JP2007289007A - Storage - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a storage which saves space and efficiently traps insect pests. <P>SOLUTION: The storage has a constitution that a rearing chamber 13 is equipped with a circulation path W for circulating cold air or warm air by a circulation fan 31, an insect trapping apparatus 40 is arranged at one corner of the ceiling portion of the rearing chamber 13, namely, at the middle position of the circulation path W. In the insect trapping apparatus 40, a trapping pan 60 charged with soapy water SW is placed on the base of a casing 41, a transparent plate 70 is supported above the trapping pan, the transparent plate 70 is made of an acrylic plate and a bumper plate 71 is opposed to a circulation flow. A ceiling surface 13A is equipped with an ultraviolet light LED82 and a white light LED83 attached to an LED base 84, directed to the bumper plate 71. Flying insect pests F occurred in the chamber are attracted to light emissions from the LED 82 and 83 and the transparent plate 70, ride on a the circulation flow and fly, are hit to the bumper plate 71, dropped in the soapy water SW in the trapping pan 60 and trapped. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a storage suitable for use in breeding insects and small animals, growing plants, storing fresh food, and the like.

Conventionally, a plant breeding storage is known as an example of this type of storage (see, for example, Patent Document 1). This is to maintain the inside of the warehouse at a temperature suitable for plant growth by supplying cold air or hot air generated by an air conditioner into the closed space. On the other hand, in this kind of breeding storage, flying pests such as small flies are likely to be generated. However, since this is a closed space and there is no escape place, an insect trapping device is provided inside.
JP 2004-81100 A

In the above conventional example, the insect trapping device has a structure in which an insect-repellent part provided with an adhesive sheet is arranged below the straight tube fluorescent lamp, and a plurality of these are prepared and each shelf on which a plant tray is placed. However, there is a problem that the trapping efficiency is poor and the replacement of the adhesive sheet is troublesome even though it takes a lot of space to install the insect trapping device. There was a need for further improvements.
The present invention has been completed based on the above circumstances, and an object of the present invention is to enable efficient capture of pests while saving space.

As means for achieving the above object, the invention of claim 1 includes a heat exchanger that cools and / or heats the air in the storage in the storage body composed of a heat insulating box, and the heat exchanger. A circulation fan that circulates the heat-exchanged air in the storage body, and an insect trapping device at an upper position in the storage body and a position substantially opposite to the direction of blowing air from the circulation fan. It is characterized by where it is provided.
The invention of claim 2 is characterized in that, in the invention of claim 1, the insect trapping device is provided with a catch pan filled with water below a light source for attracting insects.

According to a third aspect of the present invention, in the second aspect of the present invention, the transparent plate is provided below the light source for attracting light in the insect trapping device so as to face the blowing direction of the wind from the circulation fan. It has the characteristics in the place.
The invention of claim 4 is characterized in that, in the invention of claim 3, the light source for attracting insects emits ultraviolet light, and the transparent plate is made of acrylic resin.

The invention of claim 5 is the one according to claim 3 or claim 4, wherein the capture pan in the insect trapping device is placed on the bottom surface of the casing, while the transparent plate is in the casing. An inlet / outlet through which the capture pan can be put in and out is supported on the front surface of the casing, and insects can pass through a surface opposite to the direction of blowing air from the circulation fan. It is characterized in that each window hole is opened.
The invention of claim 6 is characterized in that the light source for attracting insects can be attached to the upper position of the casing.
The invention of claim 7 is characterized in that soap water is stretched in the catch pan of the insect catching device in any one of claims 2 to 6.

<Invention of Claim 1>
The insect trapping device is arranged at the upper position in the warehouse and facing the wind from the circulation fan. In addition to having the property that pests such as small flies fly upward, from the circulation fan By being placed on the wind, it is efficiently collected and captured toward the insect trapping device. As a result, it is possible to efficiently capture pests while minimizing the space for installing the insect capture device.
<Invention of Claim 2>
The pest further reacts with the insect light source and flies toward the insect capturing device, hits the insect light source and its surrounding members, and then falls and is captured in the water stretched on the capture pan. Pests can be captured more efficiently.

<Invention of Claim 3>
Pests are drawn toward the light source for insects while riding the wind from the circulation fan, but since the transparent plate is installed in a posture facing the blowing direction of the same wind, the insects hit the transparent plate vigorously as it is. The higher the possibility of falling, it can capture more pests.
<Invention of Claim 4>
Pests such as small flies react with ultraviolet rays. On the other hand, when the acrylic resin is irradiated to the acrylic resin, it changes to visible light and emits light, and the transparent plate emits surface light with, for example, bright yellow. Pests have the habit of gathering in the same color, so it is possible to attract more pests in combination with ultraviolet radiation.

<Invention of Claim 5>
Since the capture pan and the transparent plate are housed in the casing and assembled, it is easy to handle. When the assembly is installed in the cabinet, the pests are caught by hitting the transparent plate through a window hole on the side of the casing, and in order to dispose of the captured pests, the catch pan is placed at the entrance on the front side of the casing. You can put it in and out. That is, the pest capturing function can be sufficiently achieved, and the pest disposal operation can be easily performed.
<Invention of Claim 6>
Since it can be assembled including the light source for insects, it becomes easier to handle.
<Invention of Claim 7>
By using soapy water, the surface tension is reduced, and pests that fall on the capture pan can be more securely drowned and captured.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
<Embodiment 1>
A first embodiment of the present invention will be described with reference to FIGS. The storage of this embodiment illustrates the case where it is used as a breeding cabinet for breeding insects, small animals, and the like.
As shown in FIGS. 1 and 2, the storage is a structure in which a machine room 24 with a short height is provided in the lower part of the storage body (hereinafter simply referred to as the main body 10), and is arranged on the bottom surface of the machine room 24. It is supported by the leg 11 and the caster 12. The main body 10 is formed by a heat insulating box having a front opening, and the inside is a breeding room 13. The front opening is an entrance 14, and a glass door 15 is attached to the entrance 14 so as to be openable and closable. ing. In the breeding room 13, a shelf network 16 is mounted over a plurality of stages.

  A cooler chamber 17 is formed in the lower portion of the main body 10. A suction port 18 is opened at a position on the front side of the upper surface wall 23 of the cooler chamber 17, and a blower outlet 19 is opened at the back side. A cooler 20 (evaporator) is placed in the cooler chamber 17. And the internal fan 21 are installed side by side. On the other hand, the machine room 24 is provided with a refrigeration apparatus 30 comprising a compressor 25, a condenser 27 with a condenser fan 26, and the like, and the refrigeration apparatus 30 and the cooler 20 are circulated and connected by a refrigerant pipe 29. The refrigeration cycle is configured.

  Further, as shown in FIG. 1, a circulation fan 31 is attached to the right corner of the breeding room 13 as viewed from the front, as viewed from the front. By driving this circulation fan 31, the arrow a in FIG. As shown, a circulation path W is configured such that the air in the cabinet circulates and flows leftward along the ceiling surface, downward along the left side surface, right along the bottom surface, and upward along the right side surface. It has become so. Further, a heater 22 is provided in the vicinity of the cooler. Further, a filter (not shown) is detachably attached to the inside opening of the suction port 18 and the air outlet 19 to prevent the insect pest F and foreign matter from entering the cooler chamber 17. .

  During the cooling operation, when the refrigeration apparatus 30 (compressor) and the internal fan 21 are driven, the lower air on the front side of the breeding room 13 is cooled from the suction port 18 to the cooler, as shown by the arrow b in FIG. Cold air is generated by heat exchange while being drawn into the chamber 17 and passing through the cooler 20 from the front side to the rear side in the figure, and the cold air is blown out from the blowout port 19 toward the ceiling surface 13A of the breeding room 13. It is then circulated so that it is directed to the front side. At the same time, as the circulation fan 31 is driven, the cool air is circulated along the circulation path W, and the inside of the breeding room 13 is cooled.

  On the other hand, during the heating operation, the heater 22 is energized in place of the refrigeration apparatus 30 and the internal fan 21 is driven, so that hot air is generated while the air drawn from the internal side passes through the heater 22. The warm air circulates and circulates as shown in the direction of the arrow b in FIG. 2, and the warm air is circulated and circulated along the circulation path W as the circulation fan 31 is driven. Is to be heated.

  Although a detailed description is omitted, the storage body 10 is equipped with a temperature control device for controlling the temperature in the storage, and is detected by the internal temperature sensor 32 to be higher than a predetermined set temperature. On the contrary, when the temperature is lower than the set temperature, the heating operation is executed, and the inside of the refrigerator is maintained substantially at the set temperature. When used as a breeding cabinet, the set temperature in the cabinet is arbitrarily set within a range of 15 ° C to 25 ° C, for example. Thermostat control and microcomputer control are applied to the temperature control.

  By the way, as will be described in detail later, it is inevitable that the flying pest F (see FIG. 3) is generated in the breeding room 13 of this kind. Therefore, an insect capturing device 40 that captures the pest F generated in the breeding room 13 is provided at the position of the left corner of the ceiling of the breeding room 13, in other words, the position facing the circulation fan 31 described above. . As shown in FIG. 3 and FIG. 4, the insect capturing device 40 is roughly assembled with a capturing pan 60 placed on the bottom plate 42 of the casing 41 and a transparent plate 70 supported thereon. This assembly is attached at the position of the left corner, and the insect light source unit 80 is located above the transparent plate 70 and attached to the ceiling surface 13A.

  Specifically, as shown in FIG. 5, the casing 41 is made of a metal plate such as a stainless steel plate, and has a substantially channel shape in which the side plates 43 and 44 are raised from the left and right side edges of the bottom plate 42. Has a depth of more than 80%. The left side plate 43 of the casing 41 is short, while the right side plate 44 is formed to be about three times as tall as the left side plate 43. The right side plate 44 is disposed so as to face the circulation path W constituted by the circulation fan 31 described above, and a window hole 44A in which a large number of vertical slits are arranged at almost the entire width is formed at the center height portion. Has been.

An upper rail receiver 45 that is bent outward at a right angle is formed on the upper edge of the right side plate 44, and a lower rail receiver 46 that is bent outwardly in a narrow gate shape is formed on the upper edge of the left side plate 43, respectively. ing. A mounting plate 47 is formed so as to rise from the center in the width direction at the inner edge of the bottom plate 42.
On the other hand, an upper rail 48 bent into a shallow crank shape is attached to the position of the insect trapping device 40 in the breeding cabinet in a posture along the depth direction on the ceiling surface. A rail 49 is attached in a posture along the depth direction on the left side surface.

In the casing 41, the upper rail receiver 45 of the right side plate 44 is inserted into the stepped portion 48A of the upper rail 48, and the lower rail receiver 46 of the left side plate 43 is inserted into the stepped portion 49A of the side rail 49, respectively. The mounting plate 47 is stopped when the mounting plate 47 hits the back surface 13C, and is fixed by fastening the mounting plate 47 with a screw 47A.
Thus, as shown in FIG. 2, the casing 41 is arranged from the position slightly inside from the entrance / exit 14 of the breeding room 13 to the back surface, and as described above, the right side plate facing the flow direction of the circulation path W. A window hole 44 </ b> A is formed in 44, and the front side surface is open.

A capture pan 60 is placed on the bottom plate 42 of the casing 41 so that it can be taken in and out from the front. Accordingly, the opening on the near side in the casing 41 becomes the entrance / exit 51 of the capture pan 60. The capture pan 60 is made of a transparent or translucent synthetic resin, and has a planar shape slightly smaller than the bottom plate 42 and is formed in a square deep dish shape. When the capture pan 60 is placed on the bottom plate 42, the upper surface of the capture pan 60 is slightly below the upper edge of the left side plate 43 of the casing 41, and the window hole 44 </ b> A provided in the right side plate 44 It stays below the lower edge. A soapy water SW is stretched in the capture pan 60. Since the capture pan 60 is transparent or translucent as described above, the remaining amount of soapy water SW and the amount of captured insect pest F can be visually observed from the front side through the entrance 51.
In addition, a through hole 42 </ b> A that is slightly smaller than the capture pan 60 is opened at the center of the bottom plate 42 of the casing 41.

A transparent plate 70 is mounted at a position above the capture pan 60 in the casing 41. The transparent plate 70 is made of acrylic resin, has a crank shape in plan view, and has a depth dimension slightly shorter than the depth of the window hole 44A and a height substantially equal to the height of the window hole 44A. More specifically, it has a long abutting plate 71 along the depth direction, a support plate 72 that is narrow to the left at the front edge, and a support plate that is wide to the right at the end edge. 73 is formed. Cutout grooves 72 </ b> A and 73 </ b> A are formed at the front end portion of the lower edge of the front support plate 72 and the position near the front end of the lower edge of the back support plate 73, respectively.
On the other hand, in the right side plate 44 of the casing 41, a longitudinal insertion groove 44B into which the back side support plate 73 can be inserted is formed at a position slightly before the back end of the formation region of the window hole 44A. In addition, a shallow insertion groove 46A into which the notch groove 72A of the front support plate 72 can be inserted is formed at a position near the end on the front side of the upper edge of the lower rail receiver 46 of the left side plate 43. .

  Accordingly, in the transparent plate 70, the back support plate 73 is inserted into the insertion groove 44B of the right side plate 44 of the casing 41, the notch groove 73A is fitted to the lower edge of the insertion groove 44B, and the front support plate The notch groove 72 </ b> A of 72 is supported by being fitted into the insertion groove 46 </ b> A of the lower rail receiver 46 of the left side plate 43. At this time, the transparent plate 70 is arranged along the depth direction at a position slightly on the right side of the left side plate 43 with the abutting plate 71 being almost the same height as the window hole 44A, and the catch pan 60 is placed on the bottom plate 42. When this is done, the abutting plate 71 of the transparent plate 70 is arranged immediately above the capture pan 60 at a position slightly on the right side of the left side plate of the capture pan 60.

The insect light source unit 80 has a structure in which an LED base 84 on which LEDs 82 and 83 are mounted side by side is assembled to a mounting bracket 90. The bracket 90 is made of a transparent synthetic resin, and as shown in FIG. 3, the support plate 93 is folded at an acute angle from one edge in the width direction of the mounting plate 91, and the depth of the capture pan 60 described above is formed. It has almost the same length as the direction. When the mounting plate 93 is applied to the ceiling surface 13 </ b> A in a posture along the depth direction of the breeding room 13, the bracket 90 is configured so that the support plate 93 faces obliquely downward to the right.
A support wall 95 is formed to rise at the lower end edge of the support plate 93 of the bracket 90, and a stopper plate 96 is formed to project inward at the back end. On the upper surface of the support plate 91, the base holder 100 is inserted between the folded portion 92 on the left side and the support wall 95, and comes into contact with the stopper plate 96 to be stopped.

The base holder 100 is formed in a strip shape by extrusion molding of a synthetic resin material, and a base housing groove 101 is formed on the lower surface of the central portion in the width direction. Is inserted so that it can be removed from the front side.
Six LEDs 82 and 83 shown in the figure are attached to the LED base 84. The LEDs 82 and 83 are each provided with three ultraviolet LEDs 82 that emit (emit) ultraviolet rays and three white LEDs 83 that emit white light, and as shown in FIG. The UV LED 82 and the white LED 83 are mounted in a state of being paired in three places for convenience.
The wiring (not shown) from the LED base 84 and the power switch 110 is led to the machine room 24 through the insertion passage formed in the back wall, and the middle position of the wiring is divided in the cabinet. Are connected by a connector.

The insect light source unit 80 assembled as described above has a substantially central portion in the opening direction of the casing 41 on the ceiling surface 13A of the breeding room 13 in a state in which the bracket 90 takes a posture along the depth direction of the breeding room 13. It is attached to the corresponding position. At this time, the optical axis L of each LED 82 and 83 is set to be directed to the center height position of the abutting plate 71 in the transparent plate 70. On the other hand, a power switch 110 is mounted on the upper right corner of the front surface of the casing 41. When the power is turned on, the LEDs 82 and 83 mounted on the LED base 84 emit light and illuminate the transparent plate 70. Yes.
The acrylic resin that constitutes the transparent plate 70 has a property of being reflected by being changed to visible light when irradiated with ultraviolet rays. Therefore, when the transparent plate 70 is irradiated with ultraviolet rays, the transparent plate 70 It functions to emit light.

Subsequently, a usage example of the present embodiment will be described. Animals to be reared such as insects and small animals are placed in appropriate breeding cases X, placed on the shelf net 16 and stored in the breeding room 13. In addition, an optimal interior temperature is set according to the breeding object to be bred.
As described above in part, it is unavoidable that flying pests F are generated in the breeding room 13. The pest F is a small fly such as a mushroom fly or a Drosophila, for example, and reproduces by laying eggs on the humic soil or food placed in the breeding case X.

  Therefore, when the storage (branch) is in operation, the power switch 110 is turned on, and the LEDs 82 and 83 provided in the insect light source unit 80 are turned on. As a result, ultraviolet light or white light is emitted, transmitted through the window hole 44A of the right side plate 44 of the casing 41 in a direction opposite to the circulating flow, and diffused, and from the through hole 42A of the bottom plate 42, the capture pan 60 and It passes through the soapy water SW and is scattered around the lower part. Further, the abutting plate 71 of the transparent plate 70 is irradiated with ultraviolet rays, so that the abutting plate 71 emits surface light, and the emitted light is scattered through the window holes 44A and the through holes 42A.

  On the other hand, after the pest F is generated from the breeding case X, it flies irregularly upward due to its nature, and then continues to the unit 80 in response to the emission of ultraviolet light from the insect light source unit 80. To rise further. Since the circulation flow by the circulation fan 31 flows along the ceiling surface 13A when it rises to the vicinity of the ceiling surface 13A, the pest F is riding on the circulation flow and the transparent plate 70 with the most remarkable light emission. Will fly toward the vicinity of the abutting plate 71, enter the inside through the window hole 44 </ b> A of the right side plate 44 of the casing 41, finally hit the abutting plate 71 and fall into the catch pan 60. . Since the soap pan SW is stretched over the catch pan 60 and the surface tension is reduced by using the soap pan SW, the insect pests F are likely to drown and are reliably captured.

Since the capture pan 60 is transparent or translucent, the capture amount can be visually observed from the front side, and when the capture amount reaches a considerable amount, the capture pan 60 is pulled out from the entrance 51 on the front side of the casing 41 and together with the soapy water SW. It can be discarded.
Since the pest F is reduced as described above, the breeding environment is improved, for example, stress on the breeding object is reduced, and work such as frequent replacement of food can be eased.

According to this embodiment, the following many advantages can be obtained.
The flying insect pest F is collected in response to light emission including ultraviolet rays from the light source for attracting insects in the insect trapping device 40, and is dropped and captured in the soapy water SW stretched on the catch pan 60. Here, the insect trapping device 40 is arranged in the circulation path W formed by the circulation fan 31 at one corner of the ceiling portion of the breeding room 13, but the insect pest F has a property of flying upward. In addition to being collected, it is efficiently collected toward the insect trapping device 40 by being placed in the circulating flow. In addition, since the abutting plate 71 of the transparent plate 70 is disposed in the insect capturing device 40 in a posture facing the circulation direction of the circulating flow above the capturing pan 60, the insect pest F is directly applied to the abutting plate 71. There is a high possibility that it will collide with force and fall into the capture pan 60. Furthermore, the surface tension of the capture pan 60 is reduced by using soap water SW, and the fallen insect pest F can be more securely drowned and captured. .

In short, it is a structure in which one insect capturing device 40 is simply installed at one corner of the ceiling of the breeding room 13, and the pest F can be captured efficiently while saving space. In addition, since it is arranged at the corner of the ceiling, it hardly affects the flow of the circulating flow.
It can be said that drying of the inside of the cabinet is very damaging for the animals to be raised, particularly insects such as beetles and stag beetles. However, the soap pan SW 60 is provided on the catch pan 60 provided in the insect catcher 40, and this is natural. Evaporation reduces drying. As described above, the capture pan 60 is transparent or translucent, and the remaining amount can be visually observed from the front side.

Since the capture pan 60 and the transparent plate 70 are accommodated in the casing 41 and assembled, for example, when cleaning the inside of the warehouse, after the capture pan 60 is pulled out from the entrance 51, the mounting plate 47 of the casing 41 is attached. By removing the screw 47A that has been stopped and pulling out the casing 41 along the rails 48 and 49, the entire transparent plate 70 can be taken out of the cabinet. This makes it easy to clean the interior. Even when it is installed again after cleaning, it can be easily performed by performing the reverse operation.
Although assembled, the capture pan 60 can be taken in and out from the entrance 51 on the front side of the casing 41, so that the soap water SW replenishment operation and the captured pest F disposal operation can be easily performed.

The UV LED 82 and the white LED 83 are used as the light source for the insect, and the transparent plate 70 made of acrylic resin, which has received UV light, emits light on the entire surface. Will improve.
Small flies are most sensitive to ultraviolet light, but they also react to white light, and some other flying pests are more sensitive to white light. In the present embodiment, two types of ultraviolet LED 82 and white LED 83 are prepared and arranged alternately, so that they can emit (emit) light in a wide range of wavelengths, and exhibit an insecticidal effect against a variety of flying pests. it can. In addition, by setting the number of LEDs half as white LEDs 83, the amount of ultraviolet radiation can be halved, which is a light source that is gentle to animals and human bodies.
Since the LEDs 82 and 83 have a longer useful life than fluorescent lamps and consume less power, maintenance costs can be reduced.

<Embodiment 2>
FIG. 6 shows Embodiment 2 of the present invention. In the second embodiment, the shapes of the inlet 18A and the outlet 19A provided in the upper wall 23 of the cooler chamber 17 are different from those of the first embodiment. Specifically, the opening area of the outlet 19A is the suction area. It is set to about half that of the mouth 18A. Although not shown, the suction port 18A and the air outlet 19A are equipped with filters, respectively, to prevent the insect pests F and other foreign substances from entering the cooler chamber 17. Further, the circulation fan 31 of the first embodiment is removed. About another structure, it is the same as that of Embodiment 1, Comprising: The duplicate description is abbreviate | omitted by attaching | subjecting the same code | symbol about the site | part which has the same function.

The operation of the second embodiment is as follows. When cold air or hot air is circulated as the internal fan 21 (corresponding to the circulation fan of the present invention) is driven, as shown by the arrow line in FIG. Is large, rises along the back surface 13C, circulates so as to be sucked into the suction port 18A after being diffused appropriately, and the wind is blown out vigorously because the opening area of the blower port 19A is particularly restricted. .
The generated pest F generally has a property of flying upward, but the pest F staying on the lower side also moves to the vicinity of the ceiling at a stretch so as to be caught in the wind blown out from the air outlet 19A. . Since the wind momentum has weakened near the ceiling, this time the pest F is invited by the light emission from the insect light source unit 80 etc., heads for the insect trapping device 40 and similarly strikes the transparent plate 70 etc. vigorously. , Falling into the capture pan 60 and captured.
Other operations and effects are the same as those in the first embodiment.

<Embodiment 3>
FIG. 7 shows Embodiment 3 of the present invention. In the third embodiment, the cold air or hot air circulation method by the cold fan 21 is different from that of the first embodiment.
That is, in the cooler chamber 17, the cooler 20 (heater 22) and the internal fan 21 are arranged side by side, while the suction port 18 is provided at the left end portion of the upper surface wall 23 of the cooler chamber 17 and the right end portion. The air outlets 19 are respectively opened. Therefore, the generated cold air or warm air is, as shown by the arrow in the figure, from the air outlet 19 upward along the right side surface 13D of the breeding room 13, leftward along the ceiling surface 13A, left side surface A circulation path W is formed that flows downward along 13B and travels toward the suction port 18. Therefore, in Embodiment 3, the internal fan 21 corresponds to the circulation fan of the present application.
As in the first embodiment, the insect capturing device 40 is installed at the left corner of the ceiling of the breeding room 13. As a result, the insect capturing device 40 is provided in the upper position in the breeding room 13 and in the circulation path W. The same effect as in the first embodiment can be obtained.

<Embodiment 4>
8 and 9 show Embodiment 4 of the present invention. In the fourth embodiment, changes are mainly made to the shape of the transparent plate 120 made of acrylic resin in the insect trapping device 40 and the arrangement structure of the LED base 84. The following description will focus on the differences from the first embodiment, and portions having the same functions as those in the first embodiment will be denoted by the same reference numerals, and redundant description will be omitted or simplified.
In the fourth embodiment, as shown in FIG. 8, a transparent plate 120 having a cross shape in plan view is inserted into the capture pan 60. Specifically, two long and short plates 121 and 122 each having a length corresponding to the dimension between the inner surfaces in the depth direction of the capture pan 60 and a length corresponding to the dimension between the inner surfaces in the width direction are assembled in a cross shape. And has a height dimension that is slightly more than twice the depth of the capture pan 60.

As shown in FIG. 8, the transparent plate 120 has a lower side closely fitted in the capture pan 60 and an upper side protruding from the upper surface of the capture pan 60. When the capture pan 60 is placed on the bottom plate 42 of the casing 41, the upper side of the long plate 121 of the transparent plate 120 is at a position corresponding to the inside of the window hole 44 </ b> A provided in the right plate 44. It is a prominent setting.
On the other hand, the LED base 84 is arranged on the ceiling surface 13A side of the breeding room 13, but is arranged in a horizontal posture along the depth direction, particularly at a position directly above the long plate 121 in the transparent plate 120. Therefore, the optical axis L1 (FIG. 9) of the ultraviolet LED 82 and the white LED 83 mounted on the LED base 84 is directed downward, and is directed to the upper edge of the long plate 121 in the transparent plate 120.

  Therefore, when the LEDs 82 and 83 are lit, ultraviolet light and white light are emitted, and surface light is emitted by irradiating the transparent plate 120 with ultraviolet light, and these are circulated from the window hole 44A of the right side plate 44 of the casing 41. Can be transmitted in the opposite direction and diffused, and from the through hole 42A of the bottom plate 42, the capture pan 60 and the soapy water SW can be transmitted and scattered to the lower periphery, and the flying pest F can be attracted.

<Embodiment 5>
10 and 11 show Embodiment 5 of the present invention. In the fifth embodiment, further changes are made to the shape of the transparent plate 125 made of acrylic resin, its mounting structure, and the like.
First, the right side plate 44 of the casing 41 is formed with a window hole 44 </ b> C composed of two large square holes at intervals. The transparent plate 125 has a substantially fork shape in plan view, and is formed such that the support plate 126 arranged in the width direction and the long abutting plate 127 arranged in the depth direction are orthogonal to each other, and the left end as viewed from the front. In the position close to each other, the fitting grooves 126C and 127C respectively provided are inserted into each other and assembled in a cross shape. Note that front and rear support plates 128 and 129 that are bent at a right angle to the left are formed at both front and rear ends of the abutting plate 127.
An insertion groove 44D is formed between the two window holes 44C in the right side plate 44 of the casing 41, and the lower rail receiver 46 of the left side plate 43 is provided with a difference between three front and rear end portions and a central portion. An insertion groove 46A is formed.

  The transparent plate 125 has the right end of the support plate 126 inserted into the insertion groove 44D, and the lower edge notch groove 126B is fitted to the lower edge of the insertion groove 44D. The groove 126A and the notched grooves 128A and 129A at the lower edges of the front and rear support plates 128 and 129 are supported by being fitted into the corresponding insertion grooves 46A of the lower rail receiver 46 of the left side plate 43, respectively. At this time, the transparent plate 125 is arranged along the depth direction at a position slightly on the right side of the left side plate 43 with the abutting plate 127 being almost the same height as the window hole 44C, and the catch pan 60 is placed on the bottom plate 42. In this case, the abutting plate 127 of the transparent plate 125 is arranged immediately above the capture pan 60 at a position slightly on the right side of the left side plate of the capture pan 60.

  In the fifth embodiment, since the transparent plate 125 is supported at the casing 41 at four locations, it can be supported in a more stable posture. Further, since the window hole 44C of the right side plate 44 of the casing 41 is formed by two large-sized square holes, the circulation flow of the circulation path W can be smoothly circulated, and from the transparent plate 125 and the like. As a result, it is possible to irradiate the surrounding area with more light, and to attract more pests F gathered in the surrounding area in a circulating flow.

<Embodiment 6>
Next, a sixth embodiment of the present invention will be described with reference to FIGS. In the insect trapping device 240 of the sixth embodiment, the insect light source unit 180 is further assembled to the casing 241 and assembled.
The casing 241 is formed by diagonally assembling an upper case 241A and a lower case 241B, and both the cases 241A and 241B are substantially angled, and are assembled so as to surround the capture pan 260 and the transparent plate 270. (See FIG. 12).

  The casing 241 is directly fixed to the inner wall of the breeding room 13. The lower case 241B has substantially the same shape as the casing 41 of the fifth embodiment, and the right side plate 244 has a window hole 244A formed of two square holes, but the front side window hole 244A is It is formed slightly narrow. An insertion groove 244B is formed between the window holes 244A. A fixing plate 245 is formed by bending at a right angle on the upper edge of the right side plate 244. The left side plate 243 has a height slightly lower than that of the capture pan 260, and a stopper 42B rises at the center of the inner edge of the through hole 42A opened in the bottom plate 42.

  One upper case 241A has an upper surface plate 247 that protrudes from the upper edge of the support plate 249 in a substantially vertical position, and the lower end portion of the support plate 249 protrudes in a step shape inward. The upper surface plate 247 is formed with a mountain-like cross section on the base side and a rising surface 246 that rises at a right angle after the protruding end side takes a horizontal posture. The rising surface 246 comes into contact with the back surface of the upper end portion of the right side plate 244 of the lower case 241B.

Of the chevron-shaped portion of the upper surface plate 247 described above, the illuminating light source unit 180 is provided at the skirt portion of the inclined surface 247A that is inclined downward toward the protruding end side. Insect light source unit 180 is an LED substrate in which the above-described substrate holder 100 is inserted into a transparent synthetic resin cover 181 having a thin rectangular tube shape, and LEDs 82 and 83 are mounted in the substrate receiving groove 101. 84 is inserted so that it can be inserted and removed from the front side. On the other hand, an opening 248 is formed in the bottom portion of the inclined surface 247A over almost the entire length in the depth direction.
As shown in FIG. 12, the insect light source unit 180 is placed on the inclined surface 247A so as to cover the opening 248, and has an elastic pressing plate 252 provided at the center of the upper surface plate 247 in the depth direction in the horizontal plane. Pressed and held.

  The transparent plate 270 has substantially the same shape as the transparent plate 125 in the fourth embodiment, is formed by combining the support plate 276 and the abutting plate 277, and the support plate 276 is a central portion in the depth direction of the abutting plate 277. It is different in that it is arranged slightly closer to the front. A handle 261 is provided on the front side of the capture pan 260.

The insect capturing device 240 is installed as follows, for example. First, the support plate 276 of the transparent plate 270 is temporarily inserted into the insertion groove 244B of the lower case 241B. From this state, the fixing plate 245 of the lower case 241B is applied to the ceiling surface 13A, and the two front and rear portions are fixed by screws 245A.
Next, the upper case 241A with the insect light source unit 180 attached is inserted, and the support plate 249 is applied to the left side surface 13B while the protruding portion 251 at the lower end is placed inside the left side plate 243 of the lower case 241B. At the same time, the top of the upper surface plate 247 is applied to the ceiling surface 13A, and the rising surface 246 is applied to the rear surface of the right side plate 244 of the lower case 241B. In this state, the two front and rear portions of the support plate 249 are fixed with screws 249A. The

Then, the transparent plate 270 is pulled out from the insertion groove 244B until it hits the support plate 249, and the notch groove 276B on the lower edge of the support plate 276 is fitted to the lower edge of the insertion plate 244B. The lower edge and the lower edges of the front and rear support plates 278 and 279 are respectively fitted and supported in insertion grooves 250A cut and formed at three positions in the stepped portion 250 of the support plate 249 of the upper case 241A. At this time, the optical axis L of each LED 82 and 83 is set to be directed to the center height position of the abutting plate 277 in the transparent plate 270.
Then, a catch pan 260 with soap water SW is placed on the bottom plate 42 of the lower case 241B and pushed in until it hits the stopper 42B.
Particularly in the fifth embodiment, since the insect light source unit 180 is assembled to the casing 241 and assembled, the installation work and the like become easier.

<Embodiment 7>
FIG. 15 shows Embodiment 7 of the present invention. In the seventh embodiment, the insect capturing device 140 is placed on the shelf net 16.
The capture pan 160 has the same structure as that of each of the embodiments described above, and fitting grooves 161A and 162A are cut and formed at positions near the left end when viewed from the front on the upper edges of the front and rear side walls 161 and 162. .
A transparent plate 170 is supported on the capture pan 160. The transparent plate 170 has a depth slightly larger than the depth of the capture pan 160, and has a shape in which a mounting plate 172 facing diagonally upward to the right is formed on the upper edge of the abutting plate 171 having a vertical posture, Both front and rear end portions of the lower edge of the abutting plate 171 are inserted into and supported by the fitting grooves 161A and 162A.

An LED base 84 on which LEDs 82 and 83 are arranged is attached to the lower surface of the mounting plate 172. The LED base 84 is mounted by inserting a clip 175 into mounting holes (not shown) provided in both the mounting plate 172 and the LED base 84, and a transparent LED cover 85 is attached to cover the clip 175. Yes.
Such an insect trapping device 140 is placed on the left end of the uppermost shelf 16 in a posture in which the abutting plate 171 of the transparent plate 170 is directly opposed to the circulation path W.

Also in the seventh embodiment, the flying insect pest F is invited to the light emission from the LEDs 82 and 83 and the transparent plate 170, and is directed to the vicinity of the abutting plate 171 of the transparent plate 170 while riding the circulation flow of the circulation path W. It flies, hits the abutting plate 171 vigorously, falls into the soapy water SW stretched on the capture pan 160, and is captured.
The insect trapping device 140 according to the seventh embodiment has a structure in which the LED base 84 is directly attached to the transparent plate 170 and is assembled to the catch pan 160. Therefore, the casing shown in each of the above embodiments is not required. Therefore, the number of parts can be reduced, the cost can be reduced, and since it is only placed on the shelf network 16, it can be easily taken in and out, which is convenient for cleaning.

<Eighth embodiment>
16 and 17 show an eighth embodiment of the present invention.
In the insect trapping device 340 of the eighth embodiment, the catch pan 360 is placed directly on the shelf net 16, while the LED base 84 provided with the LEDs 82 and 83 is attached to a bracket 370 that is hooked on the shelf net 16. It is done. The bracket 370 has a fixed plate 373 bent at a right angle on the upper edge of the vertical plate 372, and a latch plate 371 having a flange 374 formed at the tip at the lower end of the vertical plate 372 is opposite to the bracket 370. It is fixed in a horizontal posture facing side. On the lower surface of the fixed plate 373, the LED base 84 is attached downward and covered with an LED cover 185.

In this way, the bracket 370 to which the LED base 84 is attached is attached by hanging the collar portion 374 of the retaining plate 371 and the lower end portion of the vertical plate 372 over the two shelf bars 16A adjacent to the shelf network 16. At a position close to the right side of the vertical plate 372 of the bracket 370, a capture pan 360 covered with soapy water SW is placed. As shown in FIG. 16, the insect trapping device 340 having such a configuration is disposed at both left and right ends of the uppermost shelf network 16.
In the eighth embodiment, the light of the LEDs 82 and 83 is reflected by the surface of the soapy water SW, and the flying pest F is invited to the reflected light and flies while riding on the circulation flow of the circulation path W, and the bracket 370. After hitting, etc., it falls into the soapy water SW stretched on the capture pan 360 and is captured.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) The water in the capture pan is not limited to soapy water as long as the surface tension is weakened, and may be ordinary water such as tap water.
(2) The material of the transparent plate may be a synthetic resin other than an acrylic resin.
(3) In the above-described embodiment, half of the UV LEDs and the white LEDs are used, but the distribution is arbitrary, and the total number of UV LEDs may be used.
(4) In addition, a fluorescent lamp may be used as the insect light source instead of the LED.
(5) The means for attracting pests may react to the sense of smell.
(6) The present invention is not limited to the breeding box illustrated in the above embodiment, and the present invention is similarly applied to the case where the preservation box is used as a plant growing storage for growing plants or a constant temperature and high humidity storage for storing fresh food. Is possible.

The front view of the storage which concerns on Embodiment 1 of this invention Cross-sectional side view Cross section viewed from the front of the insect trap Cross sectional view Exploded perspective view Side sectional view of the storage according to the second embodiment Sectional drawing seen from the front of the storage according to Embodiment 3 Plan sectional view of insect trapping apparatus according to Embodiment 4 Part of the exploded perspective view Plan sectional view of insect trapping apparatus according to Embodiment 5 Part of the exploded perspective view Sectional drawing seen from the front of the insect trapping device concerning Embodiment 6 Cross sectional view Exploded perspective view Partially cutaway front view of an insect capturing apparatus according to Embodiment 7 Front view of storage according to embodiment 8 Partial cutaway front view of the insect trap

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Storage body 13 ... Breeding room 13A ... Ceiling surface 20 ... Cooler 21 ... Inside fan 22 ... Heater 41, 241 ... Casing 30 ... Refrigeration device 31 ... Circulation fan 40,140,240,340 ... Bug capture device 42A ... through holes 44A, 44C, 244A ... window holes 60, 160, 260, 360 ... capture pans 70, 120, 125, 170, 270 ... transparent plates 71, 127, 171, 277 ... abutment plates 80, 180 ... for insects Light source unit 82 ... UV LED 83 ... White LED 84 ... LED base 90 ... Bracket 100 ... Base holder L, L1 ... Optical axis F ... Pest SW ... Soap water W ... Circulation path X ... Breeding case

Claims (7)

A heat exchanger that cools and / or heats the air in the storage and a circulation fan that circulates the air heat-exchanged by the heat exchanger in the storage body are provided in the storage body composed of a heat insulating box. And a bug trapping device provided at an upper position in the main body of the storage box and at a position substantially opposite to a direction of blowing air from the circulation fan. 2. The storage according to claim 1, wherein the insect trapping device includes a catch pan filled with water below a light source for attracting insects. The storage according to claim 2, wherein a transparent plate is provided below the light source for attracting insects in the insect trapping device so as to face the blowing direction of the wind from the circulation fan. 4. The storage according to claim 3, wherein the insect attracting light source emits ultraviolet light, and the transparent plate is made of acrylic resin. While the capture pan in the insect trapping device is placed on the bottom surface of the casing, the transparent plate is supported above the capture pan in the casing, and on the front surface of the casing 5. A window hole through which an insect can pass is formed in an inlet / outlet through which the catch pan can be taken in and out, on a surface opposite to a direction of blowing air from the circulation fan. Described storage. 6. The storage according to claim 5, wherein the light source for attracting insects can be attached to an upper position of the casing. The stockpile according to any one of claims 2 to 6, wherein soap water is stretched in the catch pan of the insect catching device.

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