CN220061552U

CN220061552U - Operating lamp

Info

Publication number: CN220061552U
Application number: CN202320596675.1U
Authority: CN
Inventors: 马思达
Original assignee: Shenzhen Comen Medical Instruments Co Ltd
Current assignee: Shenzhen Comen Medical Instruments Co Ltd
Priority date: 2023-03-22
Filing date: 2023-03-22
Publication date: 2023-11-21
Anticipated expiration: 2033-03-22

Abstract

The utility model belongs to the technical field of medical equipment, and provides a surgical lamp, which comprises a lamp main body and a plurality of optical units, wherein the optical units are combined and arranged on the lamp main body and are connected with the lamp main body in an angle-adjustable mode so that the light paths of the optical units form deflection angles required by surgical irradiation professional standards.

Description

Operating lamp

Technical Field

The utility model belongs to the technical field of medical equipment, and particularly relates to an operating lamp.

Background

The LED operating lamp is used as an important medical device, provides light irradiation in operation, and provides indispensable assistance for an operator to perform accurate operation. At present, the LED operating lamp adopts a lamp vertical irradiation structure in design application, and for optical parameter test of a small operating lamp, the shadowless rate of the LED operating lamp with the lamp vertical irradiation structure is low, and the condition that the special standard is not met possibly occurs; in order to solve the technical problem, the technical standard of optical parameters is met mainly by increasing the number of LED lamps or the size of the operating lamps in the prior art, but the cost of the LED operating lamps is increased.

In conclusion, the existing operating lamp has the technical problems of low shadowless rate, increased product cost and the like.

Disclosure of Invention

The utility model aims to at least solve the defects in the prior art to a certain extent, and provides an operating lamp so as to improve the shadowless rate of the operating lamp and reduce the product cost of the operating lamp.

The operating lamp provided by the utility model comprises: a lamp body and a plurality of optical units; the optical units are combined and arranged on the lamp main body and are connected with the lamp main body in an angle-adjustable mode, so that the light paths of the optical units form deflection angles required by the professional standard of surgical irradiation.

Further, the plurality of optical units form deflection angles required by surgical irradiation professional standards with the center of the light spot located below the plurality of optical units.

Further, the optical units and the baffle plates below the optical units form deflection angles required by surgical irradiation professional standards; the baffle is positioned between the optical units and the center of the light spot and is positioned right above the center of the light spot.

Further, the operating lamp also comprises a photometer probe; the photometer probe is positioned at the center of the light spot and is used for measuring the illumination brightness of a plurality of optical units.

Further, in the plurality of optical units, the angle between the optical path of each optical unit and the plane where the center of the light spot is located is independently adjustable so as to form a deflection angle required by the professional standard of surgical irradiation.

Further, in the plurality of optical units, the angle between the optical path of each optical unit and the plane of the baffle plate is independently adjustable so as to form a deflection angle required by the professional standard of surgical irradiation.

Further, each optical unit comprises a lamp panel, a light source and a lens; the lamp panel is provided with a light source and a lens, and the light source is positioned between the lamp panel and the lens; the lamp panel is connected with the lamp main body.

Further, the lamp panel is connected with the lamp body in an angle-adjustable mode, so that the light paths of the optical units form deflection angles required by surgical irradiation professional standards.

Further, the light source, the lens and the lamp panel are connected in an angle-adjustable manner so that the light paths of the plurality of optical units form deflection angles required by the surgical irradiation professional standard.

Further, the lamp body is assembled to the mounting base.

Compared with the prior art, the utility model has the beneficial effects that:

the operating lamp provided by the utility model comprises the lamp main body and the plurality of optical units, wherein the plurality of optical units are arranged on the lamp main body in a combined way and are connected with the lamp main body in an angle-adjustable way so that the light paths of the plurality of optical units form a deflection angle required by the professional standard of the operation illumination, and therefore, compared with the traditional operating lamp with the unadjustable deflection angle, the shadowless rate of the operating lamp provided by the utility model can be prompted, the professional standard of the operation illumination can be met, the number of LED lamps or the volume of the operating lamp is not required to be increased, and the cost of the LED operating lamp is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of a construction of an operating lamp according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the operating lamp of FIG. 1 in a state of operation;

FIG. 3 is a schematic illustration of a construction of the single optical unit of FIG. 1;

fig. 4 is a schematic view showing a state of the art of vertical irradiation of an operating lamp.

In the drawings, each reference numeral denotes:

1. a lamp body; 2. an optical unit; 20. a lamp panel; 21. a light source; 22. a lens; 3. the center of the light spot; 4. a baffle; 5. a photometer probe; 6. a mounting base; 7. and (3) an optical path.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar methods or methods having like or similar functions throughout. The embodiments described below are exemplary and intended to illustrate the present utility model and should not be construed as limiting the utility model, and all other embodiments, based on the embodiments of the present utility model, which may be obtained by persons of ordinary skill in the art without inventive effort, are within the scope of the present utility model.

Referring to fig. 1 to 4, an operating lamp according to an embodiment of the present utility model includes: a lamp body 1 and a number of optical units 2; the optical units 2 are arranged on the lamp main body 1 in a combined way and are connected with the lamp main body 1 in an angle-adjustable way, so that the light paths 7 of the optical units 2 form deflection angles required by the professional standard of surgical irradiation. Wherein the lamp body 1 can be assembled to the mounting base 6.

In this embodiment, since the plurality of optical units 2 are arranged on the lamp main body 1 in a combined manner, and are connected with the lamp main body 1 in an angle-adjustable manner, so that the light paths of the plurality of optical units 2 form a deflection angle required by the surgical illumination professional standard, compared with the traditional surgical lamp with the unadjustable deflection angle, the shadowless rate of the surgical lamp provided by the utility model can be prompted, the surgical illumination professional standard can be met, meanwhile, the number of LED lamps or the volume of the surgical lamp is not required to be increased, and the cost of the LED surgical lamp is reduced.

It should be noted that the plurality of optical units 2 may be a plurality of optical units 2, for example, 5 optical units 2 or more than 5 optical units 2. In addition, in the traditional operating lamp, the optical component is fixedly arranged on the lamp main body 1, the light irradiates vertically, the optical component cannot move, and the light path cannot be adjusted, so that the deflection angle of the light path cannot be adjusted, only the vertical irradiation is performed, the shadowless rate of the operating lamp cannot be adjusted, the condition that the professional standard of the operation irradiation cannot be well met exists, and the operation is affected.

In this embodiment, the combination of the plurality of optical units 2 is connected with the lamp main body 1 in an angle-adjustable manner so that the optical paths 7 of the plurality of optical units 2 form a deflection angle required by the surgical irradiation professional standard, which specifically may include a deflection angle required by the surgical irradiation professional standard formed by the plurality of optical units 2 and the spot center 3 located below the plurality of optical units 2, and may also include a deflection angle required by the surgical irradiation professional standard formed by the plurality of optical units 2 and the baffle 4 located below the plurality of optical units 2; the baffle 4 is located between the several optical units 2 and the spot center 3 and directly above the spot center 3. In addition, the operating lamp can also comprise a photometer probe 5, wherein the photometer probe 5 is positioned in the center 3 of the light spot and is used for measuring the illumination brightness of the plurality of optical units 2. Further, in the plurality of optical units 2, the angle between the optical path of each optical unit 2 and the plane of the light spot center 3 is independently adjustable to form a deflection angle required by the professional standard of surgical irradiation. In the plurality of optical units 2, the angle between the optical path of each optical unit 2 and the plane of the baffle 4 is independently adjustable to form a deflection angle required by the professional standard of surgical irradiation.

It should be noted that, in the conventional operation lamp, the optical component is fixedly installed on the lamp main body 1, the light is emitted downwards from the optical component, and passes through the baffle 4 and the facula center 3 under the optical component, so that the optical component cannot move, and the light path cannot be changed, so that the deflection angle of the light path cannot be adjusted, and the shadowless rate of the operation lamp cannot be adjusted, and the situation that the professional standard of operation irradiation cannot be well satisfied, and the operation is affected is caused. In the above embodiment, the plurality of optical units 2 and the spot center 3 located below the plurality of optical units 2 form the deflection angle required by the surgical irradiation professional standard, the plurality of optical units 2 and the baffle 4 located below the plurality of optical units 2 form the deflection angle required by the surgical irradiation professional standard, the baffle 4 is located between the plurality of optical units 2 and the spot center 3 and directly above the spot center 3, the angle between the light path of each optical unit 2 and the plane of the spot center 3 in the plurality of optical units 2 is independently adjustable to form the deflection angle required by the surgical irradiation professional standard, and the angle between the light path of each optical unit 2 and the plane of the baffle 4 in the plurality of optical units 2 is independently adjustable to form the deflection angle required by the surgical irradiation professional standard, so that the surgical irradiation professional standard is satisfied, the number of LED lamps or the volume of the surgical lamps are not required to be increased, and the cost of the LED surgical lamps is reduced.

In some embodiments, each optical unit 2 of the plurality of optical units 2 includes a light panel 20, a light source 21, and a lens 22; the lamp panel 20 is provided with a light source 21 and a lens 22, and the light source 21 is positioned between the lamp panel 20 and the lens 22; the lamp panel 20 is connected to the lamp body 1. In some embodiments, the lamp panel 20 is connected with the lamp body 1 in an angularly adjustable manner so that the optical paths of the several optical units 2 form the deflection angle required by the surgical irradiation professional standard. In some embodiments, the light source 21, lens 22 and light panel 20 are connected in an angularly adjustable manner such that the optical paths of the several optical units 2 form the deflection angle required by the surgical irradiation professional standard.

It should be noted that, the plurality of optical units 2 are combined and disposed on the lamp main body 1 and connected with the lamp main body 1 in an angle-adjustable manner, specifically, the lamp panel 20 and the lamp main body 1 are connected in an angle-adjustable manner so that the light paths of the plurality of optical units 2 form a deflection angle required by the surgical irradiation professional standard, or the light source 21, the lens 22 and the lamp panel 20 are connected in an angle-adjustable manner so that the light paths of the plurality of optical units 2 form a deflection angle required by the surgical irradiation professional standard. Wherein, the connection between the lamp panel 20 and the lamp main body 1 through the angle-adjustable manner may be that the lamp panel 20 is rotatably connected with the lamp main body 1, and the connection between the light source 21 and the lens 22 and the lamp panel 20 through the angle-adjustable manner may be that the light source 21 and the lens 22 are rotatably connected with the lamp panel 20.

Finally, it should be noted that, in the operating lamp provided by the embodiment of the utility model, since the plurality of optical units are connected with the lamp main body in an angle-adjustable manner, the light paths of the plurality of optical units form the deflection angle required by the operation irradiation professional standard, so that compared with the traditional operating lamp with the non-adjustable deflection angle, the shadowless rate of the operating lamp provided by the embodiment of the utility model is prompted, the operation irradiation professional standard can be met, meanwhile, the number of LED lamps or the volume of the operating lamp is not required to be increased, and the cost of the LED operating lamp is reduced.

The foregoing is a description of the embodiments of the present utility model, and is not to be construed as limiting the utility model, since modifications in the detailed description and the application scope will become apparent to those skilled in the art upon consideration of the teaching of the embodiments of the present utility model.

Claims

1. An operating lamp, comprising: the lamp comprises a lamp main body, a plurality of optical units and a photometer probe; the optical units are combined and arranged on the lamp main body and are connected with the lamp main body in an angle-adjustable mode so that the light paths of the optical units form deflection angles required by surgical irradiation professional standards, and the optical units and the light spot centers below the optical units form deflection angles required by the surgical irradiation professional standards; the photometer probe is positioned at the center of the light spot and is used for measuring the illumination brightness of the optical units.

2. The operatory lamp of claim 1 wherein the plurality of optical units form a deflection angle with a baffle below the plurality of optical units required for surgical illumination professional criteria; the baffle is positioned between the optical units and the center of the light spot and is positioned right above the center of the light spot.

3. The operatory lamp of claim 1 wherein the angle of the optical path of each of the plurality of optical units relative to the plane in which the center of the spot lies is independently adjustable to form the deflection angle required by the surgical illumination professional standard.

4. The operatory lamp of claim 2 wherein the angle of the optical path of each of the plurality of optical units relative to the plane in which the baffle lies is independently adjustable to form the deflection angle required by the surgical illumination professional standard.

5. The operatory lamp of any one of claims 1-4 wherein each of the plurality of optical units comprises a lamp panel, a light source, and a lens; the light source and the lens are arranged on the lamp panel, and the light source is positioned between the lamp panel and the lens; the lamp panel is connected with the lamp main body.

6. The operatory lamp of claim 5 wherein the lamp panel is connected to the lamp body in an angularly adjustable manner such that the optical paths of the plurality of optical units form a deflection angle required by surgical illumination professionals.

7. The operatory lamp of claim 5 wherein the light source, lens and lamp panel are connected in an angularly adjustable manner such that the optical paths of the several optical units form the deflection angle required by the surgical illumination professional standard.

8. The operatory lamp of any one of claims 1-4 wherein the lamp body is mounted to a mount.