port 31.

The elbow 4 is positioned below the three-way pipe 3, and the upper end of the elbow 4 is provided with an elbow inlet 41 communicated with the lower communication port 32.

The check valve 5 is located on one side of the three-way pipe 3, and one end thereof is provided with a check inlet 51 communicated with the side communication port 33.

Further, the other end of the connecting pipe 21 is provided with a hot air inlet 22; the fan 1 is provided with an air outlet 11 communicated with a hot air inlet 22.

The other end of the one-way valve 5 is provided with a one-way outlet 52; the inner water pipe 6 is provided with a connecting port 64 communicated with the one-way outlet 52.

The inner water pipe 6 is also provided with a waterway inlet 63, an upper water outlet 61 and a lower water outlet 62; wherein, the inner water pipe 6 is communicated with the water supply end through a waterway inlet 63, and the upper water outlet 61 and the lower water outlet 62 are respectively communicated with the inner container of the bottle washing machine.

The check valve 5 is a one-way flow valve, and in fig. 2 and 3, the valve is opened when pressurized water or gas is supplied from left to right, and is closed and closed when pressurized water or gas is supplied from right to left.

As shown in fig. 2, when the bottle washing machine is drying, the fan 1 outputs high-pressure air to enter from the hot air inlet 22, takes away heat of the heating element 24 and forms hot air, and the hot air enters the upper communication port 31 from the hot air outlet 23 and is distributed to the lower communication port 32 and the side communication port 33; wherein, the hot air which is shunted to the lower communicating port 32 enters the inner container through the elbow outlet 42, thereby drying the inner container of the bottle washing machine and the outer wall of the vessel; the hot air which is shunted to the side communicating port 33 enters the inner water pipe 6 after passing through the one-way valve 5, the inner water pipe 6 shunts the hot air to the upper water outlet 61, the lower water outlet 62 and the waterway inlet 63, wherein the shunted hot air enters the upper basket of the bottle washing machine from the upper water outlet 61 to dry the inner wall of the vessel, the shunted hot air enters the lower basket of the bottle washing machine from the lower water outlet 62 to dry the inner wall of the vessel, and the shunted hot air enters the inner waterway of the bottle washing machine from the waterway inlet 63 and dries the waterway. Wherein the arrow direction is the hot air flowing direction.

As shown in fig. 3, when the bottle washer is used for washing, high-pressure water from the water supply end enters from the waterway inlet 63, then enters the liner and the basket frame from the upper water outlet 61 and the lower water outlet 62 through the inner water pipe 6, and washes the vessel, and the water enters the one-way valve 5 to realize interception and non-conduction; if the one-way valve 5 fails to work, the leaked water flows from right to left through the one-way valve 5, the elbow 4 is located below the one-way valve 5, and the fan 1 and the heating component 2 are located above the one-way valve 5, so that the leaked water can flow into the elbow 4 through the lower communication port 32 after entering from the side communication port 33 by utilizing the gravity of the water, and finally flows back to the inner container from the elbow outlet 42, so that the leaked water is prevented from flowing upwards to the fan 1 and the heating component 2, and the use stability of the bottle washing machine is ensured. Wherein the direction of the arrow is the water flow direction.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but rather that various changes and modifications may be made without departing from the spirit and scope of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a water-gas separation hot air drying structure of bottle cleaning machine, includes fan (1), its characterized in that: the heating device also comprises a heating component (2), a three-way pipe (3), an elbow (4), a one-way valve (5) and an inner water pipe (6); the heating component (2) comprises a connecting pipe (21) and a heating piece (24), and the heating piece (24) is arranged in the connecting pipe (21);

the fan (1) is communicated with the connecting pipe (21);

the three-way pipe (3) is respectively communicated with the connecting pipe (21), the elbow (4) and the one-way valve (5);

the inner water pipe (6) is communicated with the one-way valve (5);

when the bottle washing machine is used for drying, a hot air path is formed by the communication of the fan (1), the connecting pipe (21), the three-way pipe (3), the elbow (4), the one-way valve (5) and the inner water pipe (6);

the bottle washing machine forms a washing water path through the inner water pipe (6) during washing and cuts off the flow through the one-way valve (5).

2. The water-air separation hot air drying structure of the bottle washing machine according to claim 1, characterized in that: the elbow (4) is positioned below the three-way pipe (3) and communicated with the three-way pipe, and an elbow outlet (42) is arranged below the elbow (4) and communicated with the inner container of the bottle washing machine.

3. The water-air separation hot air drying structure of the bottle washing machine according to claim 2, characterized in that: the one-way valve (5) is positioned on one side of the three-way pipe (3) and communicated with the three-way pipe; the inner water pipe (6) is positioned on one side of the one-way valve (5) and is communicated with the one-way valve and the one-way valve.

4. The water-air separation hot air drying structure of a bottle washing machine according to claim 3, characterized in that: the connecting pipe (21) is positioned above the three-way pipe (3) and is communicated with the three-way pipe.

5. The water-air separation hot air drying structure of a bottle washing machine according to any one of claims 2 to 4, characterized in that: the three-way pipe (3) is respectively provided with an upper communicating port (31), a lower communicating port (32) and a side communicating port (33);

the connecting pipe (21) is positioned above the three-way pipe (3), and one end of the connecting pipe is bent and provided with a hot air outlet (23) which is communicated with the upper communication port (31);

the elbow (4) is positioned below the three-way pipe (3), and the upper end of the elbow (4) is provided with an elbow inlet (41) which is communicated with the lower communicating port (32);

the check valve (5) is positioned on one side of the three-way pipe (3), and one end of the check valve is provided with a check inlet (51) communicated with the side communication port (33).

6. The water-air separation hot air drying structure of a bottle washing machine according to claim 5, characterized in that: the other end of the connecting pipe (21) is provided with a hot air inlet (22); the fan (1) is provided with an air outlet (11) communicated with a hot air inlet (22).

7. The water-air separation hot air drying structure of the bottle washing machine according to claim 6, characterized in that: the other end of the one-way valve (5) is provided with a one-way outlet (52); the inner water pipe (6) is provided with a connecting port (64) communicated with the one-way outlet (52).

8. The water-air separation hot air drying structure of a bottle washing machine according to claim 7, characterized in that: the inner water pipe (6) is also provided with a waterway inlet (63), an upper water outlet (61) and a lower water outlet (62) respectively; wherein, the inner water pipe (6) is communicated with the water supply end through a waterway inlet (63), and the upper water outlet (61) and the lower water outlet (62) are respectively communicated with the inner container of the bottle washing machine.

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