CN111043765B - Assembled outer heat-insulation box - Google Patents

Abstract

The invention relates to an assembled outer heat preservation box, which comprises a frame and a heat preservation outer layer wrapped outside the frame; the frame comprises two end brackets which are arranged at intervals; two back vertical rods which are arranged at intervals are fixed between the two end supports, and an installation rod for installing the wall-mounted furnace is fixed between the two back vertical rods; at least one front vertical rod is fixed between the two end brackets. The invention is provided with the combination of the frame and the heat-insulating outer layer, so that the whole frame can be manufactured in engineering, and can also be installed and fixed on a construction site; due to the assembly type property of the frame and the heat preservation outer layer, the wall-mounted furnace can be matched randomly according to the requirements of the site, the wall-mounted furnace can be wrapped, the probability of frost damage of the wall-mounted furnace is reduced, and construction can be facilitated and the construction efficiency is improved.

Description

Assembled outer heat-insulation box

Technical Field

The invention relates to the technical field of wall-mounted furnaces, in particular to an assembled outer heat insulation box.

Background

With the gradual popularization of southern household heating, the wall-mounted boiler is often arranged on an equipment platform or a courtyard. However, in recent years, the wall-mounted boiler is exposed to more and more frost damages, and the use cost is huge. If the stove is placed indoors, although the problem of frostbite of the wall-hanging stove can be solved, a certain space is occupied, and the indoor function is affected. And this solution is not advisable in the face of high rates of housing.

Disclosure of Invention

The invention aims to provide an assembled outer heat insulation box, which achieves the effect of protecting a wall-mounted furnace.

The above object of the present invention is achieved by the following technical solutions:

an assembled outer heat preservation box comprises a frame and a heat preservation outer layer wrapped outside the frame; the frame comprises two end brackets arranged at intervals; two back vertical rods which are arranged at intervals are fixed between the two end supports, and an installation rod for installing the wall-mounted furnace is fixed between the two back vertical rods; at least one front vertical rod is fixed between the two end brackets.

Through adopting above-mentioned technical scheme, during the installation, make the frame in the mill or directly install at the scene, then pass the hanging stove and put into inside the frame to be fixed in on the installation pole. In order to reduce the occupation of the ground space, the wall-mounted stove needs to be installed on the wall, that is to say, the frame needs to be installed on the wall. The heat preservation skin on the back montant covers in the outside of two back montants earlier to utilize the bolt to be fixed in the wall with the back montant on, the bolt passes the heat preservation skin of connecting on the back montant and is squeezed into on the wall. And fixing the rest heat-insulating outer layers outside the frame to insulate the wall-mounted furnace. First, the wall-hanging stove is installed using the installation rod, so that the weight of the wall-hanging stove is transmitted to the frame through the installation rod. And the end support and the back montant of frame are all fixed in on the wall for on the power on the frame can transmit the wall uniformly, thereby reduce the pressure that the wall received, and then carry out certain protection to the wall. Secondly, insulation construction's setting can be protected the inside hanging stove of frame, isolated external and the inside air flow of frame to reduce the probability that hanging stove was frostbitten.

On the construction site, the frame can be installed on site or customized in a factory according to the shape of the wall-hanging stove. That is, the end brackets may be polygonal, such as triangular, quadrilateral, or pentagonal, etc.

The invention is further configured to: the end part support is arranged in a hollow square shape and is formed by welding four rod pieces; the front vertical rods are provided with two, and the back vertical rods and the front vertical rods are welded to four corners of the end support.

Through adopting above-mentioned technical scheme, adopt the welded mode to fix the member and form the tip support, weld back montant on the tip support again for the frame both can form wholly in the mill, also can make each body of rod in the mill, welds the whole of formation again after transporting the scene with the material. The rod body or incomplete parts or the finished frame can be manufactured according to the field requirements, and the field applicability is improved.

The end support is arranged to be square, can adapt to wall-mounted furnaces of all shapes, and can reduce the use of front vertical rods while adapting to the wall-mounted furnaces of all shapes, so that the field installation efficiency is improved, and the use of materials can be reduced.

The invention is further configured to: the heat-preservation outer layer comprises end plates covering the end part support and side plates arranged between the two end plates; the side plates comprise a back plate, a left side plate, a right side plate and a front plate; the back plate is fixed between the two back vertical rods, the left side plate and the right side plate are respectively fixed on two sides of the back plate, and the front plate is connected between the two front vertical rods; and sealing materials are filled at the joints of the end plate, the back plate, the left side plate, the right side plate and the front plate.

By adopting the technical scheme, after the wall-mounted furnace is installed on the installation rod, the heat-insulating outer layer is installed, so that the installation on site is facilitated, and the transportation of materials is facilitated. In addition, the heat-insulating outer layer is divided into an end plate, a back plate, a left side plate, a right side plate and a front plate, so that the field installation and combination are facilitated. Sealing material's setting can improve the connection wholeness and the leakproofness between end plate, back board, left side board, right side board and the front portion board to further reduce the inside and outside circulation of air of frame, and then improve the protection effect to the hanging stove.

The invention is further configured to: the heat-preservation outer layer comprises end plates covering the end part support and side plates arranged between the two end plates; the side plates comprise a back plate, a left side plate, a right side plate and a front plate; the back plate is fixed between the two back vertical rods, the left side plate and the right side plate are respectively fixed on two sides of the back plate, and the front plate is connected between the two front vertical rods; sealing materials are filled in the joints of the end plate, the back plate, the left side plate and the right side plate; the front plate is rotatably connected to the right side plate, and a locking mechanism for locking the relative positions of the front plate and the left side plate is arranged between the front plate and the left side plate.

By adopting the technical scheme, the structure inside the frame and the wall-mounted furnace can be conveniently and regularly overhauled.

The invention is further configured to: the locking mechanism comprises a limiting pin which is arranged on the left side plate in a penetrating mode, and the limiting pin is connected to the left side plate in a sliding mode along the direction perpendicular to the left side plate; when the relative positions of the left side plate and the front plate are locked, the front plate is clamped between the limiting pin and the front vertical rod.

By adopting the technical scheme, the front plate is convenient to position and lock, and the operation is convenient and quick.

The invention is further configured to: a spring is fixed between the limiting pin and the left side plate; in the initial state, one end of the limiting pin is positioned on one side of the left side plate facing the right side plate; after pushing the spacer pin, the spring is stretched and the spacer pin enters the left side plate.

Through adopting above-mentioned technical scheme, the removal of the spacer pin of being convenient for.

The invention is further configured to: the side wall of the front plate, the rod piece and the front vertical rod are clamped with a sealing ring.

Through adopting above-mentioned technical scheme, improve the holistic leakproofness of insulation construction to reduce the inside and outside air flow's of frame probability, and then improve the protection effect to hanging the stove.

The invention is further configured to: the heat-preservation outer layer comprises end plates covering the end part support and side plates arranged between the two end plates; the end plate comprises a first end steel plate, an end heat insulation plate and a second end steel plate which are sequentially arranged from one side close to the frame to one side far away from the frame; the side plates comprise a first side steel plate, a side heat insulation plate, a heating structure and a second side steel plate which are sequentially arranged from one side close to the frame to one side far away from the frame; and edge wrapping steel plates are wrapped at the edges of the side plates and the end plates.

Through adopting above-mentioned technical scheme, the setting of tip heated board and lateral part heated board can prevent effectively that the inside heat of frame scatters and disappears. The edge of end plate and curb plate can be carried out effectual protection to the setting of the steel sheet of borduring to be favorable to improving the wholeness of end plate and curb plate.

The invention is further configured to: the heating structure comprises a heating cable and a lateral part reflecting film for floor heating, and the heating cable is clamped between a first side steel plate and the lateral part reflecting film for floor heating.

Through adopting above-mentioned technical scheme, warm up and use heating cable to have good insulating nature and the characteristic of even heating, because warm for the electric heating cable utilizes the electric radiation's principle to transmit the heat, so can carry out more even heating to frame inside, reduced the uneven probability of temperature on the hanging stove. The heating cable for floor heating is moved to the assembled outer insulation can, and the problems of power supply and electric leakage can be well solved. Meanwhile, the heating cable for floor heating has a relatively small heating temperature range, and cannot generate high temperature, so that the heat-insulating frame and the wall-mounted furnace can be safely used.

The invention is further configured to: a plurality of bolt holes are formed in the back plate, and positioning bolts penetrate through the back vertical rods and the rod pieces at positions corresponding to the bolt holes; the bolt head of the positioning bolt is positioned in the frame, and the bolt head of the positioning bolt is covered with a heat insulating material.

Through adopting above-mentioned technical scheme, during the installation, the back plate clip is established between back montant and wall, sets up the bolt hole and can be convenient for the installation of frame on the wall. Because the positioning bolt is made of metal, the cold bridge effect can be caused when the positioning bolt is fixed on the frame. And the heat conduction of the positioning bolts can be effectively reduced by covering the heat insulating material, so that the probability that the heat in the frame is conducted through the positioning bolts is reduced, the heat preservation effect in the frame is improved, and the frame can be effectively protected.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the combination of the frame and the heat-insulating outer layer is arranged, so that the whole frame can be manufactured in engineering, and can also be installed and fixed on a construction site; due to the assembly type property of the frame and the heat-insulating outer layer, the wall-mounted furnace can be matched at will according to the requirements of the site, the wall-mounted furnace can be wrapped, the probability of frost damage of the wall-mounted furnace is reduced, and the construction can be facilitated and the construction efficiency is improved;

2. the rotary front plate is arranged, so that the interior of the frame and the wall-mounted furnace can be conveniently overhauled;

3. warm up with heating cable and lateral part reflectance coating inside setting up of curb plate, when the inside temperature of frame is lower, warm up with heating cable and carry out even heating to frame inside utilizing, then utilize the characteristic of lateral part reflectance coating to make warm up the heat that produces with heating cable can radiate to frame inside to improve thermal utilization efficiency.

Drawings

FIG. 1 is a schematic view showing the whole structure of a front plate separated in the first embodiment;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 1;

fig. 4 is a schematic view of the entire structure of the second embodiment after the front panel is opened.

In the figure, 1, frame; 11. an end bracket; 111. a rod member; 12. a back vertical bar; 121. a transverse reinforcing rod; 13. a front vertical bar; 2. mounting a rod; 21. mounting holes; 3. positioning the bolt; 4. an outer heat-insulating layer; 41. an end plate; 411. a first end steel plate; 412. an end reflective film; 413. an end heat-insulating plate; 414. a second end steel plate; 42. a side plate; 421. a back plate; 422. a left side plate; 423. a right side plate; 424. a front plate; 425. a first side steel plate; 426. a side heat-insulating plate; 427. a heating structure; 428. a second side steel plate; 5. a heating cable; 6. a side reflective film; 7. edge-covered steel plates; 8. a locking mechanism; 81. a spacing pin; 82. a spring; 83. a fixing plate; 9. a seal ring; 10. reserving a hole; 101. a water-swellable ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment; referring to fig. 1 and 2, the assembled external thermal insulation box disclosed by the invention comprises a frame 1 and an insulation outer layer 4 wrapping the outer side of the frame 1. The frame 1 comprises two end supports 11 arranged parallel to each other, a back upright 12 arranged between the two end supports 11 and a front upright 13 arranged between the two end supports 11.

The back vertical bars 12 are provided with two back vertical bars 13 between the end supports 11, at least one front vertical bar 13 is provided, and the two back vertical bars 13 and the front vertical bar 13 are arranged in parallel. When a front vertical rod 13 is arranged, the whole frame 1 is in a triangular prism shape, and when two or more than two front vertical rods 13 are arranged, the cross section of the frame 1 is in a quadrilateral shape or a polygon with more than four sides.

The embodiment is illustrated by the provision of two front vertical bars 13, the frame 1 being able to accommodate all types of wall-mounted stoves currently on the market. The length, width and height of the frame 1 are respectively 800mm, 550mm and 1250 mm.

The end bracket 11 is formed by welding four rods 111, so that the end bracket 11 is in a hollow square shape with the side lengths of the outer contour of 550mm and 800m respectively. The two back vertical rods 12 and the four corners of the two front corresponding end brackets 11 are welded and fixed. Horizontal transverse reinforcing rods 121 are further welded between the back vertical rods 12 and the front vertical rods 13, and the transverse reinforcing rods 121 are located at the central positions of the back vertical rods 12 and the front vertical rods 13, so that the overall structural strength of the frame 1 is improved.

The rod 111, the front vertical rod 13, the back vertical rod 12 and the transverse reinforcing rod 121 are all square steel tubes with the cross sections of 50mmX50mm, and the thickness of each square steel tube is selected according to the field requirement.

In order to facilitate the installation of the wall-mounted furnace, an installation rod 2 is further arranged between the two back vertical rods 12. The mounting rod 2 is made of 50mmX50mm angle steel, and the thickness of the angle steel is selected according to the field requirement. The installation pole 2 sets up along the level, and the both ends of installation pole 2 weld respectively on two back montant 12 both sides wall in opposite directions. One side of the welded angle steel is horizontal, the other side of the welded angle steel is vertically upwards arranged, and the welded angle steel is parallel to the front vertical rod 13 along the vertically upwards side. And, the installation pole 2 is still seted up along vertical ascending one side and is used for installing the mounting hole 21 of hanging stove.

In order to facilitate the installation of the frame 1 on the wall, the two back vertical bars 12 and the rod 111 connected between the two back vertical bars 12 are provided with positioning bolts 3. Two positioning bolts 3 are arranged on each rod body, and the bolt heads of the positioning bolts 3 are arranged towards the front vertical rod 13. In order to reduce the probability of heat in the frame 1 being transferred to the outside through the positioning bolt 3, the positioning bolt 3 needs to be cold bridged, that is, the bolt head of the positioning bolt 3 is covered with a heat insulating material.

Referring to fig. 2 and 3, the heat insulating outer layer 4 includes end plates 41 covering the end brackets 11 and side plates 42 disposed between the two end plates 41, and the side plates 42 include a back plate 421, a left side plate 422, a right side plate 423 and a front plate 424. The end plate 41 is composed of a first end steel plate 411, an end reflection film 412, an end heat insulation plate 413, and a second end steel plate 414, which are provided in this order from the side close to the frame 1 toward the side far from the frame 1. The back plate 421, the left side plate 422, the right side plate 423, and the front plate 424 are each composed of a first side steel plate 425, a side heat-insulating plate 426, a heating structure 427, and a second side steel plate 428, which are provided in this order from the side close to the frame 1 toward the side away from the frame 1. And the edges of the end plate 41, the back plate 421, the left side plate 422, the right side plate 423 and the front plate 424 are all wrapped with edge-wrapped steel plates 7. Heating structure 427 includes warms up with heating cable 5 and lateral part reflectance coating 6, warms up with heating cable 5 clamp locate between first side steel sheet 425 and lateral part reflectance coating 6, and warms up with heating cable 5 electricity federation and have power supply unit and controller, be convenient for open and close warms up with heating cable 5. The heating cable 5 for floor heating in each plate is an independent whole, each independent heating cable 5 for floor heating is one, and no joint is arranged in the middle. When the floor heating cable is installed, all the floor heating cables 5 are grounded, so that the safety of the floor heating cable in the use process is improved.

The two end plates 41 cover the outer sides of the two end supports 11 respectively, and a preformed hole 10 is formed in the center of one end plate 41, so that a smooth steel pipeline connected to the top of the wall-mounted furnace can pass through the preformed hole conveniently. And a water-swelling ring 101 is fixed on the inner wall of the preformed hole 10, so that the sealing property between the smooth steel pipe and the end plate is improved.

The back board 421 is fixed on the outer side of the two back vertical rods 12, and the left board 422 and the right board 423 (see fig. 1) are respectively fixed on two sides of the back board 421. The back plate 421 extends on both right and left sides to cover both end surfaces of the right and left side plates 423 and 422, and the back plate 421 extends on both upper and lower sides to cover both end plates 41. In order to fix the back plate 421 and the frame 1 on the wall, bolt holes for bolts to pass through are formed in the back plate 421 at positions corresponding to the positioning bolts 3.

After the end plate 41, the left side plate 422, the right side plate 423, the front plate 424 and the back plate 421 are adhered to the outside of the frame 1, the joints of the end plate 41, the back plate 421, the left side plate 422, the right side plate 423 and the front plate 424 are filled with a sealing material (not shown), and the sealing material may be a foaming agent or a conventional building material such as glass cement.

The installation process of the assembled outer heat preservation box is as follows: the welding of the frame 1 is performed in the factory or on site and the mounting bar 2 is welded between the two back vertical bars 12. Next, the back plate 421 is adhered to the square frame formed by the two back vertical bars 12 and the bar 111. The positioning bolt 3 is taken to sequentially penetrate through the frame 1 and the back plate 421, the positioning bolt 3 is driven into the wall body, the frame 1 is fixed on the wall body, and heat insulation materials are coated at the bolt head position of the positioning bolt 3. The wall-hanging stove is moved so that the bolts thereon pass through the mounting holes 21 on the mounting bar 2 and are fixed by nuts, thereby fixing the wall-hanging stove on the mounting bar 2. Then, the end plate 41, the left side plate 422, the right side plate 423, and the front plate 424 are respectively attached to the frame 1, and all the surfaces of the frame 1 are sealed. And the smooth steel pipeline penetrates through the reserved hole from top to bottom, the smooth steel pipeline is fixed on the wall-mounted furnace, and the inner wall of the smooth steel pipeline is tightly abutted to the water-swellable ring 101. Finally, the joints of the end plate 41, the back plate 421, the left side plate 422, the right side plate 423, and the front plate 424 are glued with a foaming agent, thereby improving the sealing property to the frame 1.

Example two; referring to fig. 4, the assembled external thermal insulation cabinet disclosed in the present invention is different from the embodiment in the connection manner between the front plate 424 and the frame 1. The front plate 424 is pivotally connected to the right side plate 423. And a sealing ring 9 is clamped between the side wall of the front plate 424, the rod 111 and the front vertical rod 13.

A lock mechanism 8 for locking the relative positions of the front plate 424 and the left side plate 422 is provided between the front plate 424 and the left side plate 422. The lock mechanism 8 includes a stopper pin 81, a spring 82, and a fixing plate 83. The limit pin 81 vertically penetrates through the left side plate 422 and is slidably connected to the left side plate 422, and the fixing plate 83 is fixed on one side of the limit pin 81, which is far away from the right side plate 423. One end of the spring 82 is fixed on the fixing plate 83, and the other end is fixed on the left side plate 422; alternatively, one end of the spring 82 may be fixed to the stopper pin 81, and the other end may be fixed to the left side plate 422. In the initial state, the spring 82 is at a free length and the front plate 424 is sandwiched between the restraining pin 81 and the front vertical rod 13. When the fixed plate 83 is pulled to be compressed, the stopper pin 81 moves in a direction away from the right side plate 423 until the end of the stopper pin 81 is completely submerged into the left side plate 422, so that the lock between the front plate 424 and the left side plate 422 is released.

In order to lock the position of the front plate 424, a guide slope is provided on one end of the stopper pin 81 facing the right side plate 423, and the guide slope is provided on one side of the stopper pin 81 away from the frame 1. And the guiding inclined plane is inclined from the position close to the left side plate 422 to the position far away from the left side plate 422 in the direction close to the frame 1. When the opened front plate 424 needs to be closed, the front plate 424 is rotated such that the edge of the front plate 424 interferes with the guide slope. With the continuous rotation of the front plate 424, the front plate 424 acts on the guiding slope and pushes the limit pin 81 to move away from the right side plate 423 until the front plate 424 abuts against the gasket 9, and the limit pin 81 moves to the side of the front plate 424 away from the frame 1 under the restoring action of the spring 82.

When the assembled external thermal insulation box is installed, foam adhesive is applied to the joints of the end plate 41, the back plate 421, the left side plate 422 and the right side plate 423, and then the front plate 424 is installed.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (7)

1. The utility model provides an outer insulation can of assembled which characterized in that: the heat-insulation frame comprises a frame (1) and a heat-insulation outer layer (4) wrapped on the outer side of the frame (1), wherein the frame (1) is installed on site; the frame (1) comprises two end brackets (11) which are arranged at intervals; two back vertical rods (12) which are arranged at intervals are fixed between the two end supports (11), and an installation rod (2) for installing the wall-mounted furnace is fixed between the two back vertical rods (12); at least one front vertical rod (13) is fixed between the two end brackets (11); the end part support (11) is arranged in a hollow square shape, and the end part support (11) is formed by welding four rod pieces (111); the number of the front vertical rods (13) is two, and the back vertical rods (12) and the front vertical rods (13) are welded to four corners of the end support (11); the heat-preservation outer layer (4) comprises end plates (41) covering the end part support (11) and side plates (42) arranged between the two end plates (41); the end plate (41) comprises a first end steel plate (411), an end heat-insulation plate (413) and a second end steel plate (414) which are sequentially arranged from one side close to the frame (1) to one side far away from the frame (1); the side plate (42) comprises a first side steel plate (425), a heating structure (427), a side heat-insulation plate (426) and a second side steel plate (428), which are sequentially arranged from one side close to the frame (1) to the side far away from the frame (1); the edges of the side plates (42) and the end plates (41) are wrapped with edge-wrapped steel plates (7); the heating structure (427) comprises a heating cable (5) for floor heating and a side reflection film (6), wherein the heating cable (5) for floor heating is clamped between a first side steel plate (425) and the side reflection film (6).

2. The assembled outer incubator of claim 1, wherein: the heat-preservation outer layer (4) comprises end plates (41) covering the end part support (11) and side plates (42) arranged between the two end plates (41); the side panels (42) comprise a back panel (421), a left side panel (422), a right side panel (423) and a front panel (424); the back plate (421) is fixed between the two back vertical rods (12), the left side plate (422) and the right side plate (423) are respectively fixed on two sides of the back plate (421), and the front plate (424) is connected between the two front vertical rods (13); the joints of the end plate (41), the back plate (421), the left side plate (422), the right side plate (423) and the front plate (424) are all filled with sealing materials.

3. The assembled outer incubator of claim 1, wherein: the heat-preservation outer layer (4) comprises end plates (41) covering the end part support (11) and side plates (42) arranged between the two end plates (41); the side panels (42) comprise a back panel (421), a left side panel (422), a right side panel (423) and a front panel (424); the back plate (421) is fixed between the two back vertical rods (12), the left side plate (422) and the right side plate (423) are respectively fixed on two sides of the back plate (421), and the front plate (424) is connected between the two front vertical rods (13); the joints of the end plate (41), the back plate (421), the left side plate (422) and the right side plate (423) are filled with sealing materials; the front plate (424) is rotatably connected to the right side plate (423), and a locking mechanism (8) for locking the relative positions of the front plate (424) and the left side plate (422) is arranged between the front plate (424) and the left side plate (422).

4. The assembled outer incubator of claim 3, wherein: the locking mechanism (8) comprises a limiting pin (81) which is arranged on the left side plate (422) in a penetrating mode, and the limiting pin (81) is connected to the left side plate (422) in a sliding mode along the direction perpendicular to the left side plate (422); when the relative positions of the left side plate (422) and the front plate (424) are locked, the front plate (424) is clamped between the limiting pin (81) and the front vertical rod (13).

5. The assembled outer incubator of claim 4, wherein: a spring (82) is fixed between the limiting pin (81) and the left side plate (422); in the initial state, one end of the limiting pin (81) is positioned on one side of the left side plate (422) facing the right side plate (423); after the limiting pin (81) is pushed, the spring (82) is stretched, and the limiting pin (81) enters the left side plate (422).

6. The assembled outer incubator of claim 4, wherein: and a sealing ring (9) is clamped between the side wall of the front plate (424) and the rod piece (111) and the front vertical rod (13).

7. The assembled outer incubator of claim 2 or 3, wherein: a plurality of bolt holes are formed in the back plate (421), and positioning bolts (3) penetrate through the positions, corresponding to the bolt holes, of the back vertical rod (12) and the rod piece (111); the bolt head of the positioning bolt (3) is positioned in the frame (1), and the bolt head of the positioning bolt (3) is covered with a heat insulating material.

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