JP2018133205A - Lighting device and assembly method of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting device which inhibits darkness at the side.SOLUTION: A lighting device includes: a device body 100 attached to an attached part; a light source unit 200 attached to the device body 100; and a device cover 300 which is fixed to the device body 100 while covering the light source unit 200 and the device body 100. The device body 100 has fixing parts 123 which fix the device cover 300. The device cover 300 has flat parts which are fixed to the fixing parts 123 in a manner such that the flat parts are spaced apart from the fixing parts 123.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a lighting device and a method for assembling the lighting device.

  2. Description of the Related Art Conventionally, there is an illumination device that is attached to a mounted portion such as a ceiling. A conventional lighting device includes a top plate that is attached to a mounted portion, a light source unit in which a light source unit is fixed to a frame, a lighting device that is disposed between the top plate and the light source unit, and a cover that covers the light source unit. It has.

  For example, in the illumination device of Patent Document 1, the cover is fixed to the top plate so as to cover the light source unit. This cover is formed so that the width becomes narrower from the attached portion (ceiling) side toward the irradiation side (floor surface) side, and is formed so that dust is not accumulated in the cover.

JP 2000-1333030 A Japanese Patent Laying-Open No. 2015-162366 JP 2016-213163 A JP 2016-1000016 A JP 2016-100137 A Japanese Patent Application Laid-Open No. 2016-100188 Japanese Patent Laid-Open No. 2006-143467

  In the illuminating device of Patent Document 1, the attached portion side of the cover and the frame of the light source unit abut on the side of the light source unit. For this reason, the light from the light source part is blocked by the frame, and the side of the lighting device on the attached part side is dark.

  An object of this invention is to provide the illuminating device which suppressed the darkness of the side.

The lighting device of the present invention is
Attach to the mounted part,
A light source unit attached to the instrument body;
An instrument cover fixed to the instrument body in a state of covering the light source unit and the instrument body,
The instrument body has a fixing part for fixing the instrument cover,
The instrument cover has a flat portion fixed to the fixing portion with a space therebetween.

  ADVANTAGE OF THE INVENTION According to this invention, the illuminating device which suppressed the darkness of the side can be provided.

1 is a perspective view of a lighting device 10 according to Embodiment 1. FIG. 1 is an exploded perspective view of a lighting device 10 according to Embodiment 1. FIG. 3 is a cross-sectional view taken along line AA of main body 120 in the first embodiment. FIG. It is AA sectional drawing of the illuminating device 10 in Embodiment 1. FIG. It is a figure regarding the light distribution of the illuminating device 10 in Embodiment 1. FIG. It is a figure which shows the modification of the illuminating device 10 in Embodiment 1. FIG. It is a figure which shows the modification of the illuminating device 10 in Embodiment 1. FIG. It is a figure which shows the modification of the illuminating device 10 in Embodiment 1. FIG. 6 is a diagram showing a modification of the vent hole 129 in the first embodiment. FIG. It is a disassembled perspective view of the illuminating device 10 in Embodiment 2. FIG. It is a fragmentary perspective view of the illuminating device 10 in Embodiment 2. FIG. It is a figure which shows the modification of the illuminating device 10 in Embodiment 2. FIG. It is AA sectional drawing of the illuminating device 10 in Embodiment 3. FIG. It is a figure which shows the modification of the buffer 400 in Embodiment 3. FIG.

Embodiment 1 FIG.
*** Explanation of configuration ***
The configuration of the lighting device in this embodiment will be described with reference to FIGS. 1, 2, 3, and 4.
In the present embodiment, a lighting device that is attached to an attachment portion such as a ceiling and has an instrument cover will be described.
The lighting device according to the present embodiment is used in food factories with special consideration for hygiene, including factories that have received HACCP (Hazard, Analysis, Critical, Control, Point, System) certification from the Ministry of Health and Welfare. is there.

(Configuration of each part)
The illuminating device 10 includes an instrument body 100 attached to the attached portion, a light source unit 200 attached to the instrument body 100, and an instrument cover 300 attached to the instrument body 100 so as to cover the light source unit 200.

The instrument main body 100 is attached to a to-be-attached part, such as a ceiling.
The light source unit 200 is attached to the instrument main body 100.
The instrument cover 300 is fixed to the instrument body 100 while covering the light source unit 200 and the instrument body 100.

(Equipment body 100)
The instrument main body 100 has a long shape, and a cross-sectional shape orthogonal to the longitudinal direction is convex. The light source unit 200 is disposed on the convex protrusion, and the reflecting portion 122 and the fixing portion 123 are continuously disposed on the left and right sides of the convex protrusion, that is, on both sides of the convex shape. That is, in the convex cross-sectional shape, the reflection part 122 is disposed on both outer sides of the light source unit 200, and the fixing part 123 is disposed on the outer side of the reflection part 122.
The instrument body 100 has a housing recess 101 to which the light source unit 200 is attached.
The instrument main body 100 includes a plate portion 110, a main body portion 120, an end plate portion 130, a spring 140, and a terminal block 150.

(Plate part 110)
The plate part 110 is attached to an attached part such as a ceiling.
The plate part 110 has a rectangular shape as a whole, and has a rectangular shape in the present embodiment.
The plate portion 110 has a rectangular plate-shaped plate main body portion 111 and a concave portion 112 provided in the peripheral portion of the plate main body portion 111, and an annular packing 113 is disposed in the concave portion 112. .
Since the plate body 111 receives power supply from a commercial power supply, a power supply hole 118 through which a power line (not shown) is drawn and a fixture fixing in which a fixture 401 (for example, a suspension bolt) for attachment to the attached portion is inserted. A hole 119 is provided.

(Packing 113)
The packing 113 is disposed between the instrument body and the flange part of the instrument cover.
The packing 113 is a rectangular ring having the same outer peripheral shape as the plate portion 110.
The packing 113 has a rectangular cross-sectional shape and is made of an elastic material.
The outer peripheral surface of the packing 113 is in contact with the outer wall of the recess 112 provided in the peripheral portion of the plate main body 111.
The outer peripheral surface of the packing 113 is not in contact with the inner wall of the recess 112 provided in the peripheral portion of the plate main body 111.
There is a gap between the outer peripheral surface of the packing 113 and the inner wall of the recess 112. This gap can facilitate elastic deformation of the packing 113, but the gap need not be provided.

(Main body 120)
The main body portion 120 is attached to the plate portion 110 and forms an accommodation recess 101 together with a part of the plate portion 110.
The main body 120 is made of a sheet metal having a cross-sectional shape as shown in FIG. 3 and is attached to the plate 110.
The main body 120 is disposed on both sides of the light source unit 200 with the light source unit 200 interposed therebetween.
The main body 120 has six plane parts including an inner part 121, a reflecting part 122, a fixing part 123, an outer part 124, an outer joint part 125, and an inner joint part 126.
The main body 120 forms an adjacent space S adjacent to the housing recess 101.
The outer joint portion 125 is formed in a bowl shape toward the outside of the plate body portion 111.
The inner joint 126 is formed in a bowl shape toward the center of the housing recess 101.
The inner joint portion 126 and the inner portion 121 are orthogonal to each other.
The inner part 121 and the reflecting part 122 intersect at an acute angle.
The reflection part 122 and the fixed part 123 cross at an obtuse angle.
The fixed part 123 and the outer part 124 are orthogonal to each other.
The outer part 124 and the outer joint part 125 are orthogonal to each other.
The main body portion 120 is attached to the plate portion 110 by an outer joint portion 125 and an inner joint portion 126.
The fixed portion 123 and the plate body portion 111 of the plate portion 110 are parallel to each other.
The inner part 121 forms a housing recess 101 together with a part of the plate part 110.
The inner part 121, the reflecting part 122, the fixing part 123, and the outer part 124 of the main body part 120 form an adjacent space S, and each cover a part of the adjacent space S.

(Receiving recess 101)
The instrument main body 100 has an accommodation recess 101.
The housing recess 101 is a long recess that houses at least a part of the light source unit 200.
The housing recess 101 is formed by the inner portion 121 of the main body 120 and the plate main body 111.
The inner portion 121 is formed with a plurality of vent holes 129 that serve as heat dissipation holes, and the housing recess 101 has the vent holes 129.
The vent holes 129 have a rectangular shape, and the plurality of vent holes 129 are arranged linearly at equal intervals in the inner portion 121.
The adjacent space S and the internal space of the housing recess 101 are connected by a vent hole 129.
In the state in which the main body 120 is attached to the plate part 110, the power supply hole 118, the instrument fixing hole 119, the spring 140, and the terminal block 150 are arranged in the housing recess 101.

(Reflecting part 122 and fixing part 123)
The reflection part 122 and the fixing part 123 are arranged on the side of the light source unit 200.
The reflection part 122 and the fixing part 123 have reflection performance. For example, a white reflective paint is applied.
The reflection part 122 has an inclined surface that gradually inclines from the tip of the inner part 121 toward the plate part 110.
The reflection part 122 is provided between the housing recess 101 and the fixing part 123.
The fixing portion 123 is a long horizontal plane portion having fastening holes 123a at three places in the longitudinal direction.
The fixing portion 123 is disposed in parallel with the plate portion 110 from the tip of the reflecting portion 122.
Since the reflecting portion 122 is inclined, the fixing portion 123 is disposed at a position shallower than the depth of the housing recess 101 of the light source unit 200.
The lighting device 10 includes a fastening member 102 that fastens the instrument body 100 and the instrument cover 300.
A fastening hole 123 a for fixing the instrument cover 300 by a fastening member 102 such as a screw is formed in the fixing portion 123.
The fastening hole 123a engages with the fastening member 102. For example, the fastening hole 123a may have a standard nut attached thereto, or may have a tap formed by burring.

(End plate part 130)
The end plate portion 130 is attached to the plate portion 110 so as to cover the longitudinal end portion of the main body portion 120. The end plate portion 130 connects the pair of main body portions 120 and is fixed to the plate main body portion 111.

  The spring 140 is a fixture for fixing the light source unit 200 to the instrument body 100.

  The terminal block 150 is used for supplying power to the light source unit 200 while inserting a power supply line drawn from the power supply hole 118.

(Light source unit 200)
The light source unit 200 is fixed to the instrument main body 100 so that a part thereof is accommodated in the accommodating recess 101.
The light source unit 200 is formed in a long shape.
The light source unit 200 includes a light emitting substrate 210 on which a light emitting element 211 is mounted on a substrate 212.
The light source unit 200 has a light source cover 230 attached to the frame 220 so as to cover the light emitting substrate 210.
The light source unit 200 includes a lighting device 240 that supplies lighting power to the light emitting substrate 210. The lighting device 240 is connected to the terminal block 150 via an electric wire.
The light source unit 200 has a receiver 250 that engages with the spring 140 and fixes the light source unit 200 to the instrument body 100.

(Equipment cover 300)
The instrument cover 300 is a transmissive member made of a resin material, and is attached to the instrument body 100 so as to cover the light source unit 200.
The instrument cover 300 is attached to the instrument body 100 and the light source unit 200 so as to face the instrument body 100 and the light source unit 200 with a space therebetween.
The instrument cover 300 is formed so as to narrow from the upper direction Z1 side (attached part side) in FIG. 4 toward the lower direction Z2 side (floor surface side). Therefore, it is possible to prevent dust from being accumulated in the instrument cover 300 from the upper direction Z1 side.

The instrument cover 300 includes a main cover part 310 facing the light source unit 200 and the reflection part 122, a horizontal flat part 320 facing the fixing part 123, a side part 330 facing the outer part 124, and a packing 113. It has a flange portion 340 in contact therewith.
The instrument cover 300 has a storage space having a convex cross-sectional shape.
The main cover portion 310 is a portion that houses the light source unit 200 in a protrusion of the convex storage space and covers the light source unit 200 and the reflection portion 122.
The cross-sectional shape of the main cover part 310 is a U shape or a pan bottom type.
The flat part 320 is a horizontal part extending from the main cover part 310 to the periphery.
The flat part 320 is a long plane part.
The flat part 320 is arranged in parallel with the fixed part 123.
The flat part 320 is a fixed part fixed to the fixing part 123.
The flat portion 320 is formed with an insertion hole 321 through which the fastening member 102 is inserted.
The insertion hole 321 is formed at a position corresponding to the fastening hole 123a.
The flat part 320 and the fixing part 123 are fastened by the fastening member 102 with a space therebetween.
The side surface portion 330 is a portion extending from the flat portion 320 to the instrument main body plate portion 110.
The flange portion 340 is a portion that extends in a bowl shape from the side surface portion 330 and is a portion that is in close contact with the packing 113.
The storage space of the instrument cover 300 is formed by the main cover part 310, the flat part 320, and the side part 330.

(Heat dissipation effect)
As shown in FIG. 5, in the illumination device 10 of the present embodiment, the instrument cover 300 covers the main body 120 and the light source unit 200 of the instrument main body 100.
The main body 120 attempts to radiate the heat generated in the light source unit 200 staying in the housing recess 101 toward the lower side Z2. That is, the main body 120 attempts to dissipate the heat from the light emitting substrate 210 and the lighting device 240 from the reflecting portion 122, the fixing portion 123, and the outer portion 124 to the lower side Z2.
However, it may be blocked by the instrument cover 300, and heat may be trapped inside the lighting device 10 to increase the temperature inside the instrument.
Therefore, a vent hole 129 is formed in the inner part 121 of the main body part 120. As shown by the dashed arrows in FIG. 5, the heat accumulated in the housing recess 101 is moved to the adjacent space S surrounded by the main body 120 and the plate body 111 adjacent to the housing recess 101 by the vent hole 129. And can dissipate heat.
Further, heat can be radiated on the surface where the adjacent space S of the plate body 111 is formed. As shown in FIG. 5, when the width of the accommodating recess 101 is W1 and the width of the main body 120 is W2, the width contributing to the heat dissipation of the plate main body 111 increases from W1 to W1 + W2 + W2.
As shown in FIG. 5, since the widths of W1 and W2 are substantially the same length, the width contributing to the heat dissipation of the plate body 111 is tripled.
Further, if the width of the plate body 111 is the same as W1 + W2 + W2, heat can be radiated using the entire width of the plate body 111.
Thus, the heat radiation area of the plate body 111 can be increased and the heat radiation effect can be increased.

(About light distribution)
As shown in FIG. 5, the illumination device 10 has an instrument cover 300 attached to the instrument main body 100 with a distance K between the main body 120 and the light source unit 200.
As shown in FIG. 4, the height of the outer side portion 124 is T1, the height of the side surface portion 330 is T2, and T1 <T2. When T2−T1 = K, the flat portion 320 and the fixed portion 123 have a space with an interval K therebetween, so that the light from the light source unit 200 can be irradiated onto the side surface portion 330.
As shown in FIG. 5, the light emitted from the light emitting element 211 passes through the light source cover 230. At that time, light is reflected or diffused by the light source cover 230, and light traveling to both sides is generated. Part of the light that has traveled to both sides travels straight through the space of the interval K, reaches the side surface portion 330, and is transmitted therethrough. Further, part of the light that has traveled to both sides is reflected by the reflecting portion 122 into the space of the interval K, reaches the flat portion 320 or the side portion 330, and is transmitted therethrough.
In this manner, the instrument cover 300 is attached to the main body 120 with a gap K so that light can reach the side surface 330. That is, a fixing portion 123 for fixing the instrument cover 300 is provided in the instrument body 100 so that a space with an interval K can be formed so that the light source unit 200 can irradiate the flat part 320 and the side part 330 of the instrument cover 300. Yes.
If the depth of the housing recess 101 of the light source unit 200 is T3, the height T1 of the fixing portion 123 is smaller than the depth T3 of the housing recess 101. Thus, since the fixing | fixed part 123 is arrange | positioned in the position shallower than the depth T3 of the accommodation recessed part 101 of the light source unit 200, the fixing | fixed part 123 does not block the light from the light source unit 200. FIG. That is, the fixing portion 123 is provided in the upward direction Z1 from the lowest point (C in FIG. 5) of the housing recess 101 of the light source unit 200 so that the light from the light source unit 200 is not blocked.
Further, by providing the reflecting portion 122, the light traveling in the upward direction Z1 among the light traveling on both sides can be reflected on the flat portion 320 and the side surface portion 330.

(Manufacturing method of the main-body part 120)
The main body 120 is manufactured by bending a single long sheet metal.
First, a plurality of ventilation holes 129 are formed by punching a single long sheet metal.
By this punching process, the air hole 129 is formed in the inner part 121 that forms the side surface of the housing recess. The air holes 129 may be formed by laser processing or other processing instead of punching.
Next, a sheet metal having a plurality of vent holes 129 is bent along five parallel lines, and the inner part 121, the reflecting part 122, the fixing part 123, the outer part 124, the outer joint part 125, Six plane portions including the joint portion 126 are formed.
Thus, the main body 120 is completed.

(Assembly method of lighting device 10)
A method for assembling the lighting device 10 will be described with reference to FIG.
Step 1:
The main body 120, the end plate 130, the spring 140, and the terminal block 150 are attached to the plate 110.
At this time, the surface on which the air holes 129 are formed is used as the inner part 121, and the pair of main body parts 120 are arranged so that the inner part 121 faces each other. Further, the end plate portions 130 are fitted into both ends of the pair of main body portions 120. Then, the two main body portions 120 and the two end plate portions 130 are arranged on the plate portion 110 of the instrument main body 100 and fixed with screws.
Thus, the instrument body 100 is completed.
Step 2:
Next, the instrument main body 100 is attached to the attached portion by the fixture 401. Specifically, the fixture 401 is inserted into the fixture fixing hole 119 of the plate portion 110, and the plate portion 110 is fixed to the ceiling by the fixture 401.
Step 3:
Next, the electric wire is drawn into the power supply hole 118, and the power supply hole 118 is connected to the terminal block 150.
Step 4:
Next, an electric wire from the terminal block 150 is connected to the lighting device 240, and the light source unit 200 is fixed to the instrument main body 100 by the spring 140 while accommodating at least a part of the light source unit 200 in the accommodating recess 101.

Step 5:
Next, the light source unit 200 and the instrument body 100 are covered with the instrument cover 300 so that the fixing part 123 provided in the instrument body 100 and the flat part 320 provided in the instrument cover 300 face each other. The instrument cover 300 is attached so that the surface of the fixing portion 123 and the surface of the flat portion 320 are parallel to each other.
After covering the instrument main body 100 with the instrument cover 300, the fastening member 102 is passed through the insertion hole 321 provided in the flat part 320, and the fastening member 102 is fastened in the fastening hole 123 a provided in the fixing part 123. When the fastening member 102 is a screw, the screw is screwed into the fastening hole 123a.
The flat portion 320 approaches the fixed portion 123 by tightening the screw of the fastening member 102, but when the flange portion 340 comes into contact with the packing 113, a space of an interval K is formed between the flat portion 320 and the fixed portion 123. .

(Function of packing 113)
The packing 113 is for preventing a gap from being provided between the instrument main body 100 and the instrument cover 300, and is a packing that absorbs the tolerance between the instrument main body 100 and the instrument cover 300.
The packing 113 is provided on the entire periphery of the plate portion 110, and the flange portion 340 is also provided on the entire periphery of the opening of the instrument cover 300. Therefore, the instrument cover 300 and the packing 113 must be in contact with each other without a gap so that dust or the like does not enter the inside. In order to prevent this dust from entering, the instrument cover 300 and the plate part 110 are in contact with each other with the packing 113 therebetween.
The instrument cover 300, the plate part 110, the main body part 120, and the packing 113 each have a manufacturing error with respect to the design reference value when manufactured. In order for the instrument cover 300 and the packing 113 to come into contact with each other, manufacturing errors in these parts must be absorbed. Since the packing 113 is an elastic body, manufacturing errors of the packing 113 are ignored. In order to simplify the description, the manufacturing error of the main body 120 is ignored.

Generally, the manufacturing error of a part must be a value that is less than or equal to the tolerance, and parts that have a manufacturing error that is greater than or equal to the tolerance are not used. Here, the tolerance is a difference allowed with respect to the design standard value.
For example, if the design standard value of the height of the plate part 110 and the main body part 120 of the instrument main body 100 is Xmm and the tolerance is plus or minus X1, the height of the plate part 110 is changed from X−X1 mm to X + X1 mm due to manufacturing errors. Will vary.
If the design reference value of the height of the instrument cover 300 is Ymm and the tolerance is plus or minus Y1, the height of the instrument cover 300 varies from Y−Y1 mm to Y + Y1 mm due to manufacturing errors.
As described above, since the maximum value of the manufacturing error of the parts to be used is a tolerance, if the tolerance is designed to be absorbed, the manufacturing error can be absorbed. Therefore, in order for the instrument cover 300 and the packing 113 to contact each other without a gap, it is only necessary to absorb the tolerance between the instrument body 100 and the instrument cover 300.

When the height of the plate portion 110 is X-X1 mm and the height of the device cover 300 is Y-Y1 mm, if the device cover 300 and the packing 113 are the farthest, the height of the plate portion 110 is X- When the height of the instrument cover 300 is X1 mm and Y-Y1 mm, the instrument cover 300 and the packing 113 must be in contact with each other. The fastening member 102 has the instrument cover 300 attached to the instrument body 100 so that the instrument cover 300 and the packing 113 are in contact with each other even when the plate portion 110 has a height of X-X1 mm and the instrument cover 300 has a height of Y-Y1 mm. To fix.
Then, when the height of the plate portion 110 and the height of the instrument cover 300 are as designed, that is, when the height of the plate portion 110 is X mm and the height of the instrument cover 300 is Ymm, the packing 113 is The instrument cover 300 pushes in by X1 + Y1 mm.
Furthermore, when the height of the plate part 110 is X + X1 mm and the height of the instrument cover 300 is Y + Y1 mm, if the instrument cover 300 and the packing 113 are closest, the packing 113 is only X1 + Y1 + X1 + Y1 mm by the instrument cover 300. Pushed in.
The packing 113 is an elastic body capable of absorbing this X1 + Y1 + X1 + Y1 mm. That is, the packing 113 must be an elastic body that can absorb (X1 + Y1) * 2 mm or more, which is twice as long as the sum of the tolerance X of the plate portion 110 and the tolerance Y of the instrument cover 300.
Thus, the thickness of the packing 113 needs to be at least twice as long as the sum of the tolerance X of the plate portion 110 and the tolerance Y of the instrument cover 300, and at least the tolerance X of the plate portion 110. And a thickness that does not damage even if a length twice as long as the value obtained by adding the tolerance Y of the instrument cover 300 is pushed.

(Modification without reflection part 122)
FIG. 6 is a diagram illustrating a modification of the lighting device 10 according to the first embodiment.
In FIG. 6, the reflection part 122 is eliminated, and the fixing part 123 is extended to the accommodation recess 101 in the horizontal direction.
Although there is no reflecting portion 122, the light traveling in the upward direction Z <b> 1 among the light traveling on both sides can be reflected on the flat portion 320 and the side surface portion 330 by the reflection of the fixing portion 123.
However, in the case of FIG. 6, there is a possibility that the corner region D where the accommodation recess 101 and the fixing portion 123 intersect can be darkened. If the reflection part 122 is provided, darkness can be suppressed.

(Modification with curve portion 127)
FIG. 7 is a diagram illustrating a modification of the lighting device 10 according to the first embodiment.
In FIG. 7, a curved portion 127 is provided between the fixed portion 123 and the outer portion 124.
The cross-sectional shape of the curved portion 127 has an arc shape with a central angle of 90 degrees.
Since there is no corner between the fixed portion 123 and the outer portion 124 and is rounded, the light reflected by the corner can go straight to the side, and more light reaches the side portion 330.

(Modification by the fixing member 135)
FIG. 8 is a diagram illustrating a modification of the lighting device 10 according to the first embodiment.
As shown in FIG. 8, without using the spring 140, the mounting portion 219 at the end portion in the longitudinal direction of the light source unit 200 is screwed to the fixing member 135 fixed to the plate portion 110, so that the light source unit 200 is attached to the instrument. A thing attached to the main body 100 may be used.
The method of attaching the light source unit 200 to the instrument main body 100 may be another method.

(Modification of vent hole 129)
FIG. 9 is a diagram showing a modification of the vent hole 129 in the first embodiment.

(A) moves the air hole 129 in the upward direction Z1, and forms the air hole 129 in the upper half of the inner part 121. FIG. Since the heat staying in the housing recess 101 rises inside the housing recess 101, it is preferable to form the vent hole 129 as close to the plate body 111 as possible. The air holes 129 may be formed so as to contact the plate body 11.
(B) makes the ventilation hole 129 into the vertically long rectangle. Heat can be dissipated evenly from the entire top and bottom of the inner part 121.
(C) shows a trapezoidal shape of the air hole 129. The bottom is placed on the top and the top is placed on the bottom. Since the heat staying in the housing recess 101 rises inside the housing recess 101, it is preferable to increase the opening width of the vent hole 129 as much as possible as it approaches the plate body 111.
(D) shows the ventilation holes 129 made triangular. Place the base on the top and the vertex on the bottom. Since the heat staying in the housing recess 101 rises inside the housing recess 101, it is preferable to increase the opening width of the vent hole 129 as much as possible as it approaches the plate body 111.
(E) is a combination of (a) and (b), and the vent hole 129 has a T-shape or a convex shape. Since the air hole 129 is moved as close as possible to the plate main body 111 and is also opened up and down, the heat accumulated in the housing recess 101 is dissipated as it approaches the plate main body 111 and is dissipated from the entire upper and lower sides of the inner part 121. .
The shape of the vent hole 129 may be other than rectangular, trapezoidal, and triangular, and may be circular, elliptical, polygonal, corrugated, slit-shaped, mountain-shaped, dish-shaped, semicircular, trumpet-shaped, E-shaped, H-shaped Shape, I type, and other shapes may be used.

(Modification)
In the present embodiment, the spring 140 is provided in the fixture main body 100 and the lighting device 240 and the receiver 250 are provided in the light source unit. However, the spring 140 may be provided in the opposite manner.

  Moreover, although this Embodiment demonstrated the illuminating device used for the factory which received HACCP certification as an example of the illuminating device 10, if it is an illuminating device which uses a cover, the factory which received HACCP certification It can be applied to other than.

Embodiment 2. FIG.
In the second embodiment, differences from the first embodiment will be described.

*** Explanation of configuration ***
FIG. 10 is an exploded perspective view of lighting device 10 according to the second embodiment.
FIG. 11 is a partial perspective view of lighting device 10 according to the second embodiment.
In the second embodiment, a ventilation hole 128 is formed in the outer portion 124.
The ventilation holes 128 have a rectangular shape, and the plurality of ventilation holes 128 are linearly arranged on the outer side portion 124 at equal intervals.
The ventilation hole 128 is a ventilation window that connects the adjacent space S surrounded by the main body 120 and the plate main body 111 and the internal space of the instrument cover 300. By connecting the adjacent space S and the internal space of the instrument cover 300 and ventilating, heat accumulated in the adjacent space S can be released to the internal space of the instrument cover 300.
In the second embodiment, a plurality of bottom holes 116 and a plurality of plate holes 117 are formed in the plate portion 110.
The bottom hole 116 is formed in a plate portion that forms the bottom surface of the housing recess 101.
The bottom hole 116 has a circular shape, and the plurality of bottom holes 116 are linearly arranged in the longitudinal direction of the long plate main body 111. The bottom hole 116 is not formed in a portion where the spring 140, the terminal block 150, the power supply hole 118, and the instrument fixing hole 119 are disposed.
The bottom hole 116 is a ventilation window that connects the internal space of the housing recess 101 and the back space of the plate body 111. By connecting and ventilating the internal space of the housing recess 101 and the back space of the plate body 111, the heat accumulated in the housing recess 101 can be released to the back space of the plate body 111.
The plate hole 117 is formed in a plate portion that forms the adjacent space S.
The plate holes 117 have a rectangular shape, and the plurality of plate holes 117 are linearly arranged at equal intervals in the longitudinal direction of the long plate body 111.
The plate hole 117 is a ventilation window that connects the adjacent space S surrounded by the main body 120 and the plate main body 111 and the back space of the plate main body 111. By connecting the adjacent space S and the back space of the plate body 111 and ventilating, heat accumulated in the adjacent space S can be released to the back space of the plate body 111.

(Arrangement variation)
FIG. 12 is a diagram illustrating a modification of the lighting device 10 according to the second embodiment.
The light source unit 200 has a lighting device 240 housed in the housing recess 101, and heat is generated from the lighting device 240. By forming more vent holes 129 at positions closer to the lighting device 240 than at positions far from the lighting device 240, heat can be dispersed from the lighting device 240.
Similarly, the light source unit 200 includes a light emitting element 211 housed in the housing recess 101, and heat is generated from the light emitting element 211. By forming more air holes 129 at positions closer to the light emitting element 211 than at positions far from the light emitting element 211, heat can be dispersed from the light emitting element 211.
In addition to the ventilation holes 129, it is desirable to arrange many ventilation holes 128, bottom holes 116, and plate holes 117 in the vicinity of the heat-generating component.
Furthermore, you may provide a heat sink in the adjacent space S which the main-body part 120 forms. The vent hole 129 is formed by punching the sheet metal of the main body 120. However, without punching, the vent hole 129 is cut into a U-shape and bent 90 degrees to radiate heat of the same size as the vent hole 129 in the adjacent space S. Fins can be formed. The ventilation hole 128, the bottom hole 116, and the plate hole 117 are not formed by punching, but a heat sink fin can be formed in the ventilation hole 129 by making a U-shaped cut and bending it 90 degrees.

Embodiment 3 FIG.
In the third embodiment, differences from the other embodiments will be described.

*** Explanation of configuration ***
FIG. 13 is a cross-sectional view taken along line AA of lighting device 10 according to the third embodiment.
The lighting device 10 includes a buffer 400 between the fastening member 102 and the instrument cover 300.
The shock absorber 400 is a packing that absorbs the tolerance between the instrument body 100 and the instrument cover 300.
The buffer body 400 is a ring-shaped elastic body provided with a screw hole in the center.
The shock absorber 400 is sandwiched between the washer 103 and the washer 104, and is provided between the fastening member 102 and the instrument cover 300, and a plurality (six in FIG. 1 and FIG. 2) are disposed in the lighting device 10. Yes.

In the above-described embodiment, the packing 113 tries to absorb the tolerance between the instrument body 100 and the instrument cover 300.
However, if the tolerance is to be absorbed by the packing 113, the instrument cover 300 needs to be pressed and attached so that the packing 113 is pushed into the flange portion 340 by at least the tolerance.
Therefore, if the packing 113 is to be pressed by a tolerance, the pressing must be performed in a state where the packing 113 is in contact with the entire circumference of the flange portion 340, and the pressing force increases, and the instrument cover 300 may be damaged. is there.

Therefore, a buffer 400 is used as shown in FIG.
The total area of contact between the buffer body 400 and the flat portion (washer 103) of the fastening member 102 is smaller than the area where the flange portion 340 contacts the packing 113, and the buffer body 400 is smaller than the packing 113. Deforms with force.
That is, when the force pushing the instrument cover 300 by the fastening member 102 is X, the area of the flange portion 340 is Y, and the total area of the flat portion (washer 103) of the fastening member 102 is Z,
The area Y of the flange part 340 is larger than the total area Z of the flat part (washer 103) of the fastening member 102,
The force per unit area where the flange portion 340 presses the packing 113 is X / Y,
The force per unit area in which the flat portion (washer 103) of the fastening member 102 pushes the buffer body 400 is X / Z.
Therefore, the buffer 400 having a small area can be pressed with a larger force than the packing 113 having a large area.

The packing 113 and the buffer body 400 are elastically deformed according to the fastening force of the fastening member. When the elastic modulus of the packing 113 and the shock absorber 400 is the same, if a predetermined fastening force is applied by the fastening member 102, the shock absorber 400 is pressed with a greater force than the packing 113. However, the degree of deformation increases.
That is, the buffer body 400 can be deformed with a small force after being deformed.
Therefore, the illuminating device 10 having the buffer body 400 can suppress damage to the instrument cover 300.

(Modification of buffer body 400)
As shown in FIG. 14, a metal spring washer 402 may be used as the buffer 400 instead of the ring-shaped elastic packing. That is, a bolt in which the spring washer 402 and the washer 104 are incorporated may be used as the fastening member 102.

*** Supplement to the embodiment ***
The embodiments described above may be combined.

  DESCRIPTION OF SYMBOLS 10 Illuminating device, 100 instrument main body, 101 accommodation recessed part, 102 fastening member, 103 washer, 104 washer, 110 plate part, 111 board main body part, 112 recessed part, 113 packing, 116 bottom hole, 117 plate hole, 118 power supply hole, 119 Instrument fixing hole, 120 body part, 121 inner part, 122 reflecting part, 123 fixing part, 123a fastening hole, 124 outer part, 125 outer joining part, 126 inner joining part, 127 curve part, 128 ventilation hole, 129 ventilation hole, 130 end plate portion, 135 fixing member, 140 spring, 150 terminal block, 200 light source unit, 210 light emitting substrate, 211 light emitting element, 212 substrate, 219 mounting portion, 220 frame, 230 light source cover, 240 lighting device, 250 receiver, 300 Instrument cover, 310 Main cover part, 320 Flat part, 321 insertion hole, 330 side part, 340 flange part, 400 shock absorber, 401 fixture, 402 spring washer.

Claims (6)

An instrument body to be attached to the attached part;
A light source unit attached to the instrument body;
An instrument cover fixed to the instrument body in a state of covering the light source unit and the instrument body;
With
The instrument body has a fixing part for fixing the instrument cover,
The said device cover is an illuminating device which has the flat part fixed to the said fixing | fixed part at intervals. The fixing portion is disposed on a side of the light source unit,
The lighting device according to claim 1, wherein the flat portion is disposed in parallel with the fixed portion. The instrument body has a convex cross-sectional shape in which the light source unit is disposed in a protrusion and the fixing portion is disposed on both sides,
The instrument cover has a convex sectional storage space,
A main cover for covering the light source unit;
A flat portion extending from the main cover portion to the periphery;
A side part extending from the flat part to the instrument body,
The main cover portion, the flat portion, and the side portion form a convex cross-sectional storage space,
The lighting device according to claim 1, wherein the flat part and the fixed part are fastened together with a space between the flat part and the fixed part. The instrument body includes a housing recess to which the light source unit is attached,
The lighting device according to any one of claims 1 to 3, further comprising a reflecting portion provided between the housing recess and the fixing portion. A fastening member for fastening the instrument body and the instrument cover;
Between the instrument body and the flange portion of the instrument cover, there is a packing that absorbs the tolerance between the instrument body and the instrument cover,
The lighting device according to any one of claims 1 to 4, further comprising a buffer body that absorbs a tolerance between the instrument body and the instrument cover, between the fastening member and the instrument cover. An instrument body to be attached to the attached part;
A light source unit attached to the instrument body;
An instrument cover fixed to the instrument body;
In the assembling method of the lighting device comprising:
Covering the light source unit and the instrument body with the instrument cover so that the fixed part provided on the instrument body and the flat part provided on the instrument cover are parallel,
By passing a fastening member through an insertion hole provided in the flat part and fastening the fastening member in a fastening hole provided in the fixing part, a space is provided between the flat part and the fixing part. A method of assembling a lighting device for fixing the fixture cover to the fixture body.

Images