CN115569214A - Sterilization and peculiar smell removal equipment based on ultraviolet inactivation - Google Patents

Abstract

The invention discloses a sterilization and odor removal device based on ultraviolet inactivation, and belongs to the technical field of ultraviolet sterilization. The sterilization peculiar smell discharge equipment comprises a sterilization tank, wherein an ultraviolet component is arranged in the sterilization tank, a feeding door and a discharging door are respectively arranged at two ends of the sterilization tank, the feeding door and the discharging door are respectively and rotatably connected with two ends of the sterilization tank, a feeding port and a discharging port are respectively arranged on the feeding door and the discharging door, a conveying crawler belt is arranged at one end, close to the feeding port, in the sterilization tank, a discharging crawler belt is arranged at one end, close to the discharging port, of the sterilization tank, rolling rows are arranged between the conveying crawler belt and the discharging crawler belt, a sterilization ring is arranged in the sterilization tank, the ultraviolet component is arranged on the sterilization ring and is in sliding connection with the sterilization ring, and a supporting component is arranged at the bottom end of the sterilization tank.

Description

Sterilization and peculiar smell removal equipment based on ultraviolet inactivation

Technical Field

The invention relates to the technical field of ultraviolet sterilization, in particular to sterilization and peculiar smell removal equipment based on ultraviolet inactivation.

Background

In some places under sterile environment, the sterilization and disinfection of clothes and tools worn by people are necessary, for example, some special cloths and some bandage products, the traditional sterilization method cannot achieve thorough sterilization effect, so the sterilization ultraviolet sterilization device is applied to practical use. As a light source used for an ultraviolet sterilizer, a low-pressure mercury lamp is generally used to generate ultraviolet sterilizing light, and this sterilization method is widely used in cooking chambers, textiles, and the like, and is used to sterilize water, powder objects, containers, textile articles, and the like.

The ultraviolet sterilization products on the market are all the best, but most of the ultraviolet sterilization products have a problem, the problems that some sterilization dead angles exist in the sterilization of textiles and the sterilization and removal cannot be completed due to the stacking problem are solved, and strong oxides such as ozone and the like are generated in the sterilization process due to ultraviolet rays, so that the yellowing problem caused by the oxidation of the textile goods can be greatly influenced by the factors, the service life of the textile goods can be influenced under the condition that the textile goods are not treated for a long time, the use of the textiles used in some special scene environments can also be influenced, and the problems of peculiar smell and the like generated in the sterilization process can also pollute the surrounding environment if the problems cannot be properly treated.

Disclosure of Invention

The invention aims to provide sterilization and odor removal equipment based on ultraviolet inactivation to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

the sterilizing and odor removing equipment comprises a sterilizing tank, wherein an ultraviolet component is arranged in the sterilizing tank, a feeding door and a discharging door are respectively arranged at two ends of the sterilizing tank, the feeding door and the discharging door are respectively rotatably connected with two ends of the sterilizing tank, a feeding port and a discharging port are respectively arranged on the feeding door and the discharging door, a conveying crawler belt is arranged at one end, close to the feeding port, in the sterilizing tank, a discharging crawler belt is arranged at one end of the sterilizing tank, a rolling row is arranged between the conveying crawler belt and the discharging crawler belt, a sterilizing ring is arranged in the sterilizing tank, the ultraviolet component is arranged on the sterilizing ring and is in sliding connection with the sterilizing ring, a supporting component is arranged at the bottom end of the sterilizing tank, after the equipment is prepared, the objects to be sterilized are conveyed into the conveying crawler belt from the feeding port, the article of waiting to disinfect are in proper order through transporting the track, the row that rolls, arrange the material track, it is at the operation in-process to wait to clean article, the ultraviolet subassembly will send the wave band frequency and be located 250 ~ 285nm interval, the ultraviolet sterilization effect in this interval is best, at sterile in-process, the row that rolls will be treated the article of disinfecting and overturn repeatedly and produce and continuously vibrate, make the bacterium that is killed can break away from in waiting to disinfect article, the bacterium that has been killed can not produce and pile up, wait to kill and accomplish the back, article will drop to discharge gate department from arranging the material track, finally outside the discharge apparatus, when needs wash in the virus killing jar, only need open the feed door and the discharge gate ventilate the clearance can.

The inner wall of the disinfection tank is provided with a disinfection ring which is a spiral track, an ultraviolet component is connected with the disinfection ring in a sliding way, the ultraviolet component comprises an ultraviolet lamp, the ultraviolet lamp is arranged on a lamp holder, the lamp holder is connected with the disinfection ring in a sliding way, a filter is arranged on the lamp holder, the side of the lamp holder far away from the ultraviolet lamp is provided with a following chamber, the following chamber is fixedly connected with the lamp holder through a bracket, the two sides of the following chamber are respectively provided with a condenser lens, the condenser lenses are connected with the following chamber, the following chamber and the ultraviolet lamp are respectively arranged on the two sides of a rolling row, when the disinfection operation is carried out, the ultraviolet lamp works and emits ultraviolet rays, under the action of the filter, a large amount of ultraviolet rays in the interval of 250-285 nm can be emitted, the problem that the disinfection effect is reduced due to the interference of the ultraviolet rays in different wave bands on bacteria is avoided, and meanwhile, the lamp holder can move along the disinfection ring, when the articles to be sterilized enter the sterilizing tank, the ultraviolet rays can sterilize the conveying track, the problem that the sterilizing effect is weakened due to the fact that the ultraviolet rays are overlapped or too far away from the edges is solved by sterilizing the edge parts of the articles in the operating process, and meanwhile, in the operating process, the sterilizing information and the shape information of each part can be collected along with the rotating chamber, so that the condensing lens is adjusted to move, so that the condenser lens will reflect the excess uv light onto the item to be disinfected.

The following transfer chamber is internally provided with a first induction chamber and a second induction chamber which are arranged on one side of the rolling row far away from the ultraviolet lamp, the first induction chamber and the second induction chamber are respectively provided with a following-up tube, each following-up tube is respectively communicated with the first induction chamber and the second induction chamber, a movable piston is arranged in each following-up tube and is in sliding contact with the following-up tube, one side of the movable piston far away from the first induction chamber and the second induction chamber is respectively provided with a spring, each spring is respectively propped against the movable piston and the following-up tube, the movable piston is respectively connected with a condenser through a connecting rod, and in the killing process, due to the irregular shapes of some articles, the receiving condition of ultraviolet rays emitted by the ultraviolet lamp can be influenced, and still can take place because the anomalous condition that causes the edge to appear piling up of putting at the operation in-process because the anomalous, when receiving the ultraviolet ray that ultraviolet lamp transmitted in first response chamber and the second response intracavity, the ultraviolet ray acceptance area of the article of proving this moment is less, the scheduling problem has taken place to pile up, because the radiation of ultraviolet ray self will be to the air heating inflation in first response chamber and the second response intracavity, and promote to move the piston and remove, thereby make the distance between the condensing lens of first response chamber and second response chamber both sides zoom in, the condensing lens will reflect a large amount of ultraviolet rays on one's body to the article, make the article of awaiting killing receives more ultraviolet rays, improve the effect of killing, and avoid killing the problem of omitting.

The air guide plates are arranged on each connecting rod between the lamp holder and the rotating chamber respectively, each air guide plate is provided with an air wheel set, two air wheels are arranged in each air wheel set, each air wheel is provided with teeth, the positions of the output ends of the air wheels are symmetrical relative to the plane where the rolling row is located, each air wheel is meshed through the teeth, due to different thicknesses of articles to be cleaned, the contact amount of some articles with ozone needs to be more, one side of the overturning roller which is not in contact with the articles to be sterilized generates a flow velocity with larger air amount with other positions, the air wheel which is close to the articles to be sterilized in the air wheel sets rotates, the air wheel with the lower flow velocity on the other side is driven to rotate, the air at the articles to be sterilized at the positions is enabled to flow, in the flowing process, the air film can deviate towards the moving direction of the articles to be sterilized, the air film at the positions is enabled to be thinner, and the contact ozone amount can be increased accordingly.

The rolling row comprises a plurality of rolling drums, each rolling drum is rotationally connected with a conveying frame, the conveying frame is fixedly connected with the inner wall of the disinfection tank, adjacent rolling drums are connected through a transmission gear set, two ends of the transmission gear set are meshed with the rolling drums, the transmission gear set is rotationally connected with the conveying frame, the conveying frame is arranged between a conveying track and a discharging track, a protective shell is arranged on the conveying frame and is rotationally connected with the rolling drums, a plurality of vent holes are formed in the rolling drums, a conveying motor is arranged on the conveying frame and is connected with the rolling drums close to one side of the conveying track through chains, the conveying frame is located between a follow-up chamber and an ultraviolet lamp, when the articles to be disinfected are moved from the conveying tracks, the rolling drums capture the articles to be disinfected, and the articles are moved in the direction of the conveying frame under the action of the conveying motor, the adjacent overturning rollers are opposite in rotation direction under the action of the transmission gear set, when an article to be killed moves to the next overturning roller, the article to be killed is grabbed by the next overturning roller and moves along the moving direction of each overturning roller, the moving direction can enable the article to be killed to be S-shaped, the light rays of an ultraviolet lamp can completely irradiate the article to be killed, and a vibration effect can be generated in the moving process, so that killed bacteria on the article to be killed can be separated from the article to be killed, the automatic cleaning effect is completed, meanwhile, the article can automatically change the shape, and in the moving process, the overturning rollers can continuously blow the article to be killed, the change of the greenhouse degree of the gas in the article is changed, the sterilization effect is strengthened, and an air film is formed on the article to be killed, the air film can not only take away killed bacteria, but also avoid damage of articles to be killed by excessive ultraviolet radiation.

The inside of the turning drum is provided with a ventilating drum, the ventilating drum is provided with a plurality of through holes, the sterilization tank is provided with an air inlet and an air outlet, each ventilating drum penetrates through the protective shell and is communicated with the air inlet through an air pipe, the ventilating drum is rotationally connected with the turning drum, the ventilating drum is fixedly connected with the conveying frame, the turning drum is internally provided with a telescopic catching claw and a clamping auxiliary claw, the telescopic catching claw is slidably connected with the turning drum, the clamping auxiliary claw is rotationally connected with the turning drum through a spring shaft, the telescopic catching claw is sleeved with a spring, two ends of the spring respectively abut against the telescopic catching claw and the turning drum, the ends of the telescopic catching claw and the clamping auxiliary claw, which are close to the ventilating drum, are respectively provided with rollers, each roller respectively abuts against the ventilating drum, the ventilating drum is provided with a slide way, the rollers abut against the slide way and are in rolling connection with the slide way, when the turning drum rotates, the telescopic catching claw and the clamping auxiliary claw are driven to move, the telescopic catching claw and the clamping auxiliary claw can move along the slide way, in the moving process, the slide way is a step-shaped slide way, when rollers on the telescopic catching claw and the clamping auxiliary claw move to the step position, the telescopic catching claw and the clamping auxiliary claw can be drawn together to catch an article to be killed, in the conveying process, gas can flow out of the ventilating roller under the action of the ventilating roller and transfer the article to be killed to the next overturning roller, in this way, the reciprocating operation is carried out, when each roller is transferred to the next overturning roller, the rollers on the telescopic catching claw and the clamping auxiliary claw move to the initial slide way position and restore to the initial state, and the front side and the back side of the article to be killed can be sufficiently irradiated by ultraviolet rays.

The dust cover is arranged in the air inlet, the dust cover and the air inlet are of a detachable structure, the air inlet is connected with a rolling row through an air pipe, an air inlet motor is arranged in the air inlet, a turbine is arranged on the air inlet motor, a waste gas treatment box is arranged on the air outlet, an exhaust motor is arranged on the air outlet, fan blades are arranged at the output end of the exhaust motor, an air receiving port and an exhaust pipe are arranged in the waste gas treatment box, the air receiving port is communicated with the air inlet, a peculiar smell processor is arranged between the air receiving port and the exhaust pipe, the air inlet motor works to drive the turbine to rotate, gas can be pumped into the turbine and can be external air or specific supply gas, the pumped air can be taken out of the disinfection tank by the exhaust motor of the air outlet after passing through a to-be-killed object, most of bacteria in the disinfection tank which are killed can be taken out of the disinfection tank, ozone can be generated under the action of ultraviolet rays in the disinfection process, peculiar smell generated during the disinfection, and the mixed gas can enter the waste gas treatment box and is discharged out of the waste gas treatment box after being treated by the waste gas treatment box.

The peculiar smell processor comprises a ventilating spiral pipe, a rotary filter plate is arranged on the ventilating spiral pipe, the ventilating spiral pipe is in sliding contact with the rotary filter plate, a residual storage box is arranged at the position, close to the rotary filter plate, of the ventilating spiral pipe, the residual storage box is movably connected with the ventilating spiral pipe, the rotary filter plate is fixedly connected with the output end of a rotary motor, a mixing pipe is arranged at one side, away from the ventilating spiral pipe, of the rotary filter plate, the mixing pipe is communicated with an exhaust pipe, a plurality of mixing gas ports are arranged on the mixing pipe, the mixing gas ports penetrate through the waste gas treatment box and are communicated with the external environment, the diameter, close to the mixing gas ports, of the mixing pipe is smaller than that of the mixing pipe, close to the rotary filter plate, when the peculiar smell gas and the ozone enter the ventilating spiral pipe, the ventilating spiral pipe can be heated under the action of the rotary filter plate, the rotary filter plate has the heating effect, when other peculiar smell gases such as the ozone and the like pass through the rotary filter plate, will decompose into oxygen under the effect of high temperature, the smell of ozone in the waste gas will disappear, meanwhile, in the process of decomposition, the rotary filter plate is driven by the rotary motor to rotate, the residue remained on the rotary filter plate can be conveyed to the residue containing box, can completely avoid the blockage problem of the rotary filter plate caused by the accumulation of the waste, the waste gas can enter the mixing pipe after passing through the rotary filter plate, because of the change of the inner diameter, the flow speed of the waste gas is increased, meanwhile, the retention time of the waste gas on the waste gas filter plate is increased, the generation of escaping ozone is reduced, after the flow speed is increased, when the waste gas passes through the mixed gas port, because the inside velocity of flow is great, the air that the mixing gas mouth will bring the external world in carries out neutralization to along with the increase of the internal diameter of mixing tube, will make better neutralization of external air be in the same place.

The support assembly comprises a telescopic seat, stabilizing feet are arranged on the disinfection tank and embedded into the telescopic seat, a plurality of stabilizing springs are arranged in the telescopic seat, two ends of each stabilizing spring respectively abut against the inner walls of the stabilizing feet and the telescopic seat, stabilizing gears are arranged in the telescopic seat, stabilizing elastic pieces are arranged in the stabilizing gears, the stabilizing gears are rotatably connected with the telescopic seat and are meshed with the stabilizing feet, in the disinfection process, due to the ultraviolet assembly and the conveying track, and the overturning roller is used for rotating the disinfection tank to vibrate and damage the barrel body and the base, the stabilizing feet are embedded into the telescopic seat by adopting an embedded method, so that the disinfection tank and the support assembly can be separated independently, the separated disinfection tank is more convenient to overhaul and the like, when the disinfection tank is rotated, the stabilizing feet can rotate along with the disinfection tank, and the stabilizing gears are driven to rotate, the disinfection tank can generate opposite elastic force under the action of the stabilizing springs and the stabilizing elastic pieces, and the disinfection tank can regularly sway to provide movement force for adjusting the position of an object to be disinfected.

Compared with the prior art, the invention has the following beneficial effects: 1. the invention adopts the ultraviolet sterilization device, and can change the ultraviolet receiving rate of the articles to be sterilized according to the specific shape and the specific placing mode of the articles to be sterilized, so that the articles to be sterilized can be sterilized with the optimal receiving efficiency, the invalid sterilization effect caused by stacking and other reasons can be avoided, the thickness of the film at the position can be adjusted according to the thickness of the articles to be sterilized, the contact amount with ozone can be controlled, and the sterilization effect of the equipment on various thicknesses can be further improved.

2. The invention adopts the sterilizing device with the matching of the gas and the ultraviolet rays, so that the gas can form an air film on the articles to be sterilized, the effect of excessive oxidation of a large amount of ozone can be isolated, meanwhile, the damage of the articles to be sterilized caused by excessive radiation of the ultraviolet rays can be reduced due to the air film, and simultaneously, the articles to be sterilized can be eliminated by adopting a continuous air injection method, so that the residual of the inactivated bacteria on the articles to be sterilized is avoided.

3. Adopt the transport means of roll formula and cooperate ultraviolet germicidal device, can be so that the ultraviolet ray can obtain the utilization in the at utmost to make the article of waiting to kill all can obtain the ultraviolet irradiation at this in-process, when promoting the bactericidal rate, the article of waiting to kill that rolls still can take place the shake in the different degree, and rotate, when can assist the formation air film, also makes the elimination that the deactivation bacterium can be lighter.

4. The invention adopts a rotary heating type waste gas treatment mode, can reduce ozone formed by ultraviolet rays, can prevent inactivated bacteria residues from entering air again in the rotating process, and simultaneously avoids the residues from blocking a filter plate to cause blockage accidents.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the disinfection tank of the present invention;

FIG. 3 is a schematic view of the internal structure of the follower rotor chamber of the present invention;

FIG. 4 is a schematic view of the internal structure of the tumbling row of the present invention;

FIG. 5 is a schematic view of the internal structure of the tumble drum of the present invention;

FIG. 6 is a schematic view of the internal structure of the exhaust gas treatment tank of the present invention;

FIG. 7 is a schematic view of a portion A of FIG. 2;

FIG. 8 is a schematic view of the structure of FIG. 6, shown in partial section B;

FIG. 9 is a schematic view of a matching relationship of the wind turbine assemblies in the wind guide plate of the present invention;

in the figure: 1. a disinfection tank; 101. a stabilization foot; 102. an air inlet; 103. an air outlet; 104. a dust cover; 105. an exhaust motor; 106. an air intake motor; 2. an ultraviolet component; 201. an ultraviolet lamp; 202. a lamp holder; 203. a filter; 204. a following rotation chamber; 205. a condenser lens; 206. a first sensing chamber; 207. a second sensing chamber; 208. a variable tube; 209. moving the piston; 210. an air induction plate; 211. a wind wheel set; 3. a feed gate; 4. a discharge door; 5. a feed inlet; 6. a discharge port; 7. a conveying crawler belt; 9. a discharge crawler belt; 10. rolling and discharging; 1001. turning over the roller; 1002. a conveying frame; 1003. a drive gear set; 1004. a protective housing; 1005. a transfer motor; 1006. a vented drum; 1007. a telescopic catching claw; 1008. clamping the auxiliary jaw; 11. sterilizing rings; 13. a support assembly; 1301. a telescopic seat; 1302. a stabilizing spring; 1303. a stabilizing gear; 1304. stabilizing the spring plate; 14. a waste gas treatment tank; 15. an air receiving port; 16. an exhaust pipe; 17. a peculiar smell processor; 1701. a ventilation spiral tube; 1702. rotating the filter plate; 1703. a residual storage box; 1704. a rotating electric machine; 1705. a mixing tube; 1706. and a mixing air port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution:

the sterilizing and odor removing equipment comprises a sterilizing tank 1, an ultraviolet component 2 is arranged in the sterilizing tank 1, a feeding door 3 and a discharging door 4 are respectively arranged at two ends of the sterilizing tank 1, the feeding door 3 and the discharging door 4 are respectively and rotatably connected with two ends of the sterilizing tank 1, a feeding port 5 and a discharging port 6 are respectively arranged on the feeding door 3 and the discharging door 4, a conveying crawler 7 is arranged at one end, close to the feeding port 5, in the sterilizing tank 1, a discharging crawler 9 is arranged at a position, close to the discharging port 6, of the sterilizing tank 1, a rolling row 10 is arranged between the conveying crawler 7 and the discharging crawler 9, a sterilizing ring 11 is arranged in the sterilizing tank 1, the ultraviolet component 2 is arranged on the sterilizing ring 11, the ultraviolet component 2 is in sliding connection on the sterilizing ring 11, a supporting component 13 is arranged at the bottom end of the sterilizing tank 1, after the equipment is prepared, the objects to be sterilized are conveyed to the conveying crawler from the feeding port, treat that the article of disinfecting pass through in proper order and transport the track, the row of rolling, arrange the material track, treat that clean article is at the operation in-process, ultraviolet ray assembly will disappear and kill the operation to it, ultraviolet ray assembly will send the wave band frequency and be located 250 ~ 285nm interval, ultraviolet sterilization effect in this interval is best, at sterile in-process, the row of rolling will treat that the article of disinfecting overturn repeatedly and produce and last vibrations, make the bacterium that is disappeared and kill can break away from treating sterile article, the bacterium that has been killed can not produce and pile up, treat to disappear and kill the completion back, article will drop to discharge gate department on arranging the material track, finally outside the discharge apparatus, when needs wash in to killing the poison jar, only need open the feed gate with the discharge gate clear up that ventilates can.

The inner wall of the disinfection tank 1 is provided with a disinfection ring 11, the disinfection ring 11 is a spiral track, an ultraviolet component 2 is connected with the disinfection ring 11 in a sliding way, the ultraviolet component 2 comprises an ultraviolet lamp 201, the ultraviolet lamp 201 is arranged on a lamp holder 202, the lamp holder 202 is connected with the disinfection ring 11 in a sliding way, a filter 203 is arranged on the lamp holder 202, the filter 203 is arranged on the ultraviolet lamp 201, a following chamber 204 is arranged on one side of the lamp holder 202 away from the ultraviolet lamp 201, the following chamber 204 is fixedly connected with the lamp holder 202 through a bracket, two sides of the following chamber 204 are respectively provided with a condenser lens 205, the condenser lenses 205 are connected with the following chamber 204, the following chamber 204 and the ultraviolet lamp 201 are respectively arranged on two sides of the rolling row 10, when disinfection operation is carried out, the ultraviolet lamp works, ultraviolet rays are emitted under the action of the filter, a large amount of ultraviolet rays in the interval of 250-285 nm can be emitted, the problem that the interference of ultraviolet rays with different wave bands to bacteria is reduced, thereby the disinfection effect is avoided, meanwhile, the lamp bracket moves along the disinfection ring, when the articles to be disinfected enter the disinfection tank, the ultraviolet ray can disinfect the conveying track, the problem that the disinfection effect is weakened due to the fact that the edges of the articles are overlapped or the ultraviolet ray is too far away from the edges is solved, meanwhile, in the operation process, the disinfection information and the shape information of each part can be collected along with the rotating chamber, thereby moving the condenser lens to move, and enabling the condenser lens to reflect redundant ultraviolet light to the object to be sterilized.

A first sensing cavity 206 and a second sensing cavity 207 are arranged in the following rotating chamber 204, the first sensing cavity 206 and the second sensing cavity 207 are arranged on one side of the rolling row 10 far away from the ultraviolet lamp 201, a following tube 208 is respectively arranged on the first sensing cavity 206 and the second sensing cavity 207, each following tube 208 is respectively communicated with the first sensing cavity 206 and the second sensing cavity 207, a moving piston 209 is arranged in each following tube 208, the moving piston 209 is in sliding contact with the following tube 208, springs are respectively arranged on one side of the moving piston 209 far away from the first sensing cavity 206 and one side of the second sensing cavity 207, each spring respectively supports against the moving piston 209 and the following tube 208, the moving piston 209 is respectively connected with the condenser 205 through a connecting rod, and in the killing process, due to the irregular shapes of some articles, will exert an influence to the ultraviolet receiving condition that ultraviolet lamp sent out, and still can take place because the anomalous condition of piling up that causes the edge to appear putting in operation process, receive the ultraviolet ray that ultraviolet lamp transmitted in first response chamber and the second response intracavity, it is less to prove the ultraviolet ray acceptance area of article this moment, the scheduling problem has taken place to pile up, because the radiation of ultraviolet ray self will be to the air heating inflation in first response chamber and the second response chamber, and promote the removal piston and remove, thereby make the distance between the condensing lens of first response chamber and second response chamber both sides draw near, the condensing lens will reflect a large amount of ultraviolet rays on one's body to the article, make the article of waiting to kill accept more ultraviolet rays, improve the effect of killing, and avoid the problem of omitting of killing.

Each connecting rod between the lamp holder 202 and the rotating chamber 204 is provided with an air guide plate 210, each air guide plate 210 is provided with an air wheel set 211, two wind wheels are arranged in each air wheel set 211, each wind wheel is provided with teeth, the position of the output end of each wind wheel is symmetrical about the plane where the rolling row 10 is located, each wind wheel is meshed through the teeth, the contact amount of some articles to be cleaned and ozone needs to be larger due to different thicknesses, one side of the overturning roller which is not in contact with the articles to be killed can generate flow velocity with larger air amount at other positions, the wind wheels which are close to the articles not to be killed in the wind wheel sets can rotate, and accordingly the wind wheels with the lower flow velocity at the other sides are driven to rotate, so that the air at the articles to be killed at the positions can circulate, the air film can deviate towards the moving direction of the articles to be killed in the flowing process, the air film at the positions is thinner, and the contact ozone amount can also be increased.

The tumbling row 10 comprises a plurality of tumbling cylinders 1001, each tumbling cylinder 1001 is rotationally connected with a conveying frame 1002, the conveying frame 1002 is fixedly connected with the inner wall of the disinfection tank 1, adjacent tumbling cylinders 1001 are connected through a transmission gear set 1003, two ends of the transmission gear set 1003 are meshed with the tumbling cylinders 1001, the transmission gear set 1003 is rotationally connected with the conveying frame 1002, the conveying frame 1002 is arranged between the conveying track 7 and the discharging track 9, a protective shell 1004 is arranged on the conveying frame 1002, the protective shell 1004 is rotationally connected with the tumbling cylinders 1001, a plurality of vent holes are arranged on the tumbling cylinders 1001, a conveying motor 1005 is arranged on the conveying frame 1002, the conveying motor 1005 is connected with the tumbling cylinders 1001 close to one side of the conveying track 7 through chains, the conveying frame 1002 is positioned between the following rotating chamber 204 and the ultraviolet lamp 201, when the object to be disinfected moves down from the conveying track, the tumbling cylinders can capture the object to be disinfected, under the action of a conveying motor, the articles to be killed are moved in the direction of a conveying frame, adjacent overturning rollers are opposite in rotating direction under the action of a transmission gear set, when the articles to be killed are moved to the next overturning roller, the articles to be killed are grabbed by the next overturning roller and move along the moving direction of each overturning roller, the articles to be killed are enabled to be S-shaped in the moving direction, the light rays of an ultraviolet lamp can completely irradiate the articles to be killed, a vibration effect can be generated in the moving process, the killed bacteria on the articles to be killed can be separated from the articles to be killed, the automatic cleaning effect is achieved, the articles can be automatically changed in shape, and the overturning rollers can continuously blow the articles to be killed in the moving process, the change of the greenhouse degree of the internal gas is changed, the sterilization effect is enhanced, and simultaneously, an air film is formed on the article to be sterilized, the air film can take away killed bacteria, and meanwhile, the article to be sterilized can be prevented from being damaged by excessive ultraviolet radiation.

An air-permeable roller 1006 is arranged in the overturning roller 1001, a plurality of through holes are arranged on the air-permeable roller 1006, an air inlet 102 and an air outlet 103 are arranged on the disinfection tank 1, each air-permeable roller 1006 passes through the protective shell 1004 and is communicated with the air inlet 102 through an air pipe, the air-permeable roller 1006 is rotationally connected with the overturning roller 1001, the air-permeable roller 1006 is fixedly connected with the conveying frame 1002, a telescopic catching claw 1007 and a clamping auxiliary claw 1008 are arranged in the overturning roller 1001, the telescopic catching claw 1007 is slidably connected with the overturning roller 1001, the clamping auxiliary claw 1008 is rotationally connected with the overturning roller 1001 through a spring shaft, a spring is sleeved on the telescopic catching claw 1007, two ends of the spring respectively abut against the telescopic catching claw 1007 and the overturning roller 1001, rollers are respectively arranged at one ends of the telescopic catching claw 1007 and the clamping auxiliary claw 1008, which are close to the air-permeable roller 1006, each roller abuts against the air-permeable roller 1006, the roller abuts against the slide way and is in rolling connection with the slide way, when the overturning roller rotates, the telescopic catching claw and the clamping auxiliary claw are driven to move, the telescopic catching claw and the clamping auxiliary claw can move along the slide way, in the moving process, the slide way is a step-shaped slide way, when the rollers on the telescopic catching claw and the clamping auxiliary claw move to the step, the telescopic catching claw and the clamping auxiliary claw can be drawn together and catch the object to be killed, in the conveying process, gas can flow out of the ventilating roller under the action of the ventilating roller and transfer the object to be killed to the next overturning roller, in this way, the reciprocating operation is carried out, when each roller is transferred to the next overturning roller, the rollers on the telescopic catching claw and the clamping auxiliary claw move to the initial slide way and return to the initial state, so that the front side and the back side of the object to be killed can be irradiated by sufficient ultraviolet rays.

The dust cover 104 is arranged in the air inlet 102, the dust cover 104 and the air inlet 102 are of a detachable structure, the air inlet 102 is connected with the rolling exhaust 10 through an air pipe, an air inlet motor 106 is arranged in the air inlet 102, a turbine is arranged on the air inlet motor 106, a waste gas treatment box 14 is arranged on the air outlet 103, an exhaust motor 105 is arranged on the air outlet 103, fan blades are arranged at the output end of the exhaust motor 105, an air receiving port 15 and an exhaust pipe 16 are arranged in the waste gas treatment box 14, the air receiving port 15 is communicated with the air inlet 102, a peculiar smell processor 17 is arranged between the air receiving port 15 and the exhaust pipe 16, the air inlet motor works to drive the turbine to rotate, gas can be pumped into the turbine, the gas can be external air or specific supply gas, the pumped air can be taken out of the disinfection tank by the exhaust motor at the air outlet after passing through an object to be disinfected, most of bacteria killed in the disinfection tank can also be taken out of the disinfection tank, ozone can be generated under the action of ultraviolet rays in the disinfection process of disinfection, peculiar smell generated in the process of bacteria killed, and the mixed gas can enter the waste gas treatment box and can be discharged out of the waste gas treatment box after the waste gas treatment through the waste gas treatment box.

The peculiar smell treater 17 comprises a ventilating spiral pipe 1701, a rotary filter plate 1702 is arranged on the ventilating spiral pipe 1701, the ventilating spiral pipe 1701 is in sliding contact with the rotary filter plate 1702, a residual storage box 1703 is arranged at the position of the ventilating spiral pipe 1701 close to the rotary filter plate 1702, the residual storage box 1703 is movably connected with the ventilating spiral pipe 1701, the rotary filter plate 1702 is fixedly connected with the output end of a rotary motor 1704, a mixing pipe 1705 is arranged at one side of the rotary filter plate 1702 far away from the ventilating spiral pipe 1701, the mixing pipe 1705 is communicated with an exhaust pipe 16, a plurality of mixing air ports 1706 are arranged on the mixing pipe 1705, the mixing air ports 1706 penetrate through the waste gas treatment box 14 and are communicated with the external environment, the diameter of the position of the mixing pipe 1705 close to the mixing air ports 1706 is smaller than that of the position of the mixing pipe 1705 close to the rotary filter plate 1702, when peculiar smell gas and ozone enter the ventilating spiral pipe, the ventilating spiral pipe can be heated under the action of the rotary filter plate, the rotary filter plate has a warming effect, when other peculiar smell gases such as ozone and the like pass through the rotary filter plate, the peculiar smell gases are decomposed under the action of high temperature and are decomposed into oxygen, the smell of the ozone in the waste gas disappears, meanwhile, in the decomposition process, the rotary filter plate is driven by the rotary motor to rotate, the residue remained on the rotary filter plate is conveyed into the residue containing box, the problem of blockage of the rotary filter plate caused by accumulation of the waste can be completely avoided, the waste gas enters the mixing pipe after passing through the rotary filter plate, the flowing speed of the waste gas is increased due to the change of the inner diameter, meanwhile, the staying time of the waste gas on the waste gas filter plate can be increased, the generation of escaping ozone is reduced, after the flow speed is increased, when the waste gas passes through the mixing gas port, the air brought into the outside by the mixing gas port is neutralized due to the large flow speed of the inside, and will allow better neutralization of the outside air as the inner diameter of the mixing tube increases.

The support assembly 13 comprises a telescopic base 1301, a stabilizing foot 101 is arranged on the sterilization tank 1, the stabilizing foot 101 is embedded into the telescopic base 1301, a plurality of stabilizing springs 1302 are arranged in the telescopic base 1301, two ends of each stabilizing spring 1302 respectively abut against the inner walls of the stabilizing foot 101 and the telescopic base 1301, a stabilizing gear 1303 is arranged in the telescopic base 1301, a stabilizing elastic sheet 1304 is arranged in the stabilizing gear 1303, the stabilizing gear 1303 is rotatably connected with the telescopic base 1301 and meshed with the stabilizing foot 101, vibration and rotation of the sterilization tank can be generated under the action of the ultraviolet assembly, the conveying track and the overturning roller in the sterilization process, long-time rotation can damage the barrel body and the base, the stabilizing foot is embedded into the telescopic base in an embedded mode, the sterilization tank and the support assembly can be separated independently, the sterilization tank separated from the sterilization tank can is convenient to overhaul and the like, when the sterilization tank rotates, the stabilizing foot can rotate along with the sterilization tank and drives the stabilizing gear to rotate, opposite elasticity is generated by the sterilization tank under the action of the stabilizing springs and the stabilizing springs, regular shaking of the sterilization tank can be used for providing a sterilization position adjustment to be used for sterilization.

The working principle of the invention is as follows: after the equipment is prepared, the articles to be sterilized are fed into the conveying track 7 from the feeding hole 5, the articles to be sterilized sequentially pass through the conveying track 7, the rolling discharge row 10 and the discharge track 9, the articles to be cleaned are sterilized by the ultraviolet component 2 in the operation process, the ultraviolet component 2 sends out wave band frequency within a range of 250-285 nm, the ultraviolet sterilization effect in the range is optimal, in the sterilization process, the rolling discharge row 10 repeatedly turns over the articles to be sterilized and generates continuous vibration, so that the sterilized bacteria can be separated from the articles to be sterilized, the sterilized bacteria cannot be accumulated, in the sterilization process, when the ultraviolet rays transmitted by the ultraviolet lamp 201 are received in the first induction cavity 206 and the second induction cavity 207, the ultraviolet receiving area of the articles at the moment is proved to be small, the problem of stacking and the like occurs, because the radiation of the ultraviolet rays heats and expands the air in the first induction cavity 206 and the second induction cavity 207 and pushes the movable piston to move, so that the air in the first induction cavity 206 and the second induction cavity 206 is pumped into the conveying track 207, most of the air to be pumped to the sterilizing gas inlet duct 205, and the sterilizing gas is sucked out of the sterilizing gas collecting motor 205, and the sterilizing gas is also pumped out from the sterilizing gas inlet duct 205 and is sucked to the sterilizing gas inlet duct 205 or discharged by the sterilizing motor 103, and is discharged by the sterilizing gas collecting motor 205, and the sterilizing gas inlet duct 205, and the sterilizing drum 205, most of the sterilizing drum 205, under the action of a conveying motor 1005, the objects to be sterilized move in the direction of a conveying frame 1002, adjacent overturning rollers 1001 are under the action of a transmission gear set 1003, the rotating directions of the adjacent overturning rollers are opposite, when the objects to be sterilized move to the next overturning roller 1001, the objects to be sterilized are grabbed by the next overturning roller 1001, the objects to be sterilized move along the moving direction of each overturning roller 1001, the objects to be sterilized are enabled to be S-shaped, the objects are enabled to be automatically transformed, the overturning rollers 1001 are enabled to continuously blow air like the objects to be sterilized in the moving process, the change of the greenhouse degree of internal gas is changed, the sterilization effect is enhanced, an air film is formed on the objects to be sterilized, ozone is generated under the action of ultraviolet rays in the sterilization process, peculiar smell generated in the killing process of bacteria killing is generated, the mixed gas enters the waste gas treatment tank 14 and is discharged out of the waste gas treatment tank 14 after being treated by the waste gas treatment tank 14, after the objects to be sterilized are discharged from a discharge track 9, the discharge port 6 is opened, and the discharge port is opened, and the discharge door and the sterilization device is opened, and the discharge port and the sterilization door and the discharge door is opened.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a disinfect and remove peculiar smell equipment based on ultraviolet inactivation which characterized in that: this disinfect and remove peculiar smell equipment includes virus killing tank (1), be provided with ultraviolet subassembly (2) in virus killing tank (1), virus killing tank (1) both ends are provided with feed door (3) and discharge door (4) respectively, feed door (3) and discharge door (4) respectively with virus killing tank (1) both ends swivelling joint, be provided with feed inlet (5) and discharge gate (6) on feed door (3) and discharge door (4) respectively, be close to feed inlet (5) one end in virus killing tank (1) and be provided with and transport track (7), virus killing tank (1) is close to discharge gate (6) department and is provided with row material track (9), it is provided with row of rolling (10) to transport track (7) and arrange between material track (9), be provided with disinfection ring (11) in virus killing tank (1), be provided with ultraviolet subassembly (2) on disinfection ring (11), ultraviolet subassembly (2) sliding connection on disinfection ring (11), virus killing tank (1) bottom is provided with support assembly (13).

2. The sterilization and odor removal device based on ultraviolet ray inactivation of claim 1, wherein: be provided with disinfection ring (11) on disinfection jar (1) inner wall, disinfection ring (11) are the spiral track, ultraviolet ray subassembly (2) and disinfection ring (11) sliding connection, ultraviolet ray subassembly (2) include ultraviolet lamp (201), ultraviolet lamp (201) set up on lighting fixture (202), lighting fixture (202) and disinfection ring (11) sliding connection, be provided with wave filter (203) on lighting fixture (202), wave filter (203) set up on ultraviolet lamp (201), ultraviolet lamp (201) one side is kept away from in lighting fixture (202) is provided with the room (204) of following commentaries on classics, room (204) and lighting fixture (202) are passed through support fixed connection along with commentaries on classics, room (204) both sides are provided with condensing lens (205) respectively, condensing lens (205) are connected with room (204) of following commentaries on classics, room (204) of following commentaries on classics set up respectively in row (10) both sides of rolling with ultraviolet lamp (201) with following commentaries on classics room (204), room (204) of following commentaries on classics set up respectively.

3. The sterilization and odor removal device based on ultraviolet ray inactivation according to claim 2, characterized in that: be provided with first response chamber (206) and second response chamber (207) in following commentaries on classics room (204), ultraviolet lamp (201) one side is kept away from in row (10) that rolls in first response chamber (206) and second response chamber (207) setting, be provided with on first response chamber (206) and the second response chamber (207) and follow change pipe (208), every follow change pipe (208) communicate with first response chamber (206), second response chamber (207) respectively, be provided with in every follow change pipe (208) and remove piston (209), remove piston (209) and follow change pipe (208) sliding contact, it is provided with the spring respectively to remove piston (209) keep away from first response chamber (206), second response chamber (207) one side, every the spring supports respectively and removes piston (209) and follow change pipe (208), it passes through the connecting rod with condenser lens (205) respectively to remove piston (209) and be connected.

4. The sterilization and odor removal device based on ultraviolet ray inactivation according to claim 2, characterized in that: the wind power generation device is characterized in that each connecting rod between the lamp holder (202) and the rotating chamber (204) is provided with an air inducing plate (210), each air inducing plate (210) is provided with a wind wheel set (211), two wind wheels are arranged in the wind wheel sets (211), each wind wheel is provided with teeth, the position of the output end of each wind wheel is symmetrical about the plane where the rolling row (10) is located, and each wind wheel is meshed with the teeth.

5. The sterilizing and deodorizing device based on ultraviolet ray inactivation according to claim 2, characterized in that: roll row (10) including a plurality of upset cylinder (1001), every upset cylinder (1001) and transfer frame (1002) swivelling joint, transfer frame (1002) and sterilization jar (1) inner wall fixed connection, connect through drive gear group (1003) between adjacent upset cylinder (1001), drive gear group (1003) both ends and the meshing of upset cylinder (1001), drive gear group (1003) and transfer frame (1002) swivelling joint, transfer frame (1002) set up and are being transported between track (7) and row material track (9), are provided with protective housing (1004) on transfer frame (1002), protective housing (1004) and upset cylinder (1001) swivelling joint, be provided with a plurality of air vent on upset cylinder (1001), be provided with on transfer frame (1002) and convey motor (1005), transfer motor (1005) and be close to the upset cylinder (1001) of transporting track (7) one side are connected through the chain, transfer frame (1002) are located between following rotary chamber (204) and ultraviolet lamp (201).

6. The sterilization and odor removal device based on ultraviolet ray inactivation according to claim 4, characterized in that: the sterilizing device is characterized in that an air ventilation roller (1006) is arranged in the overturning roller (1001), a plurality of through holes are formed in the air ventilation roller (1006), an air inlet (102) and an air outlet (103) are formed in the sterilizing tank (1), each air ventilation roller (1006) penetrates through the protective shell (1004) and is communicated with the air inlet (102) through an air pipe, the air ventilation roller (1006) is rotatably connected with the overturning roller (1001), the air ventilation roller (1006) is fixedly connected with the conveying frame (1002), a telescopic catching claw (1007) and a clamping auxiliary claw (1008) are arranged in the overturning roller (1001), the telescopic catching claw (1007) is slidably connected with the overturning roller (1001), the clamping auxiliary claw (1008) is rotatably connected with the overturning roller (1001) through a spring shaft, a spring is sleeved on the telescopic catching claw (1007), two ends of the spring respectively abut against the telescopic catching claw (1007) and the overturning roller (1001), the telescopic catching claw (1007) and one end of the clamping auxiliary claw (1008) close to the air ventilation roller (1006) are respectively abutted against the rollers (1006), and the air ventilation roller (1006) and are connected with the air ventilation slideway.

7. The sterilization and odor removal device based on ultraviolet ray inactivation according to claim 5, characterized in that: be provided with dust cover (104) in air inlet (102), dust cover (104) and air inlet (102) are detachable construction, air inlet (102) are connected through trachea and row (10) that roll, be provided with air intake motor (106) in air inlet (102), be provided with the turbine on air intake motor (106), be provided with exhaust-gas treatment case (14) on gas outlet (103), be provided with exhaust motor (105) on gas outlet (103), exhaust motor (105) output is provided with the flabellum, be provided with receipts gas port (15) and blast pipe (16) in exhaust-gas treatment case (14), receipts gas port (15) and air inlet (102) intercommunication, be provided with peculiar smell treater (17) between receipts gas port (15) and blast pipe (16).

8. The sterilizing and deodorizing device based on ultraviolet inactivation according to claim 6, wherein: the peculiar smell treater (17) comprises a ventilating spiral pipe (1701), a rotary filter plate (1702) is arranged on the ventilating spiral pipe (1701), the ventilating spiral pipe (1701) is in sliding contact with the rotary filter plate (1702), a residual storage box (1703) is arranged on the ventilating spiral pipe (1701) close to the rotary filter plate (1702), the residual storage box (1703) is movably connected with the ventilating spiral pipe (1701), the rotary filter plate (1702) is fixedly connected with the output end of a rotary motor (1704), a mixing pipe (1705) is arranged on one side, far away from the ventilating spiral pipe (1701), of the rotary filter plate (1702), the mixing pipe (1705) is communicated with an exhaust pipe (16), a plurality of mixing air ports (1706) are arranged on the mixing pipe (1705), the mixing air ports (1706) penetrate through an exhaust gas treatment box (14) and are communicated with the external environment, and the diameter of the mixing pipe (1705) close to the mixing air ports (1706) is smaller than the diameter of the mixing pipe (1705) close to the rotary filter plate (1702).

9. The sterilization and odor removal device based on ultraviolet ray inactivation according to claim 1, characterized in that: the supporting component (13) comprises a telescopic seat (1301), a stabilizing foot (101) is arranged on the disinfection tank (1), the stabilizing foot (101) is embedded into the telescopic seat (1301), a plurality of stabilizing springs (1302) are arranged in the telescopic seat (1301), two ends of each stabilizing spring (1302) are respectively abutted against the inner walls of the stabilizing foot (101) and the telescopic seat (1301), a stabilizing gear (1303) is arranged in the telescopic seat (1301), a stabilizing elastic sheet (1304) is arranged in the stabilizing gear (1303), and the stabilizing gear (1303) is rotatably connected with the telescopic seat (1301) and meshed with the stabilizing foot (101).

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