JP2010127571A - Engagement heat insulating part, heat insulating structure and method of assembling heat insulating structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide engagement heat insulating parts capable of preventing the deterioration of appearance and reducing manufacturing cost. <P>SOLUTION: The engagement heat insulating part 9 is fitted to an engagement hole of a heat insulating material body covered with first and second outer plates. The engagement heat insulating part 9 includes: an engagement heat insulating part 12 having an engagement face 14 at the outer periphery and comprising a heat insulating material; and an insert metal fitting 13 inserted into and integrated with the engagement heat insulating part 12 and having a cut and raised part 26. The engagement face 14 is engaged with the engagement hole of the heat insulating material body, and the cut and raised part 26 is locked to an engagement hole of the first outer plate. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an engagement heat insulating part used in a hot water system such as a hot water supply device or a heating hot water supply device. Moreover, this invention relates to the heat insulation structure provided with such an engagement heat insulation part, and its assembly method.

  Usually, a hot water storage type hot water supply apparatus is provided with a housing and a hot water storage tank accommodated in the housing, and a heat insulating material is disposed between the housing and the hot water storage tank in order to reduce heat escaping from the hot water storage tank to the outside. Has been.

  After assembling the housing, the hot water storage tank, and the heat insulating material into a product, when the product is transported, if there is a gap between the housing and the heat insulating material, the housing will be unstable during transportation.

  For this reason, in the conventional hot water storage type hot water supply apparatus, the thickness of the heat insulating material is set larger than the design dimension between the housing and the hot water storage tank. (Refer to Unexamined-Japanese-Patent No. 2006-64339 (patent document 1)). Thereby, even if a manufacturing error occurs in the housing or the heat insulating material, a gap is prevented from being generated between the housing and the heat insulating material.

  However, when the conventional hot water storage type hot water supply is assembled, since the thickness of the heat insulating material is larger than the design dimension between the housing and the hot water storage tank, the upper surface and the side surface of the housing are inflated outward.

Therefore, the conventional hot water storage type hot water has a problem in that the beauty is impaired by the assembled body.
Japanese Patent Laying-Open No. 2006-64339 (FIG. 1)

  Therefore, an object of the present invention is to provide an engagement heat insulating part that can prevent the aesthetic appearance from being impaired and that can reduce the manufacturing cost.

  Moreover, the other subject of this invention is providing the heat insulation structure provided with the said engagement heat insulation part, and its assembly method.

In order to solve the above problems, the engagement heat insulating part of the present invention is
While having an engagement surface for the heat insulating material body covered with the outer plate on the outer periphery, an engagement heat insulating portion made of heat insulating material,
It is inserted in the said engagement heat insulation part, and is provided with the insert metal fitting which has an attachment means for attaching to the said outer plate | board.

  When the engagement heat insulating part having the above configuration is arranged between the hot water storage tank and the outer plate, even if a gap is generated between the engagement heat insulating part and the outer plate, by attaching the insert metal fitting to the outer plate by the mounting means The backlash of the outer plate during transportation can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts so that the outer plate does not bulge outward.

  Moreover, since the said engagement heat insulation part has an engagement surface with respect to a heat insulating material main body in an outer periphery, the engagement heat insulating part can be attached to a heat insulating material main body by engaging the engagement surface with a heat insulating material main body.

  Moreover, since the said engagement heat insulation part consists of heat insulating materials, it can prevent that the heat | fever of a hot water storage tank escapes outside.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, the volume of the engagement heat insulation part can be reduced, and a plurality of insert fittings can be inserted into the plurality of engagement heat insulation portions in one step. That is, a plurality of engagement heat insulating portions into which the insert fittings are inserted can be formed at a time.

  Therefore, the engagement heat insulating part has high manufacturing efficiency and can reduce the manufacturing cost.

  Moreover, even if the volume of the heat insulating material main body is reduced, the heat insulating material main body can be increased in volume to obtain a sufficient heat insulating effect between the outer plate and the hot water storage tank.

  In the past (for example, JP-A-2006-64339), if the volume of the heat insulating material is reduced, a sufficient heat insulating effect cannot be obtained between the outer plate and the hot water storage tank, and therefore the heat insulating material cannot be reduced. It was.

In one embodiment of the engagement insulation part,
The engaging surface includes a positioning surface that determines a position between a fitting direction of the engaging heat insulating part with respect to the heat insulating body and a direction orthogonal to the fitting direction.

  When inserting the engagement heat insulation part of the said embodiment in the engagement hole which a heat insulation main body has, the engagement surface of the engagement heat insulation part of an engagement heat insulation part is the insertion direction of the engagement heat insulation part with respect to a heat insulation body. Since the positioning surface for determining the position in the direction orthogonal to the insertion direction is included, the positioning of the engagement heat insulating part with respect to the heat insulating material body is facilitated.

In one embodiment of the engagement insulation part,
The positioning surface includes an inclined surface formed so that the engagement heat insulating portion is tapered.

  When the engagement heat insulating part of the above embodiment is inserted into the engagement hole of the heat insulating material body, the positioning surface includes an inclined surface formed so that the engagement heat insulating portion is tapered. It can be easily inserted into.

In one embodiment of the engagement insulation part,
The engagement heat insulating portion includes a rotation prevention surface that prevents rotation with respect to the heat insulating material body.

  According to the engagement heat insulation part of the said embodiment, since the said engagement heat insulation part contains the rotation prevention surface which blocks | prevents rotation with respect to a heat insulating material main body, it can prevent rotating with respect to a heat insulation part main body.

In one embodiment of the engagement insulation part,
The rotation preventing surface is a D-cut surface provided on the outer peripheral surface of the engagement heat insulating portion.

  According to the engagement heat insulation part of the said embodiment, since the said rotation prevention surface is D cut surface provided in the outer peripheral surface of an engagement heat insulation part, it can form easily.

In one embodiment of the engagement insulation part,
The cross-sectional shape of the engagement heat insulating portion is a substantially trapezoid.

  According to the engagement heat insulation part of the said embodiment, since the cross-sectional shape of the said engagement heat insulation part is substantially trapezoid, an engagement heat insulation part can be pressed and fixed to a heat insulation main body by a wedge action.

In one embodiment of the engagement insulation part,
The engagement heat insulating part has a substantially polygonal cross-sectional shape with a width on the outer plate side smaller than a width on the heat-insulated device side and a stepped side surface.

  According to the engagement heat insulating part of the above embodiment, the engagement heat insulating portion has a substantially polygonal shape with a stepped side surface and a width on the outer plate side that is narrower than a width on the heat insulating device side. In this step, the position of the engagement heat insulating part in the insertion direction can be determined reliably.

In one embodiment of the engagement insulation part,
The attachment means includes a locking portion locked to the outer plate.

  According to the engagement heat insulating part of the above embodiment, since the attachment means includes the locking portion locked to the outer plate, the locking portion is locked to the outer plate, and the rattling of the outer plate during transportation is prevented. A reduction effect can be obtained with certainty.

In one embodiment of the engagement insulation part,
The attachment means includes a screw hole provided in the insert fitting.

  According to the engagement heat insulation part of the said embodiment, since the screw hole is provided in the said insert metal fitting, an insert metal fitting can be easily fixed to an outer plate using the screw screwed in a screw hole. .

The heat insulating structure of the present invention is
The outer plate,
Equipment to be insulated;
A heat insulating material body located between the outer plate and the device to be insulated and having an engagement hole,
The engagement heat insulation of the present invention, wherein the heat insulation material body is fitted into the engagement hole, the engagement surface is engaged with the engagement hole of the heat insulation material body, and the insert fitting is attached to the outer plate. It is characterized by having parts.

  According to the heat insulating structure having the above configuration, even when a gap is generated between the engagement heat insulating part and the outer plate, by attaching the insert metal fitting of the engagement heat insulating part to the outer plate, the play of the outer plate during transportation is reduced. Can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts so that the outer plate does not bulge outward.

  Moreover, since the engagement heat insulation part of the said engagement heat insulation part has the engagement surface which engages with the engagement hole of a heat insulating material main body on the outer periphery, the engagement surface is engaged with a heat insulating material main body, The heat insulating part can be attached to the heat insulating body.

  Moreover, since the said engagement heat insulation part consists of heat insulating materials, it can prevent that the heat | fever of a hot water storage tank escapes outside.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, the volume of the engagement heat insulation part can be reduced, and a plurality of insert fittings can be inserted into the plurality of engagement heat insulation portions in one step. That is, a plurality of engagement heat insulating portions into which the insert fittings are inserted can be formed at a time.

  Therefore, the engagement heat insulating part has high manufacturing efficiency and can reduce the manufacturing cost.

  Moreover, even if the volume of the heat insulating material main body is reduced, the heat insulating material main body can be increased in volume to obtain a sufficient heat insulating effect between the outer plate and the hot water storage tank.

  In the past (for example, JP-A-2006-64339), if the volume of the heat insulating material is reduced, a sufficient heat insulating effect cannot be obtained between the outer plate and the hot water storage tank, and therefore the heat insulating material cannot be reduced. It was.

In the heat insulating structure of one embodiment,
The attachment means includes a screw hole provided in the insert fitting,
The outer plate is provided with a long hole at least partially overlapping the screw hole,
The outer plate is fixed to the heat insulating body through the engagement heat insulating parts by screws screwed into the screw holes through the long holes of the outer plate.

  According to the heat insulating structure of the above embodiment, the outer plate is fixed to the heat insulating material main body through the engagement heat insulating parts by screws screwed into the screw holes through the long holes of the outer plate. Since the hole of the outer plate through which this screw passes is a long hole, even if the position of the screw hole deviates from a predetermined position, the screw can be passed through the long hole and screwed into the screw hole.

In the heat insulating structure of one embodiment,
The attachment means includes a locking portion locked to the outer plate,
The outer plate is provided with a locking hole for locking the locking portion.

  According to the heat insulating structure of the above embodiment, the outer plate is provided with the locking hole for locking the locking portion, so that the locking portion is easily locked to the outer plate.

In the method for assembling the heat insulating structure of the present invention,
Inserting the engagement heat insulating part of the present invention into the engagement hole of the heat insulating material main body, and creating the heat insulating material assembly having the engagement heat insulating part and the heat insulating material main body;
Attaching the heat insulating material assembly to an insulated device; and
A step of covering the heat insulating material assembly with an outer plate and attaching the insert fitting to the outer plate.

  According to the assembling method of the heat insulating structure having the above configuration, first, the engagement heat insulating part is inserted into the engagement hole of the heat insulating material main body, and the heat insulating material assembly having the engagement heat insulating part and the heat insulating material main body is created. And after attaching the said heat insulating material assembly to a to-be-insulated apparatus, while covering a heat insulating material assembly with an outer plate, the insert metal fitting of an engagement heat insulation part is attached to an outer plate.

  Thus, since the insert metal fitting of the said engagement heat insulation part is attached to an outer plate, even if a clearance gap arises between a heat insulating material assembly and an outer plate, the rattle of the outer plate at the time of conveyance can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts and the heat insulating material body so that the outer plate does not bulge outward.

  Moreover, since the engagement heat insulation part of the said engagement heat insulation part has the engagement surface which engages with the engagement hole of a heat insulating material main body on the outer periphery, the engagement surface is engaged with a heat insulating material main body, The heat insulating part can be attached to the heat insulating body.

  Moreover, since the said engagement heat insulation part consists of heat insulating materials, it can prevent that the heat | fever of a hot water storage tank escapes outside.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, the volume of the engagement heat insulation part can be reduced, and a plurality of insert fittings can be inserted into the plurality of engagement heat insulation portions in one step. That is, a plurality of engagement heat insulating portions into which the insert fittings are inserted can be formed at a time.

  Therefore, the engagement heat insulating part has high manufacturing efficiency and can reduce the manufacturing cost.

  Moreover, even if the volume of the heat insulating material main body is reduced, the heat insulating material main body can be increased in volume to obtain a sufficient heat insulating effect between the outer plate and the hot water storage tank.

  In the past (for example, JP-A-2006-64339), if the heat insulating material is made small, a sufficient heat insulating effect cannot be obtained between the outer plate and the hot water storage tank, and therefore the heat insulating material cannot be made small.

In the method for assembling the heat insulating structure of one embodiment,
The attachment means includes a screw hole provided in the insert fitting,
The outer plate is provided with a long hole at least partially overlapping the screw hole,
The outer plate is fixed to the heat insulating body through the engagement heat insulating parts by screws screwed into the screw holes through the long holes of the outer plate.

  According to the method for assembling the heat insulating structure of the above embodiment, the outer plate is fixed to the heat insulating material main body through the engagement heat insulating parts by the screws screwed into the screw holes through the long holes of the outer plate. Since the hole of the outer plate through which this screw passes is a long hole, even if the position of the screw hole deviates from a predetermined position, the screw can be passed through the long hole and screwed into the screw hole.

In the method for assembling the heat insulating structure of one embodiment,
The attachment means includes a locking portion locked to the outer plate,
The outer plate is provided with a locking hole for locking the locking portion,
The outer plate is temporarily fixed to the insert metal fitting by locking the locking portion in the locking hole.

  According to the method for assembling the heat insulating structure of the above embodiment, the outer plate is temporarily fixed to the insert metal fitting by locking the locking portion in the locking hole, so that the screw is inserted into the screw hole through the long hole of the outer plate. When screwing, the outer plate can be prevented from moving with respect to the insert fitting. Therefore, the screw can be easily screwed into the screw hole.

In the method for assembling the heat insulating structure of one embodiment,
Prior to mounting the heat insulating material assembly on a device to be heat-insulated, the engagement heat insulating part is temporarily fixed to the heat insulating material body.

  According to the method for assembling the heat insulating structure of the above embodiment, the engagement heat insulating part is temporarily fixed to the heat insulating material body before the heat insulating material assembly is mounted on the heat insulating device. It is possible to prevent the engagement heat insulating parts from falling off from the heat insulating material body until the heat insulating device is mounted.

In the method for assembling the heat insulating structure of one embodiment,
The engagement heat insulation part is temporarily fixed to the heat insulation body with a tape.

  According to the method for assembling the heat insulating structure of the above embodiment, the temporary fixing of the engaging heat insulating parts to the heat insulating material body is performed with tape, so that it can be easily and inexpensively performed.

  According to the engagement heat insulation part of this invention, even if a clearance gap arises between an engagement heat insulation part and an outer plate, since an insert metal fitting is attached to an outer plate, the play of the outer plate at the time of conveyance can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts so that the outer plate does not bulge outward.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, since the volume of the engagement heat insulation part can be reduced and a plurality of insert metal fittings can be inserted into the plurality of engagement heat insulation portions in one step, the production efficiency is high and the production cost can be reduced.

  According to the heat insulating structure of the present invention, even if a gap is generated between the engagement heat insulating part and the outer plate, the mounting plate of the engagement heat insulating part is attached to the outer plate, so that the outer plate is not loose at the time of transportation. Can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts so that the outer plate does not bulge outward.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, since the volume of the engagement heat insulation part can be reduced and a plurality of insert metal fittings can be inserted into the plurality of engagement heat insulation portions in one step, the production efficiency is high and the production cost can be reduced.

  According to the assembling method of the heat insulating structure of the present invention, since the insert metal fitting of the engaging heat insulating part is attached to the outer plate, even if a gap is generated between the heat insulating material assembly and the outer plate, the play of the outer plate during transportation is reduced. Can be prevented.

  Therefore, it is possible to prevent the appearance from being deteriorated by the assembled outer plate by forming the engagement heat insulating parts and the heat insulating material body so that the outer plate does not bulge outward.

  Moreover, since the said engagement heat insulation part is a different body from a heat insulation main body, the volume of an engagement heat insulation part can be made small, without reducing the volume of a heat insulation main body.

  Therefore, since the volume of the engagement heat insulation part can be reduced and a plurality of insert metal fittings can be inserted into the plurality of engagement heat insulation portions in one step, the production efficiency is high and the production cost can be reduced.

  Hereinafter, the engagement heat insulation part of this invention is demonstrated in detail by embodiment of illustration.

  FIG. 1 is a block diagram of a heating and hot water supply apparatus.

  The heating and hot water supply apparatus includes a heat pump unit 101 and a hot water storage tank apparatus 102 having a substantially cylindrical hot water storage tank 121 for storing hot water heated by the heat pump unit 101. The hot water in the hot water storage tank 121 is supplied to the faucet 103 or supplied to the heating terminal 104 by the heating circulation pump 124. The hot water supplied to the heating terminal 104 releases heat at the heating terminal 104 and returns to the hot water storage tank 121 again. The hot water storage tank 121 is an example of a device to be insulated.

  The heat pump unit 101 includes an electric blower 111, an evaporator 112, a compressor 113, a condenser 114, and an expansion valve 115 provided in a refrigerant circuit. Hot water in the hot water storage tank 121 is supplied to the condenser 114 by a boiling circulation pump 122. Thereby, after the said warm water is heated with the condenser 114, it returns to the hot water storage tank 121 again. Such circulation of hot water continues until the hot water in the hot water storage tank 121 boils.

  In addition to the hot water storage tank 121, the hot water storage tank apparatus 102 includes a boiling circulation pump 122, a control unit 123, and a heating circulation pump 124. The hot water storage tank device 102 reduces heat escaping from the hot water storage tank 121 to the outside from first and second outer plates 3 and 4, a hot water storage tank 121, the heat insulating material body 8, and the engagement heat insulating part 9 described later. It has the heat insulation structure which becomes.

  The hot water storage tank 121 is made of stainless steel, for example, and is accommodated in the casing 1 shown in FIG. The casing 1 includes a top plate 2, a first outer plate 3, a second outer plate 4, a rear plate 5 and a bottom plate 6. The first outer plate 3, the second outer plate 4 and the rear plate 5 are disposed on the peripheral edge of the bottom plate 6, and the top plate 2 is disposed on the first outer plate 3, the second outer plate 4 and the rear plate 5. The The first outer plate 3 is a side portion on one side of the casing 1 and a substantially half portion on one side of the front portion of the casing 1. The second outer plate 4 is a half of the other side of the casing 1 and the other half of the front of the casing 1. A leg portion is connected to the bottom plate 6. The first and second outer plates 3 and 4 are examples of outer plates.

  FIG. 3 is a schematic sectional view taken along line III-III in FIG. FIG. 4 is an exploded perspective view of the heat insulation structure of the hot water storage tank device 102.

  As shown in FIGS. 3 and 4, a heat insulating material assembly 10 including an engagement heat insulating part 9 and a heat insulating material body 8 is disposed between the first and second outer plates 3, 4 and the hot water storage tank 121. ing. The heat insulating material assembly 10 is in close contact with the outer peripheral surface of the hot water storage tank 121 on the front side. Although not shown, a heat insulating material having substantially the same shape as the heat insulating material assembly 10 is disposed between the rear plate 5 and the hot water storage tank 121. This heat insulating material consists of one part and is in close contact with the outer peripheral surface on the rear surface side of the hot water storage tank 121.

  The said heat insulating material main body 8 consists of heat insulating materials, such as glass wool or foamed resin, for example, and has the engagement hole 11 in which the engagement heat insulation part 9 is inserted. The engagement hole 11 is a hole penetrating from the inner surface to the outer surface of the heat insulating body 8.

  FIG. 5 is a schematic perspective view of the engagement heat insulating part 9. FIG. 6 is a schematic cross-sectional view taken along line IV-IV in FIG.

  As shown in FIGS. 5 and 6, the engagement heat insulating part 9 is integrated with an engagement heat insulating portion 12 made of a heat insulating material such as glass wool or foamed resin, and the engagement heat insulating portion 12. And an insert fitting 13.

  An engagement surface 14 is provided on the outer peripheral surface of the engagement heat insulating portion 12. The engaging surface 14 includes a positioning surface 15 and a D-cut surface 16 and engages with the engaging hole 11 of the heat insulating material body 8. The positioning surface 15 includes an inclined surface formed so that the engagement heat insulating portion 12 is tapered, and a position between the insertion direction of the engagement heat insulating part 9 with respect to the heat insulating material body 8 and a direction orthogonal to the insertion direction. Decide. On the other hand, the D-cut surface 16 prevents the engagement heat insulating portion 12 from rotating with respect to the heat insulating material body 8.

  FIG. 7 is a schematic perspective view of the insert fitting 13.

  The insert metal fitting 13 includes a base portion 17 that is mostly exposed from the engagement heat insulating portion 12, a first embedded portion 18, a second embedded portion 19, a third embedded portion 20 and a fourth embedded portion embedded in the engagement heat insulating portion 12. An embedded portion 21 is provided. The first embedded portion 18, the second embedded portion 19, the third embedded portion 20, and the fourth embedded portion 21 are connected to the peripheral portion of the base portion 17 and are opposite to the base portion 17 side of the first and second embedded portions 18 and 19. The first and second retaining portions 22 and 23 are connected to the end portion on the side. The first and second retaining portions 22 and 23 have a substantially trapezoidal shape when viewed from above, and extend in a direction substantially parallel to the exposed surface of the base portion 17.

  The base portion 17 is provided with a guide hole 24, a screw hole 25, and a cut and raised portion 26. The guide hole 24 serves as a guide for determining the position of the insert fitting 13 with respect to the engagement heat insulating portion 12 when the engagement heat insulating part 9 is formed. The screw hole 25 is for fixing the insert fitting 13 to the first outer plate 3. The cut and raised portion 26 is an example of a locking portion.

  Further, as shown in FIG. 8, a substantially elliptical long hole 27 and a cut-and-raised part 26 are locked to the front end portion of the first outer plate 3 in a front view partially overlapping the screw hole 25. A substantially rectangular locking hole 28 is provided in front view.

  Hereinafter, a method for assembling the heat insulation structure of the hot water storage tank apparatus 102 will be described.

  First, as shown in FIG. 9, the engagement heat insulating part 9 is inserted into the engagement hole 11 of the heat insulating material main body 8, and the heat insulating material assembly 10 including the engagement heat insulating part 9 and the heat insulating material main body 8 is created.

  Next, as shown in FIG. 10, the heat insulating material assembly 10 is attached to the hot water storage tank 121 and brought into close contact with the outer peripheral surface of the hot water storage tank 121.

  Next, as shown in FIG. 11, substantially half of the heat insulating material assembly 10 is covered with the first outer plate 3. Then, as shown in FIG. 12, the first outer plate 3 is temporarily fixed to the insert fitting 13 by engaging the cut-and-raised portion 26 of the insert fitting 13 in the engagement hole 28 of the first outer plate 3. Then, the first outer plate 3 is fixed to the insert fitting 13 by inserting the screw 30 into the elongated hole 27 of the first outer plate 3 and screwing the screw 30 into the screw hole 25.

  Finally, as shown in FIG. 13, the remaining substantially half of the heat insulating material assembly 10 is covered with the second outer plate 4. Then, the front end of the second outer plate 4 is fixed to the front end of the first outer plate 3 with a screw (not shown).

  Thus, the cut-and-raised portion 26 of the insert metal fitting 13 of the engagement heat insulating part 9 is locked in the locking hole 28 of the first outer plate 3, and the front end of the second outer plate 4 is connected to the first outer plate. 3, even if a gap is generated between the heat insulating material assembly 10 and the first and second outer plates 3, 4, the first and second outer plates 3, 4 at the time of transportation are fixed. The rattle can be prevented.

  Accordingly, the engagement heat insulating part 9 and the heat insulating material body 8 are formed so that the first and second outer plates 3 and 4 do not swell outward, and the first and second outer plates 3 and 4 after assembly are aesthetically pleasing. Can be prevented from decreasing.

  Moreover, since the engagement heat insulation part 12 of the said engagement heat insulation part 9 has the engagement surface 14 engaged with the engagement hole 11 of the heat insulation main body 8 on an outer periphery, the engagement surface 14 is attached to the heat insulation main body 8. The engagement heat insulating portion 12 can be attached to the heat insulating material body 8 by being engaged.

  Moreover, since the said engagement heat insulation part 12 consists of heat insulating materials, it can prevent that the heat | fever of the hot water storage tank 121 escapes outside.

  Although the volume of the engagement heat insulating part 9 is smaller than the volume of the heat insulating body 8, the engagement heat insulating part 9 and the heat insulating body 8 are combined to form the heat insulating assembly 10. A sufficient heat insulating effect can be obtained between the plates 3 and 4 and the hot water storage tank 121.

  Moreover, since the volume of the said engagement heat insulation part 9 is smaller than the volume of the heat insulation main body 8, the some insert metal fitting 13 can be inserted in the several engagement heat insulation part 12 at 1 process. That is, a plurality of the engagement heat insulating parts 9 can be formed at a time.

  Therefore, the engagement heat insulating part 9 has high manufacturing efficiency and can reduce the manufacturing cost.

  Moreover, when the said heat insulating material assembly 10 is produced, the engagement surface 14 of the engagement heat insulation part 12 of the engagement heat insulation part 9 is orthogonal to the insertion direction of the engagement heat insulation part 9 with respect to the heat insulating material main body 8, and the insertion direction. Since the positioning surface 15 for determining the position with respect to the direction to be included is included, the engagement heat insulating part 9 can be easily positioned with respect to the heat insulating material body 8.

  Therefore, the production time of the heat insulating material assembly 10 can be shortened.

  Moreover, since the said engagement heat insulation part 12 is formed so that it may become tapered, the engagement heat insulation part 9 can be easily inserted into the engagement hole 11.

  Further, since the D-cut surface 16 is provided on the outer peripheral surface of the engagement heat insulating portion 12, it is possible to prevent the engagement heat insulating part 9 from rotating with respect to the heat insulating material body 8.

  Therefore, after the heat insulating material assembly 10 is formed, the engagement heat insulating part 9 can be rotated with respect to the heat insulating material main body 8 so that the position of the screw hole 25 does not greatly deviate from a predetermined position.

  Moreover, since the said D cut surface 16 can be easily formed in the outer peripheral surface of the engagement heat insulation part 12, the manufacturing process of the engagement heat insulation part 12 does not become complicated.

  Since the insert fitting 13 is provided with a screw hole 25, the insert fitting 13 can be easily fixed to the first outer plate 3 by using a screw 30 screwed into the screw hole 25.

  In addition, since a long hole 27 that partially overlaps the screw hole 25 is provided at the front end of the first outer plate 3, even if the position of the screw hole 25 is deviated from a predetermined position, the long hole The screw 30 can be screwed into the screw hole 25 by overlapping a part of the screw 27 on the screw hole 25.

  Further, the first outer plate 3 is temporarily fixed to the insert fitting 13 by engaging the cut and raised portion 26 of the insert fitting 13 in the engagement hole 28 of the first outer plate 3. Can be maintained over the screw hole 25.

  Therefore, the screw 30 can be easily threaded into the screw hole 25 through the elongated hole 27.

  In the above embodiment, the engagement heat insulating part 9 is inserted into the engagement hole 11 of the heat insulating body 8. However, as shown in FIG. 15, the engagement heat insulating part 209 is inserted into the engagement hole 211 of the heat insulating body 208. It may be inserted.

  The said engagement heat insulation part 209 has the engagement heat insulation part 212 which consists of heat insulating materials, such as glass wool or a foamed resin, for example, and the insert metal fitting 13 inserted in this engagement heat insulation part 212 and integrated.

  An engagement surface 214 that engages with the engagement hole 211 of the heat insulating material body 208 is provided on the outer peripheral surface of the engagement heat insulating portion 212. And the cross-sectional shape of the said engagement heat insulation part 212 is a substantially trapezoid. Thereby, the engagement heat insulation part 212 can be pressed and fixed to the heat insulation main body 208 by wedge action.

  The first outer plate 3, the second outer plate 4, the insert fitting 13 and the hot water storage tank 121 in FIG. 15 are the same as the first outer plate 3, the second outer plate 4, the insert fitting 13 and the hot water storage tank 121 in FIG. Since it is a thing, it abbreviate | omits description. Further, a D-cut surface may be provided on the outer peripheral surface of the engagement heat insulating portion 212.

  Alternatively, as shown in FIG. 16, an engagement heat insulating part 309 may be fitted into the engagement hole 311 of the heat insulating material main body 308.

  The engagement heat insulating part 309 includes, for example, a heat insulating material such as glass wool or foamed resin, an engagement heat insulating portion 312 to be the insert metal fitting 13 and the hot water storage tank 121, and an insert that is inserted into and integrated with the engagement heat insulating portion 312. And a metal fitting 13.

  The engagement heat insulating portion 312 has a substantially polygonal cross section, and the width on the first and second outer plates 3 and 4 side is narrower than the width on the hot water storage tank 121 side. A stepped engagement surface 314 that engages with the engagement hole 311 of the heat insulating material main body 308 is provided on the outer peripheral surface of the engagement heat insulating portion 312. As a result, the position of the engagement heat insulating part 309 in the insertion direction can be reliably determined at the step of the engagement surface 314.

  The first outer plate 3, the second outer plate 4, the insert fitting 13 and the hot water storage tank 121 in FIG. 16 are the same as the first outer plate 3, the second outer plate 4, the insert fitting 13 and the hot water storage tank 121 in FIG. Since it is a thing, it abbreviate | omits description. Further, a D-cut surface may be provided on the outer peripheral surface of the engagement heat insulating portion 312.

  In short, the shape of the engagement heat insulation part of the engagement heat insulation part of the present invention is not limited to the above embodiment, and can be various shapes. For example, the outer peripheral surface may be a conical surface or a pyramid surface. However, the shape may be a combination of a relatively small diameter cylinder and a relatively large diameter cylinder.

  In the above embodiment, the D-cut surface 16 is provided on the outer peripheral surface of the engagement heat insulating portion 12. However, for example, an uneven surface is provided instead of the D cut surface 16, so that the engagement heat insulating portion 12 is in contact with the heat insulating material body 8. May be prevented from rotating.

  In the above embodiment, before the heat insulating material assembly 10 is mounted on a device to be heat-insulated, the engagement heat insulating part 9 is temporarily fixed to the heat insulating material main body 8 with an adhesive tape 29 as an example of a tape as shown in FIG. May be.

  As described above, when the adhesive tape 29 is temporarily fixed, the engagement heat insulating part 9 can be prevented from falling off the heat insulating material body 8 even if the heat insulating material assembly 10 is moved to be attached to the device to be heat-insulated. it can.

  Moreover, when the engagement heat insulation part 9 is temporarily fixed to the said heat insulating material main body 8 with the adhesive tape 29, the temporary fixing can be performed simply and cheaply.

  Further, the temporary fixing of the engagement heat insulating part 9 to the heat insulating material body 8 may be performed with an adhesive or a stapler in addition to the adhesive tape 29.

  Further, in the above embodiment and the like, the heat insulating material disposed between the rear plate 5 and the hot water storage tank 121 may be formed of two parts like the heat insulating material assembly 10. The configuration of one of the two parts may be the same as that of the heat insulating body 8 and the configuration of the other of the two parts may be the same as that of the engagement heat insulating part 9.

  Moreover, in the said embodiment, although the heat insulating material assembly 10 which consists of the engagement heat insulation part 9 and the heat insulating material main body 8 was covered with the two 1st, 2nd outer plates 3 and 4, one sheet or two or more sheets are outside. You may make it cover with a board.

  Moreover, in the said embodiment, although the engagement heat insulation part 9 which has the insert metal fitting 13 attached to the front part of the casing 1 was used, the engagement heat insulation part which has the insert metal fitting attached to the side part or rear part of the casing 1 is used. It may be used.

  Moreover, in the said embodiment, although one engagement heat insulation part 9 has been arrange | positioned inside the front part of the casing 1, you may arrange | position several engagement heat insulation parts inside the front part of the casing 1. One or a plurality of engaging heat insulating parts may be arranged inside the side portion or the rear portion of the casing 1.

  Moreover, in the said embodiment, although the screw hole 25 and the cut-and-raised part 26 were provided in the base 17 of the insert metal fitting 13, you may make it not provide one of the screw hole 25 and the cut-and-raised part 26. .

  That is, the insert metal fitting of the engagement heat insulation part of this invention should just have at least one of a screw hole and a cut-and-raised part.

FIG. 1 is a block diagram of a heating and hot water supply apparatus. FIG. 2 is a schematic perspective view of the hot water storage tank apparatus. FIG. 3 is a schematic sectional view taken along the line III-III in FIG. FIG. 4 is an exploded perspective view of a heat insulating structure according to an embodiment of the present invention. FIG. 5 is a schematic perspective view of an engagement heat insulating part according to an embodiment of the present invention. 6 is a schematic cross-sectional view taken along the line IV-IV in FIG. FIG. 7 is a schematic perspective view of the insert fitting. It is a schematic enlarged view of the front-end part of the 1st outer plate | board of FIG. FIG. 9 is a process diagram of the method for assembling the heat insulating structure. FIG. 10 is a process diagram of the method for assembling the heat insulating structure. FIG. 11 is a process diagram of the method for assembling the heat insulating structure. FIG. 12 is a process diagram of the method for assembling the heat insulating structure. FIG. 13 is a process diagram of the method for assembling the heat insulating structure. FIG. 14 is a process diagram of another assembling method of the heat insulating structure. FIG. 15 is a schematic cross-sectional view of a modified example of the heat insulating structure. FIG. 16 is a schematic cross-sectional view of a modified example of the heat insulating structure.

Explanation of symbols

3 First outer plate 4 Second outer plate 8, 208, 308 Thermal insulation body 9, 209, 309 Engagement thermal insulation part 10 Thermal insulation assembly 11, 211, 311 Engagement hole 12 Engagement thermal insulation part 13 Insert metal fittings 14, 214 , 314 Engagement surface 15 Positioning surface 16 D cut surface 25 Screw hole 26 Cut-and-raised part 27 Long hole 28 Locking hole 29 Adhesive tape 30 Screw 121 Hot water storage tank

Claims (17)

The outer surface (3, 4) has an engagement surface (14, 214, 314) with respect to the heat insulating material body (8, 208, 308) on the outer periphery, and an engagement heat insulating portion (12, 212, 308) made of heat insulating material. 312),
Insert metal fittings (13) having attachment means (25, 26) for being attached to the outer plate (3) while being integrated with the engagement heat insulating portions (12, 212, 312). Engagement insulation parts characterized by that. In the engagement heat insulation part according to claim 1,
The engagement surface (14, 214, 314) includes a fitting direction of the engagement heat insulating part (9, 209, 309) with respect to the heat insulating material body (8, 208, 308) and a direction orthogonal to the fitting direction. The engagement heat insulation part characterized by including the positioning surface (15) which determines the position of. In the engagement heat insulation part according to claim 2,
The engagement heat insulating part, wherein the positioning surface (15) includes an inclined surface formed so that the engagement heat insulating portion (12, 212, 312) is tapered. In the engagement heat insulation part as described in any one of Claim 1 to 3,
The engagement heat insulation part (12, 212, 312) includes a rotation prevention surface (16) for preventing rotation with respect to the heat insulation body (8, 208, 308). In the engagement heat insulation part of Claim 4,
The engagement heat insulation part, wherein the rotation prevention surface (16) is a D-cut surface (16) provided on an outer peripheral surface of the engagement heat insulation portion (12, 212, 312). In the engagement heat insulation part as described in any one of Claim 1 to 5,
The engagement heat insulation part, wherein the engagement heat insulation portion (212) has a substantially trapezoidal cross section. In the engagement heat insulation part as described in any one of Claim 1 to 5,
The engagement heat insulating part (312) has a substantially polygonal shape with a stepped side surface with a width on the outer plate (3) side narrower than a width on the heat-insulated device (121) side. Engagement insulation parts. In the engagement heat insulation part as described in any one of Claim 1-7,
The engagement heat insulating part, wherein the attachment means (25, 26) includes a locking portion (26) locked to the outer plate (3). In the engagement heat insulation part as described in any one of Claim 1 to 8,
The engagement heat insulating part, wherein the attachment means (25, 26) includes a screw hole (25) provided in the insert fitting (13). Outer plates (3, 4),
Insulated equipment (121),
A heat insulation body (8, 208, 308) located between the outer plate (3, 4) and the device to be insulated (121) and having engagement holes (11, 211, 311);
The heat insulating body (8, 208, 308) is inserted into the engagement holes (11, 211, 311), and the engagement surface (14, 214, 314) is inserted into the heat insulating body (8, 208, 308). 10, and the insert fitting (13) is attached to the outer plate (3), and the engagement fitting according to any one of claims 1 to 9. A heat insulating structure characterized by comprising a combined heat insulating part (9, 209, 309). In the heat insulation structure according to claim 10,
The attachment means (25, 26) includes a screw hole (25) provided in the insert fitting (13),
The outer plate (3) is provided with a long hole (27) at least partially overlapping the screw hole (25),
The outer plate (3) is engaged with the heat insulating parts (9, 209, 309) by screws (30) screwed into the screw holes (25) through the long holes (27) of the outer plate (3). A heat insulating structure characterized in that it is fixed to the heat insulating material body (8, 208, 308) via a wire. In the heat insulation structure according to claim 10 or 11,
The attachment means (25, 26) includes a locking portion (26) locked to the outer plate (3),
The heat insulating structure, wherein the outer plate (3) is provided with a locking hole (28) for locking the locking portion (26). The engagement heat insulating part (9, 209, 309) according to any one of claims 1 to 9 is inserted into the engagement hole (11, 211, 311) of the heat insulating body (8, 208, 308). A step of creating a heat insulation assembly (10) having the engagement heat insulation parts (9, 209, 309) and the heat insulation body (8, 208, 308);
Attaching the thermal insulation assembly (10) to a device to be insulated (121);
A method of assembling a heat insulating structure, comprising: covering the heat insulating material assembly (10) with an outer plate (3, 4) and attaching the insert fitting (13) to the outer plate (3). In the method of assembling the heat insulating structure according to claim 13,
The attachment means (25, 26) includes a screw hole (25) provided in the insert fitting (13),
The outer plate (3) is provided with a long hole (27) at least partially overlapping the screw hole (25),
The outer plate (3) is screwed into the screw hole (25) through the elongated hole (27) of the outer plate (3), and the outer plate (3) is engaged with the engagement heat insulating parts (9, 209, 309). A method for assembling a heat insulating structure, characterized in that the heat insulating structure is fixed to the heat insulating material body (8, 208, 308) via a wire. In the assembly method of the heat insulation structure of Claim 13 or 14,
The attachment means (25, 26) includes a locking portion (26) locked to the outer plate (3),
The outer plate (3) is provided with a locking hole (28) for locking the locking portion (26),
A method for assembling a heat insulating structure, wherein the outer plate (3) is temporarily fixed to the insert fitting (13) by locking the locking portion (26) in the locking hole (28). In the assembly method of the heat insulation structure as described in any one of Claim 13-15,
Before attaching the heat insulating material assembly (10) to the heat-insulated device (121), temporarily fastening the engaging heat insulating parts (9, 209, 309) to the heat insulating material body (8, 208, 308). A method for assembling a heat insulating structure. The method of assembling a heat insulating structure according to claim 16,
A method for assembling a heat insulating structure, characterized in that the engagement heat insulating parts (9, 209, 309) are temporarily fixed to the heat insulating body (8, 208, 308) with a tape (29).

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