CN215679000U - Reflector assembly and soft light cloth for reflector - Google Patents

Abstract

The application provides a reflector subassembly and be used for sheen cloth of reflector, wherein, sheen cloth includes body, flexonics portion, elastic webbing, flexonics portion centers on the body edge sets up, the first side of elastic webbing is configured into a plurality of connection limits and a plurality of free limits, connect the limit with the crisscross setting in free limit, dorsad in the elastic webbing the second side orientation of first side the body one side is turned over and is rolled over. The connecting edge is fixedly connected with the flexible connecting part, and a plurality of perforation gaps are formed between the free edge and the flexible connecting part. The supporting rod on the reflecting shade can penetrate through the through hole gap, so that the supporting rod and the soft light cloth are convenient to install. The bracing piece struts the body in the light-emitting opening department of reflector, and the elastic webbing wraps tightly in the outside of reflector, is softened to the light of hardening by the body, makes the light quality become more soft, can eliminate facula and shadow on the photo during the shooting.

Description

Reflector assembly and soft light cloth for reflector

Technical Field

The application relates to the technical field of photographic equipment, in particular to a reflecting shade and soft light cloth thereof.

Background

The reflector is arranged on the studio lamp, the emitted light is softer, and light spots and shadows on the photo can be eliminated during shooting.

At present, the reflector mostly supports the soft cloth through a support rod to form a reflecting surface of the reflector. In the related art, a plurality of mounting rings are uniformly arranged at the edge of the soft cloth at intervals, and then the support rod is inserted into the mounting rings to open the soft cloth. However, when the soft cloth is used, it is often found that the mounting rings of the soft cloth are difficult to align with the corresponding supporting rods one by one, and the installation is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of this application is to solve the technical problem of the inconvenient installation of sheen cloth among the prior art, provides a simple to operate's reflector subassembly and is used for the sheen cloth of reflector.

In order to solve the technical problem, the following technical scheme is adopted in the application:

a soft cloth for a reflector, comprising:

a body;

a flexible connecting portion connected to the body and disposed along an edge of the body;

the first side edge of the elastic belt is configured into a plurality of connecting edges and a plurality of free edges, the connecting edges and the free edges are arranged in a staggered mode, and the connecting edges are fixedly connected with the flexible connecting parts; a second side edge of the elastic belt, which is back to the first side edge, is turned over towards one side of the body; a plurality of perforated voids are formed between the plurality of free edges and the flexible connecting portion; a plurality of perforation gaps encircle the body interval sets up for the bracing piece of reflector passes, elastic deformation takes place for the elastic webbing and wraps tightly in the outside of reflector.

In some embodiments, the elastic band is fixedly connected to the flexible connecting portion at two sides of the through hole.

In some of these embodiments, a plurality of the perforated voids are evenly distributed around the body.

In some embodiments, the body is configured as a diffusible fabric, the flexible connection is configured as a multi-directionally elastically contractible fabric, and the elastic band is configured as a band of fabric that is elastically contractible along its own length.

In some of these embodiments, the body is configured as a soft gauze, the flexible connection is configured as an elastic cloth, and the elastic band is configured as an elastic band.

In some of these embodiments, at least a portion of the flexible connection is coplanar with the body.

In some of these embodiments, the flexible joint has a stretch greater than the stretch of the elastic band.

In some of these embodiments, the connecting edge is attached to the flexible connecting portion by stitching.

The utility model provides a reflector subassembly, its includes reflector and above-mentioned arbitrary item the sheen cloth, the sheen is laid the light-emitting port department of reflector, the reflector includes a plurality of bracing pieces, the bracing piece is worn to locate the sheen cloth in the perforation space, this integument is many the bracing piece strut in light-emitting port department, elastic deformation takes place and wraps up tightly in the outside of reflector.

In some embodiments, the aperture of the body is smaller than the aperture of the light outlet of the reflector, the first side is elastically expanded, and the second side is fastened to the outer side of the reflector.

In some embodiments, the reflector assembly further comprises:

the grating is sleeved on the supporting rod; the grating is opened by the support rod and covers the surface of the body back to the reflector.

In some embodiments, the outer surface of the grid and the outer surface of the reflector are connected through a plurality of connecting bands, and the plurality of connecting bands are uniformly spaced around the central axis of the reflector.

According to the technical scheme, the method has at least the following advantages and positive effects:

the application provides a reflector subassembly and sheen cloth, the flexonics portion of sheen cloth sets up around the body, and the connection limit and the flexonics portion fixed connection of elastic webbing are formed with a plurality of perforation spaces between the free limit of elastic webbing and the flexonics portion. The supporting rod on the reflecting shade can penetrate through the through hole gap, so that the supporting rod and the soft light cloth are convenient to install. The body is propped open at the light outlet of the reflector by the support rod, and the body softens the hard light.

Drawings

FIG. 1 is an exploded view of a reflector assembly provided in accordance with an embodiment of the present application;

FIG. 2 is a perspective view of a reflector assembly provided in accordance with an embodiment of the present application;

FIG. 3 is a perspective view of a reflective fabric provided in accordance with an embodiment of the present application;

FIG. 4 is a front view of a reflective fabric provided in accordance with embodiments of the present application;

FIG. 5 is an exploded view of a reflector assembly provided in accordance with another embodiment of the present application;

FIG. 6 is a perspective view of a reflector assembly provided in accordance with another embodiment of the present application;

FIG. 7 is a front view of a reflector assembly according to another embodiment of the present application.

The reference numerals are explained below:

1. a reflector assembly;

2. a reflector; 20. a support bar; 21. reflective cloth; 22. a light outlet;

3. soft light cloth;

30. a body;

31. a flexible connection;

32. an elastic band; 320. a first side edge; 3200. a connecting edge; 3201. a free edge; 321. a second side edge; 33. perforating the void;

34. reinforcing ribs;

4. a grid;

5. and a connecting belt.

Detailed Description

Exemplary embodiments that embody features and advantages of the present application will be described in detail in the following description. It is to be understood that the present application is capable of various modifications in various embodiments without departing from the scope of the application, and that the description and drawings are to be taken as illustrative and not restrictive in character.

The present application provides a reflector assembly 1. as shown in fig. 1, the reflector assembly 1 comprises a reflector 2 and a soft light cloth 3. The reflector 2 is a cover structure in which a plurality of support rods 20 support a reflective fabric 21 and one end of the reflective fabric is configured as a light exit 22.

The plurality of support rods 20 are arranged in a surrounding manner at intervals, the reflective cloth 21 covers the support rods 20, and each support rod 20 plays a supporting role for the reflective cloth 21. The supporting rod 20 can be folded and unfolded, so that the reflecting shade 2 is in a shade body structure after being unfolded, and the side of the reflecting cloth 21 which is unfolded forms a light outlet 22.

In addition, a plurality of support rods 20 are uniformly distributed, so that the whole structure of the reflector 2 is more balanced and stable.

Referring to fig. 1 and fig. 2, the reflector 2 after being unfolded is in the shape of a parabolic reflector, and the bottom of the reflector is a circular light outlet 22. Each bracing piece 20 is located to the cover of sheen cloth 3 to, sheen cloth 3 is propped open in light-emitting window 22 department by bracing piece 20, thereby makes sheen cloth 3 cover light-emitting window 22, and light is to the sheen cloth 3 back, and light that is stiff is softened, makes the light quality become softer, can eliminate facula and shade on the photo when shooing.

In addition, in order to meet the requirements of users for different functions, the reflector 2 can be designed into various structures such as octagonal, umbrella-shaped, upright column-shaped, strip-shaped, honeycomb-shaped and the like, and can be configured into various specifications with different sizes.

Referring to fig. 3 and fig. 4, the soft light cloth 3 includes a main body 30, a flexible connecting portion 31, and an elastic band 32. Wherein the body 30 is configured as a diffusible cloth, which may be circular, oval, rectangular, pentagonal, hexagonal, etc. in shape. In the present embodiment, the body 30 is preferably a circular cloth made of a diffusible cloth.

The flexible connecting portion 31 is connected to the body 30 and is disposed along an edge of the body 30. The first side edge 320 of the elastic band 32 is configured as a plurality of connecting edges 3200 and a plurality of free edges 3201. The connecting edges 3200 and the free edges 3201 are arranged in a staggered manner, that is, one free edge 3201 is arranged between adjacent connecting edges 3200, and one connecting edge 3200 is arranged between adjacent free edges 3201.

The connecting edge 3200 is fixedly connected to the flexible connecting portion 31, and a second side 321 of the elastic band 32 facing away from the first side 320 is folded toward the main body 30. A plurality of perforation voids 33 are formed between the plurality of free edges 3201 and the flexible connecting portion 31. A plurality of through holes 33 are spaced around the body 30 for the support rods 20 of the reflector 2 to pass through, and the elastic band 32 is elastically deformed and tightly wrapped around the outer side of the reflector 2.

The flexible connection portion 31 of the soft cloth 3 is disposed around the body 30, the connection edge 3200 of the elastic band 32 is fixedly connected to the flexible connection portion 31, and a plurality of perforation gaps 33 are formed between the free edge 3201 of the elastic band 32 and the flexible connection portion 31. The support rod 20 on the reflector 2 can pass through the through hole 33, so that the support rod 20 and the soft light cloth 3 are convenient to mount.

It will be appreciated that when the body 30 is designed to be circular, the flexible connection 31 is annular. The inner circumferential edge of the flexible connecting portion 31 is connected to the edge of the body 30.

The elastic band 32 is an endless band, and two widthwise side edges thereof are a first side edge 320 and a second side edge 321, respectively. The first side 320 is divided into a connecting side 3200 and a free side 3201 which are arranged in a staggered manner, and obviously, both the connecting side 3200 and the free side 3201 are arc-shaped sides, wherein the arc length of the connecting side 3200 is greater than that of the free side 3201. After the connecting edge 3200 is fixedly connected with the flexible connecting portion 31, the sufficient connecting strength between the elastic band 32 and the flexible connecting portion 31 is ensured, and the elastic band 32 is prevented from falling off from the flexible connecting portion 31 to influence the use of the soft light cloth 3.

The arc length of the free edge 3201 is related to the size of the perforation gap 33 formed between the free edge 3201 and the flexible connecting portion 31, and the size of the perforation gap 33 is determined by the size of the support rod 20 passing through the perforation gap and the ability to wrap and fix the end of the support rod 20, so that, in the present embodiment, the arc length of the free edge 3201 is smaller than the arc length of the connecting edge 3200. Of course, depending on the support rod 20 and the assembly requirements, the arc length of the free edge 3201 may be equal to the arc length of the connecting edge 3200, or the arc length of the free edge 3201 may be greater than the arc length of the connecting edge 3200.

The second side 321 of the elastic band 32 is turned over towards one side of the body 30, that is, after the second side 321 is turned over, when the soft light cloth 3 is installed at the light outlet 22 of the reflector 2, the elastic band 32 is wrapped tightly outside the reflector 2, so that the body 30 of the soft light cloth 3 is completely unfolded, and the soft light effect is improved.

A plurality of perforation voids 33 are formed between the plurality of free edges 3201 and the flexible connecting portion 31. The plurality of perforated voids 33 provide a through-mounting space for the support rods 20 of the reflector 2. It is conceivable that the flexible connection portion 31 has a stronger elasticity, so that the through hole gap 33 is more flexible than a rigid mounting hole, and the end of the support rod 20 is slightly aligned with the through hole gap 33, so as to easily penetrate through the through hole gap 33 to complete the assembly. While the rigid mounting holes, the ends of the support rod 20 are only precisely aligned for insertion. Obviously, the perforated gap 33 formed between the free edge 3201 and the flexible connecting portion 31 further facilitates the installation of the support rod 20.

In addition, a plurality of perforation gaps 33 are uniformly distributed around the body 30, so that the perforation gaps 33 are matched with the support rods 20 uniformly distributed in a circular manner, the perforation gaps 33 correspond to the support rods 20 one by one, and the corresponding perforation gaps 33 and the support rods 20 are more convenient to penetrate and assemble.

The body 30, which is an important component for soft light, is preferably made of diffusible cloth and presents white semi-transparent or white fine mesh so that hard light rays similar to an artificial light source can interfere with each other when passing through the body to form colorless white light with more uniform and soft distribution.

The body 30 may be preferably soft gauze, which may be made of polyester fiber, such as white thin semitransparent polyester fiber cloth, or white fine-meshed polyester fiber gauze, and the soft gauze may make light uniform and soft and may help to improve color saturation.

It is understood that the body 30 may be made of synthetic fiber such as nylon or other materials meeting the light requirement, such as plant fiber, besides cloth or gauze made of polyester fiber. In summary, the cloth material used for the body 30 should avoid the appearance of light spots to a certain extent, soften hard light, avoid the light from affecting the color saturation and the color harmony, and meet the requirement of the photographer for shooting light.

The flexible connection portion 31 is configured as a cloth capable of elastically contracting in multiple directions, and the elastic band 32 is configured as a cloth band capable of elastically contracting in its own length direction, because after the soft cloth 3 is assembled with the support rod 20 of the reflector 2 through the perforation gap 33, after the support rod 20 props up the soft cloth 3 at the light exit 22, in order to make the body 30 more flat, then the elastic band 32 is tightly wrapped at the edge of the light exit 22, and the effect diagram after tight wrapping is referred to fig. 2.

It will be appreciated that at least a portion of the flexible link 31 is coplanar with the body 30 so that the body 30 can be further spread apart to enable the body 30 to be more flat to stand up.

When the elastic band 32 is tightly wrapped on the edge of the light outlet 22, the body 30 is completely flattened and spread, and the flexible connection portion 31 is subjected to multi-directional pulling forces such as axial direction and axial direction, so that the flexible connection portion 31 is configured as a cloth capable of elastically contracting in multiple directions. The elastic band 32 tightly wrapped around the edge of the light outlet 22 is mainly subjected to a tensile force in the circumferential direction, so that the elastic band 32 is configured as a cloth band elastically contractible in the length direction thereof.

Wherein the flexible connecting portion 31 is configured as an elastic cloth and the elastic band 32 is configured as an elastic band. Since the flexible connecting portion 31 is subjected to more tensile forces in the circumferential direction, and the elastic band 32 is subjected to only tensile forces in the circumferential direction, preferably, the tensile rate of the flexible connecting portion 31 is greater than that of the elastic band 32.

The flexible connecting portion 31 is made of elastic fabric, such as elastic non-woven fabric, lycra, spandex fabric, etc. Particularly, lycra, which is an artificial elastic fiber with the best elasticity, can extend to 4-6 times of the original length, has the best degree of extension, and is suitable for blending with various fibers. Although the texture of the spandex fabric is not as solid as that of the lycra fabric, the elasticity and softness are comparable to those of the lycra fabric, and the manufacturing cost is lower.

The elastic belt 32 is made of a unidirectional and bidirectional stretched fabric, such as a polyester fabric; or elastic cotton which is prepared by fusing a hollow bent fiber and a fiber material with a very low melting point. When the elastic cotton is blended, the elastic cotton also contains 2% of rubber band instead of 98% of cotton. The fibers of the elastic cotton are distributed in three dimensions.

When the body 30 is configured as a soft gauze, the flexible connecting portion 31 is configured as an elastic cloth, and the elastic band 32 is configured as an elastic band, the edge of the body 30 is connected with the inner ring of the flexible connecting portion 31 by sewing, and the connecting edge 3200 on the elastic band 32 is connected with the flexible connecting portion 31 by sewing.

It can be understood that each connecting edge 3200 on the elastic band 32 is connected with the outer ring of the flexible connecting portion 31 in a sewing manner, so that the connecting edges 3200 and the flexible connecting portion 31 can be quickly sewn by adopting sewing equipment, and the production efficiency is improved. After the connecting edges 3200 and the flexible connecting portion 31 are sewn, the free edge 3201 of the elastic band 32 and the flexible connecting portion 31 are not sewn, so that the perforation gap 33 is formed. A perforation gap 33 is formed between one free edge 3201 and the flexible connecting portion 31, and a plurality of perforation gaps 33 are evenly spaced around the body 30. In the present embodiment, the body 30 is circular, and the plurality of through voids 33 are arranged annularly around the body 30.

As further shown in fig. 3 and fig. 4, the plurality of through holes 33 provide a more flexible and easier-to-install space for the support rods 20 of the reflector 2.

Referring to fig. 2 again, the aperture of the body 30 is smaller than the aperture of the light exit 22 of the reflector 2, after the soft cloth 3 and the support rod 20 of the reflector 2 are assembled through the through hole 33, the support rod 20 stretches the soft cloth 3 at the light exit 22, the first side 320 of the elastic band 32 is elastically stretched, the elastic band 32 is tightly wrapped at the edge of the light exit 22, and particularly, the second side 321 of the elastic band 32 is tightly wrapped at the outer side of the reflector 2, so as to stretch the body 30 more smoothly, which is more beneficial to the softening of the body 30 to light.

The elastic band 32 is tightly wrapped around the edge of the light exit 22, and at this time, the flexible connection portion 31 and the elastic band 32 both bear a certain tensile force, and in consideration of the connection strength and the stability of the reflector 2 in use, it is preferable that the elastic band 32 is fixedly connected to the flexible connection portion 31 at two sides of the through hole 33, so as to enhance the connection strength between the flexible connection portion 31 and the elastic band 32. In addition, the purpose of strengthening the strength is also achieved on the two sides of the perforation gap 33, so that the supporting rods 20 arranged in the perforation gap 33 in a penetrating mode are further opened, the body 30 in the soft light cloth 3 is supported to be smoother, and the effect of softening light rays is facilitated.

After the flexible connecting portion 31 is configured as an elastic cloth and the elastic band 32 is configured as an elastic band, the portions of the flexible connecting portion 31 and the elastic band 32 located at both sides of the perforation gap 33 may be connected by sewing.

Of course, as shown in fig. 3 and referring to fig. 4, the portions between the flexible connecting portion 31 and the elastic band 32 located at both sides of the through hole 33 may be further connected with reinforcing ribs 34 to achieve the purpose of improving the connecting strength. The reinforcing ribs 34 may be formed of a textile tape, and the textile tape may be sewn to portions on both sides of the perforation space 33.

In the reflector assembly 1, the flexible connecting portion 31 of the soft cloth 3 is disposed around the body 30, the connecting edge 3200 of the elastic band 32 is fixedly connected to the flexible connecting portion 31, and a plurality of perforation gaps 33 are formed between the free edge 3201 of the elastic band 32 and the flexible connecting portion 31. The support rod 20 on the reflector 2 passes through the through hole 33, so that the support rod 20 and the soft light cloth 3 are convenient to mount.

The supporting rod 20 supports the body 30 at the light outlet 22 of the reflector 2, the elastic band 32 is tightly wrapped on the edge of the light outlet 22 of the reflector 2, and the body 30 softens the hard light, so that the light quality becomes softer, and light spots and shadows on a picture can be eliminated during shooting.

In another embodiment, as shown in fig. 5 and 6, the reflector assembly 1 is added with a grid 4 on the basis of the structure of the above embodiment. That is, the reflector 2 and the soft cloth 3 in the above embodiment are used.

The perforation space 33 cover of sheen cloth 3 locates on each bracing piece 20 of reflector 2, and, sheen cloth 3 is propped open in light-emitting window 22 department by bracing piece 20, the elastic webbing 32 of sheen cloth 3 wraps up the edge at light-emitting window 22 tightly, thereby make sheen cloth 3 cover light-emitting window 22, light is to the sheen cloth 3 back, the light of becoming hard is softened, make the light quality softer, facula and shadow on the photo can be eliminated during the shooting.

And the grating 4 is in a grating shape formed by splicing a plurality of light absorption cloth belts in a staggered way. The grids 4 are sleeved on the support rods 20 of the reflector 2. The grating 4 is propped open by the support rod 20 and covers the soft light cloth 3, and the grating 4 is attached to the surface of the body 30 of the soft light cloth 3, which faces away from the reflector 2.

Grid 4 is set up and is made light along with grid 4's honeycomb border penetrate directly on sheen cloth 3, so, light just can not be to diffusion all around, and light will advance according to the route of grid, and the purpose is more concentrated, makes the photographer can effective control light and reach required effect.

As shown in fig. 7, the outer surface of the grille 4 and the outer surface of the reflector 2 are connected by a plurality of connecting strips 5. A plurality of connecting bands 5 encircle the even interval setting of the central axis of reflector 2 to, can promote the joint strength between grid 4 and reflector 2, avoid grid 4 to drop from reflector 2.

It will be appreciated that four straps 5 may be provided, the four straps 5 being arranged around the outer surface of the grille 4 in a criss-cross arrangement with the outer surface of the reflector 2.

The connecting belt 5 and the outer surface of the grating 4 and the outer surface of the reflector 2 are connected by a magic tape.

The connecting belt 5 is configured as a male buckle belt in the fastening belt, the outer surface of the grille 4 is configured as a female buckle in the fastening belt, and the outer surface of the reflector 2 near the edge is also configured as a female buckle in the fastening belt. In this way, the hard barbed bristles with hooks are distributed on one surface of the connecting band 5. The outer surface of the grating 4 is fully distributed with fine and soft round hair, and the outer surface of the reflecting cover 2 close to the edge is also provided with a fine and soft round hair surface. Thus, the connecting band 5 is adhered to the outer surface of the grating 4 and the outer surface of the reflecting shade 2, so that the aim of enhancing the connecting strength of the grating 4 and the reflecting shade 2 is fulfilled.

In addition, the elastic band 32 is tightly wrapped on the outer surface of the light outlet 22 in the reflector 2, or a female buckle in the buckle may be arranged on the outer surface of the elastic band 32, that is, a fine and soft round hair surface is arranged on the outer surface of the elastic band 32. Because the support rod 20 in the reflector 2 is arranged in the elastic band 32 in a penetrating way, and then the connecting band 5 is adhered to the outer surface of the grating 4 and the outer surface of the elastic band 32, the purpose of enhancing the connecting strength of the grating 4 and the reflector 2 can be achieved.

Of course, the connecting band 5 can also be connected between the outer surface of the grille 4 and the outer surface of the reflector 2 by sewing or pressing.

While the present application has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present application may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (11)

1. A soft cloth for a reflector, comprising:

a body;

a flexible connecting portion connected to the body and disposed along an edge of the body;

the first side edge of the elastic belt is configured into a plurality of connecting edges and a plurality of free edges, the connecting edges and the free edges are arranged in a staggered mode, and the connecting edges are fixedly connected with the flexible connecting parts; a second side edge of the elastic belt, which is back to the first side edge, is turned over towards one side of the body; a plurality of perforated voids are formed between the plurality of free edges and the flexible connecting portion; a plurality of perforation gaps encircle the body interval sets up for the bracing piece of reflector passes, elastic deformation takes place for the elastic webbing and wraps tightly in the outside of reflector.

2. The soft cloth of claim 1, wherein the elastic band is fixedly connected to the flexible connection portion at two sides of the perforation gap.

3. The soft cloth of claim 1, wherein a plurality of the perforation voids are evenly distributed around the body.

4. The soft cloth of claim 1, wherein the body is configured as a diffusible cloth, the flexible connecting portion is configured as a multi-directionally elastically contractible cloth, and the elastic band is configured as a band of cloth elastically contractible along its own length.

5. The soft cloth of claim 4, wherein the body is configured as soft gauze, the flexible connection portion is configured as elastic cloth, and the elastic band is configured as elastic band.

6. The soft cloth of claim 4, wherein at least some of the flexible connecting portions are coplanar with the body.

7. The soft cloth of claim 1, wherein the connecting edge is sewn to the flexible connecting portion.

8. A reflector assembly, characterized in that, includes reflector and the sheen cloth of any one of claims 1-7, the sheen cloth is located the light-emitting opening department of reflector, the reflector includes a plurality of bracing pieces, the bracing piece is worn to locate the sheen cloth in the perforation space, this integument many the bracing piece struts in light-emitting opening department, the elastic webbing tighten up in the edge of light-emitting opening.

9. The reflector assembly of claim 8, wherein the aperture of the body is smaller than the aperture of the light outlet of the reflector, the first side is elastically stretched, and the second side is tightly wrapped around the outer side of the reflector.

10. The reflector assembly of claim 8, further comprising:

the grating is sleeved on the supporting rod; the grating is opened by the support rod and covers the surface of the body back to the reflector.

11. The reflector assembly of claim 10, wherein the outer surface of the grille is connected to the outer surface of the reflector by a plurality of connecting straps that are evenly spaced around the central axis of the reflector.

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