CN210567921U

CN210567921U - Operating room lighting system

Info

Publication number: CN210567921U
Application number: CN201921014352.7U
Authority: CN
Inventors: 吴克东
Original assignee: Changzhou Haodong Purification Equipment Technology Co ltd
Current assignee: Changzhou Haodong Purification Equipment Technology Co ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2020-05-19
Anticipated expiration: 2029-07-01

Abstract

The utility model relates to an operating room lighting system, which comprises a suspended ceiling profile, wherein a first light-emitting component and a laminar flow cover component are arranged on the suspended ceiling profile, and a second light-emitting component is arranged in the laminar flow cover component; the bottom of the suspended ceiling profile consists of an illumination area and an air outlet area; the first light assembly is operative to illuminate a ceiling profile lighting zone; the laminar flow hood assembly is suitable for enabling air to be exhausted from an air outlet area of the suspended ceiling profile; the second light-emitting component works to enable the air outlet area to emit light. The suspended ceiling section bar in the operating room can be used for lighting through full top lighting, and the lighting effect of the suspended ceiling section bar in the operating room on the indoor environment is improved.

Description

Operating room lighting system

Technical Field

The utility model relates to a medical treatment field, concretely relates to operating room lighting system.

Background

The former operating room is generally formed by depending on space and field with specific size, the building process of the operating room is time-consuming and labor-consuming, and the operating room is not suitable for being built and used quickly.

For overcoming the inconvenience of traditional operating room constitution, my department applied for a "clean operating room of rapid Assembly type" utility model patent earlier, patent number: 201610700823.4, respectively; this patent describes how to quickly assemble an operating room, which now has the problems of: generally only the furred ceiling can give out light in the operating room to also only local position has set up the light source and has thrown light on the furred ceiling, and it is inhomogeneous to cause the whole illuminance of furred ceiling, and secondly, all the other corner position light in the operating room is comparatively dark, causes the illuminance inhomogeneous in the operating room, influences medical personnel and operates the operation in the operating room.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the defects of the prior art are overcome, the operating room lighting system is provided, and the problem of uneven illumination in the operating room in the prior art is solved.

The utility model provides a technical scheme that its technical problem adopted is: an operating room lighting system comprises a ceiling profile, wherein a first light-emitting assembly and a laminar flow hood assembly are mounted on the ceiling profile, and a second light-emitting assembly is arranged in the laminar flow hood assembly;

the bottom of the suspended ceiling profile consists of an illumination area and an air outlet area;

the first light assembly is operative to illuminate a ceiling profile lighting zone;

the laminar flow hood assembly is suitable for enabling air to be exhausted from an air outlet area of the suspended ceiling profile;

the second light-emitting component works to enable the air outlet area to emit light.

Furthermore, a plurality of lighting installation openings are formed in a lighting area of the suspended ceiling profile, the first light-emitting assembly comprises a plurality of light bar base plates, each light bar base plate is fixedly arranged in each lighting installation opening, and a plurality of first LED light bars are fixedly arranged below each light bar base plate;

each first LED lamp strip emits light and is suitable for enabling the whole lighting area to emit light.

Furthermore, a soft membrane ceiling is arranged in the ceiling profile lighting area;

a plurality of draw-in grooves are seted up to furred ceiling section bar illumination zone bottom, set up the card strip of corresponding quantity on the mantle smallpox, the mantle smallpox is connected with the draw-in groove through each card strip, makes whole mantle smallpox joint in the illumination zone of furred ceiling section bar.

Furthermore, a laminar flow hood mounting opening is formed in an air outlet area of the suspended ceiling profile, and the laminar flow hood assembly is arranged on the laminar flow hood mounting opening;

the laminar flow hood assembly comprises an air inlet cavity, a filter cavity and a lighting cavity; a plurality of second LED lamp strips are arranged in the lighting cavity.

Furthermore, each second LED lamp strip is being the horizontal setting.

Further, the laminar flow hood assembly comprises a plurality of side plates, a top plate, laminar flow brackets, lamp brackets and filter membranes, wherein each side plate is fixedly arranged around the upper part of the mounting opening of the laminar flow hood;

the air inlet cavity is formed between the laminar flow support and the top plate, the filter cavity is formed between the lamp bracket and the laminar flow support, the filter element is arranged in the filter cavity, and the illumination cavity is formed between the lamp bracket and the filter membrane;

and the second LED lamp strip is clamped on the lamp bracket.

Furthermore, the operating room also comprises a plurality of side walls, each side wall is formed by connecting a plurality of wall boards, each side wall is encircled into a circle, the upper part of each side wall is connected with the ceiling profile, and an operating cavity is formed between the ceiling profile and each side wall;

a transverse corner post connection is respectively arranged between each side wall and the top plate, a vertical corner post connection is respectively arranged between every two adjacent side walls, and a three-dimensional ball head connection is arranged between every two adjacent transverse corner posts and every vertical corner post;

a plurality of third LED lamp strips are arranged in the transverse corner column and are suitable for illuminating the operation working cavity;

a plurality of fourth LED lamp strips are arranged in the vertical corner column and are suitable for illuminating the operation working cavity;

a plurality of fifth LED lamp strips are arranged in the three-dimensional ball head and are suitable for illuminating the operation working cavity.

Furthermore, an air return opening is formed in the lower portion of the side wall, an air return panel is installed on the air return opening, a light bar installation groove is formed in the lower end of the air return panel, a sixth LED light bar is arranged in the light bar installation groove, and the sixth LED light bar is arranged downwards.

Further, the wallboard includes top wall board and lower wallboard, set up seventh LED lamp strip in the top wall board, be suitable for and throw light on in the operation work cavity.

The utility model has the advantages that:

the utility model provides an operating room lighting system, the furred ceiling section bar in this operating room can be all top luminous illumination, promotes the illuminating effect of furred ceiling section bar in the operating room to the indoor environment.

The corner position in this operating room all can give out light the illumination, and the illuminating effect in further promotion operating room provides good operation illumination environment for medical personnel.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

Fig. 1 and 2 are perspective views of the operating room of the present invention;

FIG. 3 is a top view of an operating room;

3 FIG. 3 4 3 is 3a 3 sectional 3 view 3 taken 3 along 3 line 3A 3- 3A 3 of 3 FIG. 3 3 3; 3

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is an enlarged view at C of FIG. 4;

FIG. 7 is an enlarged view at D of FIG. 4;

FIG. 8 is a side view of the lamp holder;

FIG. 9 is a schematic view of a return air baffle;

FIG. 10 is a schematic view of a laminar flow hood;

wherein, 1, furred ceiling section bar, 1A, the lamp strip backing plate, 1B, first LED lamp strip, 1C, the mantle smallpox, 2, laminar flow cover subassembly, 21, the lighting fixture, 21A, the second LED lamp strip, 22, the filter core, 23, the laminar flow support, 3A, vertical corner post, 3B, horizontal corner post, 31, the third LED lamp strip, 4, three-dimensional bulb, 5, the top wall board, 51, the seventh LED lamp strip, 6, the return air panel, 61, the lamp strip mounting groove.

Detailed Description

The invention will now be further described with reference to specific embodiments. The drawings are simplified schematic diagrams only illustrating the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1 to 10, an operating room lighting system includes a

ceiling bracket

1 and 4 side walls, each side wall is formed by connecting a plurality of wall boards, each side wall is selected by splicing several wall boards according to actual conditions, each side wall surrounds a circle, the upper part of each side wall is connected with the ceiling bracket 1, and an operating chamber is formed between the ceiling bracket 1 and each side wall.

The ceiling bracket 1 is formed by splicing a plurality of aluminum profiles. Specifically, a first light emitting assembly and a laminar flow hood assembly 2 are mounted on a suspended ceiling support 1, and a second light emitting assembly is arranged in the laminar flow hood assembly 2;

the bottom of the suspended ceiling bracket 1 consists of an illumination area and an air outlet area; the first light emitting assembly is operative to illuminate the illumination area of the ceiling bracket 1; the laminar flow hood assembly 2 is suitable for exhausting air out of an air outlet area of the suspended ceiling bracket 1; the second light-emitting component works to enable the air outlet area to emit light.

Specifically, a plurality of lighting installation openings are formed in a lighting area of the ceiling bracket 1, the first light-emitting assembly comprises a plurality of light bar base plates 1A, each light bar base plate 1A is fixedly arranged in the lighting installation openings respectively, namely, the light bar base plates 1A are connected with the ceiling bracket 1, and a plurality of first LED light bars 1B are fixedly arranged below each light bar base plate 1A; each first LED light bar 1B emits light and is adapted to illuminate the entire illumination area.

Specifically, a soft film ceiling 1C is arranged in an illumination area of the ceiling bracket 1; a plurality of draw-in grooves are seted up to 1 illumination zone bottom of furred ceiling support, set up the card strip of corresponding quantity on the mantle smallpox 1C, mantle smallpox 1C is connected with the draw-in groove through each card strip, makes whole mantle smallpox 1C joint in the illumination zone of furred ceiling support 1. Through the below of mantle smallpox 1C joint in illumination zone, make the luminous light of illumination zone more even, the illuminance is better to mantle smallpox 1C also convenient and fast more of installing.

Specifically, as shown in fig. 4 and fig. 6, a laminar flow hood mounting opening is formed in an air outlet area of the ceiling bracket 1, and the laminar flow hood assembly 2 is arranged on the laminar flow hood mounting opening; the laminar flow hood assembly 2 comprises an air inlet cavity, a filter cavity and a lighting cavity; a plurality of second LED lamp strips 21A are arranged in the lighting cavity. Each second LED light bar 21A is disposed horizontally. The second LED lamp strip 21A transversely sets up, and light is the diffuse reflection and shines out, and light shines more evenly softly.

Specifically, the laminar flow hood assembly 2 comprises a plurality of side plates, a top plate, laminar flow hood mounting openings, lamp holders 21 and filter membranes, wherein each side plate is fixedly arranged above the corresponding laminar flow hood mounting opening in a surrounding manner, the top plate covers the corresponding side plate, a laminar flow hood inner cavity is formed between the top plate and each side plate, the laminar flow hood supports 23 and the lamp holders 21 are arranged in the laminar flow hood inner cavities, the laminar flow brackets 23 are fixedly connected with the corresponding side plates, the lamp holders 21 are hung below the laminar flow brackets 23, and the filter membranes are packaged in the laminar flow hood mounting openings; the air inlet cavity is formed between the laminar flow support 23 and the top plate, the filter cavity is formed between the lamp holder 21 and the laminar flow support 23, the filter element 22 is arranged in the filter cavity, and the illumination cavity is formed between the lamp holder 21 and the filter membrane; the second LED light bar 21A is clipped on the lamp holder 21. The lamp holder 21 is shown in fig. 7.

The laminar flow hood assembly 2 is different from the traditional laminar flow hood in that the function of light emission is added, and the second LED light bar 21A in the laminar flow hood is used for emitting light, so that the air outlet of the whole suspended ceiling can emit light; except the air outlet, the furred ceiling lower surface all is the illumination zone in all other positions, is lighted by first LED lamp strip 1B, consequently, and a plurality of first LED lamp strip 1B and the second LED lamp strip 21A through whole furred ceiling are luminous, realize the luminous illumination in full top of furred ceiling.

The operating room can realize that the furred ceiling is luminous on top entirely through above-mentioned technical means, but still has the corner dark space in the operating room, can give out light for guaranteeing this part region, provides better illuminating effect for the operating room, has increased supplementary grading system in the operating room.

Specifically, a transverse corner post 3B is arranged between each side wall and the top plate for connection, a vertical corner post 3A is arranged between every two adjacent side walls for connection, and a three-dimensional ball head 4 is arranged between every two adjacent transverse corner posts 3B and vertical corner posts 3A for connection; the structure of the transverse corner column 3B is the same as that of the vertical corner column 3A, but the installation positions and the installation directions are different.

A plurality of third LED lamp strips 31 are arranged in the transverse corner columns 3B and are suitable for illuminating the operation working cavity;

a plurality of fourth LED lamp strips are arranged in the vertical corner post 3A and are suitable for illuminating the operation working cavity;

and a plurality of fifth LED lamp strips are arranged in the three-dimensional ball head 4 and are suitable for illuminating the operation working cavity.

The corner post includes the arc aluminium alloy, sets up a plurality of LED lamp strips at arc aluminium alloy internal fixation, then is installing a glass board printing opacity to the light in making the corner post can shine away.

The structure of the three-dimensional ball head 4 is similar, the LED lamp strip is fixedly arranged in the spherical aluminum section, the spherical light-transmitting panel is arranged on the inner surface of the spherical aluminum section, and the LED lamp strip emits light to enable the light to penetrate through the spherical light-transmitting panel to enable the indoor light to emit.

Specifically, for promoting the brightness of the bottom in the operating room, an air return opening is formed below the side wall, an air return panel 6 is installed on the air return opening, a light bar installation groove 61 is formed in the lower end of the air return panel 6, a sixth LED light bar is arranged in the light bar installation groove 61, and the sixth LED light bar is arranged downwards. The sixth LED light bar is suitable for illuminating the position of the wall corner at the bottom of the operating room.

For the illuminating effect who further promotes the operating room, the wallboard includes top wall panel 5 and lower wallboard, set up seventh LED lamp strip 51 in the top wall panel 5, be suitable for and throw light on in the operation work cavity.

The structure of wallboard includes a square aluminium alloy, at the inboard fixed square light-passing board that sets up of square aluminium alloy, at the fixed light screen that sets up in the square aluminium alloy outside, sets up LED lamp strip between square light-passing board and the light screen, and LED lamp strip is fixed to be set up in square aluminium alloy, and LED lamp strip is luminous, and optic fibre shines out from square light-passing board, realizes the illumination of operating room inner chamber.

The utility model discloses an operating room lighting system at first realizes that the full top of furred ceiling is luminous, and secondly, gives out light to corner post, top wall board 5 and the three-dimensional bulb 4 of operating room, further promotes the illuminating effect of operating room.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. An operating room lighting system is characterized by comprising a ceiling profile, wherein a first light-emitting assembly and a laminar flow hood assembly are arranged on the ceiling profile, and a second light-emitting assembly is arranged in the laminar flow hood assembly;

2. The operating room lighting system according to claim 1, wherein the lighting area of the ceiling profile is provided with a plurality of lighting installation openings, the first light emitting assembly comprises a plurality of light bar base plates, each light bar base plate is fixedly arranged in each lighting installation opening, and a plurality of first LED light bars are fixedly arranged below each light bar base plate;

3. An operating room lighting system as claimed in claim 2 wherein the ceiling profile lighting zone is provided with a soft membrane ceiling;

4. The operating room lighting system according to claim 1, wherein the air outlet area of the ceiling profile is provided with a laminar flow hood mounting opening, and the laminar flow hood assembly is arranged on the laminar flow hood mounting opening;

5. The operating room lighting system of claim 4 wherein each of the second LED light bars is horizontally disposed.

6. The operating room lighting system according to claim 4, wherein the laminar flow hood assembly comprises a plurality of side plates, a top plate, laminar flow brackets, lamp holders and filter membranes, wherein each side plate is fixedly arranged around the upper side of the laminar flow hood mounting opening, the top plate covers the upper side of each side plate, a laminar flow hood inner cavity is formed between the top plate and each side plate, the laminar flow brackets and the lamp holders are arranged in the laminar flow hood inner cavity, the laminar flow brackets are fixedly connected with each side plate, the lamp holders are hung below the laminar flow brackets, and the filter membranes are packaged in the laminar flow hood mounting openings;

and the second LED lamp strip is clamped on the lamp bracket.

7. The operating room lighting system of claim 1 wherein the operating room further comprises a plurality of side walls, each side wall formed by connecting a plurality of wall panels, each side wall enclosing a circle, a ceiling profile connected over each side wall, the ceiling profile forming an operating chamber with each side wall;

8. The operating room lighting system according to claim 7, wherein a return air inlet is formed below the side wall, a return air panel is mounted on the return air inlet, a light bar mounting groove is formed in the lower end of the return air panel, a sixth LED light bar is arranged in the light bar mounting groove, and the sixth LED light bar is arranged downwards.

9. The operating room lighting system of claim 7 wherein said wall panel comprises a top wall panel and a bottom wall panel, said top wall panel having a seventh LED light bar disposed therein adapted to illuminate an operating cavity.