CN114949275A - Full-automatic infrared ray illumination field operations disinfecting equipment - Google Patents

Abstract

The invention discloses a full-automatic infrared illumination field operation disinfection device which comprises an asynchronous swinging full-coverage mechanism, an inner contour driving type lamp holder swinging mechanism, a rotating barrel body assembly and an external wrapping assembly. The invention belongs to the technical field of infrared disinfection, and particularly relates to a full-automatic infrared illumination field operation disinfection device; the invention creatively provides an asynchronous swinging full-coverage mechanism and an inner contour driving type lamp holder swinging mechanism based on an irregular change principle, the inner contour driving type lamp holder swinging mechanism induces the inner contour of a rotating barrel body assembly and is matched with the nonlinear arrangement of the rotating barrel body assembly, the irregular swinging of the asynchronous swinging full-coverage mechanism can be realized by a very simple structure, the adjustability and the adaptability of the device can be improved by the inner wall limiting rings which rotate mutually, the whole process does not need manual operation after the preconditioning is finished, and the practicability is high.

Description

Full-automatic infrared ray illumination field operations disinfecting equipment

Technical Field

The invention belongs to the technical field of infrared disinfection, and particularly relates to a full-automatic infrared illumination field operation disinfection device.

Background

Infrared disinfection is a method of disinfection by infrared irradiation, and the principle is that the vibration or rotation of molecules or atoms of an irradiated object is intensified, so that the object itself generates heat up to hundreds of degrees centigrade, thereby killing pathogens, but the efficacy is only limited on the surface of the object.

Because the incident angle of fixed light source is fixed, consequently to the operating mode that needs disinfection all around often use lamp stand or workstation that can rotate, guarantee that infrared ray can shine each angle of object.

However, if the object has an inner concave surface (even a right angle like I-steel), the infrared ray in rotation cannot be well covered, and in order to solve the problem, the invention firstly provides a full-automatic infrared ray illumination field disinfection device with wide illumination coverage.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides full-automatic infrared light irradiation field disinfection equipment with wide irradiation coverage and full-automatic swinging, and the invention creatively provides an asynchronous swinging full-coverage mechanism and an inner contour driving type lamp holder swinging mechanism based on an irregular change principle, the inner contour driving type lamp holder swinging mechanism induces the inner contour of a rotating barrel body component, the irregular swinging of the asynchronous swinging full-coverage mechanism can be realized by a very simple structure by matching the nonlinear arrangement of the rotating barrel body component, the adjustability and the adaptability of the device can be improved by inner wall limiting rings which rotate mutually (although the full-angle coverage can be realized by irregular shape, if the shape is fixed, the device cannot be adjusted to the optimal irradiation mode according to the shape of an object to be disinfected), after the preconditioning is finished, the whole process does not need manual operation, and the practicability is high.

The technical scheme adopted by the invention is as follows: the invention provides a full-automatic infrared illumination field disinfection device, which comprises an asynchronous swinging full-coverage mechanism, an inner contour driving type lamp holder swinging mechanism, a rotating barrel body assembly and an external wrapping assembly, wherein the asynchronous swinging full-coverage mechanism is arranged in the rotating barrel body assembly in an array manner, the irradiation direction of an infrared irradiation assembly can be changed through the asynchronous swinging full-coverage mechanism, the irradiation disinfection of an object to be disinfected can be carried out in all directions at all angles by matching the rotation of the rotating barrel body assembly, the inner contour driving type lamp holder swinging mechanism is arranged on the rotating barrel body assembly in an array manner, the inner contour driving type lamp holder swinging mechanism can be driven by the fluctuation of an inner curved surface of a limiting ring, the swinging direction of the swinging assembly is controlled through the self expansion and contraction, so that the full coverage is realized, and the asynchronous swinging full-coverage mechanism and the inner contour driving type lamp holder swinging mechanism are distributed in pairs, through asynchronous swing full coverage mechanism and the interior profile drive formula lamp holder wabbler mechanism of slow rotation, can guarantee to wait that disinfectant physical stamina is continuously shone from a plurality of angles, moreover, can also shine the position that normal angle can not shine through the angle change irradiation of infrared irradiation subassembly, improve sterile coverage, rotatory staving subassembly rotates and locates in the outside parcel subassembly.

Furthermore, asynchronous swing all standing mechanism is including swaing the subassembly and infrared irradiation subassembly, the inside of rotatory staving subassembly is located to the subassembly of swaing, the infrared irradiation subassembly is located on swaing the subassembly.

Preferably, the swing assembly comprises a U-shaped bracket, a single-sided drop-shaped swing driving block, a driving block return spring and a drop block hinge shaft, the U-shaped bracket is fixedly connected to the inner wall of the rotating barrel assembly, a bracket square groove is arranged on the U-shaped bracket, a bracket round hole is arranged at the bracket square groove of the U-shaped bracket, the drop block hinge shaft is clamped in the bracket round hole, a driving block hinge hole is arranged on the single-sided drop-shaped swing driving block, the single-sided drop-shaped swing driving block is positioned in the bracket square groove, the single-sided drop-shaped swing driving block is rotatably arranged on the drop block hinge shaft through the driving block hinge hole, a driving block planar portion is arranged on the single-sided drop-shaped swing driving block, the driving block return spring is arranged between the driving block planar portion and the U-shaped bracket, a driving block curved portion and a driving block mounting head are further arranged on the single-sided drop-shaped swing driving block, the driving block return spring has the function of keeping the return trend of the single-side water drop-shaped swing driving block, can avoid the position through self compression when being propped, and can enable the movement direction of the single-side water drop-shaped swing driving block to be controllable through self elasticity when no obstacle exists outside.

As a further preferred feature of the present invention, the infrared irradiation assembly includes an extended lamp holder and an infrared lamp holder, the extended lamp holder is fixedly connected to the driving block mounting head, the infrared lamp holder is engaged with the extended lamp holder, and the extended lamp holder can collect light from the infrared lamp holder, so that the infrared irradiation assembly has a stronger sterilization power, and the infrared irradiation assembly can swing to ensure a coverage of the infrared light.

Furthermore, the inner contour driving type lamp holder swinging mechanism comprises a guide sleeve, a telescopic sliding shaft and a telescopic shaft pre-tightening spring, the guide sleeve is clamped in the rotating barrel body assembly, the telescopic sliding shaft is clamped in the guide sleeve in a sliding manner, a telescopic shaft round head part is arranged at one end of the telescopic sliding shaft, the fluctuation change of a large limiting ring inner curved surface can be sensed through the mutual matching of the telescopic shaft round head part and a limiting ring inner curved surface, so that the sliding and the stretching of the telescopic sliding shaft are triggered, a telescopic shaft ball head part is arranged at the other end of the telescopic sliding shaft, through the sliding contact of the telescopic shaft ball head part and a driving block curved surface part, the self sliding of the telescopic sliding shaft can be used as the driving force and the limiting factor of the single-side water droplet-shaped swinging driving block, so that the infrared irradiation assembly can swing, and the telescopic shaft ball head part is in sliding contact with the driving block curved surface part, the telescopic sliding shaft is provided with a telescopic shaft flange part, and the telescopic shaft pre-tightening spring is arranged between the guide sleeve and the telescopic shaft flange part.

Further, rotatory staving subassembly includes rotatory spacing seat and rotatory parcel subassembly, rotatory spacing seat rigid coupling is in outside parcel subassembly, rotatory parcel subassembly rotates and locates on the rotatory spacing seat.

Preferably, the rotary wrapping assembly comprises a rotary heat insulation cylinder and a cylinder upper cover, the rotary heat insulation cylinder is rotatably arranged in a rotary limiting seat, cylinder round holes are uniformly distributed in the rotary heat insulation cylinder in an annular mode, the guide sleeves are distributed in an array mode, and the guide sleeves are clamped in the cylinder round holes.

Preferably, the upper cover of the cylinder is fastened to the rotary heat insulation cylinder, the upper cover of the cylinder is provided with an upper cover mounting hole, the U-shaped bracket is fixedly connected to the inner wall of the rotary heat insulation cylinder, and the U-shaped bracket and the guide sleeve are correspondingly distributed.

Further, outside parcel subassembly includes spacing subassembly and drive assembly, drive assembly locates on the spacing subassembly, rotatory spacing seat is arranged in the spacing subassembly.

Preferably, spacing subassembly includes main part base, inner wall spacing ring and treats the disinfection object, treat that the disinfection object is located the main part base, the bottom of main part base is located to rotatory spacing seat, be equipped with the base edge on the main part base, the inner wall spacing ring array is located on the base edge, rotate between the inner wall spacing ring and connect, the inside of inner wall spacing ring is equipped with the spacing ring inner curved surface, the horizontal angle of spacing ring inner curved surface is different respectively, and the inner wall spacing ring that the array set up distributes differently on horizontal angle, can guarantee that each group of spacing ring inner curved surface does not coincide on vertical to realize the asynchronous wobbling technological effect of the infrared irradiation subassembly of same vertical.

As a further preferable feature of the present invention, the driving assembly includes a top frame and a rotary driving motor, the top frame is fastened to a set of the top of the inner wall limiting ring, the top frame is provided with a frame avoiding hole, the rotary driving motor is provided on the top frame, an output shaft of the rotary driving motor is located in the frame avoiding hole, and the output shaft of the rotary driving motor is fastened to the upper cover mounting hole.

The invention with the structure has the following beneficial effects:

(1) the irradiation direction of the infrared irradiation assembly can be changed through the asynchronous swinging full-coverage mechanism, and the irradiation sterilization of all angles and all directions of an object to be sterilized can be performed by matching the rotation of the rotating barrel body assembly;

(2) the inner contour driving type lamp holder swinging mechanism can be driven by the fluctuation of the inner curved surface of the limiting ring, and the swinging direction of the swinging assembly is controlled through the self expansion and contraction, so that the full coverage is realized;

(3) through the slowly rotating asynchronous swinging full-coverage mechanism and the inner contour driving type lamp holder swinging mechanism, the continuous irradiation of a to-be-sterilized object from multiple angles can be ensured, and moreover, the position which cannot be irradiated by a normal angle can be irradiated through the angle change of the infrared irradiation assembly, so that the coverage of sterilization is improved;

(4) the driving block return spring has the function of keeping the return trend of the single-sided water drop-shaped swing driving block, can avoid the position through self compression when being propped, and can also enable the movement direction of the single-sided water drop-shaped swing driving block to be controllable through self elasticity when no obstacle exists outside;

(5) the light of the infrared lamp holder can be gathered more through the outward-expanding lamp holder, so that the sterilizing lamp has stronger sterilizing power, and the coverage range of the infrared light can be ensured through the swinging of the infrared irradiation assembly;

(6) the circular head of the telescopic shaft is matched with the inner curved surface of the limiting ring, so that the fluctuation change of the inner curved surface of the large limiting ring can be sensed, and the sliding and the stretching of the telescopic sliding shaft are caused;

(7) through the sliding contact of the spherical head part of the telescopic shaft and the curved surface part of the driving block, the self sliding of the telescopic sliding shaft can be used as the driving force and the limiting factor for the swinging of the single-side drop-shaped swinging driving block, so that the aim of swinging the infrared irradiation assembly is fulfilled;

(8) the inner wall spacing rings that the array set up distribute differently on horizontal angle, can guarantee that each group spacing ring inner curved surface is not coincident on vertical to realize the infrared of same column and shine the not synchronous wobbling technological effect of subassembly.

Drawings

FIG. 1 is a perspective view of a fully automatic field sterilizing apparatus with infrared illumination according to the present invention;

FIG. 2 is a front view of a fully automatic infrared field sterilizing apparatus according to the present invention;

FIG. 3 is a cross-sectional view taken along section line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along section line B-B of FIG. 3;

FIG. 5 is a cross-sectional view taken along section line C-C of FIG. 3;

FIG. 6 is a schematic structural view of an asynchronous swing full-coverage mechanism of the fully automatic infrared illumination field sterilizing apparatus according to the present invention;

FIG. 7 is a schematic structural view of an inner contour driving type lamp head swinging mechanism of the fully automatic infrared light field sterilizing apparatus according to the present invention;

FIG. 8 is a schematic diagram of the combination of an asynchronous wobble full cover mechanism and an inner contour driven lamp head wobble mechanism;

FIG. 9 is a schematic structural view of a rotating barrel assembly of the fully automatic field sterilizing apparatus with infrared illumination according to the present invention;

FIG. 10 is a schematic view of an external wrapping assembly of the fully automatic infrared field sterilizing apparatus according to the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 3 at I;

FIG. 12 is an enlarged view of a portion of FIG. 4 at II;

fig. 13 is a partial enlarged view of fig. 8 at iii.

Wherein, 1, asynchronous swing full-covering mechanism, 2, inner contour driving lamp holder swinging mechanism, 3, rotating barrel body component, 4, outer wrapping component, 5, swinging component, 6, infrared irradiation component, 7, U-shaped bracket, 8, single-side water drop-shaped swinging driving block, 9, driving block reset spring, 10, water drop block hinged shaft, 11, external expanding lamp holder, 12, infrared lamp holder, 13, bracket square groove, 14, bracket round hole, 15, driving block hinged hole, 16, driving block plane part, 17, driving block curved surface part, 18, driving block mounting head, 19, guide sleeve, 20, telescopic sliding shaft, 21, telescopic shaft pre-tightening spring, 22, telescopic shaft round head, 23, telescopic shaft ball head, 24, telescopic shaft flange part, 25, rotation limiting seat, 26, rotating wrapping component, 27, rotary heat insulation barrel, 28, barrel upper cover, 29, barrel round hole, 30. the disinfection device comprises an upper cover mounting hole, 31, a limiting component, 32, a driving component, 33, a main body base, 34, an inner wall limiting ring, 35, a top rack, 36, a rotary driving motor, 37, a base edge, 38, an inner curved surface of the limiting ring, 39, a rack avoiding hole and 40 and an object to be disinfected.

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

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, 4, 5 and 9, the invention provides a full-automatic infrared illumination field sterilizing device, which comprises an asynchronous swinging full-coverage mechanism 1, an inner contour driving type lamp cap swinging mechanism 2, a rotating barrel component 3 and an outer wrapping component 4, wherein the asynchronous swinging full-coverage mechanism 1 is arranged in the rotating barrel component 3 in an array manner, the irradiation direction of an infrared irradiation component 6 can be changed through the asynchronous swinging full-coverage mechanism 1, the object 40 to be sterilized can be irradiated and sterilized in all directions at all angles by matching the rotation of the rotating barrel component 3, the inner contour driving type lamp cap swinging mechanism 2 is arranged on the rotating barrel component 3 in an array manner, the inner contour driving type lamp cap swinging mechanism 2 can be driven by the fluctuation of an inner curved surface 38 of a limiting ring, the swinging direction of the swinging component 5 is controlled by the self expansion and contraction, so as to realize full coverage, asynchronous swing covers mechanism 1 and interior profile drive formula lamp holder wabbler mechanism 2 in pairs and distributes, and through asynchronous swing covers mechanism 1 and interior profile drive formula lamp holder wabbler mechanism 2 entirely of slow rotatory, can guarantee to treat that disinfection object 40 can be continuously shone from a plurality of angles, moreover, can also shine the position that normal angle can not shine through the angle change of infrared irradiation subassembly 6, improve sterile coverage, rotatory staving subassembly 3 rotates and locates in outside parcel subassembly 4.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 10, the external wrapping component 4 includes a limiting component 31 and a driving component 32, the driving component 32 is disposed on the limiting component 31, and the rotary limiting seat 25 is disposed in the limiting component 31; the limiting assembly 31 comprises a main body base 33, inner wall limiting rings 34 and objects to be disinfected 40, the objects to be disinfected 40 are located on the main body base 33, the rotary limiting seat 25 is arranged at the bottom of the main body base 33, a base edge 37 is arranged on the main body base 33, the inner wall limiting rings 34 are arranged on the base edge 37 in an array mode, the inner wall limiting rings 34 are connected in a rotating mode, inner limiting ring curved surfaces 38 are arranged inside the inner wall limiting rings 34, the horizontal angles of the inner limiting ring curved surfaces 38 are different, the inner wall limiting rings 34 arranged in the array mode are distributed on different horizontal angles, and it can be guaranteed that the inner curved surfaces 38 of the limiting rings are not overlapped in the longitudinal direction, so that the technical effect that the infrared irradiation assemblies 6 in the same longitudinal row swing asynchronously is achieved; the driving assembly 32 comprises a top frame 35 and a rotary driving motor 36, the top frame 35 is clamped on a group of tops of the inner wall limiting rings 34, a frame avoiding hole 39 is formed in the top frame 35, the rotary driving motor 36 is arranged on the top frame 35, an output shaft of the rotary driving motor 36 is located in the frame avoiding hole 39, and an output shaft of the rotary driving motor 36 is clamped in the upper cover mounting hole 30.

As shown in fig. 3, 5 and 9, the rotating barrel assembly 3 includes a rotating limiting seat 25 and a rotating wrapping assembly 26, the rotating limiting seat 25 is fixedly connected in the external wrapping assembly 4, and the rotating wrapping assembly 26 is rotatably disposed on the rotating limiting seat 25; the rotary wrapping component 26 comprises a rotary heat insulation cylinder 27 and a cylinder upper cover 28, the rotary heat insulation cylinder 27 is rotatably arranged in the rotary limiting seat 25, cylinder round holes 29 are annularly and uniformly distributed on the rotary heat insulation cylinder 27, the guide sleeves 19 are distributed in an array manner, and the guide sleeves 19 are clamped in the cylinder round holes 29; the cylinder upper cover 28 is clamped on the rotary heat insulation cylinder 27, an upper cover mounting hole 30 is arranged on the cylinder upper cover 28, the U-shaped support 7 is fixedly connected on the inner wall of the rotary heat insulation cylinder 27, and the U-shaped support 7 and the guide sleeve 19 are correspondingly distributed.

As shown in fig. 4, 5, 6, 8, 12 and 13, the asynchronous swinging full-coverage mechanism 1 includes a swinging assembly 5 and an infrared irradiation assembly 6, the swinging assembly 5 is disposed inside the rotating barrel assembly 3, and the infrared irradiation assembly 6 is disposed on the swinging assembly 5; the swinging component 5 comprises a U-shaped bracket 7, a single-side drop-shaped swinging driving block 8, a driving block reset spring 9 and a drop block hinging shaft 10, the U-shaped bracket 7 is fixedly connected on the inner wall of the rotating barrel component 3, a bracket square groove 13 is arranged on the U-shaped bracket 7, a bracket round hole 14 is arranged at the bracket square groove 13 of the U-shaped bracket 7, the drop block hinging shaft 10 is clamped in the bracket round hole 14, a driving block hinging hole 15 is arranged on the single-side drop-shaped swinging driving block 8, the single-side drop-shaped swinging driving block 8 is positioned in the bracket square groove 13, the single-side drop-shaped swinging driving block 8 is rotatably arranged on the drop block hinging shaft 10 through the driving block hinging hole 15, a driving block plane part 16 is arranged on the single-side drop-shaped swinging driving block 8, the driving block reset spring 9 is arranged between the driving block plane part 16 and the U-shaped bracket 7, a driving block curved surface part 17 and a driving block mounting head 18 are also arranged on the single-side drop-shaped swinging driving block 8, the driving block return spring 9 has the function of keeping the return trend of the single-sided water drop-shaped swing driving block 8, can avoid the position through self compression when being propped, and can also enable the movement direction of the single-sided water drop-shaped swing driving block 8 to be controllable through self elasticity when no obstacle exists outside; infrared irradiation subassembly 6 is including expanding formula lamp stand 11 and infrared lamp holder 12 outward, expands 11 rigid couplings of formula lamp stands on drive block installation head 18 outward, and infrared lamp holder 12 block is located and is expanded formula lamp stand 11 outward, can make infrared lamp holder 12's light gather more through expanding formula lamp stand 11 outward to possess more powerful disinfection power, the coverage of infrared light can also be guaranteed in the swing through infrared irradiation subassembly 6.

As shown in fig. 1, 7 and 11, the inner contour driving type lamp cap swinging mechanism 2 includes a guiding sleeve 19, a telescopic sliding shaft 20 and a telescopic shaft pre-tightening spring 21, the guiding sleeve 19 is clamped in the rotating barrel assembly 3, the telescopic sliding shaft 20 is clamped in the guiding sleeve 19 in a sliding manner, one end of the telescopic sliding shaft 20 is provided with a telescopic shaft round head 22, the fluctuation of the large limit ring inner curved surface 38 can be sensed through the mutual matching of the telescopic shaft round head 22 and the limit ring inner curved surface 38, so as to cause the sliding and stretching of the telescopic sliding shaft 20, the other end of the telescopic sliding shaft 20 is provided with a telescopic shaft ball head 23, through the sliding contact of the telescopic shaft ball head 23 and the driving block curved surface portion 17, the self-sliding of the telescopic sliding shaft 20 can be used as the driving force and the limiting factor for the swinging of the single-sided water-drop-shaped swinging driving block 8, so as to achieve the purpose of swinging the infrared irradiation assembly 6, the telescopic shaft ball head part 23 is in sliding contact with the driving block curved surface part 17, a telescopic shaft flange part 24 is arranged on the telescopic sliding shaft 20, and a telescopic shaft pre-tightening spring 21 is arranged between the guide sleeve 19 and the telescopic shaft flange part 24.

When the disinfection device is used specifically, firstly, a user needs to put an object 40 to be disinfected into the middle position of the main body base 33, then the infrared lamp head 12 and the rotary driving motor 36 are started in sequence, after the light of the infrared lamp head 12 irradiates the surface of the object 40 to be disinfected, the surface temperature of the object 40 to be disinfected is increased, and therefore the disinfection effect is achieved, and in the process, the rotary driving motor 36 drives the rotary wrapping component 26 to continuously and slowly rotate;

the inner contour driving type lamp holder swinging mechanism 2 and the asynchronous swinging full-coverage mechanism 1 also rotate along with the rotating barrel body component 3, and the inner curved surface 38 of the limiting ring is fluctuated, so that the telescopic sliding shaft 20 can be caused to stretch through the sliding contact of the round head part 22 of the telescopic shaft and the inner curved surface 38 of the limiting ring;

when the telescopic sliding shaft 20 is changed in a telescopic mode, the driving block curved surface part 17 can be propped through the telescopic shaft ball head part 23, and the single-side drop-shaped swing driving block 8 is driven to swing around the drop block hinge shaft 10 through sliding contact between the telescopic shaft ball head part 23 and the driving block curved surface part 17;

the single-sided water drop-shaped swinging driving block 8 drives the outward-expanding lamp holder 11 and the infrared lamp holder 12 to swing together while swinging, so that the incident angle of light is changed, the object to be disinfected 40 can be covered in a full angle by matching with the light generating position which is always changed, and the light coverage range is larger than the condition when the infrared lamp holder 12 is fixed on the rotary heat insulation cylinder 27;

after the sterilization is completed, the object 40 to be sterilized is cooled and then taken out.

The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a full-automatic infrared ray illumination field operations disinfecting equipment which characterized in that: the device comprises an asynchronous swing full-covering mechanism (1), an inner contour driving type lamp holder swinging mechanism (2), a rotating barrel body assembly (3) and an external wrapping assembly (4), wherein the asynchronous swing full-covering mechanism (1) is arranged in the rotating barrel body assembly (3) in an array mode, the inner contour driving type lamp holder swinging mechanism (2) is arranged on the rotating barrel body assembly (3) in an array mode, the asynchronous swing full-covering mechanism (1) and the inner contour driving type lamp holder swinging mechanism (2) are distributed in a pair mode, and the rotating barrel body assembly (3) is arranged in the external wrapping assembly (4) in a rotating mode; asynchronous swing all-covering mechanism (1) is including swaing subassembly (5) and infrared irradiation subassembly (6), the inside of rotatory staving subassembly (3) is located in swaing subassembly (5), infrared irradiation subassembly (6) are located and are swaged on subassembly (5).

2. The fully automatic infrared light field sterilizing apparatus of claim 1 wherein: the swing assembly (5) comprises a U-shaped support (7), a single-face water drop-shaped swing driving block (8), a driving block reset spring (9) and a water drop block hinged shaft (10), the U-shaped support (7) is fixedly connected to the inner wall of the rotary barrel assembly (3), a support square groove (13) is arranged on the U-shaped support (7), a support round hole (14) is formed in the support square groove (13) of the U-shaped support (7), the water drop block hinged shaft (10) is clamped in the support round hole (14), a driving block hinged hole (15) is formed in the single-face water drop-shaped swing driving block (8), the single-face water drop-shaped swing driving block (8) is located in the support square groove (13), the single-face water drop-shaped swing driving block (8) is rotatably arranged on the water drop block (10) through the driving block hinged hole (15), a driving block (16) is arranged on the single-face water drop-shaped swing driving block (8), the driving block return spring (9) is arranged between the driving block plane part (16) and the U-shaped support (7), and the single-side drop-shaped swing driving block (8) is further provided with a driving block curved surface part (17) and a driving block mounting head (18).

3. The fully automatic infrared light field sterilizing apparatus of claim 2 wherein: the infrared irradiation assembly (6) comprises an outward-expanding type lamp holder (11) and an infrared lamp holder (12), the outward-expanding type lamp holder (11) is fixedly connected to the driving block mounting head (18), and the infrared lamp holder (12) is clamped in the outward-expanding type lamp holder (11).

4. The fully automatic infrared illumination field sterilizing device of claim 3, wherein: interior profile drive formula lamp holder wabbler mechanism (2) is including uide bushing (19), flexible slide bar (20) and telescopic shaft pretension spring (21), uide bushing (19) block is located in rotatory staving subassembly (3), during telescopic slide bar (20) block slides and locates uide bushing (19), the one end of flexible slide bar (20) is equipped with telescopic shaft round head portion (22), the other end of flexible slide bar (20) is equipped with telescopic shaft bulb portion (23), telescopic shaft bulb portion (23) and driver block curved surface portion (17) sliding contact, be equipped with telescopic shaft flange portion (24) on flexible slide bar (20), telescopic shaft pretension spring (21) are located between uide bushing (19) and telescopic shaft flange portion (24).

5. The fully automatic infrared light field sterilizing apparatus of claim 4 wherein: rotatory staving subassembly (3) are including rotatory spacing seat (25) and rotatory parcel subassembly (26), rotatory spacing seat (25) rigid coupling is in outside parcel subassembly (4), rotatory parcel subassembly (26) are rotated and are located on rotatory spacing seat (25).

6. The fully automatic infrared light field sterilizing apparatus of claim 5 wherein: rotatory parcel subassembly (26) includes rotation heat-insulating cylinder (27) and barrel upper cover (28), rotation heat-insulating cylinder (27) is located in rotatory spacing seat (25), barrel round hole (29) have all been laid to the annular on the heat-insulating cylinder (27) of rotation, guide sleeve (19) are the array distribution, guide sleeve (19) block is located in barrel round hole (29).

7. The fully automatic infrared light field sterilizing apparatus of claim 6 wherein: the heat insulation barrel is characterized in that the barrel upper cover (28) is clamped on the rotary heat insulation barrel (27), an upper cover mounting hole (30) is formed in the barrel upper cover (28), the U-shaped support (7) is fixedly connected to the inner wall of the rotary heat insulation barrel (27), and the U-shaped support (7) and the guide sleeve (19) are distributed correspondingly.

8. The fully automatic infrared light field sterilizing apparatus of claim 7 wherein: the external wrapping component (4) comprises a limiting component (31) and a driving component (32), the driving component (32) is arranged on the limiting component (31), and the rotary limiting seat (25) is located in the limiting component (31).

9. The fully automatic infrared light field sterilizing apparatus of claim 8 wherein: spacing subassembly (31) include main part base (33), inner wall spacing ring (34) and treat disinfection object (40), treat that disinfection object (40) are located main part base (33), the bottom of main part base (33) is located in rotatory spacing seat (25), be equipped with base edge (37) on main part base (33), inner wall spacing ring (34) array is located on base edge (37), rotate between inner wall spacing ring (34) and connect, the inside of inner wall spacing ring (34) is equipped with spacing ring inner curved surface (38), the horizontal angle of spacing ring inner curved surface (38) is different.

10. The fully automatic infrared light field sterilizing apparatus of claim 9 wherein: drive assembly (32) include top frame (35) and rotation driving motor (36), top frame (35) block is located on a set of at the top of inner wall spacing ring (34), be equipped with the frame on top frame (35) and keep away a hole (39), rotation driving motor (36) are located on top frame (35), the output shaft of rotation driving motor (36) is arranged in the frame and keeps away a hole (39), the output shaft block of rotation driving motor (36) is arranged in upper cover mounting hole (30).

Images