CN212972277U - Disinfection cabinet - Google Patents

Abstract

The utility model discloses a disinfection cabinet, including cabinet body (1) that has disinfection chamber (121), can pass in and out drawer (2) of disinfection chamber (121) with the pull, install disinfection fluorescent tube (3) on the cabinet body (1) inner wall and enclose and establish reflection of light protection casing (4) in disinfection fluorescent tube (3) periphery, set up opening (41) that the length direction who follows disinfection fluorescent tube (3) extends on the perisporium of reflection of light protection casing (4), reflection of light protection casing (4) can rotate and have two kinds of states at least around disinfection fluorescent tube (3): in the first state, the opening (41) of the reflective protective cover (4) is back to the wall surface where the disinfection lamp tube (3) is arranged; in the second state, the opening (41) of the reflective shield (4) faces the wall surface on which the disinfection lamp (3) is mounted. Compared with the prior art, the utility model discloses a sterilizer can realize the reflection of light and the guard action to the disinfection fluorescent tube through one set of device.

Description

Disinfection cabinet

Technical Field

The utility model relates to the technical field of kitchen equipment, in particular to a disinfection cabinet.

Background

Most of disinfection cabinets in the market at present are disinfected by high temperature or ozone, occasional ultraviolet disinfection cabinets are combined with high temperature or ozone, and few independent ultraviolet disinfection cabinets exist, because the disinfection range of ultraviolet illumination disinfection in the cabinet body is limited, so that incomplete disinfection is easily caused, and certain defects exist.

In order to solve the above problems, the invention patent with patent application number CN201710355512.3 (publication number CN107961386A) discloses a disinfection cabinet, which comprises an inner container, wherein an ultraviolet lamp tube and a reflector are arranged in the inner container. The reflector can collect and reflect the ultraviolet light beams emitted by the ultraviolet lamp tube, so that the illumination intensity of the ultraviolet light is enhanced.

In addition, for the disinfection lamp tube, a quartz glass tube cover is generally required to be sleeved on the periphery of the disinfection lamp tube, so that the disinfection lamp tube is protected, and a user is prevented from colliding with the disinfection lamp tube when taking and placing tableware. However, on the one hand, the sterilizing light loses a part of energy when penetrating through the quartz glass, and on the other hand, the heat dissipation of the sterilizing lamp tube is hindered, and the service life is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the first technical problem that to the current situation of prior art, provide a disinfection cabinet that can realize the reflection of light and the guard action to the disinfection fluorescent tube through one set of device.

The second technical problem to be solved by the utility model is to provide a disinfection cabinet which reflects disinfection light when closing the drawer and protects the disinfection lamp tube when opening the drawer.

The third technical problem to be solved by the utility model is to provide a disinfection cabinet with high disinfection efficiency and good disinfection effect.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: a disinfection cabinet, which comprises

A cabinet body having a sterilization chamber;

at least one drawer capable of being drawn in and out of the disinfection chamber; and

the disinfection lamp tube is arranged on the inner wall of the cabinet body;

the method is characterized in that: also comprises

The reflecting protective cover is arranged around the periphery of the disinfection lamp tube, an opening extending along the length direction of the disinfection lamp tube is arranged on the peripheral wall, and the reflecting protective cover can rotate around the disinfection lamp tube and at least has two states:

in a first state, the opening of the reflective protective cover is opposite to the wall surface on which the disinfection lamp tube is arranged, and the disinfection lamp tube acts on the disinfection cavity through the opening;

in the second state, the opening of the reflective protective cover faces the wall surface where the disinfection lamp tube is installed, and the disinfection lamp tube is shielded by the reflective protective cover.

In order to further solve the second technical problem, the disinfection cabinet further comprises

The transmission assembly is arranged between the drawer and the reflective protective cover and can transmit the action of the drawer to the reflective protective cover so as to drive the reflective protective cover to be converted into a first state or a second state in the closing or opening process of the drawer.

In order to transmit the action of the drawer to the reflective protection cover, there are roughly two schemes:

the first scheme is that a plurality of drawers correspond to a reflective protective cover, and the transmission assembly comprises

The base is fixed relative to the cabinet body;

the rotating shaft penetrates through the base and extends along the height direction of the cabinet body;

the first rack corresponds to the drawer, is connected to the corresponding drawer and extends along the depth direction of the cabinet body;

the first gear is coaxially arranged on the periphery of the rotating shaft, corresponds to the first rack and can be meshed with the corresponding first rack;

the second gear is coaxially arranged on the periphery of the rotating shaft;

the second rack extends along the depth direction of the cabinet body and is meshed with the second gear;

the third rack extends along the depth direction of the cabinet body and is fixed relative to the second rack;

the third gear is coaxially arranged on the periphery of the reflective protective cover and meshed with the third rack; and

and the power output end of the driving device is in transmission connection with the rotating shaft so that the rotating shaft can lift along the height direction of the cabinet body, and the first rack corresponding to the drawer in the opening process is meshed with the corresponding first gear.

By adopting the scheme, the drawer in the opening process can be in transmission connection with the reflective protective cover, and meanwhile, the interference between different drawers can be avoided.

In order to control the lifting of the rotating shaft by opening and closing the drawers, the number of the drawers is two, and the driving device comprises

The electromagnet is arranged on the base;

the permanent magnet is arranged on the rotating shaft; and

the elastic piece acts between the electromagnet and the permanent magnet and can enable the permanent magnet to always have a trend of being far away from the electromagnet;

the cabinet body is provided with a door control switch corresponding to the drawer, and the door control switch can detect whether the corresponding drawer is in an open state or not to control the on-off of the electromagnet, so that the permanent magnet is close to the electromagnet under the action of magnetic force or is far away from the electromagnet under the action of elastic force, and the rotating shaft is driven to lift along the height direction of the cabinet body;

when one of the drawers is opened, the corresponding door control switch controls the electromagnet to be electrified;

and under the other open state of the drawer, the corresponding door control switch controls the electromagnet to be powered off.

In order to limit the descending position of the rotating shaft by using gravity when the power is off, the driving device also comprises

The limiting piece is fixed relative to the cabinet body and is positioned below the electromagnet;

the permanent magnet is limited between the electromagnet and the limiting piece.

In order to facilitate the rotation of the reflective protective cover around the disinfection lamp tube, the disinfection lamp tube is arranged on the cabinet body through the lamp holder, the two ends of the disinfection lamp tube are provided with first bearings and are fixed relative to the inner ring of the first bearings, the two ends of the reflective protective cover are provided with end covers, and the end covers are sleeved on the first bearings and are fixed relative to the outer ring of the first bearings.

The second scheme is that each drawer corresponds to a reflective protective cover, the reflective protective covers correspond to the drawers one by one, and the reflective protective covers are coaxial and arranged at intervals;

the transmission component comprises

The first rack corresponds to the drawer, is connected to the corresponding drawer and extends along the depth direction of the cabinet body; and

and the third gear corresponds to the reflective protective cover, is coaxially arranged on the periphery of the corresponding reflective protective cover and is meshed with the corresponding first rack.

Adopt this scheme, can avoid taking place to interfere between the different drawers equally, the shortcoming is when the drawer quantity is more, need dispose a plurality of reflection of light protection casings, inconvenient installation.

In order to facilitate the rotation of the reflective protective cover around the disinfection lamp tube, the disinfection lamp tube is arranged on the cabinet body through a lamp holder, first bearings are arranged at two ends of the disinfection lamp tube and are fixed relative to inner rings of the first bearings, end covers are arranged at two ends of the reflective protective cover, and the end cover of the reflective protective cover positioned at the innermost side is sleeved on the first bearings and is fixed relative to outer rings of the first bearings;

and a second bearing is arranged between every two adjacent reflective protective covers, the reflective protective cover positioned on the inner side is fixed relative to the inner ring of the second bearing, and the reflective protective cover positioned on the outer side is fixed relative to the outer ring of the second bearing.

In order to facilitate the installation of the transmission assembly and the matching with the reflective protective cover, the cabinet body comprises a shell and an inner container arranged in the shell, the inner container is internally provided with a disinfection cavity, an interlayer is formed between the outer wall of the inner container and the inner wall of the shell, the inner container is provided with an installation opening for accommodating the reflective protective cover and a third gear and an opening for allowing a first rack, a second rack and a third rack to pass through, and the base, the rotating shaft and the driving device are positioned in the interlayer.

In order to realize multi-angle diffuse reflection of the disinfection light and avoid light intensity dead angles, a plurality of bosses or grooves which are arranged at intervals are formed on the inner wall of the light-reflecting protective cover.

In order to facilitate the processing of the boss, the boss is formed by locally pressing the peripheral wall of the reflective protective cover inwards.

In order to ensure the multi-angle reflection effect, the outer circumference of the cross section of the boss is gradually reduced from the inner wall of the light reflection shield to the end part of the boss.

In order to further solve the third technical problem, the disinfection lamp tube is a xenon lamp tube capable of generating pulse flash with the wavelength of 200-1100 nm.

Compared with the prior art, the utility model has the advantages of: through enclosing the periphery of establishing at the disinfection fluorescent tube with reflection of light protection casing to set up the opening that extends along the length direction of disinfection fluorescent tube on its perisporium, rotate around the disinfection fluorescent tube along with reflection of light protection casing, can make the opening wall of disinfecting fluorescent tube installation dorsad or towards, so that the disinfection fluorescent tube acts on the disinfection chamber through the opening or is sheltered from by reflection of light protection casing, can realize reflection of light and guard action to the disinfection fluorescent tube through a reflection of light protection casing.

Drawings

FIG. 1 is a schematic perspective view of a disinfection cabinet according to embodiment 1 of the present invention (the rear side wall of the housing is omitted);

FIG. 2 is an exploded perspective view of the sterilizer of FIG. 1;

FIG. 3 is a schematic perspective view of the disinfection lamp, the reflective shield and a portion of the transmission assembly of FIG. 1;

FIG. 4 is a longitudinal cross-sectional view of the disinfection cabinet of embodiment 1 of the present invention (the rear side wall of the housing is omitted, the upper drawer and the lower drawer are both in a closed state, and the reflective protective cover is in a first state);

FIG. 5 is a longitudinal cross-sectional view of the disinfection cabinet of embodiment 1 of the present invention (the rear side wall of the housing is omitted, the upper drawer is in an open state, the lower drawer is in a closed state, and the reflective protective cover is in a second state);

FIG. 6 is a longitudinal cross-sectional view of the disinfection cabinet of embodiment 1 of the present invention (the rear side wall of the housing is omitted, the upper drawer is in a closed state, the lower drawer is in an open state, and the reflective protective cover is in a second state);

FIG. 7 is a schematic perspective view of the disinfection cabinet of embodiment 2 of the present invention (the rear side wall of the housing is omitted);

FIG. 8 is an exploded perspective view of the sterilizer of FIG. 7;

FIG. 9 is a schematic perspective view of the disinfection lamp, the reflective shield and a portion of the actuator assembly of FIG. 7;

FIG. 10 is a longitudinal sectional view of the disinfection cabinet of embodiment 2 of the present invention (the rear side wall of the housing is omitted, the upper drawer and the lower drawer are both in the closed state, and the reflective protection covers on the inner and outer sides are both in the first state);

fig. 11 is a longitudinal sectional view of the disinfection cabinet of embodiment 2 of the present invention (the rear side wall of the housing is omitted, the upper drawer is in an open state, the lower drawer is in a closed state, the reflective protection covers on the outer sides are all in a second state, and the reflective protection covers on the inner sides are all in a first state);

fig. 12 is a longitudinal sectional view of the disinfection cabinet of embodiment 2 of the present invention (the rear side wall of the housing is omitted, the upper drawer is in a closed state, the lower drawer is in an open state, the outer reflective protection covers are all in a first state, and the inner reflective protection covers are all in a second state);

FIG. 13 is a longitudinal cross-sectional view of the disinfection cabinet of embodiment 2 of the present invention (the rear side wall of the housing is omitted, the upper drawer and the lower drawer are both in the open state, and the reflective protection covers on the inner and outer sides are both in the second state);

FIG. 14 is a schematic perspective view of the disinfection cabinet of embodiment 3 of the present invention (the rear side wall of the housing is omitted);

FIG. 15 is an exploded perspective view of the sterilizer of FIG. 14;

FIG. 16 is a schematic perspective view of the disinfection lamp, the reflective shield and the driving mechanism of FIG. 14;

FIG. 17 is a longitudinal cross-sectional view of the disinfection cabinet of embodiment 3 of the present invention (the rear side wall of the housing is omitted, the drawer is in a locked state, and the reflective protective cover is in a first state);

figure 18 is a longitudinal cross-sectional view of embodiment 3 of the disinfection cabinet of the present invention (the rear side wall of the housing is omitted, the drawer is in the unlocked state, and the light-reflecting protective cover is in the second state).

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Example 1:

as shown in fig. 1 to 6, it is a first preferred embodiment of the disinfection cabinet of the present invention. The disinfection cabinet comprises a cabinet body 1, a drawer 2, a disinfection lamp tube 3, a reflective protective cover 4, a transmission component 5 and a door control switch 6.

The cabinet body 1 includes a housing 11 and an inner container 12 disposed in the housing 11, the inner container 12 has a sterilization chamber 121 therein, and an interlayer 111 is formed between an outer wall of the inner container 12 and an inner wall of the housing 11.

The drawer 2 is drawably movable into and out of the sterilization chamber 121. In this embodiment, the number of the drawers 2 is two, and the drawers are respectively arranged in the disinfection chamber 121 one above the other.

The sterilizing lamp vessel 3 is located in the sterilizing chamber 121. Specifically, the sterilizing lamp 3 is arranged along the width direction of the cabinet 1, is mounted on the rear side wall of the inner container 12 through the lamp holder 32, and has first bearings 31 mounted at both ends thereof and fixed with respect to the inner rings of the first bearings 31. In this embodiment, the disinfection lamp 3 is a xenon lamp capable of generating a pulse flash with a wavelength of 200-1100 nm, and is used for efficiently disinfecting the disinfection cavity 121. The action mechanism of the pulse flash sterilization is the synergistic action of all wave bands in a spectral range, and is mainly embodied in three aspects:

(1) photochemical reaction in ultraviolet band: when the microorganism is irradiated by ultraviolet light in the pulsed intense light spectrum, thymine and cytosine in nucleic acid substances (DNA and RNA) generate photochemical reaction to generate dimers, so that the nucleic acid substances of the microorganism are damaged);

(2) flash heating effect: when per cm²When the peak power of the area reaches more than 1000W, the microorganisms are heated>At 100 ℃, because the flash irradiation time is extremely short, microorganisms can not be cooled normally, so that cell walls are broken and melted to die;

(3) pulse effect: the penetration of the intense pulsed light and the transient high energy mechanical impact damage the cell walls and other cellular components, resulting in bacterial death.

The periphery at disinfection fluorescent tube 3 is enclosed to reflection of light protection casing 4, can reflect the disinfection light that disinfection fluorescent tube 3 sent, plays the effect of protecting disinfection fluorescent tube 3 simultaneously. Specifically, the two ends of the reflective shield 4 are provided with end caps 42, and the end caps 42 are sleeved on the first bearing 31 and fixed relative to the outer ring of the first bearing 31; the peripheral wall of the reflecting protective cover 4 is provided with an opening 41 extending along the length direction of the disinfection lamp tube 3; the peripheral wall of the reflective protection cover 4 is locally pressed inwards to form a plurality of bosses 43 which are arranged at intervals, and the outer perimeter of the cross section of each boss 43 is gradually reduced from the inner wall of the reflective protection cover 4 to the end part of each boss 43, so that the multi-angle diffuse reflection of the disinfection light is realized, and the dead angle of the light intensity is avoided. In this embodiment, the reflective protection cover 4 is made of a mirror aluminum plate with high reflectivity.

The reflective protective cover 4 can rotate around the axis of the disinfection lamp tube 3 and has at least two states:

in the first state, the opening 41 of the reflective protection cover 4 faces the drawer 2, and the sterilizing lamp 3 acts on the sterilizing cavity 121 through the opening 41;

in the second state, the opening 41 of the reflective shield 4 faces the rear side wall of the inner container 12, and the sterilizing lamp 3 is shielded by the reflective shield 4.

The transmission assembly 5 is arranged between the drawer 2 and the reflective shield 4 and can transmit the action of the drawer 2 to the reflective shield 4, so that the drawer 2 drives the reflective shield 4 to be converted into a first state or a second state in the closing or opening process.

In this embodiment, the transmission assembly 5 includes a base 51, a rotating shaft 52, a first rack 53, a first gear 54, a second gear 55, a second rack 56, a third rack 57, a third gear 58, and a driving device 59. The base 51, the rotating shaft 52 and the driving device 59 are all located in the interlayer 111, the rotating shaft 52 extends along the height direction of the cabinet 1, and the first rack 53, the second rack 56 and the third rack 57 extend along the depth direction of the cabinet 1.

Specifically, the number of the bases 51 is two, and the bases are installed at the upper and lower portions of the rear sidewall of the inner container 12; both ends of the rotating shaft 52 are inserted into the base 51; the first racks 53 correspond to the drawers 2 one by one and are connected to the rear ends of the corresponding drawers 2; the first gear 54 and the second gear 55 are coaxially arranged on the periphery of the rotating shaft 52, the first gear 54 corresponds to the first rack 53 one by one and can be meshed with the corresponding first rack 53; the second rack 56 is engaged with the second gear 55; the third rack 57 and the second rack 56 are arranged side by side and are designed as a single piece, and here, it is preferable to design a guide member to be in guide fit with the single piece so that the single piece can stably translate along the depth direction of the cabinet body 1; the third gear 58 is coaxially arranged on the periphery of the reflective shield 4 and meshed with the third rack 57, and the rear side wall of the inner container 12 is provided with an installation opening 122 for accommodating the reflective shield 4 and the third gear 58 and an opening for the first rack 53, the second rack 56 and the third rack 57 to pass through; the power output end of the driving device 59 is in transmission connection with the rotating shaft 52, so that the rotating shaft 52 can be lifted along the height direction of the cabinet 1, and the corresponding first rack 53 of the drawer 2 is meshed with the corresponding first gear 54 during the opening process.

In this embodiment, the driving device 59 includes an electromagnet 591, a permanent magnet 592, an elastic member 593, and a limiting member 594. Specifically, the electromagnet 591 is installed at the top end of the base 51 positioned above and sleeved on the periphery of the rotating shaft 52; the limiting piece 594 is mounted on the rear side wall of the inner container 12 and located below the electromagnet 591; the permanent magnet 592 is mounted on the outer periphery of the rotating shaft 52 and is positioned between the electromagnet 591 and the limiting member 594; the elastic member 593 is a compression spring, and is sleeved on the periphery of the rotating shaft 52, and two ends of the elastic member respectively abut against the base 51 and the permanent magnet 592 which are located above, so that the permanent magnet 592 always tends to be away from the electromagnet 591. When the electromagnet 591 is electrified, the permanent magnet 592 is close to the electromagnet 591 under the action of magnetic force, and the corresponding first rack 53 of the drawer 2 positioned above is meshed with the corresponding first gear 54; when the electromagnet 591 is powered off, the permanent magnet 592 is away from the electromagnet 591 under the action of elastic force and gravity and is limited above the limiting piece 594, and the corresponding first rack 53 of the drawer 2 located below is meshed with the corresponding first gear 54. In the present embodiment, in order to ensure that the second rack 56 and the second gear 55 are always engaged, the width of the teeth in the second gear 55 is greater than the width of the teeth in the second rack 56.

The number of the door control switches 6 is two, and the two door control switches are arranged on the rear side wall of the inner container 12 one by one and correspond to the drawers 2 one by one. The door control switch 6 has a contact 61 capable of abutting against the rear end of the drawer 2, and is capable of detecting whether the corresponding drawer 2 is in an open state. The disinfection cabinet is provided with a control system, and the disinfection lamp tube 3, the electromagnet 591 and the door control switch 6 are all electrically connected with the control system.

When the drawer 6 positioned above is opened, the contact 61 of the door control switch 6 positioned above is released to disconnect the door control switch 6, and the door control switch 6 positioned above controls the electromagnet 591 to be electrified through the control system, so that the permanent magnet 592 is close to the electromagnet 591 under the action of magnetic force to drive the rotating shaft 52 to ascend;

in the state that the drawer 6 positioned below is opened, the contact 61 of the door control switch 6 positioned below is released to disconnect the door control switch 6, the door control switch 6 positioned below controls the electromagnet 591 to be powered off through the control system, so that the permanent magnet 592 is far away from the electromagnet 591 under the action of elasticity and gravity to drive the rotating shaft 52 to descend;

in the state that the drawers 2 above and below are both closed, the door control switches 6 above and below are both closed, and at this time, the electromagnet 591 is controlled by the control system to be powered on or powered off.

The utility model discloses embodiment 1's theory of operation as follows:

(1) when the disinfection cabinet works: as shown in fig. 4, the drawers 2 located above and below are both in a closed state, the reflective shield 4 is in a first state, the opening 41 of the reflective shield 4 faces the drawer 2, and the sterilizing lamp 3 acts on the sterilizing chamber 121 through the opening 41;

(2) when the disinfection cabinet finishes working:

firstly, when the drawer 2 located above is opened, the contact 61 of the door control switch 6 located above is released to disconnect the door control switch 6, the electromagnet 591 is controlled by the control system to be electrified by the door control switch 6 located above, so that the permanent magnet 592 is close to the electromagnet 591 under the action of magnetic force, the rotating shaft 52 is driven to ascend, after the door control switch ascends to the right position, as shown in fig. 5, the first rack 53 corresponding to the drawer 2 located above is meshed with the corresponding first gear 54, during the forward process of the drawer 2, the corresponding first rack 53 moves forward, as the first gear 54 is meshed with the first rack 53, the rotating shaft 52 and the second gear 55 are driven to rotate synchronously, as the second rack 56 is meshed with the second gear 55, the second rack 56 moves forward along with the first rack, and the third rack 57 is driven to move synchronously forward, as the third gear 58 is meshed with the third rack 57, the third gear 58 rotates along with the first gear and drives the reflective shield 4 to synchronously rotate until the reflective shield 4 is converted into the second state, the opening 41 of the reflective shield 4 faces the rear side wall of the inner container 12, the disinfection lamp tube 3 is shielded by the reflective shield 4, and the reflective shield 4 can protect the disinfection lamp tube 3;

when the drawer 2 located below is opened again, the reflective protection cover 4 cannot rotate any more because the corresponding first rack 53 of the drawer 2 located below is not meshed with the corresponding first gear 54;

when the drawer 2 located below is opened first, the contact 61 of the door control switch 6 located below is released to disconnect the door control switch 6, the door control switch 6 located below controls the electromagnet 591 to be powered off through the control system, so that the permanent magnet 592 is far away from the electromagnet 591 under the action of elasticity and gravity to drive the rotating shaft 52 to descend until abutting against the limiting part 594, after descending to the position, as shown in fig. 6, the first rack 53 corresponding to the drawer 2 located below is meshed with the corresponding first gear 54, in the forward process of the drawer 2, the reflecting protective cover 4 is driven to rotate as described above until the reflecting protective cover 4 is converted into the second state, the opening 41 of the reflecting protective cover 4 faces the rear side wall of the inner container 12, the disinfection lamp tube 3 is shielded by the reflecting protective cover 4, and the reflecting protective cover 4 can protect the disinfection lamp tube 3;

when the drawer 2 located above is opened again, the reflective protection shield 4 does not rotate any more since the corresponding first rack 53 and the corresponding first gear 54 of the drawer 2 located above are not engaged.

Example 2:

as shown in fig. 7 to 13, it is a second preferred embodiment of the disinfection cabinet of the present invention. The difference from example 1 is that:

in this embodiment, the reflective protection covers 4 correspond to the drawers 2 one by one, and the reflective protection covers 4 are coaxial and arranged at intervals. The end cap 42 of the light reflecting shield 4 positioned at the innermost side is sleeved on the first bearing 31 and fixed relative to the outer ring of the first bearing 32; a second bearing 44 is provided between two adjacent reflective shields 4, wherein the reflective shield 4 on the inside is fixed relative to the inner ring of the second bearing 44 and the reflective shield 4 on the outside is fixed relative to the outer ring of the second bearing 44.

The transmission assembly 5 'comprises a first rack 53' and a third gear 58 ', the third gear 58' corresponds to the reflective shield 4 one by one and is coaxially arranged on the periphery of the corresponding reflective shield 4, and the third gear 58 'is meshed with the corresponding first rack 53'.

The utility model discloses embodiment 2's theory of operation as follows:

(1) when the disinfection cabinet works: as shown in fig. 10, the drawers 2 above and below are both in a closed state, the inside and outside reflective shields 4 are both in a first state, the opening 41 of the reflective shields 4 faces the drawer 2, and the sterilizing lamp 3 acts on the sterilizing chamber 121 through the opening 41;

(2) when the disinfection cabinet finishes working:

firstly, when the drawer 2 above is opened, in the process that the drawer 2 moves forward, the corresponding first rack 53 'moves forward, and as the corresponding third gear 58' is meshed with the first rack 53 ', the third gear 58' rotates along with the first rack and drives the outside reflective protection cover 4 to synchronously rotate until the outside reflective protection cover 4 is converted into the second state, as shown in fig. 11, the outside reflective protection cover 4 can protect the disinfection lamp tube 3;

when the drawer 2 below is opened, the corresponding first rack 53 'moves forward in the forward process of the drawer 2, and the corresponding third gear 58' is meshed with the first rack 53 ', so that the third gear 58' rotates along with the first rack and drives the reflective protection cover 4 on the inner side to synchronously rotate until the reflective protection cover 4 on the inner side is converted into the second state, and as shown in fig. 11, the reflective protection cover 4 on the inner side can protect the disinfection lamp tube 3;

thirdly, when the drawer 2 above and below is opened, the corresponding first rack 53 'moves forward in the forward process of the drawer 2, and the corresponding third gear 58' is meshed with the first rack 53 ', so that the third gear 58' rotates along with the first rack, and drives the outside and inside reflective protection covers 4 to synchronously rotate until the outside and inside reflective protection covers 4 are all converted into the second state, as shown in fig. 11, the outside and inside reflective protection covers 4 can perform double protection on the disinfection lamp tube 3.

Example 3:

as shown in fig. 14 to 18, it is a second preferred embodiment of the disinfection cabinet of the present invention. The difference from example 1 is that:

in this embodiment, the driving assembly 5, 5' is omitted, and the driving mechanism 7 is added, and the power output end of the driving mechanism 7 is in driving connection with the reflective shield 4, so that the reflective shield 4 can rotate around the axis of the disinfection lamp tube 3 and has at least the above two states.

The driving mechanism 7 includes an electromagnetic lock 71, a fourth rack 72, and a fourth gear 73. Specifically, the electromagnetic lock 71 includes a lock body 711 and a latch hook 712 capable of extending and retracting relative to the lock body 711, the lock body 711 is located in the interlayer 111 and is installed on the rear side wall of the inner container 12, a hole for the latch hook 712 to pass through is formed in the rear side wall of the inner container 12, and the rear end of the drawer 2 is provided with a limiting hole 21 for the hook portion of the latch hook 712 to be inserted into; the fourth rack 72 is located in the interlayer 111 and extends along the height direction of the cabinet 1, and in the embodiment, the latch hook 712 of the electromagnetic lock 71 located above is connected with the top end of the fourth rack 72; a fourth gear 73 is coaxially installed at the outer circumference of the reflective protection cover 4 to be engaged with the fourth rack 72.

When the electromagnetic lock 71 is powered on, the locking hook 712 retracts to drive the reflective protective cover 4 to rotate and convert to the first state, and the hook part of the locking hook 712 is inserted into the limiting hole 21 of the drawer 2, so that the drawer 2 is in a locking state;

when the electromagnetic lock 71 is powered off, the locking hook 712 drives the reflective protection cover 4 to rotate and convert to the second state, and the hook portion of the locking hook 712 is separated from the limiting hole 21 of the drawer 2, so that the drawer 2 is in the unlocked state.

The utility model discloses embodiment 3's theory of operation as follows:

(1) when the disinfection cabinet works: when the electromagnetic lock 71 is powered on, the locking hook 712 retracts to drive the reflective protection cover 4 to rotate, as shown in fig. 17, the drawer 2 is in a locked state, the reflective protection cover 4 is in a first state, the opening 41 of the reflective protection cover 4 faces the drawer 2, and the disinfection lamp 3 acts on the disinfection cavity 121 through the opening 41;

(2) when the disinfection cabinet finishes working: when the electromagnetic lock 71 is powered off, the locking hook 712 extends outwards to drive the reflective protection cover 4 to rotate, as shown in fig. 18, the drawer 2 is in an unlocking state, the reflective protection cover 4 is in a second state, the opening 41 of the reflective protection cover 4 faces the rear side wall of the inner container 12, the disinfection lamp tube 3 is shielded by the reflective protection cover 4, and the reflective protection cover 4 can protect the disinfection lamp tube 3.

Claims (12)

1. A disinfection cabinet, which comprises

A cabinet body (1) having a disinfection chamber (121);

at least one drawer (2) which can be drawn into and out of the chamber (121); and

the disinfection lamp tube (3) is arranged on the inner wall of the cabinet body (1);

the method is characterized in that: also comprises

Reflecting light protection casing (4), enclose and establish the periphery of disinfection fluorescent tube (3), set up on the perisporium along opening (41) that the length direction of disinfection fluorescent tube (3) extends can rotate around disinfection fluorescent tube (3) and have two kinds of states at least:

in the first state, the opening (41) of the reflective protective cover (4) is opposite to the wall surface on which the disinfection lamp tube (3) is arranged, and the disinfection lamp tube (3) acts on the disinfection cavity (121) through the opening (41);

in the second state, the opening (41) of the reflective protective cover (4) faces the wall surface where the disinfection lamp tube (3) is installed, and the disinfection lamp tube (3) is shielded by the reflective protective cover (4).

2. A disinfection cabinet as claimed in claim 1, wherein: the disinfection cabinet also comprises

The transmission assembly (5, 5') is arranged between the drawer (2) and the reflective protective cover (4) and can transmit the action of the drawer (2) to the reflective protective cover (4) so as to drive the reflective protective cover (4) to be converted into a first state or a second state in the closing or opening process of the drawer (2).

3. A disinfection cabinet as claimed in claim 2, wherein: the transmission component (5) comprises

A base (51) fixed to the cabinet (1);

a rotating shaft (52) which is arranged in the base (51) in a penetrating way and extends along the height direction of the cabinet body (1);

the first rack (53) corresponds to the drawer (2), is connected to the corresponding drawer (2), and extends along the depth direction of the cabinet body (1);

the first gear (54) is coaxially arranged on the periphery of the rotating shaft (52), corresponds to the first rack (53) and can be meshed with the corresponding first rack (53);

a second gear (55) coaxially mounted on the outer periphery of the rotating shaft (52);

a second rack (56) extending in the depth direction of the cabinet (1) and engaged with the second gear (55);

a third rack (57) extending in the depth direction of the cabinet (1) and fixed to the second rack (56);

the third gear (58) is coaxially arranged on the periphery of the reflective protective cover (4) and is meshed with the third rack (57); and

and the power output end of the driving device (59) is in transmission connection with the rotating shaft (52) so that the rotating shaft (52) can lift along the height direction of the cabinet body (1) to enable the corresponding first rack (53) of the drawer (2) to be meshed with the corresponding first gear (54) in the opening process.

4. A disinfection cabinet as claimed in claim 3, wherein: the number of the drawers (2) is two, and the driving device (59) comprises

An electromagnet (591) mounted on the base (51);

a permanent magnet (592) mounted on the rotating shaft (52); and

an elastic member (593) acting between the electromagnet (591) and the permanent magnet (592) and enabling the permanent magnet (592) to always have a tendency to move away from the electromagnet (591);

the cabinet body (1) is provided with a door control switch (6) corresponding to the drawer (2), and the door control switch (6) can detect whether the corresponding drawer (2) is in an open state or not to control the on-off of the electromagnet (591), so that the permanent magnet (592) is close to the electromagnet (591) under the action of magnetic force or far away from the electromagnet (591) under the action of elastic force, and the rotating shaft (52) is driven to lift along the height direction of the cabinet body (1);

when one of the drawers (2) is opened, the corresponding door control switch (6) controls the electromagnet (591) to be electrified;

in the other open state of the drawer (2), the corresponding door control switch (6) controls the electromagnet (591) to be powered off.

5. A disinfection cabinet as claimed in claim 4, wherein: the driving device (59) also comprises

The limiting piece (594) is fixed relative to the cabinet body (1) and is positioned below the electromagnet (591);

the permanent magnet (592) is limited between the electromagnet (591) and the limiting piece (594).

6. A disinfection cabinet as claimed in claim 3, wherein: the disinfection lamp tube (3) is installed through lamp stand (32) the cabinet body (1) on, and the both ends of disinfection lamp tube (3) are installed first bearing (31) and fixed for the inner circle of first bearing (31), the both ends of reflection of light protection casing (4) have end cover (42), and this end cover (42) cover is established on first bearing (31) and fixed for the outer lane of first bearing (31).

7. A disinfection cabinet as claimed in claim 2, wherein: the light-reflecting protective covers (4) correspond to the drawers (2) one by one, and the light-reflecting protective covers (4) are coaxial and are arranged at intervals;

the transmission assembly (5') comprises

The first rack (53') corresponds to the drawer (2), is connected to the corresponding drawer (2) and extends along the depth direction of the cabinet body (1); and

and the third gear (58 ') corresponds to the reflective protective cover (4), is coaxially arranged on the periphery of the corresponding reflective protective cover (4) and is meshed with the corresponding first rack (53').

8. A disinfection cabinet as claimed in claim 7, wherein: the disinfection lamp tube (3) is arranged on the cabinet body (1) through a lamp holder (32), first bearings (31) are arranged at two ends of the disinfection lamp tube (3) and fixed relative to inner rings of the first bearings (31), end covers (42) are arranged at two ends of the reflective protective cover (4), and the end cover (42) of the reflective protective cover (4) positioned at the innermost side is sleeved on the first bearings (31) and fixed relative to outer rings of the first bearings (31);

a second bearing (44) is arranged between every two adjacent reflecting protective covers (4), the reflecting protective cover (4) positioned on the inner side is fixed relative to the inner ring of the second bearing (44), and the reflecting protective cover (4) positioned on the outer side is fixed relative to the outer ring of the second bearing (44).

9. A disinfection cabinet as claimed in any one of claims 3 to 6, wherein: the cabinet body (1) including shell (11) and locate inner bag (12) in shell (11), the inside of inner bag (12) has disinfection chamber (121), and the outer wall of inner bag (12) with be formed with intermediate layer (111) between the inner wall of shell (11), inner bag (12) on offer installation mouth (122) and the trompil that supplies first rack (53,53 '), second rack (56) and third rack (57) to pass that supply reflection of light protection casing (4) and third gear (58, 58') holding, base (51), pivot (52) and drive arrangement (59) be located intermediate layer (111).

10. A disinfection cabinet as claimed in any one of claims 1 to 8, wherein: the inner wall of the reflective protective cover (4) is provided with a plurality of bosses (43) or grooves which are arranged at intervals.

11. A disinfection cabinet as claimed in claim 10, wherein: the outer circumference of the cross section of the boss (43) is gradually reduced from the inner wall of the reflective protective cover (4) to the end part of the boss (43).

12. A disinfection cabinet as claimed in any one of claims 1 to 8, wherein: the disinfection lamp tube (3) is a xenon lamp tube capable of generating pulse flash with the wavelength of 200-1100 nm.

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