KR20000056851A - An ultraviolet sterilizing device - Google Patents

Abstract

PURPOSE: A sterilizer using ultraviolet radiation is provided having improved efficiency of sterilization and to increase convenience of worker and work efficiency. CONSTITUTION: A sterilizing chamber(10) sterilizing corresponding object(1) by using ultraviolet radiation is equipped at a predetermined location of a transport instrument(20), namely at the center section. An automatic control device(30) is equipped at the side of the sterilizing chamber(10). An air supplying device(40) is installed to supply hot blast or cold blast to the sterilizing chamber.

Description

An ultraviolet sterilizing device

The present invention relates to an ultraviolet sterilizer, and more particularly, to an ultraviolet sterilizer for sterilizing various cooking utensils and medical instruments used in restaurants and hospitals using ultraviolet rays.

Generally, cooking utensils such as tableware and medical instruments such as syringes and scalpels have been sterilized and sterilized by drying in natural light after washing, but recently, a plurality of shelves are installed in a predetermined container and an ultraviolet lamp is placed on the top of the container. UV sterilizers have been developed and used to sterilize and disinfect the objects placed on the shelf by the sterilization effect of ultraviolet rays emitted from the ultraviolet lamp.

Such UV sterilizers are sterilized and disinfected in containers, and thus, more hygienic sterilization is possible by eliminating the inclusion of other foreign substances such as dust and the like, and thus they are widely used in sanitary facilities such as restaurants and hospitals.

However, the UV sterilizer has the following problems despite the advantages.

First, the conventional ultraviolet sterilizer was difficult to achieve a complete sterilization effect in its structure.

Second, when loading the disinfectant in the UV sterilizer, the worker has to unload the disinfectant on the shelf one by one.

Therefore, it is necessary to develop a new ultraviolet sterilizer that can solve the problems raised, that is, improve efficiency and convenience in sterilization.

The present invention has been made to solve the above problems, an object of the present invention to provide an ultraviolet sterilization apparatus that can improve the sterilization efficiency.

In addition, another object of the present invention to provide an ultraviolet sterilization apparatus that increases the convenience and work efficiency of the operator during sterilization treatment.

1 is a perspective view showing an embodiment of an ultraviolet sterilizer according to the present invention

2 is a cross-sectional view taken along the line I-I of FIG.

3 is a cross-sectional view II-II of FIG.

Figure 4 is a block diagram showing an embodiment of the ultraviolet sterilization apparatus according to the present invention

5 is a flow chart showing the operation of the ultraviolet sterilizer according to the present invention

Explanation of symbols for main parts of the drawings

1: Toxin 10: sterilization chamber

12: case 14: UV lamp

16 reflector 18 concave and convex

19a, 19b: external reflector 20: transfer means

21: frame 22: roller

24: belt 30: automatic control means

33: indicator light 34: toxin detection sensor

35: controller 36: toxin detection sensor

38: toxin discharge sensor 40: air supply means

42: bracket 44: air supply

46: air supply pipe

In order to achieve the above object, the present invention provides a sterilization chamber in which an ultraviolet lamp for sterilizing a toxin is installed therein, a transfer means for transferring the toxin to the sterilization chamber, and an automatic control of the transfer means and the sterilization chamber. It consists of control means.

Here, the sterilization chamber includes a case, a plurality of ultraviolet lamps installed in the case and emitting ultraviolet rays having a minimum amount of sterilization light, and a reflector reflecting ultraviolet rays emitted from the ultraviolet lamps.

In addition, the automatic control means is installed at the inlet of the transfer means to detect the object to be inserted into the toxin to be inserted, the sterilization chamber is installed at the entrance of the sterilization chamber to detect whether the toxin has reached the sterilization chamber A disinfectant arrival detection sensor, a disinfectant start detection sensor installed at an outlet of the sterilization chamber and detecting whether the toxin is discharged from the sterilization chamber, and an outlet of the transfer means installed at an outlet of the transfer means. A toxin discharge detection sensor for detecting whether it has arrived in and a signal from the toxin injection sensor, and driving the transfer means, and receiving the signal from the arrival detection sensor for the toxin to the ultraviolet lamp and the air supply means. Driving the UV lamp and the air supply means by receiving the signal from the start detection sensor Halting the operation, receives the signal of the to-be-sterilized material discharge detection sensor is configured to include a controller that stops the operation of the conveying means.

In addition, the ultraviolet sterilizer is preferably configured to further include an air supply means for supplying hot or cold air.

Therefore, according to the present invention as described above, the sterilized body can be sterilized efficiently and the working efficiency can be improved.

Hereinafter, described with reference to the accompanying drawings a preferred embodiment of the ultraviolet sterilizer according to the present invention.

First, the overall configuration will be described with reference to FIG. 1. The sterilization chamber 10 for sterilizing the toxin 1 using ultraviolet rays is a predetermined position of the transfer means 20 for transferring the toxin 1. It is installed in a substantially central portion, and an automatic control means 30 is provided on one side of the sterilization chamber 10. And it is preferable that the air supply means 40 which supplies hot air or cold air to the sterilization chamber 10 is installed.

Each component is described as follows.

Referring to FIG. 1, the conveying means 20 includes a conveyor frame 21, a belt 24 mounted on the frame 21 to convey the toxin 1 and the belt 24. It consists of the roller 22 which rotates.

In general, the drive unit of the conveyor system is composed of a roller and a separate drive motor for driving the roller, but in this embodiment, it is preferable to use a power roller 22 having a motor integrated inside the roller 22 to simplify the structure. Do. Since the power roller 24 is generally available for purchase, description thereof will be omitted.

In addition, instead of the general rubber material that is hardened when used for a long time, the belt 24 is preferably made of a stainless steel plate made of a thin plate made of a stainless steel rich in malleability.

Referring to FIG. 2, the sterilization chamber 10 will be described. A sterilization chamber 10 includes a case 12 forming an overall appearance and a plurality of insides of the case 12 to emit ultraviolet rays having a sterilizing effect. UV lamp 14 is made of.

On the other hand, the case 12 is provided with a reflector 16 which reflects the ultraviolet rays emitted from the ultraviolet lamp 14 to increase sterilization effect, and the ultraviolet lamp 14 is mounted at a predetermined position of the reflector 16. desirable.

Herein, the reflector 16 is preferably in a dome shape, and is embossed to form a plurality of recesses and convex portions 18 on the reflecting surface so that the ultraviolet rays emitted from the ultraviolet lamp 14 are diffusely reflected to be sterilized. More preferably, the sieve 1 is sterilized evenly.

As shown in FIG. 3, external reflecting plates 19a and 19b having a shape inclined into the sterilization chamber 10 are installed at the upper end of the inlet and the outlet of the sterilization chamber 10, thereby In operation, it is preferable to reflect the ultraviolet rays leaking from the inlet and the outlet of the sterilization chamber 10 back into the sterilization chamber 10.

On the other hand, as shown in Figure 3, it is preferable to provide an air supply means 40 for supplying hot or cold air to the sterilization chamber (20). The air supply means 40 is to create and supply hot or cold air and the air supply 44 is fixed in the bracket 42 coupled to the frame 21, one side is connected to the air supply 44 and the other side is The air supply pipe 46 is installed on the reflector 16 and supplies hot or cold air from the air supply 44 to the sterilization chamber 10.

Air supply 44 is a general thing that can be composed of a blower and a heater or a freezer, so a description thereof will be omitted.

The automatic control means 30 will be described with reference to FIGS. 1 and 4 as follows. Various operating conditions, for example, the operation unit 31 for setting the conveying speed of the belt 24, the number of operation of the ultraviolet lamp 14, whether the air supply means 40, etc. and the indicator light indicating the operating state 33 is installed in the control panel. In addition, on the conveying means 20 in order to insert the toxic object detection sensor 32, the toxic object arrival detection sensor 34, the toxic object start detection sensor 36, the toxic object emission detection sensor 38 Is installed.

The disinfectant input detection sensor 32 is installed at the inlet of the transfer means 20 to detect whether the toxin 1 has been injected into the transfer means 20, the target toxin detection arrival 34 Is installed at the inlet of the sterilization chamber 10 to detect whether the toxin 1 has reached the sterilization chamber 10, and the toxin detection sensor 36 is installed at the outlet of the sterilization chamber 10 to be sterilized. It is detected whether the sieve 1 is discharged from the sterilization chamber 10, the toxin discharge sensor 38 is installed at the outlet of the transfer means 20 is the toxin 1 is transferred to the transfer means (20) Detect whether you have arrived at the exit.

4, the operation unit 31 and the detection unit 32, 34, 36, 38 is connected to the input side of the controller 35, the roller 22, ultraviolet lamp 14, air supply 44, The indicator light 33 is connected to the output side of the controller 35. The controller 35 may be directly controlled by a circuit board, but it is preferable to use a programmable logic controller (PLC).

The operation of the embodiment according to the present invention configured as described above will be described with reference to FIG. 5.

First, the operator sets the conveying speed of the conveying means 20, the number of operation of the ultraviolet lamp 14, and whether the air supply 44 is operated in the operation unit 31 according to the size, shape and state of the toxin 1. (S1) That is, the operator is the minimum amount of sterilization light (16,000) in the operation unit 31 The number of lamps is adjusted to have an ideal value, and the operation of the air supply 44 can be set according to whether or not the use of hot or cold air is required for the toxin 1. And if the transfer means 20 is continuously operated, the sterilization time can be determined by the speed of the transfer means 20.

After the basic operating conditions are set, the operator places the toxin 1 on the belt 24. Then, the input of the toxin 1 is detected by the object to be injected sensor 32 (S3), the roller 22 is operated. (S5) When the roller 22 rotates according to the set speed The belt 24 is rotated and thus the poison 1 is transported toward the sterilization chamber 10, in which case the air supply 44 is operated if the air supply 44 is set to be operated at the operation unit 31. (S7)

When the transported sterilized material 1 is detected by the sterilized material arrival detection sensor 34 installed at the inlet side of the sterilization chamber 10 (S9), the number of operating and ultraviolet rays of the ultraviolet lamp 14 previously set on the operation unit 31 are According to the intensity, the ultraviolet generator, that is, the ultraviolet lamp 14 is operated to start the sterilization process (S11).

The reflector 16 installed in the sterilization chamber 20 is designed to have a dome-shaped stainless steel reflecting plate therein, whereby the ultraviolet light emitted from the ultraviolet lamp 14 is affected by the reflecting effect 1. The entire surface of is evenly sterilized. At this time, the concave portion and the convex portion 18 are formed on the reflecting plate of the reflector 14 to diffusely reflect the ultraviolet rays, and the outer reflecting plates 19a and 19b are attached to the upper end of the inlet and the outlet of the sterilization chamber 10 and the sterilization chamber. (10) the ultraviolet rays leaking outwards again to the inside of the sterilization chamber 10 to have a more even sterilization effect.

And, the above-mentioned minimum amount of sterilization light (16,000 By placing the UV lamp 14 having a) or more on the reflector of the reflector 14 at regular intervals and using a stabilizer designed to continuously produce a minimum amount of sterilization light therein, the sterilization performance is always constant without deterioration. Sufficient germicidal light amount is generated. Due to these requirements, the toxin 1 is completely sterilized even in a relatively short time (usually 7 to 15 seconds).

In addition, during the sterilization process, the air supplier 44 directs hot air and cold air into the reflector 16 through the air supply pipe 46, respectively, according to the setting in the operation unit 31. Therefore, when there is moisture in the toxin 1, the hot air is supplied to assist the drying of the toxin 1 during the sterilization treatment, and the hot air even when the toxin 1 is dried and sterilized. It functions to create an environment at a temperature suitable for sterilization (28 ° C. to 38 ° C.), and to be sterilized without thawing by supplying cold air at the time of frozen food sterilization.

When the sterilized material 1 subjected to the sterilization treatment as described above is transferred to the sterilized start detection sensor 36 installed at the outlet of the sterilization chamber 10 (S13), the UV lamp 14 and the air supply in order Operation of 44 is stopped. (S15, S17)

Subsequently, the toxin 1 is continuously transported by the transfer means 20, and when the toxin discharge detection sensor 38 is detected (S19), the transfer means 20 stops operation (S21). The worker transfers the disinfected toxin 1 after completion of the sterilization treatment from the transfer means 20.

In the above-described embodiment has been described that the transfer means 20 is intermittently operated.

However, the present invention is not limited to this and various improvements are possible. In other words, it is possible to continuously operate the conveying means 20. Because the conveying speed of the conveying means 20 is relatively low, it is possible to operate the conveying means 20 continuously and the operator can put or remove the toxin 1 (1).

Although only one embodiment of the present invention has been described above, those skilled in the art, as can be seen in the appended claims, can be modified without departing from the spirit of the present invention. It will be understood that it is within the scope of the present invention.

The effects of the present invention as described above are as follows.

First, the sterilization chamber is composed of an ultraviolet lamp sufficient for the minimum amount of sterilization light and a reflector to maximize the sterilization effect by the reflection action, and the entire surface of the toxin to be sterilized is sterilized evenly by the ultraviolet diffuse reflection by the ridge formed on the reflector. The efficiency is improved.

Second, the sterilization process is automatically controlled by the input of disinfectant and discharge detection sensor on the conveying means, and the sterilization time is shortened by sufficient amount of sterilization light, which enables real-time processing and consistent work of the worker, thus making the operator simple and efficient. There is an effect to increase.

Further, in addition to the above-mentioned, by supplying hot or cold air to the sterilization chamber from the air supply means consisting of an air supply, etc. during sterilization of the toxin to be sterilized according to the state of the toxin to dry, sterilization environment composition, thawing prevention, etc. It has the effect of doubling the work efficiency and sterilization efficiency.

Claims (7)

A sterilization chamber in which an ultraviolet lamp for sterilizing a toxin is installed therein; Transfer means for transferring the toxin to the sterilization chamber; Ultraviolet sterilizing apparatus comprising an automatic control means for controlling the transfer means and the sterilization chamber. The method of claim 1, The sterilization chamber and the case; A plurality of ultraviolet lamps installed in the case and emitting ultraviolet rays above a minimum amount of germicidal light; Ultraviolet sterilizer, characterized in that it comprises a reflector for reflecting the ultraviolet light emitted from the ultraviolet lamp. The method of claim 2, The reflector is formed in a dome shape, UV sterilizing apparatus, characterized in that to improve the sterilization efficiency by concentrating the ultraviolet light emitted from the ultraviolet lamp to the toxin. The method of claim 3, wherein The reflector is an ultraviolet sterilizer, characterized in that the embossing treatment to form a plurality of concave portions and convex portions diffusely reflect the ultraviolet light emitted from the ultraviolet lamp to further improve sterilization efficiency. The method of claim 4, wherein Ultraviolet sterilizer, characterized in that the inlet and outlet of the sterilization chamber is formed to be inclined in the direction of the sterilization chamber, an external reflector is installed to prevent the ultraviolet rays from the sterilization chamber to be emitted to the outside. The method according to any one of claims 1 to 5, The automatic control means is installed at the inlet of the transfer means and the target object to be detected to detect whether or not the object to be injected; A sterilizing object arrival sensor installed at the inlet of the sterilizing chamber and detecting whether the sterilizing body has reached the sterilizing chamber; A sterilization start detection sensor installed at an outlet of the sterilization chamber and detecting whether the sterilizing body is discharged from the sterilization chamber; A toxin discharge sensor installed at an outlet of the transfer unit and detecting whether the toxin has arrived at the outlet of the transfer unit; Receiving a signal from the injecting object detection sensor to drive the transfer means, receives the signal of the arrival detection sensor to be driven to drive the UV lamp and the air supply means, the signal of the start detection sensor to be poisoned And a controller for stopping the operation of the ultraviolet lamp and the air supply means, and stopping the operation of the transfer means by receiving the signal of the toxic emission sensor. The method of claim 6, The ultraviolet sterilizer further comprises an air supply means for supplying hot or cold air ultraviolet sterilizer.