KR20060125278A - Air injection type a vessel washer - Google Patents

Abstract

An air injection type vessel washer is provided to improve washing efficiency by forming injection holes at an air injection nozzle so that injection holes have tilt angles and air is injected all over the inner wall of a vessel. An air injection type vessel washer comprises a housing(2) and an air injector(10). The air injector includes a support unit(20), an inner housing(30), an elevating cylinder(45), an elevating block(50), a cover plate(80), an air supply fan(60), and an air injection nozzle(90). The support unit is fixed in the housing of the vessel washer. The inner housing is arranged on the support unit, and equipped with a mounting portion(31) where an inlet port(1a) of a vessel(1) is mounted, and an air outlet port(32) connected to an air outlet unit(3e) through an open/shut valve(v). The elevating cylinder is fixed beneath the support unit so that the elevating cylinder operates by air or hydraulic pressure. The elevating block is supported by the support unit, and has an air injection port(51), an air injection channel(52) communicated to the air injection port. The elevating block has an installation space(53) for installation of the air supply fan. The cover plate seals the installation space of the elevating block, and elevates together with the elevating block. The air supply fan is mounted on the cover plate, and has a rotation shaft with a hollow portion communicated to the air injection channel. The air injection nozzle is fitted to the rotation shaft, and has an air injection channel(91) communicated to the hollow portion. The air injection nozzle has an outer surface where a plurality of air injection holes(92) are formed so that the air injection holes are communicated to the air injection channel. The air injection nozzle elevates together with the elevating block.

Description

Air Injection Type Bottle Vessel {Air Injection Type A Vessel Washer}

1 is a block diagram of a conventional fine bottle

Figure 2 is a longitudinal sectional view showing the configuration of the bottle according to the present invention, a state diagram before operation

Figure 3 is a longitudinal cross-sectional view showing the configuration of the bottle according to the present invention, a state diagram during operation

4 is a partial cutaway perspective view of the air supply fan

5 is a state in which the rotation angle of the air spray nozzle in Figure 3 is rotated 180 °

<Explanation of symbols for the main parts of the drawings>

10: air spray device 20: support unit

30: inner housing 40: container detection sensor

45: lifting cylinder 50: lifting block

60: air supply fan 70: escape prevention

80: cover plate 90: air spray nozzle

The present invention relates to an air spray bottle for washing the inside of the cosmetic container by air, and more particularly, by configuring the air spray nozzle to be elevated and rotated to allow the air to be sprayed over the inner wall of the container, thereby improving washing efficiency. It relates to an air spray bottle, characterized in that it can be improved.

In order to recycle containers, especially cosmetics containers, it is necessary to wash away the dirt attached to the inner wall of the container. The air spraying-type bottle of FIG. 1 to be described as an example of such a bottle is provided with a housing 2 on which the cosmetic container (hereinafter, abbreviated as " container ") 1 to be cleaned on the upper side is seated upside down. The inside of the housing is provided with an air cleaning device (3) for removing foreign matter on the inner wall of the container by air pressure.

At this time, the air cleaning device 3 is an air injection means (3a) for injecting air, the injection nozzle (3b) connected to the air injection means for discharging air into the interior of the container (1), and discharge A discharge passage 3c including a discharge port 3d for discharging the compressed air to the outside of the container, and an air discharge means for discharging the air inside the container 1 to the outside through the discharge passage 3c ( 3e).

However, the conventional air spraying type fine bottle is not only fixed to the injection nozzle (3b) but also the air is injected only to the bottom surface of the container 1, the cleaning efficiency is low. Looking at the bottle process in detail, when the air is discharged to the bottom surface of the container (1), the air hitting the bottom surface is reflected at various angles to remove the foreign matter on the inner wall of the container. The remaining portion except the bottom surface directly sprayed, that is, the portion washed by the reflection pressure had a problem that the cleaning power was weakened and thus the washing was not performed cleanly.

In addition, the so-called shoulder portion, which is a corner portion located at both sides of the inlet 1a of the container 1, remains unremoved because foreign matter is hardly removed, especially foreign substances washed down elsewhere. Even accumulating phenomenon occurs. In order to alleviate this problem a little, the air spraying pressure is increased to the maximum, and in this case, another power consumption increases.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the main object of the present invention is to raise and rotate the air spray nozzles to increase the cleaning efficiency of the inner wall of the air characterized in that To provide a jet jet.

In addition, by forming a plurality of injection holes in the air injection nozzle to allow the air to be sprayed in various directions, by giving a gradient angle to each injection hole to increase the cleaning efficiency by allowing the air to be injected throughout the inner wall of the container It is to provide an air spray type bottle having a.

Main features of the present invention for achieving the above object,

An air spray bottle comprising: a housing in which a container is seated upside down, and an air spraying device installed in the housing to remove foreign substances on the inner wall of the container by air pressure;

The air spraying value,

A support unit fixedly installed in the housing; An inner housing provided or formed on an upper side of the support unit, the upper housing having a seating portion on which an inlet portion of the container is seated, and an air discharge port connected to an air discharge means through one side of an opening / closing valve; Lifting cylinder which is operated by air or hydraulic pressure while fixedly installed on the lower side of the support unit; An air supply fan which is supported in an elevated state on the support unit, has an air injection port through which air is injected, and an air injection path through which the air injection port communicates, and which is in communication with an outlet of the air injection path; Lift block having a built-in installation space; A cover plate which serves to seal the installation space of the elevating block and is elevated with the elevating block; It is rotatably supported by the cover plate, and has a rotating shaft having a hollow portion in communication with the air injection passage, and is installed or formed at the lower end of the rotating shaft is built into the installation space by the air toe output from the outlet side of the air injection passage An air supply fan which rotates to guide air to the hollow part; It is fitted to the rotary shaft, the center is formed in the vertical air injection path in communication with the hollow portion, the outer circumference is formed with a plurality of air injection holes in communication with the air injection path, and is elevated with the lifting block Air spray nozzles; It consists of.

In addition, the air injection hole is characterized in that it is gradient at a predetermined angle from one side toward the other side.

In addition, a vessel detection sensor is installed at the seating portion of the inner housing to detect whether the vessel is seated and transmit the signal to the microcomputer, and the microcomputer includes the air injection means and the air discharge unit by the transmission signal of the vessel sensor. , The lifting cylinder, characterized in that the automatic control of the operation of the valve.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a longitudinal sectional view showing the configuration of the bottle according to the present invention, a state diagram before operation, Figure 3 is a longitudinal sectional view showing the configuration of the bottle according to the invention, a state diagram during operation, Figure 4 is air 5 is a partially cutaway perspective view of the supply fan, and FIG. 5 shows a state diagram in which the rotation angle of the air injection nozzle in FIG. 3 is rotated 180 degrees.

As shown in the accompanying drawings, the present invention comprises a housing (2) in which the container (1) is seated upside down, and an air spraying device installed in the housing to remove foreign substances on the inner wall of the container by air pressure. From an air jet bottle;

The configuration of the above air injector is improved as described below.

That is, the air injection apparatus 10 of this invention is provided with the support unit 20 fixedly installed in the said housing 2. Here, the support unit is composed of an upper plate 21 and a lower plate 22 spaced apart by a predetermined interval in the vertical direction, and a connecting rod 23 connecting the upper plate and the lower plate.

In addition, the upper side of the support unit 20, the inner housing 30 is integrally formed or coupled separately. Here, the upper side of the inner housing has a seating portion 31 on which the inlet 1a of the container 1 is seated, and on one side, the air discharge means via an (electronic or manual) opening / closing valve (v). An air discharge port 32 connected to 3e is provided. At this time, the inner housing 30 is preferably divided into two parts (two parts) for mutual coupling to facilitate the molding (molding). On the other hand, when the on-off valve v is a solenoid valve, opening and closing is controlled by a microcomputer (m) to be described later.

The seating unit 31 is provided with a container detecting sensor 40 for transmitting a detection signal to the microcomputer (m) by detecting whether the container 1 is in a seated state or not. At this time, the microcomputer (m) selectively operates the air discharge means (3e) and the air injection means (3a) to be described later in accordance with the detection result of the vessel sensor (40).

In addition, the lower cylinder 22 of the support unit 20 is fixed to the lifting cylinder 45 in a vertical state. The lifting and lowering cylinder 45 is electrically connected to the microcomputer m described above, and is operated simultaneously with the air discharge means 3e and the air injection means 3a.

In addition, the lifting block 50 is supported on the upper plate 21 of the support unit 20 so that the lifting block 50 can be lifted in the vertical direction without defective flow. Here, the elevating block 50 is connected to the air injection means (3a) via the (automatic or manual) opening and closing valve (v) on one side of the air injection port through which air is injected in accordance with the opening and closing of the valve ( 51 and an air injection passage 52 communicating with the air injection port are formed. In addition, the elevating block 50 has an installation space portion 53 in communication with the outlet (52a) of the air injection path 52 and the air supply fan 60 to be described later is built. On the other hand, when the on-off valve v is a solenoid valve, opening and closing is controlled by the microcomputer m.

And, the upper side of the elevating block 50 is provided with a release prevention 70 for preventing the separation of the air supply fan 60 to be described later, the installation space portion 53 is sealed on the upper side of the separation prevention opening. At the same time, a cover plate 80 for stably supporting the air supply fan 60 to be described later is installed.

In addition, an air supply fan 60 is rotatably installed on the cover plate 80. Here, the air supply fan 60 is rotatable by being coupled with the cover plate via the bearing (b). In addition, the air supply fan has a rotating shaft 61 having a hollow portion (61a) in communication with the air injection path 52 as shown in Figure 4; It is composed of an impeller portion 62 which is installed or formed at the lower end of the rotating shaft while rotating by the output of the air discharged through the outlet 52a of the air injection passage 52 to guide the air to the hollow portion. .

At this time, the impeller 62 is arranged in a plurality of annular blades (62a) in an annular, empty state to allow air to pass between each wing, the air is introduced through this empty space Finally it is guided to the hollow portion (61a).

In addition, a rod-shaped air spray nozzle 90 is fitted to the rotary shaft 61. The air spray nozzle has a vertical air spray path 91 formed at an inner center thereof, and a plurality of air spray holes 92 communicating with the air spray path are formed on the outer circumference thereof. At this time, the air injection hole 92 is inclined to one side rather than a normal horizontal state. That is, when the air spray nozzle is cross-sectioned in the longitudinal direction, it is understood that the air spray hole 92a on the left side and the air spray hole 92b on the right side are inclined downwardly and obliquely downward in the drawing. Can be.

After the configuration, the operation and action according to this configuration will be described below.

Before the bottle is operated, that is, before the container 1 is seated, the lifting cylinder 45, the air injection means 3a, and the air discharge means 3e are in a stopped state as shown in FIG. The injection nozzle 90 is lowered down, and each on-off valve v is kept closed.

In this state, when the container 1 to be cleaned is inverted as shown in FIG. 3 and seated on the seating part 31 of the inner housing 30, the container sensor 40 detects that the container is seated. In response to the detection signal, the microcomputer m controls the rod 45a of the lifting cylinder 45 to be lifted up. Therefore, the air supply fan 60, the air spray nozzle 90, and the like, including the lifting block 50 coupled to the rod 45a are raised, and the air spray nozzle 90 is in the process. The silver is sufficiently drawn into the inside of the container 1, and thus the preparation condition for cleaning is completed.

Almost simultaneously with this time, the air injection means 3a and the air discharge means 3e operate by the control signal of the microcomputer m, and the (electronic) open / close valve v is in an open state. Accordingly, the air generated from the air injection means 3a flows into the air injection port 51 and the air injection path 52 formed on one side of the elevating block 50 through the opening / closing valve v. The air introduced in this way passes between the vanes 62a of the impeller portion 62 and the hollow portion 61a of the rotation shaft 61, and then the air spray passage 91 and the air powder of the air spray nozzle 90. It is sprayed toward the inner wall of the container 1 through the hole 92.

At this time, since the impeller 62 of the air supply fan 60 is rotated by the traveling force of the air discharged from the outlet side of the air injection path 52, the air injection nozzle connected to the air supply fan ( 90) will also rotate. In addition, since the air injection hole 92a formed on the outer circumferential surface of the air injection nozzle 90 has a form inclined to one side, as shown in FIGS. 2 and 5, the inner wall and the shoulder portion 1b of the container 1 are separated. The overall cleaning will be able to improve the cleaning efficiency.

When the container washing is completed and the container is removed from the seating part 31, the container 45 is regarded as no container by the container sensor 40, and the rod 45a of the lifting cylinder 45 is lowered, and the air is injected. The means 3a and the air discharge means 3e are stopped, and each on / off valve v is returned to the initial state of closing.

As described above, the present invention can increase the washing efficiency of the inner wall of the container by lifting and rotating the air spray nozzle,

In addition, since each injection hole is inclined at a predetermined angle to the air injection nozzle, the injection range of the air can be expanded, and thus, the cleaning efficiency can be further increased.

In addition, even when the injection pressure is reduced, the washing efficiency is good, so that the power consumption can be significantly reduced as compared with the conventional fine bottle.

Claims (3)

An air spray bottle comprising: a housing in which a container is seated upside down, and an air spraying device installed in the housing to remove foreign substances on the inner wall of the container by air pressure; The air spraying value, A support unit fixedly installed in the housing; An inner housing provided or formed on an upper side of the support unit, the upper housing having a seating portion on which an inlet portion of the container is seated, and an air discharge port connected to an air discharge means through one side of an opening / closing valve; Lifting cylinder which is operated by air or hydraulic pressure while fixedly installed on the lower side of the support unit; An air supply fan which is supported in an elevated state on the support unit, has an air injection port through which air is injected, and an air injection path through which the air injection port communicates, and which is in communication with an outlet of the air injection path; Lift block having a built-in installation space; A cover plate which serves to seal the installation space of the elevating block and is elevated with the elevating block; It is rotatably supported by the cover plate, and has a rotating shaft having a hollow portion in communication with the air injection path, and is installed or formed at the lower end of the rotary shaft and built into the installation space by the air toe output at the outlet side of the air injection path An air supply fan which rotates to guide air to the hollow part; It is fitted to the rotary shaft, the center is formed in the vertical air injection path communicating with the hollow portion, the outer circumference is formed with a plurality of air injection holes in communication with the air injection path, the air is elevated with the lifting block Spray nozzles; Air-jet three bottle, characterized in that consisting of. The method of claim 1, Said air injection hole is inclined at a predetermined angle from one side to the other side, the air spray bottle. The method of claim 1, A vessel detection sensor is installed at the seating portion of the inner housing to detect whether the vessel is seated and transmit a signal thereof to the microcomputer, and the microcomputer includes the air injection means, the air discharge means, and the lift by the transmission signal of the vessel detection sensor. Air injection type bottle sprayer, characterized in that the automatic control of the operation of the cylinder, the shut-off valve.

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