CN215809638U - Thermal insulation shell of cooling equipment - Google Patents

Abstract

The utility model discloses a heat insulation shell of cooling equipment, which comprises a plurality of heat insulation plates, wherein at least two heat insulation plates are spliced to form a splicing seam, a sealing rubber strip is arranged on the outer side of at least one splicing seam, the sealing rubber strip is arranged across the splicing seam and is adhered to the outer sides of the heat insulation plates on two sides of the splicing seam, and a decorative plate is covered on the outer side of the sealing rubber strip. The splicing seam is sealed from the outside of the splicing seam through the sealing rubber strip, so that external gas, dust and the like are prevented from entering the splicing seam better, and poor heat insulation effect caused by the fact that the heat conduction speed of the splicing seam is high is avoided. Meanwhile, the decorative plate is arranged on the outer side of the sealing rubber strip, so that the service life of the sealing rubber strip can be effectively prevented from being influenced by external dust and the like, and a better physical protection effect and a better decoration effect can be achieved.

Description

Thermal insulation shell of cooling equipment

Technical Field

The utility model relates to the technical field of environment regulation, in particular to a heat-insulating shell of cooling equipment.

Background

At present, cooling equipment needs to be provided with a heat-insulating shell, and the heat-insulating shell is often not sealed tightly, so that the heat-insulating effect is not good.

In summary, how to effectively solve the problem of poor heat insulation effect of the existing heat insulation shell is a problem which needs to be solved urgently by the technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present invention is to provide a thermal insulation casing for a cooling device, which can effectively solve the problem of poor thermal insulation effect of the existing thermal insulation casing.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a cooling device's lagging casing, includes a plurality of heated boards, and two at least heated boards splice mutually in order to form the concatenation seam, at least one the outside of concatenation seam is provided with joint strip, joint strip stretches over the concatenation seam setting and with the heated board outside adhesion of concatenation seam both sides, the joint strip outside covers and is provided with the decorative board.

In this cooling arrangement's lagging casing, seal up the splice seam from the splice seam outside through joint strip to in the better prevention external gas, dust etc. enter into the splice seam, and then avoid because splice seam department heat conduction velocity is bigger and lead to the heat preservation effect not good. Meanwhile, the decorative plate is arranged on the outer side of the sealing rubber strip, so that the service life of the sealing rubber strip can be effectively prevented from being influenced by external dust and the like, and a better physical protection effect and a better decoration effect can be achieved. In conclusion, the heat preservation shell of the cooling device can effectively solve the problem that the heat preservation effect of the existing heat preservation shell is not good.

Preferably, the heat insulation board comprises a connecting column piece located at the end part of the heat insulation board, and the connecting column piece is attached to the heat insulation board through a sealant.

Preferably, the connecting column is connected with the heat-insulating plate through a bolt penetrating through the heat-insulating plate.

Preferably, the inner side of the end part of the heat insulation plate is provided with a notch, and at least one side of the connecting column is embedded into the notch.

Preferably, at least two of the heat-insulating plates are arranged in parallel along the extension to be connected in a splicing manner, a formed splicing seam is used as a first splicing seam, at least one connecting column piece is a square tube, and the square tube is positioned on the inner side of the first splicing seam, and two sides of the square tube are respectively embedded into the gaps of the heat-insulating plates on two sides of the first splicing seam.

Preferably, the inner side surface of the square pipe and the inner side surfaces of the heat-insulating plates on the two sides of the first splicing seam are located on the same plane.

Preferably, the splicing seam is filled with structural adhesive.

Preferably, at least one corner of the shell is spliced by two insulation boards arranged at an included angle through an inclined plane, so that a formed splicing seam is a second splicing seam; and the inner side of the second splicing seam is provided with a main beam, and the side surfaces of two adjacent sides of the main beam are respectively attached to the inner side surfaces of the heat-insulating plates on two sides of the second splicing seam.

Preferably, a main beam is arranged on the end side surface of at least one of the heat-insulating plates in a fitting manner, at least one of the connecting column members is made of triangular steel, and the triangular steel is embedded into the gap of the heat-insulating plate; one side edge part of the triangular steel is attached to the main beam and fixedly connected with the main beam, and the other side edge part of the triangular steel is attached to the wall part of the notch of the heat insulation board and connected with the notch.

Preferably, the triangular steel and the main beam are connected through welding.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a splicing structure of two heat preservation joints at a straight splicing seam according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a corner of the thermal insulation shell when the main beam moves inwards according to the embodiment of the utility model;

fig. 3 is a schematic structural diagram of one side of the heat preservation shell when the triangular steel is connected according to the embodiment of the utility model.

The drawings are numbered as follows:

the heat-insulation board comprises a heat-insulation board 1, a sealing rubber strip 2, a decorative board 3, a connecting column 4, a main beam 5, triangular steel 6, a bolt 7, a first splicing seam 8, a second splicing seam 9 and structural adhesive 10.

Detailed Description

The embodiment of the utility model discloses a heat-insulating shell of cooling equipment, which is used for effectively solving the problem of poor heat-insulating effect of the conventional heat-insulating shell.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, fig. 1 is a schematic view of a splicing structure of two heat preservation layers at a straight splicing seam according to an embodiment of the present invention; FIG. 2 is a schematic structural view of a corner of the thermal insulation shell when the main beam moves inwards according to the embodiment of the utility model; FIG. 3 is a schematic structural diagram of a corner of an insulation shell during triangular steel connection according to an embodiment of the present invention.

In a specific embodiment, this embodiment provides a cooling device's insulation casing, and specific insulation casing mainly includes frame and a plurality of heated board 1, and wherein the frame mainly includes girder 2 and square tube 3 isotructures, not only plays main supporting role, still is used for supporting heated board 1 simultaneously. In actual equipment process, form the concatenation relation between a plurality of heated boards 1, in this lagging casing, should two at least heated boards 1 splice mutually in order to form the concatenation seam, and here concatenation seam does not require to have certain width, and the heated board 1 of concatenation seam both sides can be closely laminating in concatenation seam department promptly, also can be the clearance setting. The heat insulation board 1 is a foaming board or a board made of other heat insulation materials.

In order to ensure better sealing at the splicing seams and ensure better heat preservation effect. The outside of the concatenation seam that can an at least department is provided with joint strip, and joint strip 2 of this department spanes the concatenation seam setting that corresponds, and joint strip 2 and the 1 outside adhesion of heated board of concatenation seam both sides to carry out sealing protection from the outside to the concatenation seam. If the width of joint strip 2 is 8 to 12 centimetres, 1 outside of heated board of 2 half adhesion laminating splice joint one side of joint strip, 1 outside of heated board of two half adhesion laminating splice joint opposite sides. Wherein, the outer side and the inner side are relative to the shell cavity of the heat preservation shell, one side close to the shell cavity of the shell is the inner side, and the other opposite side is the outer side.

Further, for better guarantee joint strip 2's life, further preferably 2 outside covers of joint strip are provided with decorative board 3, and after 2 back of joint strip were covered to the decorative board, both sides linked to each other with 1 outsides of heated board of concatenation seam both sides, correspond promptly, and decorative board 3's width should be greater than joint strip 2's width. In order to make the both sides border of decorative board 3 and heated board 1 better continuous, the both sides border of preferred decorative board 3 here is inside side bending to butt heated board 1.

The splicing seam is sealed from the outside of the splicing seam through the sealing rubber strip 2, so that external gas, dust and the like are prevented from entering the splicing seam better, and poor heat insulation effect caused by the fact that the heat conduction speed of the splicing seam is high is avoided. And meanwhile, the decorative plate 3 is arranged on the outer side of the sealing rubber strip 2, so that the influence of external dust and the like on the service life of the sealing rubber strip 2 can be effectively avoided, and a better physical protection effect and a better decoration effect can be achieved. In conclusion, the heat preservation shell of the cooling device can effectively solve the problem that the heat preservation effect of the existing heat preservation shell is not good.

It should be noted that, here, two insulation boards 1 are spliced, and there are mainly two forms: one is that the two insulation boards 1 are arranged side by side along the extension to be spliced and connected to form a first splicing seam, the two insulation boards 1 can form a flat plate at the moment, the first splicing seam can be arranged perpendicular to the insulation boards 1 at the moment, and the first splicing seam is a straight splicing seam or is arranged obliquely compared with the insulation boards 1; the other kind is, two heated boards 1 are the contained angle and arrange the concatenation to be the triangle-shaped, can be that 1 terminal surface of a heated board contacts with one side face of another heated board, also can be that two heated boards 1 pass through the inclined plane concatenation, form the second joint seam this moment, if two heated boards are 90 degrees angular distributions, two heated boards can be laminated through the inclined plane of 45 degrees slopes this moment, and the second joint seam is the joint seam that splices to one side this moment.

In practical application, still generally including being located the connecting column 4 of heated board 1 tip, connecting column 4 generally sets up in splice seam department, or sets up the tip position of splicing mutually with other structures on heated board 1 to be connected this heated board 1 with other heated boards 1 through connecting column 4, or with this heated board 1 and other structures, if with the girder connection. In order to have a better sealing effect, the connecting column 4 is preferably attached to the heat insulation board 1 through the sealant, so that the better sealing effect is guaranteed.

The connecting column 4 can be a square tube connecting the two spliced heat-insulating plates 1, or a triangular steel 6 connecting the heat-insulating plates 1 and the main beam 5. In order to be convenient for be connected connecting column 4 and heated board 1, it is concrete, can make between connecting column 4 and the heated board 1 be connected through the bolt 7 that passes heated board 1. Wherein connect the post 4 and mainly set up in the inboard of heated board 1, can set up the perforation so from the outside of heated board 1, until seting up the inside portion department to heated board 1, the spiral shell head card of bolt 7 is in the inside portion department of heated board 1, and the double-screw bolt of bolt 7 passes the inside portion entering heated board 1's of heated board 1 inboard, then adopts nut locking after passing connection post 4.

In order to better mount the connecting column 4 and avoid the connecting column 4 from protruding from the inner side of the heat insulation plate 1, it is preferable that the heat insulation plate 1 has a notch at the inner side of the end, and at least one side of the connecting column 4 is embedded into the notch. Specifically, the method comprises the following steps: if the connection column 4 connects the insulation board 1 with the main beam, the connection column 41 can be completely embedded into the gap of the insulation board 1; if connect the post 4 and connect two heated boards 1, then can make the breach of these two heated boards 1 form a rectangle slot cavity in splice joint department, and connect the post 4 and imbed completely to this rectangle slot cavity for connect in 4 one side embedding one side of post 1's breach, and connect 4 opposite sides of post and imbed to the breach of opposite side heated board 1.

In another embodiment, on the basis of the above embodiments, further, in the thermal insulation housing of this embodiment, preferably, at least two thermal insulation boards 1 are arranged side by side along the extension to be spliced and connected, so that a formed splicing seam is a first splicing seam 8. Correspondingly, at least one connecting column 4 is a square pipe, and the square pipe is positioned at the inner side of the first splicing seam 8, and the two sides of the square pipe are respectively embedded into the gaps of the heat insulation boards 1 at the two sides of the first splicing seam 8. The outside of square pipe this moment can all be connected through sealed glue with heated board 1 of 8 both sides of first concatenation seam. The heated board 1 of first concatenation seam 8 both sides, rectangle slot cavity is constituteed to breach between them to cooperation side pipe, the medial surface of further messenger's side pipe and the medial surface of heated board 1 of first concatenation seam 8 both sides are located the coplanar, and wherein the medial surface of side pipe indicates the one side of the shell chamber that is close to lagging casing. At this time, the first splicing seam 8 can be a straight splicing seam, namely, the first splicing seam is perpendicular to the heat insulation board 1 of the first splicing seam 8. The sealing rubber strip 2 and the decorative plate 3 are arranged outside the first splicing seam 8. Further, the first splicing seam 8 may be filled with a sealant, and of course, other splicing seams may also be filled with the structural adhesive 10. A plurality of bolts 7 pass heated board 1 of first concatenation seam 8 both sides respectively this moment in order to manage with square and be connected, and decorative board 3 can cover on the perforation that is used for bolt 7 to pass this moment, and joint strip 2 and decorative board 3 can all be flat this moment.

The main beams 5 are generally disposed at the corners of the thermal insulation casing to play a main supporting role, and the following two specific embodiments can be further adopted in relation to the disposition of the main beams 5 on the basis of the above embodiments.

In one embodiment, the following is preferred: at least, in a bight of shell, two heated board 1 that are the contained angle and arrange pass through the inclined plane concatenation to the concatenation seam that makes the formation is second concatenation seam 9, and wherein second concatenation seam 9 is the angular bisector of the contained angle of two heated board 1, if 1 contained angle of two heated boards is 90 degrees angles, so second concatenation seam 9 is 45 degrees angles with 2 contained angles of heated board of both sides, and if 1 contained angle of two heated boards is 60 degrees angles, so second concatenation seam 9 is 30 degrees angles with 1 contained angle of heated board of both sides.

Wherein second concatenation seam 9 inboard has girder 5, and the adjacent both sides side of girder 5 sets up with the laminating of the 1 medial surfaces of heated board of second concatenation seam 9 both sides respectively to through moving girder 5 to the inboard of heated board 1, the heat preservation problem of assurance shell bight position that can be better. The main beams 5 at the corners of the heat preservation shell can be arranged as above. If the thermal insulation shell is a rectangular shell, the main beams 5 at the four corners can be arranged as above. At this moment, the sealing rubber strip 2 and the decorative plate 3 can be both in an L shape to adapt to the shape of the outer side of the second splicing seam 9.

In another embodiment, the following is preferred: the end side surface of at least one insulation board 1 is provided with a main beam 5 in a fitting manner, at least one connecting column 4 is made of triangular steel 6, and the triangular steel 6 is embedded into a gap of the insulation board 1; one side edge of the triangular steel 6 is attached to the main beam 5 and is fixedly connected with the main beam, and the other side edge of the triangular steel is attached to the notch wall of the heat insulation board 1 and is connected with the notch wall of the heat insulation board 1 through the bolt 7. The triangular steel 6 and the main beam 5 are welded, and can be connected by bolts.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a cooling device's lagging casing, includes a plurality of heated boards, and two at least heated boards splice mutually in order to form the concatenation seam, its characterized in that, at least one the outside of concatenation seam is provided with joint strip, joint strip span the concatenation seam set up and with the concatenation seam both sides the adhesion in the heated board outside, the joint strip outside covers and is provided with the decorative board.

2. The thermal insulation shell according to claim 1, comprising a connecting column member located at an end portion of the thermal insulation plate, wherein the connecting column member is attached to the thermal insulation plate through a sealant.

3. The thermal shell according to claim 2, wherein the connection post is connected to the thermal plate by a bolt passing through the thermal plate.

4. The thermal insulation shell according to claim 2, wherein the thermal insulation board has a gap at the inner side of the end part, and at least one side of the connecting column member is embedded into the gap.

5. The thermal insulation shell according to claim 4, wherein at least two of the thermal insulation boards are arranged side by side along the extension for splicing connection, the formed splicing seam is a first splicing seam, at least one connecting column member is a square pipe, the square pipe is positioned inside the first splicing seam, and two sides of the square pipe are respectively embedded into the gaps of the thermal insulation boards at two sides of the first splicing seam.

6. The thermal insulation shell according to claim 5, wherein the inner side surface of the square pipe and the inner side surfaces of the thermal insulation plates on the two sides of the first splicing seam are located on the same plane.

7. The thermal insulation shell according to claim 5, wherein the splicing seams are filled with structural adhesive.

8. The thermal insulation shell according to any one of claims 4 to 7, wherein at least at one corner of the shell, two of the thermal insulation boards arranged at an included angle are spliced by an inclined plane, so that the formed splicing seam is a second splicing seam; and the inner side of the second splicing seam is provided with a main beam, and the side surfaces of two adjacent sides of the main beam are respectively attached to the inner side surfaces of the heat-insulating plates on two sides of the second splicing seam.

9. The thermal insulation shell according to any one of claims 4 to 7, wherein a main beam is attached to an end face of at least one of the thermal insulation boards, at least one of the connection columns is made of triangular steel, and the triangular steel is embedded into the gap of the thermal insulation board; one side edge part of the triangular steel is attached to the main beam and fixedly connected with the main beam, and the other side edge part of the triangular steel is attached to the wall part of the notch of the heat insulation board and connected with the notch.

10. The insulated housing of claim 9, wherein the angle steel is welded to the main beam.

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