JP3735509B2 - Cold storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a low-temperature storage, and more particularly to a low-temperature storage that can easily and reliably constitute a structure effective for preventing dew condensation near the packing attached to the lower end of a heat-insulating door.
[0002]
[Prior art]
  Conventionally, when a low temperature storage has an opening up to the floor surface, a sliding rubber having a lower end slidably in contact with the floor surface is used at the lower end of the heat-insulating opening / closing door in order to ensure hermeticity when the door is closed. . Moreover, since it is necessary to ensure heat insulation, the sliding rubber of the heat insulating opening / closing door has a multiple structure, and it is general that a heat insulating space is provided between the sliding rubbers.
[0003]
  For example, in Japanese Utility Model Publication No. 58-51173, a plurality of heat insulating spaces are formed between the lower surface of the opening by a sealing packing attached to the lower surface of the opening / closing door, and a heater for heating the sealed air is formed on the lower surface of the opening. The buried storage is listed.
  This seals and insulates the lower surface of the opening and prevents condensation and freezing on the lower surface of the opening by a heater embedded in the lower surface of the opening.
[0004]
  Also, as disclosed in Japanese Utility Model Publication No. 62-9080, the door is slightly higher than the floor surface of the floor panel, and the lower end of the pair of front and back rubbers attached to the lower part of the door is the floor. An assembly type refrigerator is described in which a heat insulating space is formed by sliding contact with a panel, and a dew proof heater embedded in a floor panel is opposed to the heat insulating space.
  This seals and insulates the lower edge of the opening at the time of closing, and prevents condensation and freezing on the sliding rubber at the lower edge of the opening by a dew-proof heater embedded in the floor panel facing the heat insulating space. is there. Furthermore, since the dew-proof heater is embedded in the floor panel, no work is required to embed the heater on the refrigerator ground surface.
[0005]
  In addition, conventionally, as a wiring method along a heat insulating panel such as a heat insulating opening / closing door, after wiring along the panel surface or the side surface of the panel, a method of covering the wiring portion with a decorative board, Generally, a method of burying a PVC pipe and passing a wire through the pipe is common.
[0006]
[Problems to be solved by the invention]
  However, in the conventional storage shown in Japanese Utility Model Publication No. 58-51173, in order to prevent dew condensation and freezing on the lower surface of the opening, heat insulation formed between the lower surface of the opening and the sealing packing attached to the lower surface of the opening / closing door. It is necessary to embed a heater for warming the air sealed in the space. In an environment where embedment is not possible, it is impossible to install the storage itself, and workability such as replacement when assembling or malfunction such as disconnection is not possible. It is bad and there is a problem that it requires a lot of man-hours. Moreover, since the heater is embedded, heating to the heat insulation space must be indirect heating, and there is a problem that heating efficiency is poor.
[0007]
  In the conventional assembly type refrigerator disclosed in Japanese Utility Model Publication No. 62-9080, the dew proof heater is a floor facing a heat insulating space formed by a pair of sliding rubber and a floor panel attached to the lower part of the door. Because it is embedded in the panel, it is not necessary to embed it on the installation surface, but in order to warm the heat insulation space formed when the door is closed, a floor panel with a dew-proof heater embedded in the refrigerator opening along the door It is necessary to install. Accordingly, there is a problem that a step from the refrigerator grounding surface is formed in the opening portion, and an operator is tripped when the stored article is transported, or the use of the transport vehicle is hindered. In addition, since the heater is embedded in the floor panel, there is a possibility that the heater may be displaced or disconnected when the panel is filled with a heat insulating material. Furthermore, there are problems similar to those described above in that workability at the time of assembly or replacement is poor and a large number of man-hours are required for the work, and the heating efficiency by indirect heating is bad. In particular, the heater is embedded in the heat insulating material of the floor panel, and the heating efficiency is poor due to the heat insulating effect of the heat insulating material.
[0008]
  Furthermore, among conventional wiring methods along a heat insulating panel such as a heat insulating door, a method for blinding the wiring portion along the side surface of the panel with a decorative plate, a special wiring for the side edge of the heat insulating door is used. This is a problem because the members are installed and the appearance of the installation is poor, and troubles such as disconnection and short circuit may occur. Also, in the method of passing the wiring through the PVC pipe embedded inside the panel, the bending curvature of the bending member of the PVC pipe is small, so that the wiring is difficult to pass, and the workability is poor. In order to prevent the occurrence of bending and deformation, it is necessary to install a support member, which is not preferable because it causes an increase in the number of assembly parts and an increase in the number of assembly steps. Furthermore, although PVC pipes are flame retardant, there is a risk that toxic gases and the like may be generated at the time of combustion, and when treated as waste, the impact on the environment becomes a problem, resulting in an increase in disposal costs. is there.
[0009]
  The present invention was made to solve the problems of the prior art, and is handled when the lower end of the opening is sealed and insulated by the heat insulating space surrounded by the sliding rubber and the sliding rubber at the lower end of the heat-insulating door. It is an object of the present invention to provide a low-temperature storage having a heater part that can improve the heating efficiency of the heat insulation space and at the same time improve the assembly quality and the mounting workability without deteriorating the performance.
[0010]
[Means for Solving the Problems]
  In order to achieve the above object, a low-temperature storage according to claim 1 is provided with a heat insulating box that is surrounded by a heat insulating panel and has an opening extending at one side to the floor, and the opening is opened and closed. A sliding rubber that is in sliding contact with the floor surface to seal and insulate the lower end of the opening when closed, and a heat-insulating door that has a heat insulating space formed by the sliding rubber and the floor surface at the lower end. In a cold storage withA plate-like body that is fixed to the lower end portion of the heat-insulating opening / closing door and has excellent thermal conductivity, and a heater wire that is disposed on the surface of the plate-like body on the heat-insulating space side and can directly heat the heat-insulating space. And a heater part having the following.
[0011]
  In the low-temperature storage according to claim 1, a heat insulating box is formed by surrounding the periphery with a heat insulating panel, and an opening is formed on one side surface to the floor surface. The lower end of the heat-insulating door that opens and closes the opening has a heat insulating space formed by a sliding rubber for sealing the lower end of the opening, a sliding rubber for heat insulation, and a floor surface. Opposite this insulation space,A plate-like body that is fixed to the lower end portion of the heat-insulating opening / closing door and has excellent thermal conductivity, and a heater wire that is disposed on the surface of the plate-like body on the heat-insulating space side and can directly heat the heat-insulating space. And a heater portion havingThe air in the insulation space is directly heated.
[0012]
  That is,The air in the heat insulation space can be directly heated by the heater wire, and the heater wire isAt the lower end of the insulated doorSince the plate-like body that is fixed on one surface and is excellent in thermal conductivity is disposed on the surface on the heat insulating space side, the area facing the heat insulating space is widened. Moreover, this plate-shaped body is excellent in heat conductivity, and the whole plate-shaped body is heated by the heater wire. Therefore, since the air in the heat insulation space can be directly heated by the heater section, the heating efficiency is further improved, and the heating speed is also improved, so that quick heating is possible. It is possible to provide a heater unit with excellent performance, and it is possible to prevent condensation, freezing, and the like that occur near the sliding rubber at the lower end of the heat-insulating opening / closing door efficiently and quickly.In addition, since it is not necessary to embed in the installation floor surface, the installation environment is not affected by the environment of the floor surface, and the assembly workability of the heater unit is improved during assembly or replacement of the heater unit. Furthermore, since it is not necessary to embed in the heat insulation panel, unnecessary stress is not applied to the heater portion, and there is no occurrence of positional deviation or disconnection of the heater portion. In addition, since the heater part is attached to the heat-insulating door, there is no step in the refrigerator opening as in the case where a floor panel is provided on the floor and embedded in the floor panel, and is almost the same as the installation surface. Since the opening can be provided as far as possible, it is possible to have excellent workability in use.
[0013]
[0014]
[0015]
[0016]
  Claims2Low temperature storage according to claim1In the low-temperature storage as described above, in the low-temperature storage having a power supply connection part for heating of the heater part on the peripheral edge of the side edge of the heat-insulating opening / closing door, and having a power supply wiring from the power supply connection part to the heater part, The path is a wiring induction pipe embedded in the heat-insulating open / close door and directed from the power supply connection portion to the heater portion.
[0017]
  Claim2In the low-temperature storage according to the above, when supplying the heating power to the heater unit fixed to the lower end of the heat-insulating door, the wiring induction embedded in the heat-insulating door from the heating power connection at the peripheral edge of the side end This is done by wiring placed in the pipe.
[0018]
  As a result, since the power supply wiring to the heater part passes through the inside of the heat insulating door, there is no need to provide a special wiring space at the side end of the heat insulating door or to install a wiring member such as a decorative board. The appearance is improved and the wiring is not exposed to the outside of the door, and troubles such as disconnection and short-circuit can be prevented.
[0019]
  Also,Claim 3The low temperature storage according toClaim 2In the low-temperature storage described in item 1, the wiring induction pipe is formed of a rigid metal member.
[0020]
  Claim 3In the low-temperature storage according to the above, the wiring guide pipe in the heat-insulating opening / closing door through which the power supply wiring to the heater portion passes is made of a rigid metal member.
[0021]
  As a result, the rigidity of the wiring guiding pipe itself does not cause the wiring guiding pipe to be bent or deformed by filling with a heat insulating material, so that a support member for supporting the wiring guiding pipe is not necessary, and the door is reinforced. Since it also has a role as a material, it can reduce the number of assembly parts and assembly man-hours, improve the assembly quality, and also cause troubles such as cutting of internal wiring due to pipe bending etc. do not do.
  In addition, since the wiring induction pipe is made of metal, it has excellent thermal conductivity, and the wiring induction pipe is heated by heat conduction from the connecting portion with the heater, and condensation, freezing, etc. in the pipe It is possible to prevent the wiring installation environment from being overhumid.
  Furthermore, there is no generation of toxic gas or the like due to combustion, so the influence on the environment is not a problem, and the disposal cost can be kept low.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
    DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the low-temperature storage according to the present invention will be described in detail based on FIGS. 1 to 6 with reference to the drawings. FIG. 1 is a perspective view of the low-temperature storage according to the present embodiment. FIG. 2 is an exploded cross-sectional view showing an enlarged end portion of the heat insulating door of the low temperature storage. FIG. 3 is an enlarged right side view of the lower end portion of the heat-insulating door. FIG. 4 is an exploded perspective view showing an assembled state of the sliding rubber and the heater portion. FIG. 5 is a perspective view showing the installation state of the wiring guide pipe in the heat insulating door. FIG. 6 is an exploded perspective view showing, in an enlarged manner, an assembled state of the wiring induction pipe to the end portion on the side of the heat insulating opening / closing door.
[0023]
  In FIG. 1, a low temperature storage 1 has a structure in which a plurality of heat insulation panels 2 are connected to form a ceiling and a side wall, and an opening for carrying in / out a stored item opened up to a floor surface 6 is provided on the front surface. In addition, a heat insulating opening / closing door 3 is attached to the opening so as to be freely opened and closed. The heat insulating opening / closing door 3 is a sliding door and can be opened and closed in a horizontal direction along the opening surface by being covered with a cover 5 and suspended on a rail (not shown). A door packing 21, which will be described later, is attached to the peripheral edge of the door 3, and is tightly attached to the storage side when the door is closed, and is sealed so that cold air in the storage does not leak out. Moreover, since the opening part is opened to the floor surface 6 in the low temperature storage 1 of this embodiment, in order to seal the lower surface of the opening, the sliding rubber 4 is in sliding contact with the floor surface 6 at the lower end of the door 3, and the door is further closed. It is sometimes installed in close contact with the warehouse. The sliding rubber 4 is composed of three layers of vertical pieces 4A, 4B, 4C (see FIG. 3), and two heat insulating spaces 4H closed by the sliding rubber 4, the lower end of the door 3 and the floor surface 6, 4I (see FIG. 3), and also has a heat insulating effect at the lower end of the opening. Further, in order to heat the heat insulating space 4H in the sliding rubber 4 and prevent condensation or freezing of the sliding rubber 4 or the like, a heater unit 70 is installed inside the door 3 as will be described later. The power supply wiring for power supply is transferred from the power supply unit 91 disposed on the side wall to the connection box 92 installed at the right end of the door 3 via the external wiring 90.
[0024]
  As shown in FIG. 2, the door frame 3A has a fitting portion 31A for fitting the inner door panel 3B, a fitting portion 32A for fitting the outer door panel 3C, and a packing insertion portion 33A. Furthermore, it is comprised by the accommodation recessed part 34A which accommodates the door packing 21. FIG. When assembling, the inner door panel 3B is fitted to the fitting portions 31A of the four door frames 3A constituting the peripheral edge portion of the door 3, the wiring guide pipe 10 described later is installed, and then the outer door panel 3C is fitted. The heat insulating opening / closing door 3 is configured by being fitted into the attachment portion 32A and filled with a heat insulating material such as urethane foam.
[0025]
Here, the door packing 21 has a three-layer air layer 21B inside, and the insertion portion 21A provided at the bottom of the door packing 21 extends with a predetermined inclination from the tip portion toward the door packing 21 side. The terminal portion has a locking portion 21C for preventing removal. By inserting the insertion portion 21A of the door packing 21 into the packing insertion portion 33A of the door frame 3A and engaging the locking portion 21C with the locking portion 37A of the door frame 3A, the door packing 21 is detached from the door frame 3A. Prevent it from coming out. The door packing 21 mounting portion of the door frame 3A has holding walls 35A, 36A for the door packing 21 at the same distance as the distance from the insertion portion 21A to the door packing 21 on the left and right sides of the packing insertion portion 33A. And constitutes a recess 34 </ b> A for accommodating the door packing 21.
[0026]
  Since the door packing 21 is stored almost exactly in the recess 34A, the side wall of the door packing 21 is supported by the holding walls 35A and 36A, and the door packing 21 is deformed by friction with the packing contact surface on the warehouse side when the door 3 is opened and closed. Can be prevented, and the door packing 21 can be attached and detached along the holding walls 35A and 36A, so that the insertion portion 21A and the packing insertion portion 33A can be easily aligned, and can be attached and replaced. Workability is improved.
[0027]
  As shown in FIG. 3, the sliding rubber 4 has three vertical pieces 4 </ b> A, 4 </ b> B, 4 </ b> C that come into contact with the floor surface 6, and these upper ends are the door frame 3 </ b> A constituting the lower end of the door 3. Are connected to the horizontal part 4G, and two heat-insulating spaces 4H and 4I are formed between the floor part 6 and the horizontal part 4G. Further, it has a step portion 4D for abutting the holding wall 36A of the door frame 3A for positioning at the time of mounting, and a protrusion piece provided on the uppermost portion of the inner surface of the sliding rubber 4 from the step portion 4D. A step portion 4F for maintaining the adhesion with the door packing 21 is formed toward 4E, and the whole is integrally formed.
[0028]
  Of the heat insulating spaces 4H and 4I divided into two chambers, a heater portion 70 is installed across the entire surface of the horizontal portion 4G that comes into contact with the door frame 3A in the heat insulating space 4H outside the warehouse. The air in the heat insulating space 4H is heated. As shown in detail in FIG. 4, the heater unit 70 has a structure in which a metal plate having excellent thermal conductivity is bent as a heater mounting plate 7 into a box shape opened toward the floor surface 6. It is fixed and arranged with an adhesive tape 12 such as an aluminum foil tape. Further, the internal wiring 9 introduced through the sliding rubber 4 and the wiring through holes 41 </ b> A and 7 a of the heater mounting plate 7 for power supply to the heater 8 is connected to the heater 8. Further, the heater portion 70 and the sliding rubber 4 are fixed to the door frame 3A by screws 11 through the horizontal portion 4G of the sliding rubber 4 through the opening 7b provided in the heater mounting plate 7 and through the horizontal portion 4G. At the same time, it is fixed to the door frame 3A.
[0029]
  The heater 8 directly heats the air in the heat insulating space 4H, and the heater mounting plate 7 to which the heater 8 is fixed is made of a metal having good heat conductivity, and is disposed over substantially the entire upper surface of the heat insulating space 4H. Since the facing area can be widened, the air in the heat insulating space 4H can be heated uniformly and quickly, and the heating efficiency is extremely good, and the condensation of the sliding rubber 4 portion is reduced. -Freezing can be efficiently prevented.
  Further, since the heater 8 is attached to the peripheral edge of the lower end of the heat-insulating door 3 and does not need to be buried under the floor surface 6 or the like, the installation environment is not affected by the state of the floor surface 6 or the like. Workability at the time of installation and replacement is greatly improved. Furthermore, stress due to embedding or the like is not applied to the heater 8, and the occurrence of positional deviation or disconnection of the heater 8 can be prevented. In addition, by installing the heater 8 on the heat-insulating door 3 side, there is no restriction on the floor surface 6 side, and a step may be formed in the opening as in the case where a floor panel is provided and embedded in the floor panel. In addition, it is possible to provide the low-temperature storage 1 having excellent workability in the use state.
  Furthermore, since the installation of the heater unit 70 also serves to fix the sliding rubber 4, the number of mounting steps can be reduced.
[0030]
  As shown in FIG. 5, power is supplied to the heater 8 below the sliding rubber 4 by an internal wiring 9 led to a rigid metal wiring guiding pipe 10 embedded in the heat-insulating door 3. . The power supply is led from the power supply unit 91 installed on the wall surface of the low-temperature storage 1 to the heat insulating door 3 through the external wiring 90 to the heat insulating door 3 from the connection box 92 provided on the right side surface of the heat insulating door 3. To the pipe 10 for guiding the wiring. The wiring induction pipe 10 is embedded in the heat-insulating door 3 in advance, and the internal wiring 9 is introduced from the opening on the side surface of the door 3 and led to the heater section 70 below the door 3. The downward bent portion 10A is formed with an arbitrary curvature in accordance with the thickness, number, strength, etc. of the internal wiring 9.
[0031]
  The pipe 10 and the side surface portion of the door 3 are joined by aligning the opening 3D opened in the door frame 3A of the side surface portion of the door 3 with the opening of the pipe 10 and then screwing the door into the screw hole provided in the flange 10B of the pipe 10. 3 openings are aligned and screwed through the connection box terminal 92A. And it connects by connecting the internal wiring 9 in the connection box terminal 92A. The connection box terminal 92A can be opened and closed with a cap 92B for repair.
[0032]
  Since the internal wiring 9 is passed through the inside of the door 3, it is not necessary to provide a special wiring area on the side surface of the door 3 or the like, and the appearance on installation can be improved. Further, the internal wiring 9 is not exposed to the outside of the low-temperature storage 1 and it is possible to prevent the occurrence of disconnection, short circuit, etc. due to external damage.
  Furthermore, since the wiring guiding pipe 10 is embedded in the heat-insulating door 3 in advance, the thickness and number of the internal wiring 9 that uses the curvature of the bent portion 10A of the pipe 10 according to the usage environment of the low-temperature storage 1. If it is set appropriately according to the strength and the like, wiring work during assembly of the low temperature storage 1 and subsequent replacement work can be performed smoothly, and man-hours can be reduced.
  In addition, since the pipe 10 is rigid, the pipe 10 is not bent or deformed even when a heat insulating material is filled when the heat insulating door 3 is assembled without using a support member. Since it also has a role as a reinforcing material for the door 3 due to its rigidity, the number of parts used can be reduced, and the strength of the door 3 can be improved without causing disconnection of the internal wiring 9 due to the bending of the pipe 10. As a result, the assembly quality of the door 3 can be improved. Further, since the pipe 10 is made of metal, the heat conductivity is excellent, and the pipe 10 is heated by heat conduction from the heater portion 70 to prevent dew condensation in the pipe 10. It is possible to prevent deterioration due to excessive humidity. Furthermore, since it can be reused without the possibility of the generation of toxic gases such as conventional PVC pipes, the disposal cost can be greatly reduced.
[0033]
  As described in detail above, in the low temperature storage 1 according to the present embodiment, the sliding rubber 4 provided at the lower end portion of the heat insulating door 3 has three pieces of vertical pieces 4A, 4B, 4C, and the upper end thereof. The portion is coupled to the horizontal portion 4G that contacts the door frame 3A at the lower end portion of the door 3, and is integrally molded to constitute two heat insulating spaces 4H and 4I. And in the heat insulation space 4H, the heater mounting plate 7 excellent in heat conductivity is attached to the heat insulation space 4H across the substantially whole surface of the horizontal part 4G, and the heater 8 is installed in this.
  Therefore, the heater 8 directly heats the air in the heat insulating space 4H, and the heater mounting plate 7 heats the air in the heat insulating space 4H uniformly and quickly, so that the heating efficiency is extremely good. Condensation / freezing of the sliding rubber 4 portion can be efficiently prevented.
  Further, since the heater 8 is attached to the peripheral edge of the lower end of the heat-insulating door 3 and does not need to be buried under the floor surface 6 or the like, the installation environment is not affected by the floor surface 6 and the heater 8 Replacement can be performed with good workability. Further, there is no occurrence of misalignment or disconnection due to stress due to embedding or the like. In addition, there is no restriction on the floor surface 6 side due to the installation of the heater 8, there is no step at the opening, and the low temperature storage 1 excellent in workability in use can be provided.
  Furthermore, since the installation of the heater unit 70 also serves to fix the sliding rubber 4, the number of mounting steps can be reduced.
[0034]
  Furthermore, power is supplied to the heater 8 by the internal wiring 9 led to a rigid metal wiring guiding pipe 10 embedded in the heat-insulating door 3. The pipe 10 is embedded in the heat-insulating door 3 in advance, and guides the internal wiring 9 from the opening on the side surface of the door 3 to the heater portion 70 below.
Therefore, since the internal wiring 9 passes through the door 3, it is not necessary to provide a special wiring area on the side surface of the door 3 or the like, and the appearance on installation can be improved. In addition, the internal wiring 9 is not exposed to the outside of the low-temperature storage 1 and the occurrence of disconnection, short-circuiting, etc. due to external damage can be prevented.
  Furthermore, since the pipe 10 is embedded in the heat-insulating door 3 in advance, the thickness and number of the internal wiring 9 that uses the curvature of the bent portion 10A of the pipe 10 according to the usage environment of the low-temperature storage 1, further strength, etc. If it sets suitably according to, the wiring operation | work at the time of the assembly of the low temperature store | warehouse | chamber 1 and subsequent replacement | exchange operation | work can be performed smoothly, and man-hours can be reduced.
  In addition, since the pipe 10 is rigid, the pipe 10 is not bent or deformed even when a heat insulating material is filled in the door 3 without using a support member or the like. Since it also has a role, the number of parts used can be reduced, the internal wiring 9 is not broken due to the bending of the pipe 10, the strength of the door 3 can be improved, and the assembly quality of the door 3 is also improved. be able to. In addition, since the pipe 10 is made of metal, it has excellent thermal conductivity, and the pipe 10 is heated by heat conduction from the heater unit 70 to prevent dew condensation in the pipe 10. It is possible to prevent deterioration due to being placed in a wet state. Furthermore, since it can be reused without the possibility of the generation of toxic gases such as conventional PVC pipes, the disposal cost can be greatly reduced.
[0035]
  The present invention is not limited to the above-described embodiment, and it goes without saying that various improvements and modifications can be made without departing from the spirit of the present invention. For example, in the present embodiment, the vertical piece of the rubbing rubber 4 has a three-piece configuration 4A, 4B, 4C. However, the configuration is not limited to this configuration, and a multi-layer configuration of three or more pieces may be used. It can also be a piece configuration.
[0036]
  In the present embodiment, the wiring guiding pipe 10 embedded in the heat-insulating door 3 is bent by 90 degrees, but is not limited to this configuration, and has a configuration having an inclined angle. You can also.
[0037]
【The invention's effect】
  According to the present invention, since the heater part for heating the heat insulation space in the sliding rubber is installed at the lower peripheral edge of the heat insulation opening / closing door, the air in the heat insulation space can be directly heated and efficiently slid. It is possible to prevent condensation and freezing near the rubber. In addition, since the heater part is made of a plate with good thermal conductivity and a heater wire attached, the air in the heat insulation space can be heated in a wide facing area, and it can be heated uniformly and quickly. In addition, it is possible to quickly prevent condensation and freezing in the vicinity of the sliding rubber. Furthermore, when this plate-like body is fixed to the peripheral edge of the lower end of the heat-insulating door, the construction is such that the sliding rubber is sandwiched and fixed, so that the assembling work can be performed very simply.
  In addition, since there is no need to embed the heater part, it can be installed regardless of the floor surface environment, and unnecessary stress is not applied to the heater part, preventing occurrence of misalignment or disconnection of the heater part. Is possible. Furthermore, since the heater part is attached to the heat-insulating opening / closing door side, there is no step in the opening part and it is possible to maintain excellent workability in use.
[0038]
  In addition, since a wiring guide pipe is provided in the heat-insulating door as an internal wiring passage to the heater, no special wiring space or decorative panel is required on the side edge of the heat-insulating door, making the installation look good In addition, it is possible to prevent disconnection, short circuit, and the like.
  Furthermore, because of the rigidity of the pipe itself, the pipe does not bend or deform due to the filling of the heat insulating material, so that the pipe support member is not necessary, and it also has a role as a door reinforcing material. It is possible to reduce assembly man-hours and improve assembly quality, and there is no disconnection in the pipe. In addition, since the pipe is made of metal, the pipe is heated by heating from the heater due to its thermal conductivity, so that condensation, freezing, etc. in the pipe can be prevented, and the internal wiring can be protected from excessive humidity. Is possible.
[Brief description of the drawings]
FIG. 1 is a perspective view of a low-temperature storage according to the present embodiment.
FIG. 2 is an exploded cross-sectional view showing an enlarged end portion of a heat insulating door of the low temperature storage.
FIG. 3 is an enlarged right side view of a lower end portion of the heat insulating opening / closing door.
FIG. 4 is an exploded perspective view showing an assembled state of the sliding rubber and the heater unit.
FIG. 5 is a perspective view showing the installation state of the wiring guide pipe in the heat-insulating door.
FIG. 6 is an exploded perspective view showing, in an enlarged manner, an assembled state of the wiring guide pipe to the end portion on the heat insulating opening / closing door side.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Low temperature storage, 3 ... Thermal insulation opening / closing door, 3A ... Door frame, 4 ... Rubbing rubber, 4A, 4B, 4C ... Vertical piece, 4H, 4I ... Thermal insulation space, 7 ... Heater mounting plate, 8 ... Heater, 9 ... Internal wiring, 10 ... Pipe, 10A ... Bending part, 10B ... Flange, 21 ... Door packing, 33A ... Packing insertion part, 34A ... recess, 35A, 36A ... holding wall, 70 ... heater part, 90 ... external wiring

Claims (3)

A heat-insulating box having an opening surrounded by a heat-insulating panel and having a lower end extending to the floor on one side surface;
Opening and closing the opening, and sealing and insulating the lower end of the opening when closed, a sliding rubber that is in sliding contact with the floor, and a heat insulating space formed by the sliding rubber and the floor at the lower end In a low-temperature storage with a heat-insulating door with
A plate-like body that is fixed to the lower end of the heat-insulating door and is excellent in thermal conductivity;
A low-temperature storage, comprising: a heater portion that is disposed on a surface of the plate-like body on the heat insulating space side and has a heater wire that can directly heat the heat insulating space. In the low-temperature storage having a heating power supply connection part of the heater part on the side edge peripheral part of the heat insulation opening and closing door, and having a power supply wiring from the power supply connection part to the heater part,
The low-temperature storage according to claim 1 , wherein the route of the power supply wiring is a wiring induction pipe embedded in the heat insulating opening / closing door and directed from the power supply connection portion to the heater portion. The low-temperature storage according to claim 2, wherein the wiring induction pipe is made of a rigid metal member.

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