CN115264738A - Air sterilizer - Google Patents

Abstract

The invention relates to an air sterilizer which comprises a sterilizer body, a support frame, a mounting frame and a take-up and pay-off mechanism, wherein the sterilizer body is provided with a power cord; the take-up and pay-off mechanism is used for taking up and paying off a power line, and when the support frame moves along the vertical direction, the take-up and pay-off mechanism enables the length of the power line positioned outside the sterilizer body to change along with the position change of the sterilizer body. The invention can realize the adjustment of the position of the sterilizer body in the vertical direction, and is convenient for the maintenance and the overhaul of the sterilizer body in the later period; through addding the receipts paying off machine who links with the sterilizer body and construct, can make the sterilizer body to get the power cord between the electric socket on the wall and be in the tensioning state all the time as far as to overcome the outside drawback that power cord length overlength brought of sterilizer body.

Description

Air sterilizer

Technical Field

The invention relates to the technical field of air disinfection equipment, in particular to an air disinfection machine.

Background

With the increasing severity of air pollution, especially in the seasons with high occurrence of infectious diseases such as influenza and pneumonia, air becomes a carrier of various pollutants, bacteria and viruses, and poses a great threat to human health. Therefore, air purification has become a very important link in daily life.

The air purification means commonly used at present adopts the air sterilizing machine to purify the disinfection to the room air, according to the difference of mounting means, current air sterilizing machine often divide into vertical air sterilizing machine and wall-hanging air sterilizing machine, wherein, the mounting means of wall-hanging air sterilizing machine is similar with the wall-hanging air conditioner of indoor location, often install the air sterilizing machine higher position on the wall and be provided with the place of getting the electric socket through corresponding installing support, in order to avoid the air sterilizing machine to occupy the more movable space in indoor below, avoid the air sterilizing machine to suffer artificial destruction simultaneously as far as. However, this kind of wall-hanging air sterilizing apparatus is because the mounted position is higher, often needs the maintenance personal just can carry out the maintenance and repair operation with the help of appurtenance such as cat ladder when carrying out maintenance and repair to the air sterilizing apparatus in the later stage for the maintenance and repair process seems unusual loaded down with trivial details, simultaneously, because the rigidity after this kind of wall-hanging air sterilizing apparatus is installed, can't adjust the position of air sterilizing apparatus according to actual need in the use, consequently also has certain limitation when using.

Disclosure of Invention

The invention aims to provide an air sterilizer, which aims to solve the technical problems that the existing wall-mounted air sterilizer is high in installation height, is not beneficial to later maintenance and repair due to fixed position after installation and cannot adjust the position of the air sterilizer.

The purpose of the invention is realized by the following technical scheme:

an air sterilizer comprising:

the sterilizer body is provided with a power line; the free end of the power cord extends out of the sterilizer body;

the support frame is used for bearing the sterilizer body;

the mounting frame is arranged above the supporting frame; the mounting frame is provided with a lifting driving assembly for driving the support frame to move along the vertical direction; and the number of the first and second groups,

the take-up and pay-off mechanism is used for taking up and paying off a power line;

when the support frame moves along the vertical direction, the take-up and pay-off mechanism enables the length of the power line positioned outside the sterilizer body to change along with the position change of the sterilizer body.

Optionally, receive paying out machine and construct and include:

the rack is vertically arranged and is parallel to the movement direction of the support frame;

the winding roller is horizontally arranged inside the sterilizing machine body; the winding roller is provided with a connecting end and a free end, and the winding roller can be freely rotatably arranged in the sterilizer body through the connecting end; and the number of the first and second groups,

the gear is sleeved on the circumferential outer wall of the winding roller and rotates coaxially with the winding roller; the gear is partially positioned outside the sterilizer body and meshed with the rack;

wherein, the free end of power cord stretches into again and wears out from the circumference outer wall of winding roller after the winding roller is inside by the center of the free end of winding roller, and the power cord of wearing out by the circumference outer wall of winding roller twines and extends to the sterilizer body outside again behind the circumference outer wall of winding roller.

Furthermore, the circumference outer wall cover of winding roller is equipped with two spacing rings, and the power cord that is worn out by the circumference outer wall of winding roller twines between two spacing rings.

Optionally, the lifting drive assembly comprises:

the rotating shaft is horizontally arranged at the top of the mounting rack in a freely rotating manner;

the driving member is used for driving the rotating shaft to rotate; and the number of the first and second groups,

the two traction units are respectively arranged on two sides of the support frame along the length direction of the support frame; the traction unit comprises a fixed pulley, a stranded wire disc and a traction rope, the fixed pulley is fixedly arranged on the support frame, the stranded wire disc is sleeved on the circumferential outer wall of the rotating shaft and coaxially rotates with the rotating shaft, one end of the traction rope is connected with the mounting frame, and the other end of the traction rope is connected with the stranded wire disc after bypassing the fixed pulley.

Further, the driving component comprises a worm wheel, a worm and a driving motor, the worm wheel is sleeved on the circumferential outer wall of the rotating shaft and rotates coaxially with the rotating shaft, the worm can be vertically arranged on the mounting frame in a free rotating mode, the worm wheel is meshed with the worm, and the output end of the driving motor is in transmission connection with one end of the worm.

Furthermore, the driving component further comprises a hand rocker, a clamping groove is formed in one end, far away from the driving motor, of the worm, and a clamping portion matched with the clamping groove is formed in one end of the hand rocker.

Furthermore, the lifting driving assembly further comprises a guide sliding rail, one end of the guide sliding rail is connected with the mounting frame, the other end of the guide sliding rail extends along the movement direction of the support frame, and the support frame is connected with the guide sliding rail in a sliding mode.

Optionally, the sterilizer body comprises an ultraviolet sterilization module and a plasma sterilization module, the ultraviolet sterilization module and the plasma sterilization module are arranged side by side, a guide chute is arranged on the side wall of one side of the ultraviolet sterilization module, which is close to the plasma sterilization module, and a guide strip matched with the guide chute is arranged on the side wall of one side of the plasma sterilization module, which is close to the ultraviolet sterilization module;

the ultraviolet ray disinfection module is provided with a power line, the side wall of one side of the ultraviolet ray disinfection module, which is close to the plasma disinfection module, is provided with a connecting plug matched with the connecting socket, and the inside displacement assembly used for driving the connecting plug to be close to or far away from the connecting socket.

Furthermore, the displacement assembly comprises a base and a sliding seat, the base is arranged inside the plasma disinfection module, the sliding seat is arranged on the base in a sliding manner, and one end, far away from the connecting socket, of the connecting plug extends into the plasma disinfection module and then is connected with the sliding seat;

offer on the preceding lateral wall of plasma disinfection module and dodge the mouth, dodge the mouth and extend along the direction of motion of slide, the part of slide passes and dodges and extends to the plasma disinfection module outside behind the mouth.

Optionally, a longitudinal connecting plate is arranged at the bottom of the sterilizer body, and the support frame comprises a support frame, at least one connecting screw rod and longitudinal support units corresponding to the longitudinal connecting plate one by one;

the longitudinal supporting unit comprises two longitudinal supporting plates, the two longitudinal supporting plates are arranged in the supporting frame, and the longitudinal connecting plate is inserted between the two longitudinal supporting plates;

connecting holes matched with the connecting screw rods are formed in the two sides of the supporting frame, the longitudinal supporting plates and the longitudinal connecting plates.

The technical scheme of the embodiment of the invention at least has the following advantages and beneficial effects:

1. the air sterilizer provided by the invention can realize the adjustment of the position of the sterilizer body in the vertical direction as required by additionally arranging the support frame, the mounting frame, the lifting drive assembly and other components, the whole adjusting process is simple and convenient, and has two adjusting modes of electric and manual operation, so that the sterilizer body can be maintained and overhauled in the later period or the position of the sterilizer body can be adjusted as required, and the practicability is strong; meanwhile, by additionally arranging the wire winding and unwinding mechanism which is linked with the sterilizer body and used for winding and unwinding the power wire, the length of the power wire outside the sterilizer body can be changed along with the position change of the sterilizer body when the sterilizer body is driven by the support frame to reciprocate along the vertical direction without additionally arranging a driving device, so that the power wire between the sterilizer body and the power taking socket on the wall is always in a tensioning state as far as possible, and the defect caused by the overlong length of the power wire outside the sterilizer body is overcome; meanwhile, in the whole process of winding and unwinding the power line, the length between the fixed end of the power line and the winding roller is not changed, so that the normal electricity taking of the sterilizing machine body is not influenced.

2. According to the invention, the disinfection machine body is the combined disinfection machine consisting of the ultraviolet disinfection module and the plasma disinfection module, so that a reasonable disinfection mode can be selected to disinfect a place according to actual needs, and the reliability and the practicability of the air disinfection machine in use are improved.

Drawings

Fig. 1 is a schematic structural view of an air sterilizer provided in embodiment 1 of the present invention when mounted on a wall;

fig. 2 is a schematic structural view of a support frame provided in embodiment 1 of the present invention;

fig. 3 is a structural sectional view of a sterilizer body provided in embodiment 1 of the present invention, when the sterilizer body is mounted on a support frame;

FIG. 4 is an enlarged view of the structure of the driving member at A in FIG. 1;

fig. 5 is a schematic view of a bottom structure of a worm provided in embodiment 1 of the present invention;

fig. 6 is a schematic partial structure view of a hand rocker provided in embodiment 1 of the present invention;

fig. 7 is a schematic partial structure view of a take-up and pay-off mechanism provided in embodiment 1 of the present invention;

fig. 8 is a partial cross-sectional view of a gear and rack combination provided in example 1 of the present invention;

fig. 9 is a partial sectional view of a power cord wound around a winding roll according to embodiment 1 of the present invention;

fig. 10 is a schematic structural view of an ultraviolet disinfection module provided in embodiment 2 of the present invention;

FIG. 11 is a schematic view of a plasma sterilization module according to embodiment 2 of the present invention;

fig. 12 is a schematic structural view of a displacement assembly provided in embodiment 2 of the present invention;

fig. 13 is an electrical block diagram of an air sterilizer provided in embodiment 3 of the present invention.

Icon: 1-sterilizer body, 11-longitudinal connecting plate, 2-support frame, 21-support frame, 22-longitudinal support plate, 23-connecting screw rod, 3-mounting frame, 4-lifting driving component, 41-rotating shaft, 42-driving component, 421-worm wheel, 422-worm, 422 a-clamping groove, 423-driving motor, 424-mounting seat, 425-hand rod, 425 a-clamping part, 43-traction unit, 431-fixed pulley, 432-twisted wire disc, 433-traction rope, 44-guiding sliding rail, 5-winding and unwinding mechanism, 51-rack, 52-winding roller, 53-gear, 54-limiting ring, a-power line, b-power-taking plug, c-power-taking socket, s-wall, 10-ultraviolet disinfection module, 10 a-connecting socket, 101-guiding sliding groove, 20-plasma disinfection module, 20 a-connecting plug, 20 b-inserting interface, 20 c-avoiding interface, 201-guiding strip, 30-displacement component, 301-base, 301 a-resetting, 302-sliding groove, 302-sliding seat, 40-spring identification module, and 50-control system.

Detailed Description

Example 1

Referring to fig. 1 to 9, the present embodiment provides an air sterilizer, which solves the problems that the existing wall-mounted air sterilizer is installed at a higher position on a wall s, which is not beneficial to the later maintenance, and the position of the air sterilizer cannot be adjusted after installation. The air sterilizer comprises a sterilizer body 1, a support frame 2, an installation frame 3, a lifting driving assembly 4 and a take-up and pay-off mechanism 5.

Referring to fig. 1, the sterilizer body 1 is provided with a power cord a, and the free end of the power cord a extends out of the sterilizer body 1 and is connected with a power-taking plug b so as to insert the power-taking plug b into a corresponding power-taking socket c on a wall s.

The sterilizer body 1 is installed on the support frame 2, and the support frame 2 comprises a support frame 21, a longitudinal support unit and at least one connecting screw 23. The bottom of the sterilizer body 1 is provided with a plurality of longitudinal connecting plates 11, as shown in fig. 2, 3 and 10, the supporting frame 21 is a rectangular hollow structure, and the longitudinal supporting units are in one-to-one correspondence with the longitudinal connecting plates 11 and are used in cooperation with the longitudinal connecting plates 11. Each longitudinal supporting unit comprises two longitudinal supporting plates 22, the two longitudinal supporting plates 22 are arranged in the supporting frame 21, a containing groove used for containing the longitudinal connecting plate 11 is formed between the two longitudinal supporting plates 22, and connecting holes matched with the connecting screw rods 23 are formed in the two sides of the supporting frame 21, the longitudinal supporting plates 22 and the longitudinal connecting plates 11.

As shown in fig. 3, when the sterilizer body 1 is installed, the sterilizer body 1 is only required to be vertically placed on the support frame 21 and the longitudinal connecting plate 11 is inserted between the two longitudinal support plates 22, at this time, the bottom of the sterilizer body 1 is respectively contacted with the top surfaces of the support frame 21 and the longitudinal support plates 22 to support the sterilizer body 1, meanwhile, the side walls of the left side and the right side of the longitudinal connecting plate 11 are respectively attached to the inner side walls opposite to the two longitudinal support plates 22, and the side walls of the front side and the rear side of the longitudinal connecting plate 11 are respectively attached to the inner side walls of the front side and the rear side of the support frame 21, so that the longitudinal connecting plate 11 is limited from moving in the front, rear, left and right directions, and the sterilizer body 1 is prevented from moving in the horizontal plane; subsequently, the connecting screw 23 sequentially penetrates through the supporting frame 21, the longitudinal supporting plate 22 and the connecting holes in the longitudinal connecting plate 11 along the horizontal direction, so that the supporting frame 21, the longitudinal supporting plate 22 and the longitudinal connecting plate 11 can be fixedly connected into a whole at two ends of the connecting screw 23 in a nut mounting mode, the displacement of the longitudinal connecting plate 11 in the vertical direction is limited, and the disinfection machine body 1 is prevented from moving in the vertical plane. So set up, can realize installing sterilizer body 1 on support frame 2 fast to improve the stability after sterilizer body 1 installs, the later stage of being convenient for simultaneously pulls down sterilizer body 1 from support frame 2.

As shown in fig. 2, the number of the connecting screws 23 is two in this embodiment, and the two connecting screws 23 are disposed oppositely and in parallel to further improve the stability of the main body 1 after installation.

If fig. 1, mounting bracket 3 sets up in support frame 2 top, can set up mounting bracket 3 in the actual installation above getting electric socket c on wall s to in inserting the getting electric plug b on the power cord a to getting electric socket c, and do not influence the motion of sterilizing machine body 1 in vertical direction. At this moment, lift drive assembly 4 then ann is on mounting bracket 3 to through the motion of lift drive assembly 4 drive support frame 2 along vertical direction, and then drive sterilizer body 1 through support frame 2 in step and move along vertical direction, realize adjusting the position of sterilizer body 1 on vertical direction.

The lifting driving assembly 4 comprises a rotating shaft 41, a driving member 42 and two traction units 43, the rotating shaft 41 is arranged at the top of the mounting frame 3 through the level of the bearing seat capable of freely rotating, the driving member 42 is used for driving the rotating shaft 41 to rotate, and the two traction units 43 are respectively arranged at two sides of the support frame 2 along the length direction of the support frame 2 so as to drive the support frame 2 to move along the vertical direction through the two traction units 43.

In order to achieve more labor-saving driving of the support frame 2 and the sterilizer body 1 in the vertical direction, in combination with the structure of the air sterilizer shown in fig. 1 when being installed on the wall s, the traction unit 43 of the present embodiment includes a fixed pulley 431, a wire twisting disk 432, and a traction rope 433. Wherein, the fixed pulley 431 is fixed to be set up in the top of support frame 2, the example, the fixed pulley 431 of this embodiment sets up the middle part position at braced frame 21's top, the circumference outer wall of axis of rotation 41 and with the coaxial rotation of axis of rotation 41 then overlap is located to stranded wire dish 432, at this moment, the one end of haulage rope 433 and the bottom fixed connection of mounting bracket 3, the other end of haulage rope 433 extends downwards along vertical direction and walks around behind fixed pulley 431 again and upwards extend and pass behind the mounting bracket 3 along vertical direction with the stranded wire dish 432 fixed connection that corresponds, the example, the through-hole that supplies haulage rope 433 to pass is seted up at the mounting bracket 3 top.

So configured, it is assumed that in the initial state, the pulling rope 433 of each pulling unit 43 is in a tensioned state, and when the driving member 42 drives the rotating shaft 41 to rotate forward, the pulling ropes 433 of the two pulling units 43 can be synchronously and continuously wound on the corresponding stranding discs 432. When the support frame 2 and the sterilizer body 1 need to be driven to move upwards along the vertical direction, only the driving member 42 needs to be used for driving the rotating shaft 41 to rotate forwards slowly, the traction ropes 433 of the two traction units 43 are wound on the corresponding stranded wire discs 432 continuously to realize winding along with the continuous rotation of the rotating shaft 41, the traction ropes 433 from the mounting frame 3 to the support frame 2 are continuously shortened, and the support frame 2 can move upwards slowly along the vertical direction under the action of the traction ropes 433 until the support frame 2 drives the sterilizer body 1 to reach a preset position; on the contrary, when the driving member 42 drives the rotating shaft 41 to slowly rotate reversely, the wire winding disc 432 continuously winds along with the continuous rotation of the rotating shaft 41, the traction rope 433 between the mounting frame 3 and the support frame 2 continuously lengthens, at this time, the support frame 2 starts to slowly move downwards under the action of the gravity of the support frame 2 and the sterilizing machine body 1, and the driving member 42 stops driving the rotating shaft 41 to rotate until the support frame 2 drives the sterilizing machine body 1 to move to the preset position.

It can be understood, with continued reference to fig. 1, the lift drive assembly 4 of this embodiment further includes a guide slide rail 44 disposed on the wall s, one end of the guide slide rail 44 is connected to the mounting bracket 3, so that the guide slide rail 44 and the mounting bracket 3 form an integrated structure, which is convenient for the mounting bracket 3 and the installation of the guide slide rail 44, the other end of the guide slide rail 44 extends downward along the movement direction (i.e., the vertical direction) of the support frame 2, at this time, the support frame 21 of the support frame 2 is slidably connected to the guide slide rail 44, so as to be disposed, the guide slide rail 44 can be utilized to play a role of limiting and guiding, the support frame 2 is prevented from shaking when moving along the vertical direction, and the stability of the support frame 2 during movement is improved. Illustratively, the number of the guide slide rails 44 of the present embodiment is two, and the two guide slide rails 44 are arranged oppositely and in parallel, and correspondingly, the power-taking socket c for the sterilizer body 1 to take power on the wall s is located between the two guide slide rails 44.

In order to drive the rotation shaft 41 to rotate by the driving member 42 and prevent the rotation shaft 41 from rotating under the influence of the self-weight of the support frame 2 and the disinfection machine body 1, the driving member 42 of the present embodiment includes a worm wheel 421, a worm 422 and a driving motor 423. Referring to fig. 4, the worm wheel 421 is sleeved on the rotating shaft 41 and rotates coaxially with the rotating shaft 41, the worm 422 is vertically disposed on the mounting frame 3 in a freely rotatable manner, the worm wheel 421 is engaged with the worm 422, and an output end of the driving motor 423 is in transmission connection with one end of the worm 422 so as to drive the worm 422 to rotate through the driving motor 423. Illustratively, the worm wheel 421 of the present embodiment is disposed at an end position of one end of the rotating shaft 41, the worm 422 is vertically disposed at a side of the mounting frame 3 through the mounting seat 424, the worm 422 is rotatably connected with the mounting seat 424, at this time, the driving motor 423 is disposed at a top of the mounting seat 424, and a top end of the worm 422 penetrates through the mounting seat 424 and is in transmission connection with an output end of the driving motor 423.

So set up, when driving motor 423 drive worm 422 rotates, can drive worm wheel 421 through worm 422 and rotate, and then drive axis of rotation 41 through worm wheel 421 and rotate, and simultaneously, adopt worm wheel 421 and worm 422 as drive assembly, when being less than the equivalent friction angle between worm wheel 421 and the worm 422 meshing tooth based on the lead angle when worm 422, have self-locking nature between worm wheel 421 and the worm 422 (i.e., worm wheel 421 can't drive worm 422 and rotate), and then can effectively avoid when the position that need not adjust sterilizing machine body 1, axis of rotation 41 takes place to rotate under the action of gravity of support frame 2 and sterilizing machine body 1, improve the stability of sterilizing machine body 1 under quiescent condition.

In addition, considering that there may be an application scenario that the position of the sterilizer body 1 needs to be adjusted under the condition of power failure in the actual application process, for this reason, with reference to fig. 1 or fig. 4, the driving member 42 of the present embodiment further includes a hand lever 425, at this time, referring to fig. 5 and fig. 6, one end of the worm 422, which is far away from the driving motor 423, passes through the mounting seat 424 downwards and is provided with a clamping groove 422a, the worm 422 is rotatably connected with the mounting seat 424, and one end of the hand lever 425 is provided with a clamping portion 425a adapted to the clamping groove 422 a. So set up, when the position of needs manual regulation sterilizing apparatus body 1, only need with the joint portion 425a card of hand cranking bar 425 go into to worm 422's draw-in groove 422a in, can drive worm 422 through rotating hand cranking bar 425 and rotate to realize adjusting sterilizing apparatus body 1's position. For example, the card slot 422a of the present embodiment has a cross-shaped structure, and correspondingly, the clamping portion 425a also has a cross-shaped structure, so as to improve the reliability when the clamping portion 425a is clamped into the card slot 422 a; meanwhile, the hand lever 425 may employ a telescopic rod capable of adjusting the length so as to adjust the length of the hand lever 425 as needed. In addition, it should be noted that, because a manual adjustment mode is added, the driving motor 423 is preferably a common motor (i.e., a motor without a braking function in case of power failure), so as to smoothly drive the worm 422 to rotate by using the hand lever 425. Preferably, the latch portion 425a of the hand lever 425 is not inserted into the latch groove 422a of the worm 422 in a normal state, and the latch portion 425a of the hand lever 425 is inserted into the latch groove 422a of the worm 422 only when the hand lever 425 is to be adjusted.

In the embodiment, consider that the position of the electricity-taking socket c that supplies sterilizer body 1 to get electricity that sets up on wall s under the general condition often is higher and fixed unchangeable, consequently in order to make sterilizer body 1 can move and do not influence sterilizer body 1 and get electricity normally along vertical direction under the drive of support frame 2, the conventional way is to reserve sufficient length with sterilizer body 1's power cord a, however, adopt this kind of mode often to make sterilizer body 1 outside power cord a longer, drive sterilizer body 1 along the reciprocating in-process of vertical direction multiple motion at support frame 2, power cord a self can take place the winding, power cord a also can hang on other parts simultaneously, and then influence sterilizer body 1 and follow vertical direction motion or normally get electricity. For this reason, this embodiment has still add the receipts and releases line mechanism 5 that is used for receiving and releasing power cord a, in order to realize when support frame 2 moves along vertical direction, receive and release line mechanism 5 makes the length that is located the outside power cord a of sterilizer body 1 can change along with the position change of sterilizer body 1, namely, when sterilizer body 1 moves up along vertical direction, the outside power cord a of sterilizer body 1 shortens gradually, when sterilizer body 1 moves down along vertical direction, the outside power cord a of sterilizer body 1 lengthens gradually, thereby make when sterilizer body 1 reciprocates along vertical direction, the power cord a between the electricity socket c on sterilizer body 1 to the wall s is in the tensioning state as far as possible, namely, the length of the power cord a between sterilizer body 1 and the electricity socket c is directly proportional with the distance between sterilizer body 1 to the electricity socket c.

Specifically, referring to fig. 1, 7, 8 and 9, the take-up and pay-off mechanism 5 of the present embodiment includes a rack 51, a winding roller 52 and a gear 53. Wherein, rack 51 is vertically arranged on wall s and is parallel to the moving direction of support frame 2, and as an example, rack 51 is located between two guide rails 44, and the top end of rack 51 is fixedly connected with the bottom of mounting bracket 3, so that rack 51 and mounting bracket 3 form an integrated structure, which facilitates the installation of rack 51. At this moment, the inside of sterilizer body 1 is provided with a wire winding chamber, wire winding roller 52 then the level sets up in the inside wire winding intracavity of sterilizer body 1, and wire winding roller 52 has link and free end, but wire winding roller 52 passes through link free rotation's setting on the inner wall in the inside wire winding chamber of sterilizer body 1, wire winding roller 52's free end extends along the horizontal direction, gear 53 then the cover is located wire winding roller 52's circumference outer wall and with the coaxial rotation of wire winding roller 52, combine the structure shown in fig. 7 and 8, a breach has been seted up to one side that sterilizer body 1 is close to rack 51, so that the part of gear 53 extends to the outside of sterilizer body 1 back and rack 51 meshing from the breach department of sterilizer body 1.

Meanwhile, with the structure shown in fig. 9, the free end of the power cord a firstly extends into the winding roller 52 from the center of the free end of the winding roller 52 and then penetrates out of the circumferential outer wall of the winding roller 52, and the power cord a penetrating out of the circumferential outer wall of the winding roller 52 is wound on the circumferential outer wall of the winding roller 52 and then extends to the outside of the sterilizer body 1 to be connected with the power-taking plug b. It can be understood that the power line a of the present embodiment is adhered and fixed between the winding roller 52 when penetrating out from the circumferential outer wall of the winding roller 52, and the power line a can penetrate out from the gap where the part of the power supply gear 53 arranged on the sterilizer body 1 extends to the outside of the sterilizer body 1 after being wound on the circumferential outer wall of the winding roller 52, and meanwhile, a corresponding guide wheel (not shown in the figure) can be arranged on the outer wall of the sterilizer body 1 corresponding to the gap shown in fig. 7, so that the power line a penetrating out from the inside of the sterilizer body 1 firstly bypasses the guide wheel and then is connected with the power taking plug b, so as to reduce the friction between the power line a and the sterilizer body 1 when penetrating out of the sterilizer body 1, and improve the service life of the power line a.

With such arrangement, assuming that the support frame 2 is at the lowest position in the initial state, when the sterilizer body 1 is driven by the support frame 2 to move upwards along the vertical direction, the gear 53 starts to rotate under the action of the rack 51, and the gear 53 synchronously drives the winding roller 52 to rotate, so that the power line a positioned outside the sterilizer body 1 is continuously wound on the circumferential outer wall of the winding roller 52 to realize winding, and the power line a outside the sterilizer body 1 is gradually shortened along with the upward movement of the sterilizer body 1; conversely, when sterilizer body 1 and support frame 2 along vertical direction downstream, gear 53 is counter-rotating under the effect of rack 51, and gear 53 drives winding roller 52 counter-rotating to constantly unwrapping wire through winding roller 52, thereby make the outside power cord a of sterilizer body 1 lengthen along with sterilizer body 1 downstream gradually. It should be noted that, because the power cord a extends into the interior of the winding roller 52 from the center of the free end of the winding roller 52, and then penetrates out from the circumferential outer wall of the winding roller 52 and is wound on the winding roller 52, when the winding roller 52 rotates, the length of the power cord a between the fixed end of the power cord a (i.e., the end of the power cord a connected with the electrical component inside the sterilizer body 1) and the winding roller 52 does not change, so that the normal power supply of the sterilizer body 1 through the power cord a is not affected.

Meanwhile, in order to avoid the power cord a wound on the winding roller 52 from being separated from the winding roller 52 in the process of winding and unwinding the wire, referring to fig. 9, the circumferential outer wall of the winding roller 52 of the present embodiment is further sleeved with two limiting rings 54 rotating coaxially with the winding roller 52, and the power cord a threaded out from the circumferential outer wall of the winding roller 52 is wound between the two limiting rings 54, so that the power cord a wound on the winding roller 52 is well limited by the two limiting rings 54.

Therefore, the air sterilizer provided by the embodiment can adjust the position of the sterilizer body 1 in the vertical direction as required by additionally arranging the support frame 2, the mounting frame 3, the lifting drive assembly 4 and other components, the whole adjusting process is simple and convenient, and the air sterilizer has two adjusting modes of electric and manual operation, is convenient for maintenance and repair of the sterilizer body 1 in the later period or adjustment of the position of the sterilizer body 1 as required, and has strong practicability; meanwhile, by additionally arranging the take-up and pay-off mechanism 5 which is linked with the sterilizer body 1 and used for taking up and paying off the power line a, when the sterilizer body 1 is driven by the support frame 2 to reciprocate along the vertical direction, the length of the power line a outside the sterilizer body 1 can be changed along with the position change of the sterilizer body 1 without additionally arranging a driving device, so that the power line a between the sterilizer body 1 and the power-taking socket c on the wall s is always in a tensioning state as far as possible, and the defect caused by the overlong length of the power line a outside the sterilizer body 1 is overcome; meanwhile, in the whole process of taking in and taking out the power line a, the length between the fixed end of the power line a and the winding roller 52 is not changed, so that the normal electricity taking of the sterilizer body 1 is not influenced.

Example 2

Considering that most of the existing air disinfectors adopt a mode of direct irradiation of an ultraviolet disinfection lamp for disinfection, the air disinfectors can only work in an unmanned environment and cannot coexist in a man-machine mode, and once disinfection operation is carried out under the manned condition, the air disinfectors can possibly injure human bodies. Therefore, referring to fig. 10 to 12, based on embodiment 1, the embodiment further defines the specific structure of the air sterilizer body 1, so as to improve the reliability and the practicability of the air sterilizer in the use process.

In this embodiment, the sterilizer body 1 includes an ultraviolet disinfection module 10 for performing ultraviolet disinfection on a place and a plasma disinfection module 20 for performing plasma disinfection on the place, and it can be understood that the ultraviolet disinfection module 10 and the plasma disinfection module 20 of this embodiment are independent devices to respectively realize two functions of ultraviolet disinfection and plasma disinfection.

At this time, in order to assemble the ultraviolet disinfection module 10 and the plasma disinfection module 20 into a whole, the ultraviolet disinfection module 10 and the plasma disinfection module 20 of the present embodiment are arranged side by side, please refer to fig. 10 and 11, a guide chute 101 is arranged on a side wall of the ultraviolet disinfection module 10 close to one side of the plasma disinfection module 20, the guide chute 101 extends along a width direction of the ultraviolet disinfection module 10 (i.e., a direction perpendicular to a length of the support frame 2), correspondingly, a guide strip 201 adapted to the guide chute 101 is arranged on a side wall of the plasma disinfection module 20 close to one side of the ultraviolet disinfection module 10, and the guide strip 201 can be inserted into the guide chute 101 and slide in the guide chute 101. When the ultraviolet disinfection module 10 and the plasma disinfection module 20 need to be assembled, only the guide strips 201 of the plasma disinfection module 20 need to be inserted into the corresponding guide chutes 101 on the ultraviolet disinfection module 10 and push the plasma disinfection module 20 to the right, at this time, the ultraviolet disinfection module 10 and the plasma disinfection module 20 cannot be separated in the left-right direction, and only the ultraviolet disinfection module 10 or the plasma disinfection module 20 can be moved in the front-back direction.

Illustratively, in conjunction with the structure shown in fig. 10 and 11, the number of the guide chutes 101 provided on the side wall of the uv sterilization module 10 is three in the present embodiment, and the three guide chutes 101 are horizontally spaced along the height direction of the uv sterilization module 10, and correspondingly, the number of the guide strips 201 on the side wall of the plasma sterilization module 20 is also three. Simultaneously, in order to facilitate the installation of assembled ultraviolet disinfection module 10 and plasma disinfection module 20 on support frame 2, the bottom of ultraviolet disinfection module 10 and plasma disinfection module 20 all is provided with two longitudinal tie plate 11, and is corresponding, and braced frame 21's inside this moment is provided with four longitudinal support unit, eight longitudinal support boards 22 promptly.

In order to simplify the power-taking mode of the sterilizer body 1 as much as possible, in this embodiment, the power line a is configured on the ultraviolet disinfection module 10, that is, the ultraviolet disinfection module 10 takes power through the power line a, at this time, components such as the winding roller 52 of the take-up and pay-off mechanism 5 for taking up and paying-off the power line a are correspondingly arranged in the winding cavity inside the ultraviolet disinfection module 10, and a notch for the gear 53 and the power line a to penetrate out is arranged on one side of the ultraviolet disinfection module 10 close to the rack 51. Meanwhile, with continued reference to fig. 10 and 11, a connection socket 10a is disposed on a side wall of the ultraviolet disinfection module 10 close to the plasma disinfection module 20, a connection plug 20a adapted to the connection socket 10a is disposed on a side wall of the plasma disinfection module 20 close to the ultraviolet disinfection module 10, and a displacement assembly 30 for driving the connection plug 20a to be close to or far from the connection socket 10a is further disposed inside the plasma disinfection module 20, after the plasma disinfection module 20 and the ultraviolet disinfection module 10 are assembled, the displacement assembly 30 is used to drive the connection plug 20a to be close to the connection socket 10a until the connection plug 20a is inserted into the connection socket 10a, at this time, the plasma disinfection module 20 is connected into a circuit of the ultraviolet disinfection module 10, that is, the connection plug 20a and the connection socket 10a are matched to provide electric energy required by the plasma disinfection module 20 for normal operation, and displacement between the ultraviolet disinfection module 10 and the plasma disinfection module 20 in the front-back direction can be limited to a certain extent, so as to avoid dislocation between the ultraviolet disinfection module 10 and the plasma disinfection module 20 in the assembled state. In addition, the connection plug 20a is driven to approach or separate from the connection socket 10a by the arrangement of the displacement assembly 30, so that when the ultraviolet sterilization module 10 and the plasma sterilization module 20 are installed in a narrow space, the ultraviolet sterilization module 10 and the plasma sterilization module 20 can be supplied with power required for normal operation through one power line a.

Specifically, referring to fig. 12, the displacement assembly 30 includes a base 301 and a sliding seat 302, the base 301 is disposed inside the plasma sterilization module 20, the sliding seat 302 is slidably disposed on the base 301, at this time, a plug 20b adapted to the connection plug 20a is disposed on a side wall of the plasma sterilization module 20, and one end of the connection plug 20a, which is far away from the connection plug 10a, passes through the plug 20b and then extends into the plasma sterilization module 20, and then is connected to the sliding seat 302. Meanwhile, an avoiding opening 20c is formed in the front side wall of the plasma sterilizing module 20, the avoiding opening 20c extends along the moving direction of the sliding seat 302, and a part of the sliding seat 302 passes through the avoiding opening 20c and then extends to the outside of the plasma sterilizing module 20. With such an arrangement, when the connection plug 20a needs to be inserted into the connection socket 10a, only the sliding base 302 needs to be pushed from the front side wall of the plasma disinfection module 20, so that the sliding base 302 moves towards the direction of the ultraviolet disinfection module 10 along the horizontal direction, and the sliding base 302 can drive the connection plug 20a to approach the connection socket 10a until the connection plug 20a is inserted into the connection socket 10 a; conversely, the connection plug 20a can be separated from the connection socket 10a by pushing the slider 302 in the opposite direction.

It is understood that, in conjunction with the structure shown in fig. 12, a spring 303 for automatically returning the sliding base 302 may be disposed between the sliding base 302 and the base 301, for example, a returning chute 301a may be disposed on the base 301, and a spring 303 may be disposed in the returning chute 301a, the sliding base 302 is slidably disposed in the returning chute 301a, and one end of the spring 303 is connected to the sliding base 302, and the other end of the spring 303 is connected to the inner wall of the returning chute 301 a. In the initial state, the spring 303 is in a natural extension state, and when the ultraviolet disinfection module 10 and the plasma disinfection module 20 need to be assembled, the sliding seat 302 is pushed a distance away from the ultraviolet disinfection module 10 to compress the spring 303; wait that the gib block 201 of plasma disinfection module 20 inserts in the direction spout 101 of ultraviolet disinfection module 10 and plasma disinfection module 20 propelling movement puts in place, remove the power of acting on slide 302, at this moment, slide 302 moves towards ultraviolet disinfection module 10 place direction under the effect of spring 303 elasticity, and then make slide 302 drive connecting plug 20a insert to in connecting socket 10a, with the automatic grafting between realizing connecting plug 20a and connecting socket 10a, and can effectively improve the stability after connecting plug 20a is connected with connecting socket 10a, the condition that connecting plug 20a receives the influence of vibration and is connected between connecting socket 10a to appear becoming flexible when avoiding sterilizer body 1 to move in vertical direction.

It can be seen that, this embodiment sets up the combined type sterilizing machine that constitutes by ultraviolet ray disinfection module 10 and plasma disinfection module 20 jointly through disinfecting quick-witted body 1, can select reasonable disinfection mode to disinfect to the place according to actual need, for example, when someone exists in the place, can select to disinfect the place to the plasma disinfection module 20 that human body is basically harmless, when nobody exists in the place, can select ultraviolet ray disinfection module 10 and/or plasma disinfection module 20 to disinfect the place to this improves reliability and the practicality of air sterilizing machine when using.

Example 3

On the basis of embodiment 2, in order to improve the automation degree of the air sterilizer, please refer to fig. 13, the air sterilizer of this embodiment further includes an identification module 40 and a control system 50, and the control system 50 is in communication connection with the ultraviolet disinfection module 10, the plasma disinfection module 20 and the identification module 40. Wherein, the identification module 40 is used for detecting whether a person or other living bodies (such as animals) exist in the place to be disinfected, and the identification module 40 can adopt a thermal imaging sensor or a human body proximity sensor; the control system 50 is used for controlling the operation of the ultraviolet ray sterilization module 10 and the plasma sterilization module 20 according to the information that the identification module 40 detects whether the living body exists.

According to the arrangement, when the identification module 40 detects that a living body exists in a place, the identification module 40 sends a living body signal to the control system 50, the control system 50 controls the ultraviolet disinfection module 10 to keep a power-off state, at the moment, related personnel cannot directly start the ultraviolet disinfection module 10 to disinfect, the situation that the related personnel mistakenly open the ultraviolet disinfection module 10 to disinfect is avoided, and meanwhile, the control system 50 controls the plasma disinfection module 20 to work to carry out plasma disinfection on the place; on the contrary, when the identification module 40 does not detect the presence of a living body in the site, the identification module 40 sends a signal of the absence of a living body to the control system 50, and at this time, the control system 50 may control one or both of the ultraviolet ray sterilizing module 10 and the plasma sterilizing module 20 to operate to sterilize the site.

Therefore, in the embodiment, by arranging the identification module 40 and the control system 50, the air sterilizer can be automatically switched between the ultraviolet sterilization mode and the plasma sterilization mode according to actual needs, the automation degree of the air sterilizer is improved, ultraviolet sterilization operation can be effectively avoided under the condition that living bodies exist in a place, and normal daily activities of people in the place can be ensured.

In addition, combine embodiment 1, at the in-process of carrying out disinfection and isolation to the interior space, can also adjust sterilizer body 1 and support frame 2 through control system 50 and reciprocate to can be more three-dimensional efficient from last to down, follow supreme again and carry out whole disinfection to the room air, thereby can further improve disinfection efficiency and the disinfection effect to the air.

Claims (10)

1. An air sterilizer, comprising:

the sterilizer body is provided with a power line; the free end of the power cord extends out of the sterilizer body;

the support frame is used for bearing the sterilizer body;

the mounting frame is arranged above the supporting frame; the mounting frame is provided with a lifting driving assembly for driving the support frame to move along the vertical direction; and the number of the first and second groups,

the take-up and pay-off mechanism is used for taking up and paying off a power line;

when the support frame moves along the vertical direction, the take-up and pay-off mechanism enables the length of the power line positioned outside the sterilizer body to change along with the position change of the sterilizer body.

2. The air sterilizer of claim 1, wherein the take-up and pay-off mechanism comprises:

the rack is vertically arranged and is parallel to the movement direction of the support frame;

the winding roller is horizontally arranged inside the sterilizing machine body; the winding roller is provided with a connecting end and a free end, and the winding roller can be freely rotatably arranged in the sterilizer body through the connecting end; and (c) a second step of,

the gear is sleeved on the circumferential outer wall of the winding roller and rotates coaxially with the winding roller; the gear is partially positioned outside the sterilizer body and meshed with the rack;

wherein, the free end of power cord stretches into again and wears out from the circumference outer wall of winding roller after the winding roller is inside by the center of the free end of winding roller, and the power cord of wearing out by the circumference outer wall of winding roller twines and extends to the sterilizer body outside again behind the circumference outer wall of winding roller.

3. An air sterilizer as claimed in claim 2, wherein the outer circumferential wall of the winding roller is fitted with two limit rings, and the power cord passing through the outer circumferential wall of the winding roller is wound between the two limit rings.

4. An air sterilizer as claimed in claim 1, wherein the lift drive assembly comprises:

the rotating shaft is horizontally arranged at the top of the mounting rack in a freely rotating manner;

the driving component is used for driving the rotating shaft to rotate; and the number of the first and second groups,

the two traction units are respectively arranged on two sides of the support frame along the length direction of the support frame; the traction unit comprises a fixed pulley, a stranded wire disc and a traction rope, the fixed pulley is fixedly arranged on the support frame, the stranded wire disc is sleeved on the circumferential outer wall of the rotating shaft and coaxially rotates with the rotating shaft, one end of the traction rope is connected with the mounting frame, and the other end of the traction rope is connected with the stranded wire disc after bypassing the fixed pulley.

5. An air sterilizer as claimed in claim 4, wherein the drive member includes a worm wheel, a worm and a drive motor, the worm wheel is sleeved on the circumferential outer wall of the rotating shaft and rotates coaxially with the rotating shaft, the worm is vertically arranged on the mounting bracket in a freely rotatable manner, the worm wheel is engaged with the worm, and the output end of the drive motor is in transmission connection with one end of the worm.

6. The air sterilizer of claim 5, wherein the driving member further comprises a hand lever, a clamping groove is formed in one end, away from the driving motor, of the worm, and a clamping portion matched with the clamping groove is formed in one end of the hand lever.

7. An air sterilizer as claimed in claim 4 wherein the lift drive assembly further includes a guide track, one end of the guide track being connected to the mounting bracket and the other end of the guide track extending in the direction of movement of the support bracket, the support bracket being slidably connected to the guide track.

8. The air sterilizer of claim 1, wherein the sterilizer body comprises an ultraviolet sterilization module and a plasma sterilization module, the ultraviolet sterilization module and the plasma sterilization module are arranged side by side, a guide chute is arranged on the side wall of the ultraviolet sterilization module close to one side of the plasma sterilization module, and a guide strip matched with the guide chute is arranged on the side wall of the plasma sterilization module close to one side of the ultraviolet sterilization module;

the ultraviolet ray disinfection module is provided with a power line, the side wall of one side of the ultraviolet ray disinfection module, which is close to the plasma disinfection module, is provided with a connecting plug matched with the connecting socket, and the inside displacement assembly used for driving the connecting plug to be close to or far away from the connecting socket.

9. An air sterilizer as claimed in claim 8, wherein the displacement assembly comprises a base and a slide carriage, the base is disposed inside the plasma sterilization module, the slide carriage is slidably disposed on the base, and one end of the connection plug, which is far away from the connection socket, extends into the plasma sterilization module and is connected with the slide carriage;

offer on the preceding lateral wall of plasma disinfection module and dodge the mouth, dodge the mouth and extend along the direction of motion of slide, the part of slide passes and dodges and extends to the plasma disinfection module outside behind the mouth.

10. An air sterilizer as claimed in claim 1, wherein the bottom of the sterilizer body is provided with a longitudinal connecting plate, and the support frame comprises a support frame, at least one connecting screw and longitudinal support units in one-to-one correspondence with the longitudinal connecting plate;

the longitudinal supporting unit comprises two longitudinal supporting plates, the two longitudinal supporting plates are arranged in the supporting frame, and the longitudinal connecting plate is inserted between the two longitudinal supporting plates;

connecting holes matched with the connecting screw rods are formed in the two sides of the supporting frame, the longitudinal supporting plates and the longitudinal connecting plates.

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