CN212253298U - Quick non-calibration refrigeration cabinet - Google Patents

Abstract

A rapid non-calibration refrigeration cabinet comprising: the heat preservation bearing plates are at least two, and the two heat preservation bearing plates are arranged in parallel; the heat preservation side plates are arranged between the heat preservation bearing plates respectively, the upper sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned above, and the lower sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned below; the side plate with the portal is used for providing an opening, at least one opening is arranged in the middle of the side plate with the portal, the upper side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned above, and the lower side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned below; the heat preservation bearing plate, the heat preservation side plate and the side plate with the door frame form a heat preservation space; the assembled heat preservation door is used for sealing the side plate with the portal, the size of the assembled heat preservation door is matched with that of the opening of the side plate with the portal, and the assembled heat preservation door is hinged with the side plate with the portal; and the evaporator, the refrigerating surface is communicated with the heat-insulating space and is fixedly connected with the heat-insulating side plate.

Description

Quick non-calibration refrigeration cabinet

Technical Field

The utility model relates to a combination formula freezer, concretely relates to quick non-demarcation refrigeration cabinet.

Background

In the prior art, a special heat-preservation foaming mold is required for producing a conventional refrigerator, production cannot be performed when the size of a product ordered by a customer is inconsistent with that of an existing mold, a new foaming mold needs to be developed according to the existing order requirement, the development cost is high, the mold manufacturing period is long, however, only one or two customized products are needed, and the cost and the delivery period cannot meet the requirements of enterprises and customers. Therefore, the structural design scheme for splitting the box body into the plurality of insulation boards is provided, then the box body is assembled into a whole, the restriction of a special foaming mold is solved, the production of products is realized quickly, the delivery period is shortened, and the production cost is reduced.

Chinese patent publication No. CN204115329U, published 2015, 1 month and 21 days, discloses a combined refrigerator, which is assembled by a plurality of unit cabinets to form a refrigerator, wherein surrounding parts on a top plate, a bottom plate, a back plate and side plates forming a combined unit frame structure are formed by foaming together with the plates, and a clearance of two contacting surrounding parts forms a first closed space for placing a connecting part. And tightening the surrounding parts through bolts so as to tightly connect the top plate, the bottom plate, the back plate and the side plates. The labyrinth seal formed by the connecting piece and the contacting enclosure and the sealing strip placed on the enclosure can effectively prevent the cold air from leaking. The utility model discloses install and remove the convenience, easily move and carry, even install and remove repeatedly also can not influence the leakproofness of freezer, can be according to the nimble volume of adjusting the freezer of in-service use demand. The supporting frame structure in the refrigerator effectively avoids the condition that the clapboard is deformed due to bearing larger load for a long time.

But the disadvantage is that the connecting structure of the sealed refrigerator is complex and has a plurality of used components, which is not beneficial to the rapid production.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a need special heat preservation foaming mould to conventional freezer production, just can't produce when the product size that the customer ordered is inconsistent with current mould, need develop new foaming mould according to current order demand, the development cost is high, the mould manufacturing period is long, however the quantity of customization product probably only has one or two, cost and delivery date can't satisfy enterprise and customer's demand; a quick non-calibration refrigeration cabinet with a structure that a box body is split into a plurality of insulation boards is designed.

A rapid non-calibration refrigeration cabinet comprising:

the heat preservation bearing plates are at least two, and the two heat preservation bearing plates are arranged in parallel;

the heat preservation side plates are arranged between the heat preservation bearing plates respectively, the upper sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned above, and the lower sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned below;

the side plate with the portal is used for providing an opening, at least one opening is arranged in the middle of the side plate with the portal, the upper side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned above, and the lower side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned below;

the heat preservation bearing plate, the heat preservation side plate and the side plate with the door frame form a heat preservation space;

the assembled heat preservation door is used for sealing the side plate with the portal, the size of the assembled heat preservation door is matched with that of the opening of the side plate with the portal, and the assembled heat preservation door is hinged with the side plate with the portal;

and the evaporator, the refrigerating surface is communicated with the heat-insulating space and is fixedly connected with the heat-insulating side plate.

When the customer is customized, the heat preservation carrier plate and the heat preservation side plate which are opened are generally selected to be combined, and when the size is not suitable, the heat preservation carrier plate or the heat preservation side plate can be adjusted to be spliced and combined.

The four sides of the heat preservation bearing plate and the heat preservation side plate are designed into a step shape, so that the structural strength of the whole box body is guaranteed during assembly, the step of each heat preservation plate is spliced by adopting resin, the assembly speed is increased, and the cold bridge problem at the splicing position is solved.

Screw fixing lining parts are embedded in the positions where the steps of the heat preservation bearing plate and the heat preservation side plate are fixed.

The foamed heat-insulating bearing plate and the foamed heat-insulating side plate are spliced and combined through the steps according to the sequence, and the splicing position is sealed by adopting silicon rubber, so that cold air is prevented from leaking and is fixed by bolts.

The heat insulation material of the heat insulation bearing plate and the heat insulation side plate is polyurethane, and the plate thickness is larger than 60 mm.

Preferably, the joint edge surface of the heat-preservation side plate and the heat-preservation bearing plate is provided with an anti-condensation groove;

splicing fixing holes are formed in two ends of the anti-condensation groove;

cold bridge-proof resin strips are arranged on the edge surfaces of the splicing of the heat-preservation bearing plates and the heat-preservation bearing plates;

the edge surfaces of the heat preservation bearing plates at the two ends of the cold-bridge-proof resin strip are provided with splicing fixing holes.

An anti-condensation heating wire is arranged in the anti-condensation groove in a penetrating way.

Preferably, the sections of the front section and the side section of the heat-insulating bearing plate are both convex, and the convex edge is matched with the heat-insulating side plate;

the four sides of the heat preservation bearing plate are also provided with splicing through holes, and the positions of the splicing through holes are matched with the splicing fixing holes at the two ends of the anti-condensation groove.

Preferably, the heat-preservation side plate is also prefabricated with a detachable evaporation box mounting hole for mounting an evaporator so as to communicate the evaporator with the heat-preservation space.

Preferably, the heat preservation carrier plate positioned on the upper side is also provided with a bedplate;

the bedplate is fixedly connected with the heat preservation bearing plate positioned on the upper side and fixedly connected with the top of the evaporator;

the heat preservation carrier plate that is located the downside on still be provided with the footing, at least four, set up the four corners at the heat preservation carrier plate that is located the downside respectively.

The size of platen is greater than the heat preservation carrier plate, and two are established to the platen if necessary, install respectively in the outside of two heat preservation carrier plates and increase overall structure intensity, increase whole pleasing to the eye degree simultaneously.

The beneficial effects of the utility model reside in that: through the structure with the box split one-tenth polylith heated board to assemble according to the size that the customer needs, reduce the die sinking quantity, shorten production cycle, can also reduction in production cost, satisfy the not mark system demand of small in quantity.

Drawings

FIG. 1 is a schematic view of a heat-insulating side plate of the present invention;

FIG. 2 is a schematic view of the assembly of the present invention;

FIG. 3 is a view showing the completion of the assembly of the present invention;

in the figure: a. the splicing step, b, the footing, c, the door magnetic attraction frame board, d, the side door, 1, the concatenation fixed orifices, 2, prevent the condensation recess, 3, prevent cold bridge resin strip, 4, the concatenation through-hole, 5, the heat preservation carrier plate, 6, prevent that the condensation heater strip is porose, 7, evaporation case mounting hole, 8, heat preservation curb plate, 9, platen, 10, take the portal curb plate, 12, the evaporimeter.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific embodiments and with reference to the accompanying drawings.

Example 1

As shown in fig. 1, fig. 2 and fig. 3, the quick non-calibration refrigeration cabinet comprises:

the number of the heat preservation bearing plates 5 is at least two, and the two heat preservation bearing plates 5 are arranged in parallel;

at least three heat preservation side plates 8 are respectively arranged between the heat preservation bearing plates 5, the upper sides of the heat preservation side plates 8 are detachably connected with the heat preservation bearing plates 5 positioned above, and the lower sides of the heat preservation side plates 8 are detachably connected with the heat preservation bearing plates 5 positioned below;

the heat preservation support plate comprises a side plate with a door frame 10 and a heat preservation support plate 5, wherein the side plate with the door frame 10 is used for providing an opening, at least one opening is arranged in the middle of the side plate with the door frame 10, the upper side of the side plate with the door frame 10 is detachably connected with the heat preservation support plate 5 positioned above, and the lower side of the side plate with the door frame 10 is detachably connected with the heat preservation support;

the heat preservation bearing plate 5, the heat preservation side plate 8 and the side plate with the door frame 10 are combined into a heat preservation space;

the assembled heat preservation door is used for sealing the side plate 10 with the door frame, the size of the assembled heat preservation door is matched with that of the opening of the side plate 10 with the door frame, and the assembled heat preservation door is hinged with the side plate 10 with the door frame;

and the evaporator 12, the refrigerating surface and the heat preservation space are communicated and fixedly connected with the heat preservation side plate 8.

When the customer customizes, generally only need select heat preservation carrier plate 5, the heat preservation curb plate 8 that the mould had opened to make up, when not having suitable size, can splice the combination through adjusting the size of heat preservation carrier plate 5 or heat preservation curb plate 8.

The four sides of the heat preservation bearing plate 5 and the heat preservation side plate 8 are designed into a splicing step shape, so that the structural strength of the whole box body is ensured during assembly, the cold bridge prevention resin strips 3 are installed at the splicing step of each heat preservation plate, the assembly speed is increased, and the cold bridge problem at the splicing position is solved simultaneously.

Screw fixing lining parts are embedded at the fixed positions of the steps of the heat preservation bearing plate 5 and the heat preservation side plate 8.

The foamed heat-insulating bearing plate 5 and the heat-insulating side plate 8 are spliced and combined through the splicing step a according to the sequence, and the splicing position is sealed by adopting silicon rubber, so that cold air is prevented from leaking and is fixed by bolts.

The heat insulation material of the heat insulation bearing plate 5 and the heat insulation side plate 8 is polyurethane, and the plate thickness is larger than 60 mm.

As shown in fig. 3, three side doors d are further hinged to the side panel 10 with the door frame, and a door magnetic attraction frame plate c for side door attraction is arranged on the side panel 10 with the door frame corresponding to the two side doors d of the split door.

The anti-condensation groove 2 is arranged on the connecting edge surface of the heat preservation side plate 8 and the heat preservation bearing plate 5;

splicing fixing holes 1 are formed in two ends of the anti-condensation groove 2;

the edge surface of the splicing of the heat preservation bearing plate 5 and the heat preservation bearing plate 5 is provided with a cold bridge prevention resin strip 3;

the edge surfaces of the heat preservation bearing plates 5 at the two ends of the cold-bridge-proof resin strip 3 are provided with splicing fixing holes 1.

An anti-condensation heating wire is arranged in the anti-condensation groove 2 in a penetrating way. The anti-condensation heating wire is communicated with the outside through an anti-condensation heating wire outlet 6 arranged on the heat preservation bearing plate 5.

As shown in a splicing step a in fig. 2, the sections of the front section and the side section of the heat preservation carrier plate 5 are both convex, and the convex edge is matched with the heat preservation side plate 8;

the four sides of the heat preservation bearing plate 5 are also provided with splicing through holes 4, and the positions of the splicing through holes are matched with the splicing fixing holes 1 at the two ends of the condensation-preventing groove 2.

Wherein, the heat preservation side plate 8 positioned at the left side edge in the figure 2 is also prefabricated with a detachable evaporation box mounting hole 7 for mounting an evaporator 12, so that the evaporator 12 is communicated with the heat preservation space.

The heat preservation bearing plate 5 positioned on the upper side is also provided with a bedplate 9;

the bedplate 9 is fixedly connected with the heat preservation bearing plate 5 positioned at the upper side, and the bedplate 9 is fixedly connected with the top of the evaporator 12;

the heat preservation carrier plate 5 that is located the downside on still be provided with footing b, at least four, set up respectively in the four corners that is located heat preservation carrier plate 5 of downside.

The size of platen 9 is greater than heat preservation carrier plate 5, and two are established to the dress of platen 9 when necessary, install respectively in the outside of two heat preservation carrier plates 5 and increase overall structure intensity, increase whole pleasing to the eye degree simultaneously.

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 invention. 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 (5)

1. A quick non-calibration refrigeration cabinet, comprising:

the heat preservation bearing plates are at least two, and the two heat preservation bearing plates are arranged in parallel;

the heat preservation side plates are arranged between the heat preservation bearing plates respectively, the upper sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned above, and the lower sides of the heat preservation side plates are detachably connected with the heat preservation bearing plates positioned below;

the side plate with the portal is used for providing an opening, at least one opening is arranged in the middle of the side plate with the portal, the upper side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned above, and the lower side of the side plate with the portal is detachably connected with the heat preservation bearing plate positioned below;

the heat preservation bearing plate, the heat preservation side plate and the side plate with the door frame form a heat preservation space;

the assembled heat preservation door is used for sealing the side plate with the portal, the size of the assembled heat preservation door is matched with that of the opening of the side plate with the portal, and the assembled heat preservation door is hinged with the side plate with the portal;

and the evaporator, the refrigerating surface is communicated with the heat-insulating space and is fixedly connected with the heat-insulating side plate.

2. The rapid non-calibration refrigeration cabinet as recited in claim 1, wherein the connection edge surface of the heat preservation side plate and the heat preservation support plate is provided with a condensation-preventing groove;

splicing fixing holes are formed in two ends of the anti-condensation groove;

cold bridge-proof resin strips are arranged on the edge surfaces of the splicing of the heat-preservation bearing plates and the heat-preservation bearing plates;

the edge surfaces of the heat preservation bearing plates at the two ends of the cold-bridge-proof resin strip are provided with splicing fixing holes.

3. The quick non-calibration refrigeration cabinet according to claim 2, wherein the sections of the front section and the side section of the heat preservation carrier plate are both convex, and the convex edge is matched with the heat preservation side plate;

the four sides of the heat preservation bearing plate are also provided with splicing through holes, and the positions of the splicing through holes are matched with the splicing fixing holes at the two ends of the anti-condensation groove.

4. The rapid non-calibration refrigeration cabinet as recited in claim 1, wherein the heat-insulating side plate is further prefabricated with a detachable evaporator box mounting hole for mounting an evaporator, so that the evaporator is communicated with the heat-insulating space.

5. The rapid uncalibrated refrigeration cabinet as claimed in claim 4, wherein the upper thermal insulation support plate is further provided with a platen;

the bedplate is fixedly connected with the heat preservation bearing plate positioned on the upper side and fixedly connected with the top of the evaporator;

the heat preservation carrier plate that is located the downside on still be provided with the footing, at least four, set up the four corners at the heat preservation carrier plate that is located the downside respectively.

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