CN113606520B - Coating operating lamp capable of adjusting type of cut-off film and adjusting method - Google Patents

Abstract

The invention provides a coating operation lamp with an adjustable cut-off film type, which comprises: the surgical lamp comprises at least one surgical lamp body, a connecting mechanism and a supporting mechanism, wherein the surgical lamp body comprises a shell, a surgical lamp, a first type stop film and a second type stop film, the surgical lamp is arranged inside the shell and used for emitting corresponding illumination through the shell, and the first type stop film and the second type stop film are fixedly arranged on two sides of the surgical lamp; the operating lamp body further comprises a movable shaft penetrating through the operating lamp body, the movable shaft is movably connected with the shell, the movable shaft is fixedly connected with the operating lamp inside the operating lamp body, and the operating lamp body is used for adjusting the rotating direction of the operating lamp relative to the shell according to the movable shaft so as to realize the adjustment of the first type stop film and the second type stop film; the invention also provides an adjusting method of the coating operating lamp with the adjustable cut-off film type, which effectively improves the high efficiency and convenience of the special operating lamp in operation implementation.

Description

Coating operating lamp capable of adjusting type of cut-off film and adjusting method

Technical Field

The invention relates to the field of coating operating lamps, in particular to a coating operating lamp with an adjustable cut-off film and an adjusting method.

Background

The operating lamp is mainly used for irradiating an operating table area and a focus part of a patient when a doctor performs an operation, so that the doctor can observe, judge, analyze, cut off the focus part and other operation operations, and the operating lamp plays an important role in normal operation.

The existing operating lamps are generally single-sided irradiation, and special operating lamps (such as infrared light, blue light and ultraviolet light are filtered) cannot be used for adjusting the type of the cut-off film, so that the operating lamps with the cut-off film of the corresponding type can be replaced, the operating lamps are relatively high in use cost and low in efficiency, and the smooth implementation of an operation can be guaranteed only by preparing various operating lamps, so that the high efficiency and convenience of the operation implementation are not facilitated.

Disclosure of Invention

In order to solve the problems in the prior art, the invention innovatively provides the coating operating lamp with the adjustable cut-off film and the adjusting method, so that the problems of high cost and low adjusting efficiency of a special operating lamp in the operation implementation process caused by the prior art are effectively solved, and the high efficiency and convenience of the special operating lamp in the operation implementation are effectively improved.

The first aspect of the present invention provides a coated operating lamp of the type having an adjustable cut-off film, comprising: the surgical lamp comprises at least one surgical lamp body, a connecting mechanism and a supporting mechanism, wherein the surgical lamp bodies are movably connected with the connecting mechanism, the connecting mechanism is fixedly connected with the supporting mechanism, the surgical lamp body comprises a shell, a surgical lamp, a first type stop film and a second type stop film, the surgical lamp is arranged in the shell and used for emitting corresponding illumination through the shell, and the first type stop film and the second type stop film are fixedly arranged at two sides of the surgical lamp; the operating lamp body further comprises a movable shaft penetrating through the operating lamp body, the movable shaft is movably connected with the shell, the movable shaft is fixedly connected with the operating lamp inside the operating lamp body, and the operating lamp is used for adjusting the rotating direction of the operating lamp relative to the shell according to the movable shaft, so that the first type stop film and the second type stop film can be adjusted.

Optionally, the operating lamp body further comprises a fixing mechanism for fixing the rotating direction of the operating lamp inside the operating lamp body.

Further, the fixing mechanism comprises a buckle arranged at any end of the movable shaft, and a first through hole and a second through hole which correspond to the surface of the shell, wherein the positions and the sizes of the buckle and the first through hole and the second through hole correspond to each other.

Further, the buckle includes sliding tray, push pedal, the protruding that sets up on the loose axle, sliding tray and push pedal swing joint, protruding setting is in the one side of being close to first through-hole or second through-hole of push pedal, protruding and push pedal fixed connection, protruding position and size are corresponding with first through-hole and second through-hole.

Optionally, the operating lamp includes the lamp plate, the lamp plate both sides all are provided with a plurality of pointolite, correspond to first type and second type respectively and cut off the membrane, and the pointolite is used for filtering through first type and cut off membrane or second type and cuts off the membrane, and wherein, the loose axle runs through inside the lamp plate, and the lamp plate is rotatory for the shell along with the loose axle.

Further, a plurality of point light sources on the two sides of the lamp panel are uniformly arranged.

Optionally, the multiple point light sources on two sides of the lamp panel do not emit light at the same time, when the first type of cut-off film corresponds to the cut-off film to be needed, the point light source on the side of the lamp panel corresponding to the first type of cut-off film emits light, and the point light source on the side of the lamp panel corresponding to the second type of cut-off film does not emit light; when the second type cut-off film corresponds to the cut-off film to be needed, the point light source corresponding to the side face of the lamp panel of the second type cut-off film emits light, and the point light source corresponding to the side face of the lamp panel of the first type cut-off film does not emit light.

Optionally, the point light sources on the two sides of the lamp panel are uniformly distributed in a plurality of circular rings.

Optionally, the first type of cut-off film is an infrared cut-off film, and the second type of cut-off film is one of an ultraviolet cut-off film and a blue light cut-off film; the first type cut-off film and/or the second type cut-off film are/is fixedly arranged outside the operating lamp through a film plating process; the distance between the first type cut-off film and the second type cut-off film is smaller than the distance between the operating lamp body and the direction perpendicular to the movable shaft.

The second aspect of the present invention provides a method for adjusting a cut-off film adjustable type coated operating lamp, which is implemented on the basis of the cut-off film adjustable type coated operating lamp according to the first aspect of the present invention, and includes:

determining the type of the cut-off film to be selected;

according to the type of the cut-off film to be selected, the rotation direction of the operating lamp in the operating lamp body relative to the shell is regulated through the movable shaft, so that the cut-off film of the type to be selected corresponds to an operation irradiation area;

the coated operating lamp is controlled to emit specific type of light through the cut-off film corresponding to the type to be selected, and the specific type of light irradiates the operating area.

The technical scheme adopted by the invention comprises the following technical effects:

1. the invention effectively solves the problems of high cost and low adjustment efficiency of the special operating lamp in the operation implementation process caused by the prior art, and effectively improves the high efficiency and convenience of the special operating lamp in the operation implementation.

2. According to the technical scheme, the operating lamp body further comprises the fixing mechanism for fixing the rotating direction of the operating lamp inside the operating lamp body, the operating lamp can be fixed at a certain angle position (corresponding to the application of the first type stop film or the application of the second type stop film) through the fixing mechanism, and the convenience in use of the coated operating lamp is improved.

3. According to the technical scheme, the point light sources on the two sides of the lamp panel are uniformly arranged, so that the light spot intensity formed by the light source of the coating operation lamp is uniform.

4. According to the technical scheme, the point light sources on the two sides of the lamp panel do not emit light at the same time, when the first type of cut-off film corresponds to the cut-off film to be needed, the point light sources on the side face of the lamp panel corresponding to the first type of cut-off film emit light, and the point light sources on the side face of the lamp panel corresponding to the second type of cut-off film do not emit light; when the second type cut-off film corresponds to the cut-off film to be needed, the point light source corresponding to the side surface of the lamp panel of the second type cut-off film emits light, and the point light source corresponding to the side surface of the lamp panel of the first type cut-off film does not emit light; further, power consumption of the power supply is reduced, and utilization efficiency of the light source is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

For a clearer description of embodiments of the invention or of the solutions of the prior art, reference will be made to the accompanying drawings, which are used in the description of the embodiments or of the prior art, and it will be obvious to those skilled in the art that other drawings can be obtained from these without inventive labour.

FIG. 1 is a schematic perspective view of a coating operation lamp according to a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a plating operation lamp according to a first embodiment of the present invention;

fig. 3 is a schematic perspective view of a lamp panel 1121 of a surgical lamp 112 in a film-plating surgical lamp according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a lamp panel 1121 of a surgical lamp 112 in a film-plating surgical lamp according to an embodiment of the present invention;

fig. 5 is a schematic view showing a partially enlarged structure of a lamp panel 1121 of a surgical lamp 112 in a film-plating surgical lamp according to an embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of a second embodiment of the present invention, which includes two operating lamp bodies;

fig. 7 is a flow chart of a method for adjusting a three-coating operating lamp according to an embodiment of the invention.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present invention will be described in detail below with reference to the following detailed description and the accompanying drawings. The following disclosure provides many different embodiments, or examples, for implementing different structures of the invention. In order to simplify the present disclosure, components and arrangements of specific examples are described below. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and processing techniques and processes are omitted so as to not unnecessarily obscure the present invention.

Example 1

As shown in fig. 1-2, for convenience of description, this embodiment is described by taking an operation lamp body as an example, and the embodiment of the invention provides a coated operation lamp with an adjustable cut-off film, which includes: the operating lamp comprises operating lamp bodies 11, connecting mechanisms 12 and supporting mechanisms 10, wherein a plurality of operating lamp bodies 11 are movably connected with the connecting mechanisms 12, and the connecting mechanisms 12 are fixedly connected with the supporting structures 10; the operating lamp body 11 comprises a shell 111, an operating lamp 112, a first type stop film 113 and a second type stop film 114, wherein the operating lamp 112 is arranged in the shell 111 and is used for emitting corresponding illumination through the shell 111, and the first type stop film 113 and the second type stop film 114 are fixedly arranged at two sides of the operating lamp 112; the operating lamp body 11 further comprises a movable shaft 115 penetrating through the operating lamp body 11, the movable shaft 115 is movably connected with the housing 111, the movable shaft 115 is fixedly connected with the operating lamp 112 inside the operating lamp body 11, and the operating lamp 112 is used for adjusting the rotating direction of the operating lamp 112 inside the operating lamp body 11 relative to the housing 111 according to the movable shaft 115, so that the first type stop film 113 and the second type stop film 114 are adjusted.

The operating lamp body 11 is movably connected with the connecting mechanism 12 through a rotating shaft 121 at the tail end of the connecting mechanism 12, so that the direction of the operating lamp body 11 relative to the connecting mechanism 12 can be adjusted, the connecting mechanism 12 is fixedly connected with the supporting structure 10, and the supporting structure 10 can be fixed on the top during operation or in a bracket.

Preferably, the operating lamp body 11 further includes a fixing mechanism 116 for fixing the rotation direction of the operating lamp 112 inside the operating lamp body 11 (fixing the operating lamp 112 inside the operating lamp body 11 at a certain angle).

Specifically, the fixing mechanism 116 includes a buckle 1161 disposed at either end of the movable shaft 115, and a first through hole 1162 and a second through hole 1163 corresponding to the surface of the housing 111, where the positions and sizes of the buckle 1161 and the first through hole 1161 and the second through hole 1162 correspond to each other.

The buckle 1161 comprises a sliding groove 11611, a push plate 11612 and a protrusion 11613 which are arranged on the movable shaft 115, the sliding groove 11611 is movably connected with the push plate 11612, the protrusion 11613 is arranged on one side of the push plate 11612, which is close to the first through hole 1161 or the second through hole 1162, the protrusion 11613 is fixedly connected with the push plate 11612, and the position and the size of the protrusion 11613 correspond to those of the first through hole 1161 and the second through hole 1162. The first through holes 1162 and the second through holes 1163 are disposed on the same vertical line, the first through holes 1162 are used for fixing the corresponding second type blocking films 114, that is, when the protrusions 11613 in the push plate 11612 are fixed on the first through holes 1162, the second type blocking films 114 are parallel to the circular bottom surface of the housing 111 and close to the circular bottom surface of the housing 111 far away from the supporting structure 10, so that the operating lamp 112 emits light filtered by the second type blocking films 114 through the housing 111; the second through hole 1163 is used for fixing the corresponding first type blocking film 113, that is, when the protrusion 11613 in the push plate 11612 is fixed on the second through hole 1163, the first type blocking film 113 is parallel to the circular bottom surface of the housing 111 and is close to the circular bottom surface of the housing 111 far away from the supporting structure 10, so that the operating lamp 112 emits light filtered by the first type blocking film 113 through the housing 111, and the operating lamp 112 can be fixed at a certain angle (corresponding to the application of the first type blocking film 113 or the application of the second type blocking film 114) through the fixing mechanism 116, so that the convenience of using the coated operating lamp is improved.

Further, as shown in fig. 3 to 5, the operating lamp 112 includes a lamp panel 1121 (the operating lamp 112 may further include a lamp cover 11212, disposed outside the lamp panel 1121, for protecting a light source in the lamp panel 1121, the first type cut-off film 113 and the second type cut-off film 114 may be fixedly disposed on an outer wall of the lamp cover 11212 of the operating lamp 112 in an electroplating manner, the outer portion of the lamp cover 11212 is a housing 111), both sides of the lamp panel 1121 are provided with a plurality of point light sources 11211, respectively corresponding to the first type cut-off film 113 and the second type cut-off film 114, the point light sources 11211 are used for filtering light through the first type cut-off film 113 or the second type cut-off film 114, wherein the movable shaft 115 penetrates inside the lamp panel 1121, a length of the movable shaft 115 is greater than a length of the operating lamp body 11, and when the operating lamp body 11 rotates, the lamp panel 1121 rotates along with the movable shaft. The point light sources 11211 on both sides of the lamp panel 1121 may be symmetrically disposed with respect to the lamp panel 1121 or may be disposed separately, and the present invention is not limited thereto. Preferably, the output end of the stepping motor and the movable shaft can be connected through the stepping motor, and the movable shaft is rotated by controlling the starting and stopping of the stepping motor, so that the adjusting efficiency is improved.

Specifically, a plurality of point light sources 11211 on both sides of the lamp panel 1121 are uniformly arranged. Preferably, the point light sources 11211 on both sides of the light panel 1121 are uniformly distributed in a plurality of rings.

Preferably, the point light sources 11211 on both sides of the lamp panel 1121 do not emit light at the same time, and are individually controlled. Specifically, when the first type cut-off film 113 corresponds to a cut-off film to be required, the point light sources 11211 corresponding to the side of the lamp panel 1121 of the first type cut-off film 113 emit light, and the point light sources 11211 corresponding to the side of the lamp panel 1121 of the second type cut-off film 114 do not emit light; when the second type cut-off film 114 corresponds to a cut-off film to be required, the point light sources 11211 corresponding to the side of the lamp panel 1121 of the second type cut-off film 114 emit light, and the point light sources 11211 corresponding to the side of the lamp panel 1121 of the first type cut-off film 113 do not emit light.

The point light source 11211 may be a Light Emitting Diode (LED) or other type of point light source, and the present invention is not limited herein.

Specifically, the first type of cutoff film 113 is an infrared cutoff film, and the second type of cutoff film 114 is one of an ultraviolet cutoff film and a blue light cutoff film; the first type cut-off film 113 and/or the second type cut-off film 114 are fixedly arranged outside the operating lamp 112 through a film plating process, and the conversion of the first type cut-off film 113 or the second type cut-off film 114 can be realized along with the rotation of the operating lamp 112. Further, the distance between the first type cut-off film 113 and the second type cut-off film 114 is smaller than the distance between the operating lamp body 11 and the direction perpendicular to the movable shaft 115, i.e., the distance between the operating lamp body 11 and the direction perpendicular to the movable shaft 115 (the longitudinal distance of the operating lamp body 11 or the distance between the operating lamp body 11 and the plane of the operating lamp body 11) is larger than the distance between the first type cut-off film 113 and the second type cut-off film 114.

The wavelength cut-off range of the cut-off film can be set according to the operation requirement, and the invention is not limited herein.

The invention effectively solves the problems of high cost and low adjustment efficiency of the special operating lamp in the operation implementation process caused by the prior art, and effectively improves the high efficiency and convenience of the special operating lamp in the operation implementation.

According to the technical scheme, the operating lamp body further comprises the fixing mechanism for fixing the rotating direction of the operating lamp inside the operating lamp body, the operating lamp can be fixed at a certain angle position (corresponding to the application of the first type stop film or the application of the second type stop film) through the fixing mechanism, and the convenience in use of the coated operating lamp is improved.

According to the technical scheme, the point light sources on the two sides of the lamp panel are uniformly arranged, so that the light spot intensity formed by the light source of the coating operation lamp is uniform.

According to the technical scheme, the point light sources on the two sides of the lamp panel do not emit light at the same time, when the first type of cut-off film corresponds to the cut-off film to be needed, the point light sources on the side face of the lamp panel corresponding to the first type of cut-off film emit light, and the point light sources on the side face of the lamp panel corresponding to the second type of cut-off film do not emit light; when the second type cut-off film corresponds to the cut-off film to be needed, the point light source corresponding to the side surface of the lamp panel of the second type cut-off film emits light, and the point light source corresponding to the side surface of the lamp panel of the first type cut-off film does not emit light; further, power consumption of the power supply is reduced, and utilization efficiency of the light source is improved.

Example two

As shown in fig. 6, for convenience of description, this embodiment is illustrated by taking an example including two operating lamp bodies, and the adjustable cut-off film type of the coated operating lamp provided in the embodiment of the present invention includes: the operating lamp comprises an operating lamp body 11, an operating lamp body 13, a connecting mechanism 12 and a supporting mechanism 10, wherein the operating lamp body 11 and the operating lamp body 13 are respectively and movably connected with the connecting mechanism 12, and the connecting mechanism 12 is fixedly connected with the supporting structure 10; the operation lamp 132 is disposed inside the housing 131, and is configured to emit corresponding illumination through the housing 131, and a first type cutoff film 133 and a second type cutoff film 134 are fixedly disposed on two sides of the operation lamp 132; the operating lamp body 13 further comprises a movable shaft 135 penetrating through the operating lamp body 13, the movable shaft 135 is movably connected with the housing 131, the movable shaft 135 is fixedly connected with the operating lamp 132 inside the operating lamp body 13, and the operating lamp 132 inside the operating lamp body 13 is used for adjusting the rotating direction of the operating lamp 132 relative to the housing 131 according to the movable shaft 135, so that the first type stop film 133 and the second type stop film 134 can be adjusted.

The internal structure of the operating lamp body 13 is the same as that of the operating lamp body 11 in the first embodiment, and the invention is not repeated herein, and the fixing mechanism in the movable shaft 135 may be disposed on a side close to the operating lamp body 11, preferably, for convenience in adjustment, the fixing mechanism in the movable shaft 135 is disposed on a side far from the operating lamp body 11.

The operating lamp body 13 and the operating lamp body 11 can be fixedly arranged in parallel, the distance d1 between the central position (circle center) of the operating lamp body 11 and the central position (circle center) of the operating lamp body 13 is larger than the sum of the radius r1 of the circular side surface of the operating lamp body 11 and the radius r2 of the circular side surface of the operating lamp body 13, the operating lamp body 13 and the operating lamp body 11 independently work, and not only can work simultaneously, but also can work only one of the operating lamp bodies, and can realize the mutual matching of different types of stop films between different operating lamp bodies, but also can realize the mutual matching of the same types of stop films between different operating lamp bodies.

Further, in order to save space, the operating lamp body 13 and the operating lamp body 11 may be arranged in parallel in the lateral direction (the operating lamp body 13, the moving axis direction in the operating lamp body 11 is perpendicular to the extending direction of the supporting structure 12) when not in operation, and in the vertical direction (the moving axis direction in the operating lamp body 13, the operating lamp body 11 is parallel to the extending direction of the supporting structure 12) when in operation, and the distance d1 between the center position (center) of the operating lamp body 11 and the center position (center) of the operating lamp body 13 may be smaller than the sum of the radius r1 of the circular side surface of the operating lamp body 11 and the radius r2 of the circular side surface of the operating lamp body 13, and larger than the radius (r 1 or r 2) of the operating lamp body 13 or the operating lamp body 11; specifically, the connecting mechanism 12 may be configured as a telescopic connecting mechanism 12, and when neither the operating lamp body 13 nor the operating lamp body 11 is operated, the connecting mechanism 12 is vertically disposed relative to the connecting mechanism 12 (the moving axis direction of the operating lamp body 13 and the moving axis direction of the operating lamp body 11 are perpendicular to the extending direction of the supporting structure 12), when the operating lamp body 13 or the operating lamp body 11 is operated, the operating lamp body 13 or the operating lamp body 11 to be operated is firstly extended through the telescopic connecting mechanism 12, so that the operating lamp body 13 or the operating lamp body 11 to be operated does not influence the operation (i.e. rotation) of the other operating lamp body 11 or the operating lamp body 13; specifically, the distance d2 from the topmost end of the extended operating lamp body 13 to the supporting mechanism 10 is greater than the distance d3 from the bottommost end of the unextended operating lamp body 11 to the supporting mechanism 10; further, a distance d2 from the topmost end of the extended operating lamp body 13 to the supporting mechanism 10 is greater than a distance d3 from the bottommost end of the extended operating lamp body 11 to the supporting mechanism 10; therefore, normal work among a plurality of operating lamp bodies can be ensured, and space is saved.

Specifically, the telescopic connection mechanism 12 may be an existing threaded extension structure, or an existing telescopic extension structure, which is not limited in this regard.

It should be noted that the present invention may further include three or more operation lamp bodies, which may be flexibly adjusted according to actual situations, and the present invention is not described and limited herein.

Example III

As shown in fig. 7, the technical solution of the present invention further provides a method for adjusting a coated operating lamp with an adjustable cut-off film, which is implemented based on the first embodiment, and includes:

s1, determining the type of a cut-off film to be selected;

s2, according to the type of the cut-off film to be selected, adjusting the rotation direction of the operating lamp in the operating lamp body relative to the shell through the movable shaft, so that the cut-off film of the type to be selected corresponds to an operation irradiation area;

s3, controlling the film plating operation lamp to emit specific type light through the cut-off film corresponding to the type to be selected, and irradiating the specific type light on an operation area.

The invention effectively solves the problems of high cost and low adjustment efficiency of the special operating lamp in the operation implementation process caused by the prior art, and effectively improves the high efficiency and convenience of the special operating lamp in the operation implementation.

While the foregoing description of the embodiments of the present invention has been presented in conjunction with the drawings, it should be understood that it is not intended to limit the scope of the invention, but rather, it is intended to cover all modifications or variations within the scope of the invention as defined by the claims of the present invention.

Claims (10)

1. A coated operating lamp of the adjustable cutoff film type, comprising: the surgical lamp comprises at least one surgical lamp body, a connecting mechanism and a supporting mechanism, wherein the surgical lamp bodies are movably connected with the connecting mechanism, the connecting mechanism is fixedly connected with the supporting mechanism, the surgical lamp body comprises a shell, a surgical lamp, a first type stop film and a second type stop film, the surgical lamp is arranged in the shell and used for emitting corresponding illumination through the shell, and the first type stop film and the second type stop film are fixedly arranged at two sides of the surgical lamp; the operating lamp body further comprises a movable shaft penetrating through the operating lamp body, the movable shaft is movably connected with the shell, the movable shaft is fixedly connected with the operating lamp inside the operating lamp body, and the operating lamp body is used for adjusting the rotating direction of the operating lamp relative to the shell according to the movable shaft so as to realize the adjustment of the first type stop film and the second type stop film; the distance between the central positions of the adjacent operating lamp bodies is larger than the sum of the radiuses of the circular side surfaces of the adjacent operating lamp bodies, and the operating lamp bodies independently work for realizing the mutual matching of different types of stop films between the different operating lamp bodies or realizing the mutual matching of different positions of the same type of stop films between the different operating lamp bodies.

2. The adjustable cutoff membrane type coated operating lamp of claim 1, wherein the operating lamp body further comprises a fixing mechanism for fixing a rotating direction of the operating lamp inside the operating lamp body.

3. The adjustable cutoff membrane type coated operating lamp of claim 2, wherein the fixing mechanism comprises a buckle arranged at any end of the movable shaft, and a first through hole and a second through hole corresponding to the surface of the shell, and the positions and the sizes of the buckle and the first through hole and the second through hole correspond to each other.

4. The membrane-coated operating lamp of the adjustable cutoff membrane type according to claim 3, wherein the buckle comprises a sliding groove, a push plate and a protrusion which are arranged on the movable shaft, the sliding groove is movably connected with the push plate, the protrusion is arranged on one side of the push plate, which is close to the first through hole or the second through hole, the protrusion is fixedly connected with the push plate, and the position and the size of the protrusion correspond to the first through hole and the second through hole.

5. The adjustable cutoff film type coated operating lamp according to any one of claims 1-4, wherein the operating lamp comprises a lamp panel, a plurality of point light sources are arranged on two sides of the lamp panel and respectively correspond to the first type cutoff film and the second type cutoff film, the point light sources are used for filtering light through the first type cutoff film or the second type cutoff film, a movable shaft penetrates through the lamp panel, and the lamp panel rotates relative to the shell along with the movable shaft.

6. The adjustable cutoff film type coating operating lamp as recited in claim 5, wherein a plurality of point light sources on both sides of the lamp panel are uniformly arranged.

7. The adjustable cutoff film type coated operating lamp as claimed in claim 5, wherein the plurality of point light sources on both sides of the lamp panel are not lighted at the same time, and when the first type cutoff film corresponds to the cutoff film to be required, the point light source on the side of the lamp panel corresponding to the first type cutoff film is lighted, and the point light source on the side of the lamp panel corresponding to the second type cutoff film is not lighted; when the second type cut-off film corresponds to the cut-off film to be needed, the point light source corresponding to the side face of the lamp panel of the second type cut-off film emits light, and the point light source corresponding to the side face of the lamp panel of the first type cut-off film does not emit light.

8. The adjustable cutoff film type coated operating lamp of claim 5, wherein the point light sources on both sides of the lamp panel are uniformly distributed in a plurality of circular rings.

9. The adjustable cutoff film type coated operating lamp of claim 1 wherein the first type cutoff film is an infrared cutoff film and the second type cutoff film is one of an ultraviolet cutoff film and a blue light cutoff film; the first type cut-off film and/or the second type cut-off film are/is fixedly arranged outside the operating lamp through a film plating process; the distance between the first type cut-off film and the second type cut-off film is smaller than the distance between the operating lamp body and the direction perpendicular to the movable shaft.

10. A method for adjusting a cut-off film adjustable type of coated operating lamp, characterized in that it is realized on the basis of a cut-off film adjustable type of coated operating lamp according to any one of claims 1-9, comprising:

determining the type of the cut-off film to be selected;

according to the type of the cut-off film to be selected, the rotation direction of the operating lamp in the operating lamp body relative to the shell is regulated through the movable shaft, so that the cut-off film of the type to be selected corresponds to an operation irradiation area;

the coated operating lamp is controlled to emit specific type of light through the cut-off film corresponding to the type to be selected, and the specific type of light irradiates the operating area.

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