KR20160144664A - Washing equipment for stretcher - Google Patents

Abstract

The present invention relates to a stretcher cleaning apparatus,
A door provided at the front, and a booth having an internal cleaning chamber;
An upper frame disposed on the upper side of the stretcher placed in the cleaning chamber, a side frame disposed on both sides of the stretcher protruding downward from both ends of the upper frame to be inserted into the cleaning chamber, A frame unit including a rotation shaft formed at the center;
A plurality of washing nozzles mounted on the frame unit for spraying washing water toward a stretcher put into the washing chamber;
A relay unit rotatably connecting the frame unit to a ceiling of the booth; And
And a drive unit for providing rotational force to the frame unit,
Wherein the driving unit rotates the frame unit by the jetting pressure of the fluid.
According to the stretcher cleaning apparatus of the present invention, it is possible to clean the stretcher evenly, to reduce the manufacturing cost, and to solve the problem that the apparatus may be corroded and short-circuited.

Description

[0001] Washing equipment for stretcher [

The present invention relates to a stretcher cleaning apparatus for automatically cleaning contaminated stretchers.

A technique relating to a stretcher cleaning apparatus is disclosed in Korean Patent Registration No. 10-1112037 (hereinafter referred to as "prior art") (hereinafter referred to as "prior art"), .

The prior art

"The upper and lower walls are provided with upper and lower doors which are individually operable to open and close the inlet portion in the front face, and the spray nozzle portion for spraying the washing liquid and the washing water is arranged on the upper wall and both side walls,

The upper wall is provided with a dry brush nozzle for preliminary cleaning of the fire fighting equipment, and a roll brush is disposed on the side wall to assist rough cleaning of the fire fighting equipment.

Wherein the spray nozzle portion includes a plurality of spiral nozzles, the gun nozzle portion is configured to perform only a preliminary cleaning of the fire fighting equipment after closing only the lower door and only the upper door,

Wherein the lower wall is provided with a first rotary drive means for rotationally driving the first placement table for mounting the fire fighting equipment,

It is a technology to provide equipment cleaning device which can be used immediately after use, can be cleaned immediately, can be used hygienically to prevent infection to other users, and can be reused quickly.

The fire-fighting equipment cleaner of the prior art is provided with a first mounting table and a first rotation driving means for rotationally driving the first mounting table on the lower wall, thereby rotating the fire-fighting equipment such as a stretcher placed on the first mounting table, However,

There is a problem that the production cost is increased in order to provide the first mount and the first rotation drive means.

In addition, there is a problem that the first mounting table and the first rotation driving means are easily corroded by the washing water and the disinfectant used in the cleaning, and there is a danger that the first rotation driving means may be short-circuited.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a dresser cleaning device capable of cleaning a stretcher evenly, reducing manufacturing costs, and eliminating corrosion and leakage.

According to an aspect of the present invention,

A door provided at the front, and a booth having an internal cleaning chamber;

An upper frame disposed on the upper side of the stretcher placed in the cleaning chamber, a side frame disposed on both sides of the stretcher protruding downward from both ends of the upper frame to be inserted into the cleaning chamber, A frame unit including a rotation shaft formed at the center;

A plurality of washing nozzles mounted on the frame unit for spraying washing water toward a stretcher put into the washing chamber;

A relay unit rotatably connecting the frame unit to a ceiling of the booth; And

And a driving unit for providing rotational force to the frame unit.

Here,

And a propulsion nozzle mounted on the frame unit so as to be spaced apart from the rotation center of the frame unit and injecting the fluid to the front or rear of the frame unit,

An impeller mounted on a rotary shaft of the frame unit and having a plurality of blades radially arranged around the rotary shaft; And a jet nozzle for jetting the fluid toward the blade of the impeller.

According to the stretcher washing apparatus of the present invention,

The frame unit is rotated about the stretcher due to the pressure of the fluid injected from the propelling nozzle or the injection nozzle constituting the driving unit. Therefore, the stretcher can be cleaned evenly, the manufacturing cost can be reduced, There is an effect that problems that may occur can be solved.

1 is a front structural view of a stretcher cleaning device according to an embodiment of the present invention;
Fig. 2 is a front view showing the frame unit and the relay unit in Fig. 1; Fig.
Fig. 3 is a three-dimensional configuration diagram of Fig. 2; Fig.
FIG. 4 is a three-dimensional view showing a state in which a drive unit according to another embodiment of the present invention is applied to FIG. 3;
5 is a three-dimensional configuration view of a fixing unit in a stretcher cleaning apparatus according to an embodiment of the present invention.
FIG. 6 is a three-dimensional view showing a state in which the second fixing module is unfolded in FIG. 5;
FIG. 7 is a photograph of a stretcher stretcher according to an embodiment of the present invention in which an ambulance stretcher is inserted. FIG.
8 is a photograph of a stretcher stretcher according to an embodiment of the present invention in which a structural stretcher is inserted.

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

1 to 8, a stretcher washing apparatus according to an embodiment of the present invention includes a booth 100, a frame unit 200, a washing nozzle 300, a relay unit 400, A drive unit 500 and a fixed unit 600. [

The booth 100 provides space for washing the stretcher S1 (see FIG. 7) (S2, see FIG. 8), and is provided at the front as shown in FIG. A door 110, and an inner cleaning chamber 120.

A wash water supply unit 130 and an air supply unit 140 may be provided at the ceiling edge of the booth 100 to clean the inner wall of the wash chamber 120.

The washing water supply unit 130 and the air supply unit 140 are provided with an automatic hose reel that is automatically rewound when the booth 100 is pulled up and released, Can be provided by mounting an air gun.

The frame unit 200 is disposed in the cleaning chamber 120 of the booth 100 to provide a frame for installing the cleaning nozzle 300,

As shown in FIGS. 1 to 4,

An upper frame 210 disposed on the upper side of the stretchers S1 and S2 inserted into the cleaning chamber 120;

Two side frames 220 protruding downward at both ends of the upper frame 210 and disposed on both sides of the stretchers S1 and S2 inserted into the washing chamber 120; And

And a rotation shaft 230 formed at the upper center of the upper frame 210.

As a result, the frame unit 200 is formed in a substantially '∩' shape so that the stretchers S1 and S2 are positioned inside thereof.

As shown in FIG. 2, a flow passage 240 for supplying wash water to each of the cleaning nozzles 300 to be described later is formed in the frame unit 200.

The flow path 240 is connected to the upper frame 210, the two side frames 220 and the rotation shaft 230 and is opened to the upper side of the rotation axis 230, And is connected to the separate wash water supply pipe via the attached piping coupling.

The washing nozzle 300 is mounted on the frame unit 200 and injects washing water toward the stretchers S1 and S2 put into the washing chamber 120 as shown in FIGS. 1 to 4 .

A plurality of cleaning nozzles 300 are arranged in the longitudinal direction of the two side frames 220.

It is preferable that the cleaning nozzles 300 arranged in the one side frame 220 and the cleaning nozzles 300 arranged in the other side frame 220 are arranged alternately. In other words, it is preferable that each cleaning nozzle 300 is disposed so as to face a space between cleaning nozzles 300 arranged in the opposing side frame 220. According to this structure, Each of the cleaning nozzles 300 arranged so as to be located at different heights allows the stretchers S1 and S2 to be cleaned up and down by rotation of the frame unit 200. [

The relay unit 400 rotatably connects the frame unit 200 to the ceiling of the booth 100,

As shown in FIG. 2 and FIG. 3,

A circular support plate 410 installed on the ceiling of the booth 100 so as to be disposed on the same center line as the rotation axis 230 of the frame unit 200;

Two relay brackets 420 mounted on both upper surfaces of the upper frame 210;

An upper wheel 430 mounted on the two relay brackets 420 so as to come into contact with the upper surface of the edge of the support plate 410; And

And a lower wheel 440 mounted on the two relay brackets 420 so as to contact the lower edge of the support plate 410.

As a result, the frame unit 200 is suspended from the support plate 410 by the relay bracket 420, the upper wheel 430 and the lower wheel 440, and the upper wheel 430 and the lower wheel 440 are supported And is rotated about the rotation axis 230 by rolling on the upper and lower edges of the plate 410, respectively.

The driving unit 500 provides rotational force to the frame unit 200, and two embodiments are disclosed as shown in FIG. 3 and FIG. 4.

First, referring to the drive unit 500 according to the first embodiment,

As shown in FIG. 3, the propulsion nozzle 510 mounted on the frame unit 200 so as to be apart from the rotation center of the frame unit 200 and injecting the fluid to the front or rear of the frame unit 200 .

The propelling nozzle 510 can be connected to the flow path 240 of the frame unit 200 and can receive the washing water as in the case of the respective cleaning nozzles 300. By installing a separate pipe in the frame unit 200, Water or compressed air can be supplied through the piping.

When the propulsion nozzle 510 is connected to the flow passage 240 of the frame unit 200, the propulsion nozzle 510 is preferably provided with a valve for regulating the pressure of the fluid to be injected.

As a result, the frame unit 200 obtains the driving force in the opposite direction in which the fluid is ejected by the pressure of the fluid ejected from the propelling nozzle 510, and is rotated about the rotation axis 230 by the driving force.

The propelling nozzle 510 is preferably mounted on the side frame 220 as shown or mounted on the end of the upper frame 210 so that the frame unit 200 can rotate smoothly.

The propelling nozzle 510 may be mounted on only one side of the frame unit 200 as shown and may be mounted on both sides of the frame unit 200 if necessary. When the propelling nozzle 510 is mounted on both sides of the frame unit 200, the propulsion nozzles 510 on both sides should naturally be arranged to inject fluid toward opposite directions.

Hereinafter, the drive unit 500 according to the second embodiment will be described.

As shown in FIG. 4,

An impeller 520 mounted on the rotating shaft 230 of the frame unit 200 and having a plurality of blades 521 arranged radially around the rotating shaft 230; And

And a spray nozzle 530 for spraying the fluid toward the blade 521 of the impeller 520.

It is preferable that the impeller 520 is installed between the upper frame 210 and the support plate 410 and the rotation shaft 230 of the frame unit 200 passes through the support plate 410, So that the impeller 520 can be mounted on the upper side of the support plate 410.

The injection nozzle 530 is fixed to the booth 100 or the support plate 410 and rotates the frame unit 200 together with the impeller 520 by spraying a fluid toward the blade 521 of the impeller 520 .

One injection nozzle 530 may be provided, but it is preferable that two or more injection nozzles 530 are arranged at equal intervals around the rotation axis 230 for smooth rotation of the frame unit 200.

The driving unit 500 of the present invention having the above structure is configured such that the frame unit 200 is moved by the pressure of the fluid injected from the propelling nozzle 510 or the jetting nozzle 530 to the stretchers S2, Since the motor and power transmission device, etc., which had to be provided in the conventional cleaning device, are removed, the fabrication cost is reduced, and the corrosion of the device And a problem that a short circuit can occur can be solved.

The fixed unit 600 is installed at the bottom of the booth 100 to fix the strands S1 and S2,

As shown in FIGS. 5 to 8,

A rail 612 provided on the floor of the booth 100 and having a first receiving portion 611 opened frontward and upward so that the wheels of the ambulance S1 can enter, A first fixing module 610 including a release preventing jaw 613 formed on the rail 612 so as to be disposed under the front end of the first fixing module 610; And

A stationary bracket 621 provided at the bottom of the booth 100 and a rear end rotatably coupled to the stationary bracket 621 to be folded to be laid on the floor of the booth 100 or standing on the floor of the booth 100 And a second fixing module 620 including a fixing member 623 having a second receiving portion 622 opened frontward and upward so that the edge of the structural stretcher S2 can enter in an upright state .

Here, the 'ambulance S1' refers to a wagon-like stretcher having a folding leg with wheels for easy mounting on an ambulance as shown in FIG. 7, Refers to a flat plate-shaped stretcher manufactured to be suitable for use in rugged terrain as shown in FIG. 8.

That is, the fixing unit 600 is composed of a first fixing module 610 for fixing the ambulance St 1 and a second fixing module 620 for fixing the structured stretcher S2, The first fixing module 610 may be used to fix the ambulance stretcher S1 to the floor of the booth 100 or the second fixing module 620 may be fixed to the floor of the booth 100 while the fixing member 623 of the second fixing module 620 is folded. Can be unfolded to fix the structural stretchers S2 to the bottom of the booth 100. [0035]

3, the stretcher washing apparatus of the present invention further includes a stopper 700 for stopping the rotation of the frame unit 200 after the operation of the driving unit 500 is completed. .

The stopper 700 includes an actuator having a rod 710, such as a cylinder, a solenoid switch, and the like, which can move up and down through the support plate 410.

That is, when the rod 710 is lowered in a state where the stopper 700 is mounted on the support plate 410, the stopper 700 enters the rotational path of the upper frame 210 to stop the frame unit 200.

The stopper 700 is disposed to be spaced left or right from the center of the support plate 410. According to this structure, when the stopper 700 is mounted on the two side frames 220 of the frame unit 200, It is possible to prevent the side frames 220 from obstructing the course of the stretchers S1 and S2 when the stretchers S2 and S2 are inserted or withdrawn.

1 to 3, the stretcher washing apparatus of the present invention may further include a disinfecting nozzle 800 for spraying the disinfectant into the washing chamber 120.

The disinfection nozzle 800 is made of a known spray nozzle and connected to a separate disinfectant supply pipe to spray the disinfectant into the cleaning chamber 120.

The disinfection nozzle 800 may be installed on the support plate 410 as shown, and may be installed on the ceiling or the inner wall of the cleaning chamber 120, if necessary.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the disclosed embodiments, and variations and modifications may be made without departing from the scope of the present invention. The present invention is not limited thereto.

100: Booth
110: door 120: washing chamber
130: wash water supply unit 140: air supply unit
200: Frame unit
210: upper frame 220: side frame
230: rotating shaft 240:
300: Cleaning nozzle
400: relay unit
410: support plate 420: relay bracket
430: upper wheel 440: lower wheel
500: drive unit
510: propelling nozzle 520: impeller
530: injection nozzle
600: fixed unit
610: First fixing module
611: first receiving portion 612: rail
613:
620: second fixed module
621: Fixing bracket 622: Second accommodating portion
623: Fixing member
700: Stopper
710: Load
800: Disinfection nozzle

Claims (6)

A booth 100 having a front door 110 and an internal cleaning chamber 120;
An upper frame 210 disposed on the upper side of the stretchers S1 and S2 disposed in the cleaning chamber 120 and protruding downward from both ends of the upper frame 210, A frame unit 200 including two side frames 220 disposed on both sides of the stretcher S1 and S2 inserted into the frame 120 and a rotary shaft 230 formed at the upper center of the upper frame 210;
A plurality of cleaning nozzles 300 mounted on the frame unit 200 for spraying washing water toward the stretchers S1 and S2 inserted in the washing chamber 120;
A relay unit (400) rotatably connecting the frame unit (200) to a ceiling of the booth (100); And
And a drive unit (500) for providing a rotational force to the frame unit (200).
The method according to claim 1,
The drive unit (500)
And a propelling nozzle (510) mounted on the frame unit (200) so as to be spaced apart from the rotation center of the frame unit (200) and spraying fluid to the front or rear of the frame unit (200) Device.
The method according to claim 1,
The drive unit (500)
An impeller 520 mounted on the rotating shaft 230 of the frame unit 200 and having a plurality of blades 521 arranged radially about the rotating shaft 230; And
And a spray nozzle (530) for spraying fluid toward the blade (521) of the impeller (520).
The method according to claim 1,
Each of the cleaning nozzles 300 is spaced apart along the longitudinal direction of the two side frames 220 and is disposed at each of the cleaning nozzles 300 and the other side frames 220 arranged in the one side frame 220. Characterized in that the cleaning nozzles (300) are arranged alternatingly.
The method according to claim 1,
The relay unit (400)
A circular support plate 410 installed on the ceiling of the booth 100 so as to be positioned on the same center line as the rotation axis 230 of the frame unit 200;
Two relay brackets 420 mounted on both upper surfaces of the upper frame 210;
An upper wheel 430 mounted on the two relay brackets 420 so as to be in contact with the upper surface of the edge of the support plate 410; And
And a lower wheel (440) mounted on the two relay brackets (420) so as to contact the lower edge of the support plate (410).
6. The method according to any one of claims 1 to 5,
And a fixing unit 600 installed at the bottom of the booth 100 to fix the stretchers S1 and S2,
The fixed unit 600
A rail 612 provided at the bottom of the booth 100 and having a first receiving portion 611 opened frontward and upward so that the wheel of the ambulance S1 can enter, A first fixing module 610 including a separation preventing jaw 613 formed on the rail 612 so as to be disposed below the front end of the first fixing module 611; And
A fixing bracket 621 provided at the bottom of the booth 100 and a rear bracket 621 rotatably coupled to the fixing bracket 621 and folded to be laid on the floor of the booth 100, A second securing module 620 including a securing member 623 having a second accommodating portion 622 that is opened so as to allow the edges of the structural stretch S2 to enter in an upright state and open front and upward; Wherein the lifting device comprises:

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