CN211012052U - Heat-preservation energy-saving type refrigeration house - Google Patents

Abstract

The utility model relates to a heat preservation and energy-conserving field, concretely relates to energy-saving type freezer keeps warm, including the freezer body, freezer body one end is provided with the door, the air intake and the air-cooler intercommunication of freezer body, the air outlet and the defeated wind branch pipe intercommunication of freezer body, wherein freezer body inner wall is provided with heat preservation energy-saving structure, heat preservation energy-saving structure includes heat preservation wall brick and heat preservation, heat preservation wall brick one side and the laminating of freezer body inner wall, the another side is connected with the heat preservation, and the one side that heat preservation wall brick and heat preservation are connected is provided with the even recess of interval, has placed the heat preservation ball of packing phase change material in the. The problem of it does not rely on civil engineering facility to build of current assembled freezer, its heat preservation effect than large-scale civil engineering freezer have certain not enough, need increase air-cooler operating power in order to ensure the heat preservation effect, have a large amount of energy because the not good scattering and disappearing of heat preservation effect when the heat preservation is cold-stored is solved.

Description

Heat-preservation energy-saving type refrigeration house

Technical Field

The utility model relates to a heat preservation and energy-saving field, concretely relates to is a heat preservation energy-saving freezer.

Background

The assembled refrigeration house is a quick and simple assembling refrigeration device developed in recent years, has certain heat-preservation, moisture-proof and waterproof performances by depending on structures such as an air cooler, an air conveying pipe, a heat-preservation structure and the like, and can meet the requirement of material storage within a temperature range of-50-70 ℃.

Because the assembly type refrigeration house is not built by depending on civil engineering facilities, the heat preservation effect of the assembly type refrigeration house is not enough compared with that of a large civil engineering refrigeration house, the working power of an air cooler needs to be increased in order to ensure the heat preservation effect, and a large amount of energy is lost due to the poor heat preservation effect during heat preservation and refrigeration.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is not to rely on civil engineering facility to current assembled freezer and build, and its large-scale civil engineering freezer that keeps warm the effect and compare exists certain not enough, need increase air-cooler operating power in order to ensure the heat preservation effect, has a large amount of energy when the heat preservation is cold-stored because the not good problem that scatters and disappears of heat preservation effect, provides heat preservation energy-saving freezer.

The technical scheme who adopts is, heat preservation energy-saving freezer includes the freezer body, freezer body one end is provided with the door, the air intake and the air-cooler intercommunication of freezer body, the air outlet and the defeated wind branch pipe intercommunication of freezer body, wherein freezer body inner wall is provided with heat preservation energy-saving structure, heat preservation energy-saving structure includes heat preservation wall brick and heat preservation, heat preservation wall brick one side and the laminating of freezer body inner wall, the another side is connected with the heat preservation, and the heat preservation wall brick is provided with the even recess of interval with the one side that the heat preservation is connected, place the heat preservation ball of packing phase change material in the recess.

Further, the heat preservation includes more than two horizontal connecting rods, more than two vertical connecting rods, heat preservation piece and stationary blade, and more than two horizontal connecting rods and more than two vertical connecting rods interconnect cut apart the heat preservation into more than two rectangles and fill the chamber, and the rectangle is filled the intracavity to heat preservation piece and stationary blade all are located.

Optionally, the projection of the heat preservation ball along the direction perpendicular to the inner wall of the refrigerator body is positioned in the projection of the rectangular filling cavity along the direction perpendicular to the inner wall of the refrigerator body.

Optionally, a part of the heat preservation ball penetrates out of the rectangular filling cavity, and the fixing piece is attached to the heat preservation wall brick and arranged around the heat preservation ball.

Furthermore, the heat preservation sheet is arranged in the rectangular filling cavity between the adjacent heat preservation balls.

Further, all be provided with the fixed orifices on horizontal connecting rod and the perpendicular connecting rod, the plane at fixed orifices place is parallel with heat preservation wall brick place plane, is provided with the connecting rod in the fixed orifices, and the connecting rod both ends are all worn out from the fixed orifices, and connecting rod both ends periphery is provided with the screw thread to can dismantle with solid fixed ring and lower fixed ring through the screw thread and be connected, the heat preservation piece is located between fixed orifices and the heat preservation wall brick.

Optionally, the heat preservation piece is in STP heated board and VIP heated board, and the stationary blade is wooden heated board.

The utility model has the advantages that at least one of the following advantages is included;

1. through set up the heat preservation energy-saving structure of constituteing by heat preservation wall brick, heat preservation and heat preservation ball in assembled freezer, it can increase substantially the heat preservation effect of assembled freezer, need not to guarantee through the operating power who increases the air-cooler and keeps warm, has reduced energy consumption.

2. Through the setting have phase change material's heat preservation ball, wherein phase change material can cushion temperature variation in the assembled freezer, can offset proruption change through absorbing the unnecessary heat or releasing the heat when temperature variation appears.

3. The problem of it does not rely on civil engineering facility to build of current assembled freezer, its heat preservation effect than large-scale civil engineering freezer have certain not enough, need increase air-cooler operating power in order to ensure the heat preservation effect, have a large amount of energy because the not good scattering and disappearing of heat preservation effect when the heat preservation is cold-stored is solved.

Drawings

FIG. 1 is a schematic structural diagram of a heat-preservation and energy-saving type refrigeration house;

FIG. 2 is a schematic structural view of a heat-insulating wall brick, a heat-insulating layer and a heat-insulating ball;

FIG. 3 is a schematic view of the structure of the insulating layer;

FIG. 4 is an enlarged view of the area A in FIG. 3;

labeled as: the energy-saving type refrigeration house comprises a refrigeration house body 1, a heat-preservation and energy-saving structure 2, an air cooler 3, an air inlet pipe 4, an air delivery branch pipe 5, an air delivery main pipe 6, a door 7, heat-preservation wall bricks 8, a heat-preservation layer 9, heat-preservation balls 10, heat-preservation sheets 11, rectangular filling cavities 12, transverse connecting rods 13, vertical connecting rods 14, fixing holes 15, fixing rods 16, an upper fixing ring 17 and a lower fixing ring 18.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the scope of the invention.

As shown in fig. 1 and 2, the heat-preservation and energy-saving type refrigeration house comprises a refrigeration house body 1, a door 7 is arranged at one end of the refrigeration house body 1, an air inlet of the refrigeration house body 1 is communicated with an air cooler 3, an air outlet of the refrigeration house body 1 is communicated with an air delivery branch pipe 5, a heat-preservation and energy-saving structure 2 is arranged on the inner wall of the refrigeration house body 1, the heat-preservation and energy-saving structure 2 comprises a heat-preservation wall brick 8 and a heat-preservation layer 9, one side of the heat-preservation wall brick 8 is attached to the inner wall of the refrigeration house body 1, the other side of the heat-preservation wall brick is connected with the heat-preservation layer 9.

In use, through set up the heat preservation energy-saving structure of constituteing by heat preservation wall brick, heat preservation and heat preservation ball in assembled freezer, it can increase substantially the heat preservation effect of assembled freezer, need not to guarantee the heat preservation through the operating power who increases the air-cooler, has reduced energy consumption. Through the setting have phase change material's heat preservation ball, wherein phase change material can cushion temperature variation in the assembled freezer, can offset proruption change through absorbing the unnecessary heat or releasing the heat when temperature variation appears.

It should be pointed out that, in order to balance the air inlet and the air outlet of air-cooler, be connected with air-supply line 4 at the air intake of air-cooler, be located the freezer body and be connected with defeated wind branch pipe in the one side relative with the door, in order to improve the exchange efficiency of convection current, can set up many defeated wind branch pipes, and be connected with defeated wind house steward 6, be provided with the pump that provides power on defeated wind house steward, it does not rely on civil engineering facility to build to have solved current assembled freezer, it has certain not enough to have a large-scale civil engineering freezer that its heat preservation effect is than, need increase air-cooler operating power in order to guarantee the heat preservation effect, there is a large amount of energy when the heat.

It should be emphasized that the energy saving referred to in this application is achieved by indirectly reducing the heat loss through the improvement of the heat preservation effect, and is not achieved by improving the heat conversion efficiency of the air cooler or relying on the heat cycle.

As shown in fig. 3 and 4, in the present embodiment, the heat insulating layer 9 includes two or more horizontal connecting rods 13, two or more vertical connecting rods 14, a heat insulating sheet 11, and a fixing sheet, the two or more horizontal connecting rods 13 and the two or more vertical connecting rods 14 are connected to each other to divide the heat insulating layer 9 into two or more rectangular filling cavities 12, and the heat insulating sheet 11 and the fixing sheet are both disposed in the rectangular filling cavities 12. The projection of the heat preservation ball 10 along the direction vertical to the inner wall of the refrigeration house body 1 is positioned in the projection of the rectangular filling cavity 12 along the direction vertical to the inner wall of the refrigeration house body 1.

In the use, horizontal connecting rod all is connected with the heat preservation wall brick with erecting the connecting rod to cut apart into a plurality of rectangles with the heat preservation and fill the chamber, can fill heat preservation piece and stationary blade in filling the intracavity, realize the removable of each material, and because the restriction of current title, hardly once generate the heat preservation piece that the size satisfies whole freezer and use, consequently adopt like this to fill the mode that makes up into the big piece through the small piece, both reduced the production degree of difficulty, the cost is reduced again.

In this embodiment, a part of the thermal insulation ball 10 penetrates out of the rectangular filling cavity 12, and the fixing piece is attached to the thermal insulation wall brick 8 and arranged around the thermal insulation ball 10.

The effect of stationary blade mainly lies in the fixed to the heat preservation ball, and the recess that sets up on the whole heat preservation wall brick can be the hemisphere, is convenient for put into the heat preservation ball, and the stationary blade of rethread laminating on the heat preservation wall brick is fixed second half heat preservation ball, consequently when setting up the stationary blade that technical personnel in the field can select suitable thickness according to the size of heat preservation ball, when changing the heat preservation ball, can demolish the stationary blade and take out the heat preservation ball from the recess of heat preservation wall brick.

In this embodiment, the heat-insulating sheet 11 is disposed in the rectangular filling cavity 12 between the adjacent heat-insulating balls 10. All be provided with fixed orifices 15 on horizontal connecting rod 13 and the perpendicular connecting rod 14, the plane at fixed orifices 15 place is parallel with heat preservation wall brick 8 place plane, is provided with dead lever 16 in the fixed orifices 15, and 16 both ends of dead lever all wear out from fixed orifices 15, and 16 both ends peripheries of dead lever are provided with the screw thread to can dismantle with upper fixed ring 17 and lower fixed ring 18 through the screw thread and be connected, heat preservation piece 11 is located between fixed orifices 15 and the heat preservation wall brick 8.

When the heat preservation ball type heat preservation device is used, the fixing pieces and the heat preservation pieces are arranged at intervals, heat preservation and energy saving are mainly carried out on the fixing piece region by the heat preservation balls matched with the heat preservation wall bricks, and heat preservation and energy saving are carried out on the region without the heat preservation balls matched with the heat preservation wall bricks.

Simultaneously heat preservation piece 11 is one of STP heated board and VIP heated board, the stationary blade is wooden heated board, the SIP heated board is ultra-thin adiabatic heated board promptly, the VIP heated board is vacuum insulation panels promptly, it has the heat preservation effect of far away super heat preservation mortar and heat preservation wall brick, but it is not suitable for the scene to be tailor, consequently make up into large piece looks adaptation through the small piece in with this scheme, when installing, can put into the rectangle with the heat preservation piece of rectangle filling chamber looks adaptation the size and fill the chamber, and contact with the heat preservation wall brick, then insert in the fixed orifices and install solid fixed ring and lower fixed ring with the dead lever, it is fixed that the chamber is filled for the rectangle to make the dead lever, the dead lever that is located rectangle filling chamber four sides is with the heat preservation piece block at the rectangle filling intracavity, can take out the heat preservation piece from the rectangle.

Claims (7)

1. Energy-saving freezer keeps warm, including freezer body (1), freezer body (1) one end is provided with door (7), and the air intake and air-cooler (3) of freezer body (1) communicate, and the air outlet and the defeated wind branch pipe (5) of freezer body (1) communicate its characterized in that: freezer body (1) inner wall is provided with heat preservation energy-saving structure (2), heat preservation energy-saving structure (2) are including heat preservation wall brick (8) and heat preservation (9), heat preservation wall brick (8) one side and the laminating of freezer body (1) inner wall, and the another side is connected with heat preservation (9), and the one side that heat preservation wall brick (8) and heat preservation (9) are connected is provided with the even recess of interval, place heat preservation ball (10) of packing phase change material in the recess.

2. The heat-insulating energy-saving type refrigeration house according to claim 1, characterized in that: the heat preservation layer (9) comprises more than two transverse connecting rods (13), more than two vertical connecting rods (14), heat preservation pieces (11) and fixing pieces, the transverse connecting rods (13) and the vertical connecting rods (14) are connected with each other to divide the heat preservation layer (9) into more than two rectangular filling cavities (12), and the heat preservation pieces (11) and the fixing pieces are arranged in the rectangular filling cavities (12).

3. The heat-insulating energy-saving type refrigeration house according to claim 2, characterized in that: the projection of the heat-insulating ball (10) along the direction perpendicular to the inner wall of the refrigeration house body (1) is positioned in the projection of the rectangular filling cavity (12) along the direction perpendicular to the inner wall of the refrigeration house body (1).

4. The heat-insulating energy-saving type refrigeration house according to claim 3, characterized in that: one part of the heat-preservation ball (10) penetrates out of the rectangular filling cavity (12), and the fixing piece is attached to the heat-preservation wall brick (8) and arranged around the heat-preservation ball (10).

5. The heat-insulating energy-saving type refrigeration house according to claim 4, characterized in that: the heat preservation sheet (11) is arranged in the rectangular filling cavity (12) between the adjacent heat preservation balls (10).

6. The heat-insulating energy-saving type refrigeration house according to claim 5, characterized in that: all be provided with fixed orifices (15) on horizontal connecting rod (13) and perpendicular connecting rod (14), the plane of fixed orifices (15) place is parallel with heat preservation wall brick (8) place plane, is provided with dead lever (16) in fixed orifices (15), and all wears out from fixed orifices (15) dead lever (16) both ends, and dead lever (16) both ends periphery is provided with the screw thread to can dismantle with last solid fixed ring (17) and lower solid fixed ring (18) through the screw thread and be connected, heat preservation piece (11) are located between fixed orifices (15) and heat preservation wall brick (8).

7. The heat-insulating energy-saving type refrigeration house according to claim 2, characterized in that: the heat preservation piece (11) is one of STP heated board and VIP heated board, the stationary blade is wooden heated board.

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