KR20210024338A - Apparatus for sterilization - Google Patents

Abstract

The present invention provides a sterilization device comprising: a sterilization unit; an operation unit; and an air conditioning unit. The sterilization unit comprises: a sterilization unit body having a hollow hole therein, having at the upper side thereof a sterilized material injection unit for injecting the sterilized material in a juice state, and including at the lower side thereof a sterilized material discharge unit for discharging the sterilized material that has been sterilized; a quartz tube disposed in the transverse direction at the inner side of the sterilization unit body and coated with the sterilized material on the outer circumferential surface thereof; a plurality of first ultraviolet lamps arranged at the inner side of the quartz tube in the transverse direction, spaced apart in the circumferential direction, and irradiating ultraviolet rays to the sterilized materials through the quartz tube; and an ultraviolet irradiation unit having a plurality of second ultraviolet lamps arranged in the transverse direction at the outside of the quartz tube, spaced apart in the circumferential direction, and irradiating ultraviolet rays to the sterilized material. The operation unit is connected to both ends in the lengthwise direction of the quartz tube and rotates the quartz tube so that the sterilized material supplied to the outer circumferential surface of the quartz tube through the sterilized material injection unit is moved toward the sterilized material discharge unit. The air-conditioning unit is connected to the sterilization unit body, circulates air to the sterilization unit body, converts high-temperature air discharged from the sterilization unit into low-temperature air through heat exchange, and supplies low-temperature air to the sterilization unit body.

Description

Sterilization device {APPARATUS FOR STERILIZATION}

The present invention relates to a sterilization device, and more particularly, when sterilizing an object to be sterilized by irradiating ultraviolet rays to the object to be sterilized, nutrients due to an increase in the temperature of the object to be sterilized due to heat generation of an ultraviolet lamp that irradiates ultraviolet rays. It relates to a sterilization device capable of preventing destruction and propagation of bacteria.

Among the domestic dietary industry, most green juice producers produce green juice according to primary processing methods such as washing, grinding, juice, mixing, packaging and shipping. Among them, in the process of washing raw materials subject to intensive management, washing with running water or washing with strong wind is performed, and then washing with washing water such as citric acid or electrolyzed water is performed. In the case of fresh juice that has undergone such a washing process, microbes remain in the final product, so safety is insufficient, and the storage of green juice is also very low. Accordingly, in the case of processed and manufactured food such as raw juice, a sterilization process of removing microorganisms contained in the food is performed using ultraviolet light technology. In particular, raw juice, rice wine, and milk need to be sterilized at low temperature to prevent the destruction of nutrients. Currently, pasteurization is mostly heat treated at high pressure. In this regard, ultraviolet sterilization is emerging as a new method that allows pasteurization without high pressure.

7 is a schematic diagram showing a conventional ultraviolet sterilization method. As shown in FIG. 5, in the conventional ultraviolet sterilization method, the ultraviolet lamp 510 is inserted into the tube 520 containing the liquid to be sterilized, so that the object to be sterilized comes into contact with the ultraviolet lamp 510. . Therefore, after performing the sterilization once, there is an inconvenience of having to go through a washing process of removing the object to be sterilized attached to the outside of the ultraviolet lamp 510. In particular, in the conventional ultraviolet sterilization method, the object to be sterilized comes into contact with the outer surface of the ultraviolet lamp 510 that generates heat due to long-term use. In this case, the temperature of the object to be sterilized increases due to the heat of the ultraviolet lamp 510, As a result, there is a problem in that nutrients are destroyed or an environment in which bacteria are easily reproduced is created. In this way, when the nutrients of the object to be sterilized, for example, green juice are destroyed or bacteria propagate, the quality of green juice is remarkably deteriorated, making it impossible to eat and drink, thereby losing its value as a product.

Korean Registered Patent Publication No. 10-1301670

The present invention has been proposed to solve the problems of the prior art as described above, and when sterilization is performed on the object to be sterilized by irradiating ultraviolet rays to the object to be sterilized, the object to be sterilized due to heat generation of an ultraviolet lamp that irradiates ultraviolet rays It is an object of the present invention to provide a sterilization device capable of preventing the destruction of nutrients and the growth of bacteria due to an increase in water temperature.

To this end, in the present invention, the inner side is made of a hollow, and the sterilized material injection part for injecting the sterilized material in a juice state is provided on the upper side, and the sterilized material discharge part for discharging the sterilized material to be sterilized is provided on the lower side. A sterilization unit body, a quartz tube disposed in a transverse direction on the inner side of the sterilization unit body and coated with the object to be sterilized on an outer circumferential surface thereof, and a quartz tube disposed in a transverse direction on the inner side of the quartz tube, spaced apart in a circumferential direction, and A plurality of first ultraviolet lamps for irradiating ultraviolet rays to the object to be sterilized through and a plurality of second ultraviolet lamps disposed on the outside of the quartz tube in a transverse direction, spaced apart in a circumferential direction, and irradiating ultraviolet rays to the object to be sterilized A sterilization unit including an ultraviolet irradiation unit; An operation unit connected to both ends of the quartz tube in the longitudinal direction and rotating the quartz tube so that the sterilized material supplied to the outer circumferential surface of the quartz tube through the sterilized material injection unit is moved toward the sterilized material discharge unit; And the sterilization unit is connected to the sterilization unit to circulate air to the sterilization unit, supplying low-temperature air to the sterilization unit, and converting the high-temperature air discharged from the sterilization unit into low-temperature air through heat exchange. It provides a sterilization device, characterized in that it comprises an air conditioning unit supplied to the sterilization unit body again.

Here, the sterilization unit body has a cross section in a rhombus shape, the sterilization object injection part is provided at the upper vertex side of the sterilization unit body, and the sterilization object discharge part is provided at the lower vertex side of the sterilization unit body, The sterilized material injected by the sterilized material injection unit is applied to the upper side of the outer circumferential surface of the quartz tube in a form that is radiated to both sides in the longitudinal direction of the quartz tube, and the quartz tube is rotated by the operation unit to rotate the quartz tube. The object to be sterilized moved to the lower side of the outer circumferential surface of the tube is characterized in that it falls from the outer circumferential surface of the quartz tube in a form that converges toward the discharge unit to be sterilized.

At this time, the sterilization object injection unit is provided on the outside of the sterilization unit body, an inlet pipe providing an inflow passage of the sterilization object supplied from the outside, and is installed on the upper vertex side of the sterilization unit main body. An injection pipe that communicates with the inside and is connected to the inlet pipe and provides a passage through which the sterilized material introduced through the inlet pipe is injected into the inside of the sterilization unit body, and is installed between the inlet pipe and the injection pipe. A pump that sucks the sterilized object through the inlet pipe and discharges the sucked sterilized object to the injection pipe, and is disposed inside the sterilization unit body toward the outer circumferential surface of the quartz tube and is connected to the injection pipe. And a nozzle for spraying the object to be sterilized toward the outer circumferential surface of the quartz tube, and the object to be sterilized discharge portion is installed at a lower vertex side of the sterilization unit body, communicates with the inner side of the sterilization unit body, and is sterilized. And a discharge pipe providing a passage through which water is discharged to the outside, and an opening/closing valve installed at a longitudinal end side of the discharge pipe to open and close the longitudinal end of the discharge pipe.

In addition, the sterilization unit body is provided in a form in contact with the upper side of the outer circumferential surface of the quartz tube in the longitudinal direction, and is disposed upstream of the nozzle and on the upper side of the outer circumferential surface of the quartz tube when the rotation direction of the quartz tube is referenced. A first scraper that blocks the applied sterilization material from flowing in a direction opposite to the rotation of the quartz tube, and is provided in a form in contact with the lower side of the outer peripheral surface of the quartz tube in the longitudinal direction, and the quartz tube is rotated by the rotation of the quartz tube. It characterized in that it further comprises a second scraper for removing the object to be sterilized from the outer circumferential surface of the quartz tube to be moved to the lower side of the outer circumferential surface of.

And the operation unit, the rotation shaft disposed in parallel with the quartz tube, a first gear coupled to both ends in the longitudinal direction of the rotation shaft, a second gear installed to be rotated in engagement with the first gear, and the second gear. And a housing coupled to both ends of the quartz tube in the longitudinal direction of the quartz tube, and a motor connected to the rotation shaft to rotate the rotation shaft, and a pulley is coupled to the outer circumferential surface of the rotation shaft, and the rotation shaft of the motor And the pulley is connected by a gear belt.

In addition, the sterilization unit further includes a core tube inserted in the longitudinal direction inside the quartz tube, the first ultraviolet lamp is disposed between the core tube and the quartz tube, one end of the core tube in the longitudinal direction It communicates with the air inlet formed on one side of the sterilization unit body, and a plurality of through holes are provided on the outer peripheral surface of the other side in the longitudinal direction of the core tube.

At this time, the air conditioning unit is provided between the air inlet pipe connected to the air inlet, the air outlet pipe connected to the air outlet formed on the other side of the sterilization unit body, and the air inlet pipe and the air outlet pipe. And a heat exchange unit that converts high-temperature air discharged through the discharge pipe into low-temperature air through heat exchange and supplies it to the air inlet pipe, and the air introduced into the sterilization unit body through the air inlet pipe is a longitudinal direction of the quartz pipe It is moved in a zigzag form to one side and the other side, and flows into the inner side of the core tube through the air inlet, moves along the longitudinal direction of the core tube, and then moves to the outside of the core tube through the plurality of through holes, and the The air moved to the outside of the core tube is moved to the air inlet side between the core tube and the quartz tube and then moved to the outside of the quartz tube, and the air moved outside the quartz tube is moved to the air outlet side and the air outlet port It is characterized in that discharged to the air discharge pipe through.

According to the present invention, when sterilizing the object to be sterilized by irradiating ultraviolet rays to the object to be sterilized, it is possible to prevent the destruction of nutrients and the growth of bacteria due to the increase in the temperature of the object to be sterilized due to the heat of the ultraviolet lamp that irradiates the ultraviolet light. And, through this, it is possible to maintain the quality of the object to be sterilized, improve productivity, and maximize the sterilization effect.

1 is a front view showing a sterilization device according to an embodiment of the present invention,
2 is a front right sectional view showing a sterilization device according to an embodiment of the present invention,
3 is a front left sectional view showing a sterilization device according to an embodiment of the present invention,
4 is a left sectional view showing a sterilization device according to an embodiment of the present invention,
Figure 5 is an enlarged view showing the sterilization unit of Figure 4,
6 is a right cross-sectional view showing a sterilization device according to an embodiment of the present invention,
7 is a block diagram schematically showing a sterilization apparatus according to the prior art.

Hereinafter, a sterilization apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 to 6, the sterilization device 10 according to an embodiment of the present invention is a device for sterilizing an object to be sterilized such as green juice with ultraviolet rays, and a sterilization unit 100 and an operation unit 200 And, it is formed to include the air conditioning unit 300 and the frame unit 400.

The sterilization unit 100 is a device that sterilizes an object to be sterilized supplied from the outside, and discharges the sterilized object to be sterilized. In an embodiment of the present invention, the sterilization unit 100 includes a sterilization unit body 110, a core tube 120, a quartz tube 130, an ultraviolet irradiation unit 140, and a housing tube 150. Formed by

The sterilization unit body 110 has a hollow inner side, and a sterilization object injection unit 111 for injecting a juice-like substance to be sterilized is provided on the upper side, and a sterilization object discharge unit for discharging the sterilized substance to be sterilized ( 112) is provided on the lower side. At this time, the sterilization unit body 110 is made of a cross section in the form of a rhombus. Accordingly, the object to be sterilized injection unit 111 is provided on the upper vertex side of the sterilization unit body 110. In addition, the object to be sterilized discharge unit 112 is provided on the lower vertex side of the sterilization unit body (110).

The object to be sterilized injected into the inner side of the sterilizing unit body 110 by the object to be sterilized injection unit 111 is applied to the upper side of the outer circumferential surface of the quartz tube 130 in a form that is radiated to both sides of the quartz tube 130 in the longitudinal direction. . In addition, by the rotation of the quartz tube 130 by the operation unit 200, the object to be sterilized is moved from the outer peripheral surface of the quartz tube 130 to the side of the discharging object 112. They fall in the form of being hunted.

That is, in an embodiment of the present invention, as the sterilization unit 110 has a rhombus-shaped cross section, the injected object to be sterilized can be spread over a wide range, and the sterilized object to be sterilized can be easily collected. do.

Here, the object to be sterilized injection part 111 may be formed to include an inlet pipe 111a, an injection pipe 111b, a pump 111c, and a nozzle 111d.

The inlet pipe (111a) is provided on the outside of the sterilization unit body (110). The inlet pipe 111a provides a passage through which the object to be sterilized supplied from the outside flows into the sterilization unit 110. The injection pipe 111b is installed on the upper vertex side of the sterilization unit body 110. One end of the injection tube 111b in the longitudinal direction communicates with the inner side of the sterilization unit body 110.

In addition, the other end of the injection pipe 111b in the longitudinal direction is connected to the inlet pipe 111a. That is, the injection pipe 111b provides a passage through which the object to be sterilized flowing from the outside through the injection pipe 111a is injected into the sterilization unit 110. The pump 111c is installed between the inlet pipe 111a and the injection pipe 111b. The pump 111c sucks the object to be sterilized located at one end of the inlet pipe 111a in the longitudinal direction through the pumping action through the inlet pipe 111a, and discharges the sucked object to be sterilized into the injection pipe 111b. do. The nozzle 111d is disposed inside the sterilizing unit body 110. In this case, the nozzle 111d is disposed toward the outer circumferential surface of the quartz tube 130 disposed in the transverse direction inside the sterilizing unit body 110.

The nozzle 111d is connected to the injection pipe 111b and sprays the sterilized object discharged to the injection pipe 111b by the pump 111c toward the outer circumferential surface of the quartz tube 130. In this way, the object to be sterilized sprayed by the nozzle 111d is widely applied to the outer circumferential surface of the quartz tube 130 in the longitudinal direction.

The object to be sterilized discharge portion 112 may be formed to include a discharge pipe (112a) and an on-off valve (112b). The discharge pipe (112a) is installed on the lower vertex side of the sterilization unit body (110). The discharge pipe (112a) is in communication with the inner side of the sterilization unit body (110). The discharge pipe 112a is sterilized to provide a passage through which the object to be sterilized, which is converging downward, is discharged to the outside.

The opening/closing valve 112b is provided at an end side in the longitudinal direction of the discharge pipe 112a. The opening/closing valve 112b is installed on the longitudinal end side of the discharge pipe 112a to open and close the longitudinal end of the discharge pipe 112a. By opening and closing the on-off valve 112b, the user can obtain a desired amount of sterilized object through the discharge pipe 112a.

On the other hand, an air inlet 115 is provided at one side of the sterilizing unit 110. One side of the air inlet 115 is connected to the hollow of the core pipe 120, and the other side is connected to the air inlet pipe 310 of the air conditioning unit 300. At this time, a vortex fan 115a may be provided in the hollow of the core tube 120.

The low temperature air flowing through the air inlet pipe 310 is introduced into the inside of the sterilizing unit 110 through the air inlet 115. In addition, an air outlet 116 is provided on the other side of the sterilizing unit 110. The air outlet 116 connects the inside of the sterilizing unit 110 and the air outlet pipe 320 of the air conditioning unit 300.

Inside the sterilization unit 110, the high temperature air whose temperature has risen due to heat generation of the first ultraviolet lamp 141 and the second ultraviolet lamp 142 constituting the ultraviolet irradiation unit 140 is passed through the air outlet 116. It is discharged through the air discharge pipe (32).

Meanwhile, the sterilization unit 110 according to an embodiment of the present invention includes a first scraper 113 and a second scraper 114.

The first scraper 113 is provided above the outer peripheral surface of the quartz tube 130. The first scraper 113 is provided on the upper side of the outer circumferential surface of the quartz tube 130 in a longitudinal direction. The first scraper 113 is disposed upstream of the nozzle 111d when the quartz tube 130 is rotated as a reference.

The first scraper 113 serves to block the sterilized material sprayed from the nozzle 111d and applied to the upper outer peripheral surface of the quartz tube 130 from flowing in the direction opposite to the rotation of the quartz tube 130.

The second scraper 114 is provided under the outer peripheral surface of the quartz tube 130. The second scraper 114 is provided in contact with the lower side of the outer circumferential surface of the quartz tube 130 in the longitudinal direction.

The second scraper 114 serves to remove the object to be sterilized from the outer circumferential surface of the quartz tube 130 due to the rotation of the quartz tube 130 to be moved below the outer circumferential surface of the quartz tube 130.

The rotating quartz tube 130 is removed from the object to be sterilized applied to its outer circumferential surface by the second scraper 114, and accordingly, the outer circumferential surface of the quartz tube 130 located on the first scraper 113 side is The surface is always in a clean state, and the object to be sterilized is sprayed onto the outer circumferential surface of the quartz tube 130 again through the nozzle 111d and applied.

The core tube 120 is provided in a hollow cylindrical shape. This core tube 120 is disposed in the transverse direction inside the sterilization unit body 110. One end of the core pipe 120 in the longitudinal direction communicates with the air inlet pipe 310 through the air inlet 115. In addition, a plurality of through holes 121 are provided on the outer peripheral surface of the other side in the longitudinal direction of the core tube 120.

The plurality of through holes 121 are air holes that allow air flowing into the inner side of the core tube 120 through the air inlet tube 310 to be moved to the outside of the core tube 120. The low-temperature air introduced into the core tube 120 circulates inside the sterilization unit 110 through the through hole 121, and the circulation path of such air will be described in more detail below. .

Meanwhile, a plurality of first ultraviolet lamps 141 of the ultraviolet irradiation unit 140 are installed along the outer circumferential surface of the core tube 120. In addition, the core tube 120 is disposed in a form inserted inside the quartz tube 130.

The quartz tube 130 is a transparent or translucent tube and is provided in a hollow cylindrical shape. The quartz tube 130 supports the sterilized object to be sterilized. That is, the object to be sterilized sprayed from the nozzle 111d is applied to the outer circumferential surface of the quartz tube 130 and sterilized by the ultraviolet irradiation unit 140 while the quartz tube 130 is rotated.

Inside the quartz tube 130, the core tube 120 is inserted in the form of a ring coupling. A plurality of first ultraviolet lamps 141 of the ultraviolet irradiation unit 140 are installed between the inner circumferential surface of the quartz tube 130 and the outer circumferential surface of the core tube 120 in the circumferential direction. In addition, a plurality of second ultraviolet lamps 142 of the ultraviolet irradiation unit 140 are installed outside the quartz tube 130 in the circumferential direction.

And the cylindrical quartz tube 130 is connected to the operation unit 200, by the operation unit 200, for example, rotated in a counterclockwise direction. Through this, the object to be sterilized applied to the upper side of the outer circumferential surface of the quartz tube 130 is caused by a plurality of first ultraviolet lamps 141 and a plurality of second ultraviolet lamps 142 while the quartz tube 130 is rotated. After being sterilized, it is moved to the lower side of the outer circumferential surface of the quartz tube 130, and after that, it is removed from the outer circumferential surface of the quartz tube 130 by a second scraper 114 and converges toward the discharging target 112. It will fall.

The ultraviolet irradiation unit 140 is a device for ultraviolet sterilization treatment of the object to be sterilized. As described above, the UV irradiation unit 140 includes a first UV lamp 141 and a second UV lamp 142.

The first ultraviolet lamp 141 has a cylindrical shape. The first ultraviolet lamp 141 is disposed inside the quartz tube 130 in the transverse direction. Accordingly, the first ultraviolet lamp 141 indirectly faces the object to be sterilized applied to the outer circumferential surface of the quartz tube 130. In this case, a plurality of first ultraviolet lamps 141 are provided.

The plurality of first ultraviolet lamps 141 are spaced apart in the circumferential direction of the quartz tube 130. Accordingly, even when the quartz tube 130 rotates, the object to be sterilized continues to face the first ultraviolet lamp 141. The first ultraviolet lamp 141 irradiates ultraviolet rays to the object to be sterilized through the quartz tube 130 in a transparent or translucent state.

The second ultraviolet lamp 142 has a cylindrical shape. The second ultraviolet lamp 142 is disposed outside the quartz tube 130 in the transverse direction. The second ultraviolet lamp 142 directly faces the object to be sterilized applied to the outer circumferential surface of the quartz tube 130. In this case, the second ultraviolet lamp 142 is provided in plural, similar to the first ultraviolet lamp 141.

The plurality of second ultraviolet lamps 142 are spaced apart in the circumferential direction of the quartz tube 130. Accordingly, even when the quartz tube 130 rotates, the object to be sterilized continues to face the second ultraviolet lamp 142. This second ultraviolet lamp 142 directly irradiates ultraviolet rays to the object to be sterilized.

The housing tube 150 is provided in a hollow cylindrical shape. The housing tube 150 is disposed in the sterilizing unit body 110 in the transverse direction. Inside the housing tube 150, the core tube 120 and the quartz tube 130 are inserted in a ring-coupled form, and a plurality of first ultraviolet lamps 141 are provided between the core tube 120 and the quartz tube 130. It is installed, and a plurality of second ultraviolet lamps 142 are installed between the quartz tube 130 and the housing tube 150.

That is, the housing tube 150 provides an installation space for the core tube 120, the quartz tube 130, and the ultraviolet irradiation unit 140. An insulating material 151 may be provided outside the housing tube 150. By providing the heat insulating material 151 on the outside of the housing tube 150, it is possible to create a stable sterilization treatment environment.

The operation unit 200 is connected to both ends of the quartz tube 130 in the longitudinal direction. The operation unit 200 rotates the quartz tube 130 so that the object to be sterilized supplied to the outer circumferential surface of the quartz tube 130 through the object to be sterilized injection unit 111 is moved toward the discharge unit 112 to be sterilized. .

To this end, the operation unit 200 according to an embodiment of the present invention includes a rotation shaft 210, a first gear 220, a second gear 230, a housing 240, and a motor 250. Formed by

The rotation shaft 210 is disposed parallel to the quartz tube 130. In this case, the rotation shaft 210 may be formed in a plurality, and may form one shaft through the coupling 212.

The first gear 220 is coupled to both ends of the rotation shaft 210 in the longitudinal direction. The second gear 230 is provided in a pair. The pair of second gears 230 are installed to rotate in engagement with each of the pair of first gears 220.

The housing 240 is coupled to both ends of the quartz tube 130 in the longitudinal direction. The housing 240 is installed to rotate in engagement with the second gear 230. The motor 250 is connected to the rotation shaft 210 to rotate the rotation shaft 210. At this time, the pulley 211 is coupled to the outer circumferential surface of the rotation shaft 210, and the rotation shaft of the motor 250 and the pulley 210 are connected by a gear belt 251. Through this, the motor 250 and the rotation shaft 210 are connected. In addition, a reducer 252 may be installed on the rotating shaft of the motor 250.

When the motor 250 is driven, the rotation shaft 210 rotates, for example, in a counterclockwise direction, and accordingly, the first gear 220 rotates in a counterclockwise direction. When the first gear 220 rotates in a counterclockwise direction, the second gear 230 meshed with and rotated rotates in a clockwise direction.

When the second gear 230 rotates in a clockwise direction, the housing 240 rotated in engagement with it rotates in a counterclockwise direction, and the quartz tube 130 also rotates in a counterclockwise direction integrally with the housing 240. do.

The air conditioning unit 300 is connected to the sterilization unit body 110. The air conditioning unit 300 circulates air to the sterilization unit body 110. Specifically, the air conditioning unit 300 supplies low-temperature air to the sterilization unit body 110. In addition, the air conditioning unit 300 converts the high-temperature air discharged from the sterilization unit 110 into low-temperature air through heat exchange and supplies it to the sterilization unit 110 again. That is, the air conditioning unit 300 continuously supplies low-temperature air to the sterilization unit body 300.

The sterilization apparatus 10 according to the embodiment of the present invention includes such an air conditioning unit 300, so that when sterilizing the sterilized object by irradiating ultraviolet rays to the sterilized object, the first ultraviolet lamp 141 and the It is possible to prevent the destruction of nutrients and bacterial propagation due to the increase in temperature of the object to be sterilized due to heat generation of the second ultraviolet lamp 142, thereby maintaining the quality of the object to be sterilized, improving productivity, and maximizing the sterilization effect. can do.

To this end, the air conditioning unit 300 according to an embodiment of the present invention is formed to include an air inlet pipe 310, a meat discharge pipe 320, and a heat exchange unit 330.

The air inlet pipe 310 is connected to the air inlet 115 formed on one side of the sterilization unit 110 and communicates with the inner side of the core pipe 120 through the air inlet 115.

The air discharge pipe 320 is connected to the air discharge port 116 formed on the other side of the sterilization unit body 110, and communicates with the inner side of the sterilization unit body 110 through the air discharge port 116.

The heat exchange part 330 is installed between the air inlet pipe 310 and the air discharge pipe 320. The heat exchange unit 330 converts high-temperature air discharged through the air discharge pipe 320 into low-temperature air through heat exchange and supplies it to the air inlet pipe 310.

The heat exchange unit 330 may be provided as a conventional cooling system comprising a compressor, a condenser, an expansion valve, and an evaporator, and a detailed description thereof will be omitted.

The air circulation process by the air conditioning unit 300 is as follows.

That is, the low-temperature air flowing into the sterilizing unit 110 through the air inlet pipe 310 moves in a zigzag form to one side and the other side in the length direction of the quartz tube 130. Specifically, the low-temperature air supplied from the air conditioning unit 300 is introduced into the inner side of the core tube 120 through the air inlet 115, moves along the longitudinal direction of the core tube 120, and then moves the plurality of through holes. It is moved to the outside of the core tube 120 through (121).

Then, the air moved to the outside of the core tube 120 is moved to the air inlet 115 between the core tube 120 and the quartz tube 130 and then moves to the outside of the quartz tube 130. At this time, the low-temperature air that moves between the core tube 120 and the quartz tube 130 as described above is a plurality of first ultraviolet lamps 141 and a plurality of second ultraviolet lamps 142 that generate heat during the movement process. As it cools, its own temperature rises.

Then, the high-temperature air moved to the outside of the quartz tube 130 is moved toward the air outlet 116 and is discharged to the air exhaust pipe 320 through the air outlet 116.

The high-temperature air discharged through the air discharge pipe 320 passes through the heat exchange unit 330 and is made of low-temperature air and is resupplied to the air inlet pipe 310.

Meanwhile, the frame part 400 supports the sterilization part 100, the operation part 200, and the air conditioning part 300. In an embodiment of the present invention, the frame unit 400 includes an upper frame 410 and a lower frame 420.

The upper frame 410 may be formed of a hexahedron with open top, bottom, left and right. This upper frame 410 is installed on the lower frame 420. The upper frame 410 is provided with a sterilization unit 100 and an operation unit 200 and is supported by it.

The lower frame 420 may be formed of a hexahedron. The lower frame 420 is installed under the upper frame 410. For installation stability, the lower frame 420 is preferably formed to have a larger volume than the upper frame 410. The lower frame 420 is provided with a heat exchange unit 300 of the air conditioning unit 300 and is supported by it. In addition, wheels or rollers may be installed on the lower side of the lower frame 420 in order to ensure the convenience of movement of the sterilizing device 10.

Until now, the sterilization apparatus according to the present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, and anyone skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection should be determined by the technical idea of the appended claims.

10; Sterilization device 100; Sterilization
110; Sterilization body 120; Core tube
130; Quartz tube 140; UV irradiation unit
150; Housing tube 200; Working part
210; Rotary shaft 220; First gear
230; Second gear 240; housing
250; Motor 252; reducer
300; Air conditioning unit 310; Air inlet pipe
320; Air discharge pipe 330; Heat exchanger
400; Frame part 410; Upper frame
420; Lower frame

Claims (7)

The inner side is hollow, and the sterilization object injection part 111 for injecting the sterilized substance in a juice state is provided on the upper side, and the sterilization substance discharge part 112 for discharging the sterilized substance to be sterilized is provided on the lower side. The sterilization unit 110 is disposed in the transverse direction inside the sterilization unit 110 and the quartz tube 130 to which the object to be sterilized is applied on the outer circumferential surface thereof, and the quartz tube 130 is transversely disposed on the inner side of the quartz tube 130. A plurality of first ultraviolet lamps 141 which are disposed in a direction but spaced in a circumferential direction and irradiate ultraviolet rays to the object to be sterilized through the quartz tube 130 and are disposed in a transverse direction on the outside of the quartz tube 130. A sterilization unit 100 including an ultraviolet irradiation unit 140 spaced in a circumferential direction and including a plurality of second ultraviolet lamps 142 for irradiating ultraviolet rays to the object to be sterilized;
The sterilized material supplied to the outer circumferential surface of the quartz tube 130 is connected to both ends of the quartz tube 130 in the longitudinal direction, and through the sterilized material injection part 111, the sterilized material discharging part 112 ) An operation unit 200 for rotating the quartz tube 130 so as to be moved toward the side; And
It is connected to the sterilization unit body 110 to circulate air to the sterilization unit body 110, supplying low-temperature air to the sterilization unit body 110, and the high temperature discharged from the sterilization unit body 110. An air conditioning unit 300 for converting air into low temperature air through heat exchange and supplying it to the sterilizing unit 110 again;
Sterilizing device (10), characterized in that it comprises a. The method of claim 1,
The sterilization unit body 110 has a cross section of a rhombus shape, the sterilization object injection unit 111 is provided on the upper vertex side of the sterilization unit body 110, and the sterilization object discharge unit 112 is It is provided on the lower vertex side of the sterilization unit body 110,
The object to be sterilized injected by the object to be sterilized injection part 111 is applied to the upper side of the outer circumferential surface of the quartz tube 130 in a form that is radiated to both sides of the quartz tube 130 in the longitudinal direction, and the operation unit ( By the rotation of the quartz tube 130 by 200), the sterilized material moved downward from the outer circumferential surface of the quartz tube 130 toward the sterilized material discharge part 112 from the outer circumferential surface of the quartz tube 130 Sterilization device (10), characterized in that the fall in the form of convergence. The method of claim 2,
The sterilization object injection part 111 is provided outside the sterilization unit body 110 and provides an inlet passage for the sterilization object supplied from the outside, and the sterilization unit body 110 It is installed on the upper vertex side, communicates with the inner side of the sterilization unit body 110, is connected to the inlet pipe (111a), and the sterilization object introduced through the inlet pipe (111a) is An injection pipe 111b providing a passage to be injected into the inner side, and the inlet pipe 111a and the injection pipe 111b are installed to inhale the sterilized material through the inlet pipe 111a and the sucked blood A pump 111c for discharging the sterilizing material to the injection tube 111b, and the sterilization unit 110 is disposed toward the outer circumferential surface of the quartz tube 130 and is connected to the injection tube 111b, and is connected to the injection tube 111b. It includes a nozzle 111d for spraying the object to be sterilized toward the outer circumferential surface of the quartz tube 130,
The sterilization object discharge unit 112 is installed at the lower vertex side of the sterilization unit body 110, communicates with the inner side of the sterilization unit body 110, and provides a passage through which the sterilized object is discharged to the outside. A sterilization device (10), characterized in that it comprises a discharge pipe (112a) to provide, and an opening/closing valve (112b) installed at the longitudinal end side of the discharge pipe (112a) to open and close the longitudinal end of the discharge pipe (112a). . The method of claim 3,
The sterilization unit body 110,
The quartz tube 130 is provided in a form in contact with the upper outer circumferential surface of the quartz tube 130 in the longitudinal direction, and is disposed upstream of the nozzle 111d when the rotation direction of the quartz tube 130 is referenced, and the quartz tube 130 A first scraper 113 that blocks the sterilized material applied on the upper side of the outer circumferential surface of the quartz tube 130 from flowing in a direction opposite to the rotation of the quartz tube 130,
The quartz tube 130 is provided in a form in contact with a lower side of the outer circumferential surface of the quartz tube 130 in a longitudinal direction, and is moved to a lower side of the outer circumferential surface of the quartz tube 130 due to the rotation of the quartz tube 130. A sterilization device (10), characterized in that it further comprises a second scraper (114) to be removed from the outer circumferential surface of 130. The method of claim 1,
The operation unit 200,
A rotating shaft 210 disposed parallel to the quartz tube 130,
A first gear 220 coupled to both ends of the rotation shaft 210 in the longitudinal direction,
A second gear 230 installed to rotate in engagement with the first gear 220,
A housing 240 installed to be rotated in engagement with the second gear 230 and coupled to both ends of the quartz tube 130 in the longitudinal direction,
It includes a motor 250 connected to the rotation shaft 210 to rotate the rotation shaft 210,
A sterilization device (10), characterized in that a pulley (211) is coupled to the outer circumferential surface of the rotation shaft (210), and the rotation shaft of the motor (210) and the pulley (210) are connected by a gear belt (251). The method of claim 1,
The sterilization unit 100 further includes a core tube 120 inserted in the longitudinal direction into the inner side of the quartz tube 130,
The first ultraviolet lamp 141 is disposed between the core tube 120 and the quartz tube 130,
One end of the core tube 120 in the longitudinal direction communicates with the air inlet 115 formed on one side of the sterilization unit body 110,
A sterilization device (10), characterized in that a plurality of through holes (121) are provided on the outer peripheral surface of the other side in the longitudinal direction of the core tube (120). The method of claim 6,
The air conditioning unit 300,
An air inlet pipe 310 connected to the air inlet 115,
An air discharge pipe 320 connected to the air discharge port 116 formed on the other side of the sterilization unit body 110,
It is installed between the air inlet pipe 310 and the air outlet pipe 320 to make high-temperature air discharged through the air outlet pipe 320 into low-temperature air through heat exchange and supply it to the air inlet pipe 310 It includes a heat exchange unit 330,
Air introduced into the sterilization unit 110 through the air inlet pipe 310 is moved in a zigzag form to one side and the other side in the longitudinal direction of the quartz tube 130, and the core through the air inlet 115 It is introduced into the inner side of the tube 120, is moved along the longitudinal direction of the core tube 120, and then moved to the outside of the core tube 120 through the plurality of through holes 121,
The air moved to the outside of the core tube 120 is moved to the air inlet 115 between the core tube 120 and the quartz tube 130 and then moves to the outside of the quartz tube 130,
A sterilizing device (10), characterized in that the air moved to the outside of the quartz tube (130) is moved toward the air outlet (116) and discharged to the air outlet pipe (320) through the air outlet (116).

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