CN218652520U - Rotatory bactericidal lamp structure of disinfect box - Google Patents

Abstract

The utility model relates to the technical field of disinfection cabinets, in particular to a rotary sterilizing lamp structure of a sterilizing box; the sterilizing device comprises a box body and a sterilizing component, wherein a hollow inner container is arranged in the box body, the sterilizing component comprises a driver and a UV lamp, the driver and the UV lamp are arranged on the inner container, the driver is fixedly connected with the inner container, and the driver is connected with the UV lamp in a matching manner; the driver can drive the UV lamp to rotate so as to enlarge the irradiation coverage of the UV lamp on the inner cavity of the inner container; the utility model discloses a rotatory bactericidal lamp structure of disinfect box, through the driver drive the UV lamp rotates at the inner bag top, makes the irradiation area of UV lamp constantly alternate to realize all-round shining to the inner chamber of whole inner bag, need not to increase the quantity of UV lamp, bactericidal effect is good, can effectively reduce energy consumption and cost.

Description

Rotatory bactericidal lamp structure of disinfect box

Technical Field

The utility model relates to the technical field of disinfection cabinets, in particular to a rotary sterilizing lamp structure of a sterilizing box.

Background

The feeding bottle can solve the problem of insufficient breast milk feeding, and has the advantages of high use frequency and direct influence on the health of infants due to the sanitary degree of the feeding bottle. In some hospitals, in newborn pediatrics, various premature infants and sick infants are more, the immune system of the infants is weak, the visceral organs are not developed well, and the requirements on the sanitation and the disinfection of infant products are more strict. In the average family, infants are fed relatively infrequently, but frequent washing and sterilization also puts little stress on the parents at first. For newborn pediatrics with more concentrated babies, the feeding bottle is used more frequently, the cleaning and sterilizing work is heavy, and the requirements are stricter.

Common milk bottle disinfection methods generally include high-temperature cooking, ultraviolet sterilization and the like. The Chinese patent CN214308028U discloses a newborn feeding bottle ultraviolet disinfection and drying all-in-one machine for pediatrics, wherein an output shaft of a motor penetrates through a top cover and is connected with a rotating shaft, a feeding bottle placing tray is fixed on the rotating shaft, and a plurality of feeding bottle supporting tubes are arranged on the feeding bottle placing tray; the feeding bottle placing plate is arranged in the space of the sterilizing chamber, and a plurality of ultraviolet lamps are arranged in the sterilizing chamber. The main defects of the prior art are as follows: because the space in the disinfection chamber is large, dead angles exist in the irradiation of a single ultraviolet lamp, and the disinfection effect is influenced, the irradiation coverage rate in the disinfection chamber can be improved only by configuring a plurality of ultraviolet lamps, and the energy consumption and the cost are high during disinfection.

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rotatory bactericidal lamp structure of case that disinfects rational in infrastructure, the cover area that disinfects is big, the power consumption is few, with low costs to prior art's defect and not enough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model relates to a rotary sterilizing lamp structure of a sterilizing box, which comprises a box body and a sterilizing component, wherein a hollow inner container is arranged in the box body, the sterilizing component comprises a driver and a UV lamp which are arranged on the inner container, the driver is fixedly connected with the inner container, and the driver is connected with the UV lamp in a matching way; the driver can drive the UV lamp to rotate so as to enlarge the irradiation coverage of the UV lamp on the inner cavity of the inner container. Thereby the light-emitting angle of UV lamp is limited makes it can not the whole inner chamber space of direct irradiation, through the driver drive the UV lamp rotates at the inner bag top, makes the irradiation area of UV lamp constantly alternate to realize all-round the shining to the inner chamber of whole inner bag, need not to increase the quantity of UV lamp, bactericidal effect is good, can effectively reduce energy consumption and cost.

According to above scheme, the UV lamp has rotation center axle L and light-emitting center axle M, thereby the UV lamp is connected with the driver cooperation and makes contained angle C has between the light-emitting center axle M of UV lamp and the rotation center axle L, and contained angle C is less than 90 degrees, and the driver can drive the UV lamp rotates around rotation center axle L. The UV lamp sets up at the top of inner bag, because contained angle C has between the light-emitting center axle M of UV lamp and the rotation center axle L, the UV lamp rotates around rotation center axle L, makes the UV lamp cover whole inner bag space in order to guarantee bactericidal effect. The UV lamp can enlarge the irradiation range through rotation, the number of the UV lamps does not need to be increased, and the energy consumption is smaller.

According to the scheme, a swing assembly is arranged between the UV lamp and the driver, the swing assembly is connected with the inner container in a matched mode, the UV lamp is fixedly arranged on the swing assembly, and the driver can drive the UV lamp to rotate around the rotation central shaft L. The UV lamp passes through the swing subassembly to be installed on the top surface of inner bag, and the UV lamp can swing on the swing subassembly, and then the driver can drive the UV lamp and rotate around rotation center axle L. The swing assembly is used for arranging the UV lamp at the top of the inner container, the swing assembly is used for controlling the rotation track of the UV lamp as a support structure of the UV lamp, the driver can drive the UV lamp to do circular motion on the swing assembly around the rotation central shaft L, and the motion process of the UV lamp can sweep the space of the whole inner container, so that the sterilization effect is ensured.

According to the scheme, the swing assembly comprises a base, a first rotating support and a second rotating support, the base is fixedly arranged on the top surface of the inner container, the first rotating support is arranged in the base, and the first rotating support and the base are in rotating connection through a first hinge shaft; the second rotating support is arranged in the first rotating support, and the second rotating support and the first rotating support are in rotating connection through a second hinge shaft; the central shafts of the first hinge shaft and the second hinge shaft are perpendicular to the rotating central shaft L, and the UV lamp is fixedly arranged in the second support. The first hinge shaft and the second hinge shaft are arranged along the horizontal plane, the central axes of the first hinge shaft and the second hinge shaft are arranged in a crossed mode, the first rotating support can rotate on the base in the front-back mode through the first hinge shaft, the second rotating support can rotate on the first rotating support in the left-right mode through the second hinge shaft, the first rotating support and the second rotating support form a similar universal joint structure, and therefore the UV lamp can rotate around the rotating central shaft L through the swinging assembly.

According to the scheme, the driver comprises a gear box and a motor, the gear box is arranged on the top surface of the liner, a driving gear and a driven gear which are meshed with each other are arranged in the gear box, and the motor is fixed on the gear box to enable an output shaft of the motor to be fixedly connected with the driving gear; the driven gear is provided with a driving head, the driven gear and the driving head rotate around a rotating central shaft L, the driving head is provided with an eccentric hole, and the eccentric hole and the rotating central shaft L are eccentrically arranged; the UV lamp is provided with a swing rod, and the upper end of the swing rod penetrates through the eccentric hole. The swing rod penetrates through the eccentric hole to enable the UV lamp to be in transmission connection with the driving head, the lower end of the swing rod is connected with the UV lamp, and the driving head rotates to drive the lower end of the UV lamp to do circular motion, so that the irradiation range of the UV lamp is enlarged.

According to the scheme, the top surface of the inner container is provided with the mounting hole, the glass panel is arranged on the mounting hole, and the UV lamp is rotatably arranged above the glass panel. The glass panel can be used for isolating the inner cavity of the inner container, and the UV lamp can irradiate the whole inner cavity of the inner container through the glass panel. Correspondingly, the driver is arranged on the liner top plate, the gear box is fixedly connected with the liner top plate, a gap is reserved between the gear box and the liner top plate, and the UV lamp is arranged between the gear box and the liner top plate.

According to the scheme, the box body is provided with the booster fan and the PTC assembly, the air inlet of the booster fan is arranged on the side wall of the box body, and the air inlet of the booster fan is provided with the filter element; one end of the PTC component is communicated with an air outlet of the booster fan, and the other end of the PTC component is communicated with the inner cavity of the inner cavity; the box body is provided with an air outlet assembly communicated with the inner cavity of the inner container. The inner cavities of the booster fan, the PTC assembly and the inner container are sequentially communicated to form an air channel, the PTC assembly is used for heating air flowing through, and the booster fan inputs hot air into the inner container to achieve the drying purpose.

According to the scheme, the solar water heater further comprises a control assembly and a control panel, a box door matched with the inner container is arranged on the front side of the box body, the box door is rotatably connected with the box body, the control panel is arranged on the box body or the box door, and the control assembly is respectively connected with the control panel, the UV lamp, the motor, the booster fan and the PTC assembly through circuits. The control assembly mainly refers to a circuit board integrated with a processing module, a storage module and a signal processing module, and the control panel can display the working state of the sterilization box and adjust the working mode of the sterilization box through a control key pair to enable the sterilization box to execute a corresponding working program.

According to the scheme, the tray is arranged at the bottom of the inner cavity of the inner container, the plurality of positioning holes are formed in the tray, the bracket is arranged in the middle of the inner cavity of the inner container, and the bracket and the tray are detachably connected with the inner container respectively. The tray is mainly used for sterilizing the feeding bottle, the feeding bottle can be placed on the tray upside down to enable the bottle mouth of the feeding bottle to be matched with the positioning opening, and residual water in the feeding bottle can drip into the inner container from the positioning opening. And the tray and the bottom plate of the inner container are spaced, and hot air input by the drying component can enter the feeding bottle from the lower part, so that the feeding bottle can be dried quickly. The bracket is arranged in the middle of the inner container and can be used for placing small articles such as nipples and the like.

The utility model discloses a rotatory bactericidal lamp structure of disinfect box, through the driver drive the UV lamp rotates at the inner bag top, makes the irradiation area of UV lamp constantly alternate to realize all-round shining to the inner chamber of whole inner bag, need not to increase the quantity of UV lamp, bactericidal effect is good, can effectively reduce energy consumption and cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the sterilization assembly of the present invention;

fig. 3 is a schematic view of the motion pattern of the swing assembly of the present invention;

fig. 4 is a schematic structural diagram of the swing assembly of the present invention.

In the figure:

1. a box body; 2. a UV lamp; 3. a gear case; 4. a tray; 11. an inner container; 12. mounting holes; 13. a glass panel; 14. a booster fan; 15. a PTC component; 16. a filter element; 17. a box door; 18. a control panel; 21. a base; 22. a first rotating bracket; 23. a second rotating bracket; 24. a first hinge axis; 25. a second hinge axis; 26. a swing lever; 31. a motor; 32. a driving gear; 33. a driven gear; 34. a drive head; 35. an eccentric hole; 41. positioning the opening; 42. a bracket.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1-4, the rotary sterilizing lamp structure of the sterilizing box of the present invention comprises a box body 1 and a sterilizing assembly, wherein a hollow inner container 11 is arranged in the box body 1, the sterilizing assembly comprises a driver and a UV lamp 2 which are arranged on the inner container 1, the driver is fixedly connected with the inner container 1, and the driver is connected with the UV lamp 2 in a matching manner; the driver can drive the UV lamp 2 to rotate in the inner container 1 so as to enlarge the irradiation coverage of the UV lamp 2 to the inner cavity of the inner container 1. Driver and UV lamp 2 can set up everywhere all around of inner bag 11 about, the utility model discloses preferred driver and UV lamp 2 set up at the top of inner bag 11, and UV lamp 2 is from last to shining inner bag 11's inner chamber down. Thereby the light-emitting angle of UV lamp 2 is limited makes it can not the whole inner chamber space of direct irradiation, through the driver drive UV lamp 2 rotates at 11 tops of inner bag, makes the irradiation area of UV lamp 2 constantly alternate to realize all-round shining to the inner chamber of whole inner bag 11, need not to increase the quantity of UV lamp 2, bactericidal effect is good, can effectively reduce energy consumption and cost.

UV lamp 2 has rotation center axle L and light-emitting center axle M, thereby UV lamp 2 makes with the driver cooperation UV lamp 2's light-emitting center axle M and rotation center axle L between have contained angle C, contained angle C is less than 90 degrees, and the driver can drive UV lamp 2 rotates around rotation center axle L. UV lamp 2 sets up at the top of inner bag 11, because UV lamp 2's light-emitting center axle M and rotation center axle L between have contained angle C, UV lamp 2 rotates around rotation center axle L, makes UV lamp 2 cover 11 spaces of whole inner bag in order to guarantee bactericidal effect. The irradiation range of the UV lamp 2 can be enlarged by rotating, the number of the UV lamps 2 does not need to be increased, and the energy consumption is smaller.

A swinging assembly is arranged between the UV lamp 2 and the driver, the swinging assembly is arranged below the driver and is in matched connection with the inner container 11, and the UV lamp 2 is in matched connection with the swinging assembly; the driver can drive the UV lamp 2 to rotate on the oscillating assembly around a central axis of rotation L. UV lamp 2 passes through the swing subassembly to be installed on the top surface of inner bag 11, and UV lamp 2 can swing on the swing subassembly, and then the driver can drive UV lamp 2 and rotate around rotation center axle L. The swing assembly is used for arranging the UV lamp 2 at the top of the inner container 11, the swing assembly serves as a supporting structure of the UV lamp 2 and is used for controlling the rotation track of the UV lamp, and the driver can drive the UV lamp 2 to do circular motion on the swing assembly around the rotation central shaft L. Because the light-emitting center axle M of UV lamp 2 has contained angle C between the center axle L with rotating, the whole inner bag 11 space can be strafed to the motion process of UV lamp 2 to guarantee bactericidal effect.

The swing assembly comprises a base 21, a first rotating support 22 and a second rotating support 23, the base 21 is fixedly arranged on the top surface of the inner container 11, the first rotating support 22 is arranged in the base 21, and the first rotating support 22 is rotatably connected with the base 21 through a first hinge shaft 24; the second rotating bracket 23 is arranged in the first rotating bracket 22, and the second rotating bracket 23 is rotatably connected with the first rotating bracket 22 through a second hinge shaft 25; the central axes of the first hinge shaft 24 and the second hinge shaft 25 are both perpendicular to the rotation central axis L, and the UV lamp 2 is fixedly arranged in the second bracket. The first hinge shaft 24 and the second hinge shaft 25 are arranged along a horizontal plane, the central axes of the first hinge shaft 24 and the second hinge shaft 25 are arranged in a crossed manner, the first rotating support 22 can rotate back and forth on the base 21 through the first hinge shaft 24, the second rotating support 23 can rotate left and right on the first rotating support 22 through the second hinge shaft 25, and the first rotating support 22 and the second rotating support 23 form a universal joint-like structure, so that the UV lamp 2 can rotate around the rotating central axis L through the swinging assembly.

The driver comprises a gear box 3 and a motor 31, the gear box 3 is arranged on the top surface of the inner container 11, a driving gear 32 and a driven gear 33 which are mutually meshed are arranged in the gear box 3, and the motor 31 is fixed on the gear box 3 to ensure that an output shaft of the motor is fixedly connected with the driving gear 32; the driven gear 33 is provided with a driving head 34, the driven gear 33 and the driving head 34 rotate around a rotation central axis L, the driving head 34 is provided with an eccentric hole 35, and the eccentric hole 35 and the rotation central axis L are eccentrically arranged; the upper end of the UV lamp 2 is provided with a swing rod 26, and the upper end of the swing rod 26 penetrates through the eccentric hole 35. The swing rod 26 penetrates through the eccentric hole 35 to enable the UV lamp 2 to be in transmission connection with the driving head 34, the lower end of the swing rod 26 is connected with the UV lamp 2, and the driving head 34 rotates to drive the lower end of the UV lamp 2 to do circular motion, so that the irradiation range of the UV lamp 2 is enlarged.

The top surface of the inner container 11 is provided with a mounting hole 12, the mounting hole 12 is provided with a glass panel 13, and the UV lamp 2 is rotatably arranged above the glass panel 13. The glass panel 13 is arranged on the mounting hole 12 to enable the inner cavity of the inner container 11 to be relatively closed, the driver, the swinging assembly and the UV lamp 2 are arranged above the inner container 11, and the UV lamp 2 can irradiate the whole inner cavity of the inner container 11 through the glass panel 13. Correspondingly, the driver sets up on inner bag 11, gear box 3 and 11 roof fixed connection of inner bag, and leaves installation space between gear box 3 and 11 roofs of inner bag, and this installation space is used for setting up swing subassembly and UV lamp 2, makes UV lamp 2 can rotate above glass panels 13, and the ultraviolet permeable glass panels 13 that UV lamp 2 sent shines in the inner chamber of inner bag 11.

The box body 1 is provided with a booster fan 14 and a PTC component 15, an air inlet of the booster fan 14 is arranged on the side wall of the box body 1, and a filter core 16 is arranged on the air inlet of the booster fan 14; one end of the PTC component 15 is communicated with an air outlet of the booster fan 14, and the other end of the PTC component 15 is communicated with an inner cavity of the inner cavity; and an air outlet assembly communicated with the inner cavity of the inner container 11 is arranged on the box body 1. The inner cavities of the booster fan 14, the PTC assembly 15 and the inner container 11 are sequentially communicated to form an air channel, the PTC assembly 15 is used for heating air flowing through, and the booster fan 14 inputs hot air into the inner container 11 to achieve the drying purpose.

The utility model discloses still include control assembly and control panel, the front side of box 1 is equipped with the chamber door 17 that pairs with inner bag 11, chamber door 17 and box 1 rotatable coupling, control panel 18 sets up on box 1 or chamber door 17, and control assembly passes through the circuit and connects control panel 18, UV lamp 2, motor 31, booster fan 14 and PTC subassembly 15 respectively. The control assembly mainly refers to a circuit board integrated with a processing module, a storage module and a signal processing module, and the control panel 18 can display the working state of the sterilization box and adjust the working mode of the sterilization box through a control key pair to enable the sterilization box to execute a corresponding working program.

The bottom of the inner cavity of the inner container 11 is provided with a tray 4, the tray 4 is provided with a plurality of positioning holes 41, the middle part of the inner cavity of the inner container 11 is provided with a bracket 42, and the bracket 42 and the tray 4 are respectively detachably connected with the inner container 11. The tray 4 is mainly used for sterilizing the feeding bottle, the feeding bottle can be placed on the tray 4 upside down to enable the bottle mouth of the feeding bottle to be matched with the positioning opening 41, and residual water in the feeding bottle can drip into the inner container 11 from the positioning opening 41. And the tray 4 and the bottom plate of the inner container 11 are spaced, and hot air input by the drying component can enter the feeding bottle from the lower part, so that the feeding bottle can be dried quickly. The bracket 42 is arranged in the middle of the inner container 11 and can be used for placing small articles such as nipples and the like.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (9)

1. A rotary sterilizing lamp structure of a sterilizing box comprises a box body and a sterilizing component, wherein a hollow inner container is arranged in the box body,

the sterilizing component comprises a driver and a UV lamp which are arranged on the inner container, the driver is fixedly connected with the inner container, and the driver is connected with the UV lamp in a matching way;

the driver can drive the UV lamp to rotate so as to enlarge the irradiation coverage of the UV lamp on the inner cavity of the inner container.

2. The rotary germicidal lamp fixture in accordance with claim 1 wherein,

UV lamp has rotation center axle L and light-emitting center axle M, thereby UV lamp is connected with the driver cooperation and makes contained angle C has between the light-emitting center axle M of UV lamp and the rotation center axle L, and contained angle C is less than 90 degrees, and the driver can drive the UV lamp rotates around rotation center axle L.

3. The rotary germicidal lamp fixture in accordance with claim 2 wherein,

be equipped with the swing subassembly between UV lamp and the driver, the swing subassembly is connected with the inner bag cooperation, and the UV lamp is fixed to be set up on the swing subassembly, and the driver can drive the UV lamp rotates around rotation center axle L.

4. The rotary germicidal lamp fixture in accordance with claim 3 wherein,

the swing assembly comprises a base, a first rotating support and a second rotating support, the base is fixedly arranged on the top surface of the inner container, the first rotating support is arranged in the base, and the first rotating support and the base are in rotating connection through a first hinge shaft;

the second rotating support is arranged in the first rotating support, and the second rotating support and the first rotating support are in rotating connection through a second hinge shaft;

the central axes of the first hinge axis and the second hinge axis are both vertical to the rotating central axis L, and the UV lamp is fixedly arranged in the second support.

5. The rotary germicidal lamp fixture in accordance with claim 4 wherein,

the driver comprises a gear box and a motor, the gear box is arranged on the top surface of the liner, a driving gear and a driven gear which are mutually meshed are arranged in the gear box, and the motor is fixed on the gear box to ensure that an output shaft of the motor is fixedly connected with the driving gear;

the driven gear is provided with a driving head, the driven gear and the driving head rotate around a rotating central shaft L, the driving head is provided with an eccentric hole, and the eccentric hole and the rotating central shaft L are eccentrically arranged;

the UV lamp is provided with a swing rod, and the upper end of the swing rod penetrates through the eccentric hole.

6. The rotary germicidal lamp fixture for a germicidal chamber as recited in claim 5,

the top surface of the inner container is provided with a mounting hole, a glass panel is arranged on the mounting hole, and the UV lamp is rotatably arranged above the glass panel.

7. The rotary germicidal lamp fixture in accordance with claim 1 wherein,

the box body is provided with a booster fan and a PTC component, an air inlet of the booster fan is arranged on the side wall of the box body, and a filter element is arranged on the air inlet of the booster fan;

one end of the PTC component is communicated with an air outlet of the booster fan, and the other end of the PTC component is communicated with the inner cavity of the inner cavity;

the box body is provided with an air outlet assembly communicated with the inner cavity of the inner container.

8. The rotary germicidal lamp fixture in accordance with claim 1-7 wherein,

the solar water heater is characterized by further comprising a control assembly and a control panel, wherein a box door matched with the inner container is arranged on the front side of the box body, the box door is rotatably connected with the box body, the control panel is arranged on the box body or the box door, and the control assembly is respectively connected with the control panel, the UV lamp, the motor, the booster fan and the PTC assembly through circuits.

9. The rotary germicidal lamp fixture for a germicidal chamber as recited in claim 1,

the bottom of the inner cavity of the inner container is provided with a tray, the tray is provided with a plurality of positioning holes, the middle of the inner cavity of the inner container is provided with a bracket, and the bracket and the tray are detachably connected with the inner container respectively.

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