CN215977729U - Double-module splicing warehouse - Google Patents

Abstract

A double-module splicing warehouse is formed by connecting 2 single-module splicing warehouses with the same structure, wherein the 2 single-module splicing warehouses with the same structure are connected through two module connecting pieces; the single-module splicing warehouse comprises 2 upright posts, 2 side plate connecting pieces and 4 front and rear connecting pieces; the 1 side plate connecting piece and the 2 front and rear connecting pieces are connected to form the bottom surface of the box body lacking one side; the 1 side plate connecting piece and the 2 front and rear connecting pieces are connected to form the top surface of the box body lacking one side; the 2 upright posts and the 2 side plate connecting pieces are connected to form one side surface of the box body, and the 2 upright posts and the 4 front and rear connecting pieces are connected to form two opposite side surfaces of the box body, which lack one side edge; the bottom surface of the box body is provided with a bottom plate, the top surface of the box body is provided with a top plate, and three surfaces of the box body are provided with side plates. The double-module splicing warehouse is creatively provided with the splicing warehouse in a modularized manner, 2 single-module splicing warehouses with the same structure are simply spliced, so that the double-module splicing warehouse is realized, and the double-module splicing warehouse is simple in structure and convenient to splice.

Description

Double-module splicing warehouse

Technical Field

The utility model relates to the technical field of heat preservation, in particular to a double-module spliced storeroom, and further relates to a cold storage for heat preservation.

Background

The cold storage is a device for storing cold air at constant temperature for food, dairy products, meat, aquatic products, chemical industry, medicine, seedling raising, scientific experiment and the like. The refrigeration house is different from a common warehouse, the temperature inside the refrigeration house is usually lower, the requirements on the temperature, the humidity and the environment of air are higher, if the refrigeration house plate is not well selected, the temperature inside the refrigeration house is difficult to control, the products stored inside the refrigeration house are easy to deteriorate, or a refrigeration compressor of the refrigeration house is enabled to work frequently, more resources are wasted, and the use cost is increased.

The activity freezer that uses at present, the piece is many, and thermal insulation performance is poor, and the combination degree of difficulty is big, and it is very inconvenient to remove, still needs extra sealing treatment after the concatenation is accomplished, is unfavorable for the use.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: the defects of the prior art are overcome, and the splicing library is provided.

The technical solution of the utility model is as follows:

a double-module splicing warehouse is formed by connecting 2 single-module splicing warehouses with the same structure, wherein the 2 single-module splicing warehouses with the same structure are connected through two module connecting pieces.

Furthermore, the single-module splicing warehouse is a cuboid or square box structure lacking one side surface and comprises 2 stand columns, 2 side plate connecting pieces and 4 front and rear connecting pieces; wherein, 1 side plate connecting piece and 2 front and back connecting pieces are connected to form the bottom surface of the box body lacking one side; in addition, 1 side plate connecting piece and 2 front and rear connecting pieces are connected to form the top surface of the box body lacking one side; the 2 upright posts and the 2 side plate connecting pieces are connected to form one side surface of the box body, the 2 upright posts and the 4 front and rear connecting pieces are connected to form two opposite side surfaces of the box body, which lack one side edge, and one end of each of the two opposite side surfaces is connected with the 2 upright posts and the 2 side plate connecting pieces to form one side surface of the box body; the bottom surface of the box body is provided with a bottom plate, the top surface of the box body is provided with a top plate, and three surfaces of the box body are provided with side plates; 2 stands, 2 side plate connecting pieces, 4 front and back connecting pieces are all inserted and connected each other.

Further, the two module connecting pieces comprise two module connecting piece supporting columns, the two module connecting piece supporting columns are of cuboid tubular structures and are internally provided with through cavities, and the two opposite side faces of the two module connecting piece supporting columns are respectively provided with a female buckle and a male buckle.

Furthermore, the two module connecting pieces are inserted and connected with the front connecting piece and the rear connecting piece.

Furthermore, the front and rear connecting pieces of the 2 single modules are of an integrated structure.

Furthermore, each upright post comprises an upright post supporting column, an upright post first groove and an upright post second groove; the first groove and the second groove of the upright post are respectively connected with two adjacent side surfaces of the upright post support column in a right angle; the length of the upright post supporting column at two end points exceeds the upright post first groove and the upright post second groove.

Further, the side plate connecting piece comprises 1 side plate upper connecting piece, the side plate upper connecting piece comprises a side plate upper connecting piece supporting column, a side plate upper connecting piece first groove and a side plate upper connecting piece second groove; the first groove of the upper connecting piece of the side plate and the second groove of the upper connecting piece of the side plate are respectively connected with two adjacent side surfaces of the supporting column of the upper connecting piece of the side plate in a right angle; the length of the connecting piece support column on the side plate at two end points is the same as that of the connecting piece second groove on the side plate, and exceeds the connecting piece first groove on the side plate.

Further, the side plate connecting piece comprises 1 side plate lower connecting piece, the side plate lower connecting piece comprises a side plate lower connecting piece supporting column with a concave-shaped section, a side face of the side plate lower connecting piece supporting column is provided with a side plate lower connecting piece first connecting plate and a side plate lower connecting piece second connecting plate which are arranged in parallel, and the side plate lower connecting piece first connecting plate and the side plate lower connecting piece second connecting plate form a side plate lower connecting piece second groove; the length of the side plate lower connecting piece supporting column at two end points exceeds the side plate lower connecting piece second groove.

Furthermore, the front and rear connecting pieces comprise front and rear connecting piece supporting columns with concave-shaped sections, one side surface of each front and rear connecting piece supporting column is provided with a front and rear connecting piece first connecting plate and a front and rear connecting piece second connecting plate which are arranged in parallel, and the front and rear connecting piece first connecting plates and the front and rear connecting piece second connecting plates form front and rear connecting piece second grooves; the length of the front and rear connecting piece supporting columns at two end points is the same as that of the front and rear connecting piece second grooves.

Furthermore, a door is arranged on one side surface of the splicing warehouse.

Compared with the prior art, the utility model has the advantages that:

1. the double-module splicing warehouse is creatively provided with the splicing warehouse in a modularized manner, 2 single-module splicing warehouses with the same structure are simply spliced, so that the double-module splicing warehouse is realized, and the double-module splicing warehouse is simple in structure and convenient to splice.

2. The double-module splicing warehouse realizes the connection of the bottom plate, the top plate and the side plates by arranging the original upright posts and the side plate connecting pieces and the front and rear connecting pieces, and the formed splicing warehouse has the advantages of simple structure, convenience in installation, high structural strength and good heat insulation effect.

Drawings

FIG. 1 is a schematic perspective view of a splice library of the present invention.

FIG. 2 is a schematic structural diagram for displaying a splicing relationship in the splicing library of the present invention.

FIG. 3 is a schematic structural diagram of a single-module splicing library for displaying splicing relationships in the splicing library of the present invention.

FIG. 4 is a schematic perspective view of a connection piece for two modules in the splicing library of the present invention;

FIG. 5 is a front view of a two-module connection in the splice library of the present invention;

FIG. 6 is a schematic perspective view of a column in the splicing library of the present invention;

FIG. 7 is a front view of a column in the splice library of the present invention;

FIG. 8 is a schematic perspective view of a connecting member on a side plate of the splicing library of the present invention;

FIG. 9 is a front view of the connecting members on the side panels of the splicing library of the present invention;

FIG. 10 is a perspective view of the connecting member under the side plate in the splicing library of the present invention;

FIG. 11 is a front view of the side plate lower link in the splicing library of the present invention;

FIG. 12 is a schematic perspective view of front and rear connectors in the splicing library of the present invention;

FIG. 13 is a front view of the front and rear lower connectors in the splice storage of the present invention;

FIG. 14 is a schematic view of the connection structure of the lower connecting member of the side plate, the pillar and the lower front connecting member in the splicing warehouse of the present invention;

FIG. 15 is a schematic view showing a connection structure of the upper connecting member of the side plate, the pillar and the upper front connecting member in the splicing library of the present invention;

FIG. 16 is a schematic view of the overall structure of the bottom plate of the splicing library according to the present invention;

FIG. 17 is a schematic view of the structure of the joint of the bottom plate in the splicing library of the present invention;

FIG. 18 is a schematic side view of a bottom plate of the splicing library of the present invention;

FIG. 19 is a schematic view of the structure of the joint of the outer plate of the bottom plate in the splicing library of the present invention;

FIG. 20 is a schematic view of the structure of the joint of the inner plate of the bottom plate in the splicing library of the present invention;

FIG. 21 is a schematic view of the overall structure of the top plate or the side plate of the splicing warehouse according to the present invention;

FIG. 22 is a schematic view of the structure of the joint of the top plate or the side plate in the splicing warehouse of the present invention;

FIG. 23 is a schematic side view of the top plate or the side plate of the splicing warehouse according to the present invention;

FIG. 24 is a schematic view of the structure of the joint of the inner plate of the top plate or the side plate in the splicing warehouse of the present invention;

FIG. 25 is a schematic view of the structure of the joint of the outer plate of the top plate or the side plate in the splicing warehouse of the present invention.

Detailed Description

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the utility model. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-2, a dual-module splicing warehouse is formed by connecting 2 single-module splicing warehouses with the same structure, wherein the 2 single-module splicing warehouses with the same structure are connected through two module connecting pieces 540.

As shown in fig. 3, the single module splicing warehouse is a rectangular or square box structure lacking one side, and includes 2 columns 510 and 2 side panel connectors 520, where the 2 side panel connectors 520 include an upper side panel connector 521 and a lower side panel connector 522, and the 4 front and rear connectors 530 include a front lower connector 531, a rear lower connector 532, an upper front connector 533 and an upper rear connector 534; the side plate lower connecting piece 522, the front lower connecting piece 531 and the rear lower connecting piece 532 are inserted and connected to form the bottom surface of the box body lacking one side; the side plate upper connecting piece 521, the front upper connecting piece 533 and the rear upper connecting piece 534 are inserted and connected to form the top surface of the box body lacking one side.

1 upright post and front lower connecting piece 531 are inserted and connected with front upper connecting piece 533 to form an opposite side surface of the box body lacking one edge, the other upright post and rear lower connecting piece 532 are inserted and connected with rear upper connecting piece 534 to form an opposite side surface of the box body lacking one edge, and the two side surfaces are arranged oppositely; the two ends of one side surface of the box body formed by inserting and connecting the 2 upright columns 510, the side plate upper connecting pieces 521 and the side plate lower connecting pieces 522 are respectively connected with the two opposite side surfaces lacking one edge of the box body formed by inserting and connecting the 2 upright columns 510, the side plate upper connecting pieces 521 and the side plate lower connecting pieces 522; the bottom surface of the box body is provided with a bottom plate, the top surface of the box body is provided with a top plate, and three surfaces of the box body are provided with side plates;

as shown in fig. 14-15, 2 upright posts, 2 side plate connecting pieces, and 4 front and rear connecting pieces are all connected in an inserting manner; each of the columns 510 includes a column support post 5111, a column first groove 5112 and a column second groove 5113; the upright first groove 5112 and the upright second groove 5113 are respectively connected to two adjacent side surfaces of the upright supporting column 5111 at a right angle; the length of the pillar support 5111 at both end points exceeds the pillar first groove 5112 and the pillar second groove 5113. The side plate 301 is inserted into the first upright post groove 5112 and the second upright post groove 5113, and meanwhile, two ends of the upright post supporting column 5111, which exceed the first upright post groove 5112 and the second upright post groove 5113, are respectively inserted into the side plate connecting member 520 and the front-rear connecting member 530, specifically, one end of a certain upright post 510 is respectively inserted into the front-lower connecting member 531 and the side plate lower connecting member 522, and the other end of the certain upright post is respectively inserted into the front-upper connecting member 533 and the side plate upper connecting member 521, as shown in fig. 3-4, the insertion manners of the other upright posts, the front-rear connecting member, and the side plate connecting member are the same, and are not described again. Preferably, the column support 5111 is filled with a thermal insulation filler to prevent a cold bridge from forming.

As shown in fig. 4-5, two module connecting pieces 540, it includes two module connecting piece support columns 5411, two module connecting piece support columns 5411 are cuboid tubular structure, are provided with in and link up cavity 5412, two module connecting piece support columns 5411 opposite sides face is provided with box buckle 5413 and pin buckle 5414 respectively, through setting up box buckle 5413 and pin buckle 5414 realize with bottom plate 201, the box buckle and the pin buckle that curb plate 301 and roof 302 set up are inserted and shut and are connected, when realizing that 2 single module concatenation storehouses splice to bimodulus module concatenation storehouse, bottom plate 201, the inserted and shut of curb plate 301 and roof 302 is connected.

Preferably, the two module connectors 540 are inserted into and connected with the front and rear connectors 530, specifically, the two module connector support column 540 includes two module front connectors 541, two module rear connectors 542, two module upper connectors 543 and two module lower connectors 544, two ends of the two module front connectors 541 are inserted into and connected with the front and rear connector second grooves 5314 of the front upper connector 533 and the front lower connector 531 respectively, and two ends of the two module rear connectors 542 are inserted into and connected with the front and rear connector second grooves 5314 of the rear upper connector 534 and the rear lower connector 532 respectively; two ends of the two module upper connecting pieces 543 are respectively inserted into the grooves of the front and rear connecting piece supporting columns 5311 of the front and rear upper connecting pieces 533 and 534, and two ends of the two module lower connecting pieces 544 are respectively inserted into the grooves of the front and rear connecting piece supporting columns 5311 of the front and rear lower connecting pieces 531 and 532.

Preferably, the front and rear connecting pieces of the 2 single modules are of an integrated structure.

As shown in fig. 6-7, each of the posts 510 includes a post support post 5111, a post first slot 5112 and a post second slot 5113; the upright first groove 5112 and the upright second groove 5113 are respectively connected to two adjacent side surfaces of the upright supporting column 5111 at a right angle; the length of the pillar support 5111 at both end points exceeds the pillar first groove 5112 and the pillar second groove 5113. The side plate 301 is inserted into the first upright post groove 5112 and the second upright post groove 5113, and meanwhile, two ends of the upright post supporting column 5111, which exceed the first upright post groove 5112 and the second upright post groove 5113, are respectively inserted into the side plate connecting member 520 and the front-rear connecting member 530, specifically, one end of a certain upright post 510 is respectively inserted into the front-lower connecting member 531 and the side plate lower connecting member 522, and the other end of the certain upright post is respectively inserted into the front-upper connecting member 533 and the side plate upper connecting member 521, as shown in fig. 3-4, the insertion manners of the other upright posts, the front-rear connecting member, and the side plate connecting member are the same, and are not described again. Preferably, the column support 5111 is filled with a thermal insulation filler to prevent a cold bridge from forming.

As shown in fig. 8 to 9, the side plate connectors 520 include 2 side plate upper connectors 521, each side plate upper connector 521 includes a side plate upper connector support column 5211, a side plate upper connector first groove 5212 and a side plate upper connector second groove 5213; the side plate upper connecting piece first groove 5212 and the side plate upper connecting piece second groove 5213 are respectively connected to two adjacent side surfaces of the side plate upper connecting piece supporting column 5211 in a right angle; the side plate upper connector support columns 5211 have the same length at both end points as the side plate upper connector second grooves 5213, beyond the side plate upper connector first grooves 5212. The first groove 5212 of the upper connecting member of the side plate is used for inserting and connecting the top plate 302, and the second groove 5213 of the upper connecting member of the side plate is used for inserting and connecting the side plate 301. Preferably, the side plate upper connector support columns 5211 are filled with insulation filler to prevent cold bridge formation.

As shown in fig. 10 to 11, the side plate connectors 520 include 2 side plate lower connectors 522, each side plate lower connector 522 includes a side plate lower connector support column 5221 with a cross section in a shape of a Chinese character 'ao', one side surface of the side plate lower connector support column 5221 is provided with a side plate lower connector first connection plate 5222 and a side plate lower connector second connection plate 5223 which are arranged in parallel, and the side plate lower connector first connection plate 5222 and the side plate lower connector second connection plate 5223 constitute a side plate lower connector second groove 5224; the length of the side plate lower connector support columns 5221 at both end points exceeds the side plate lower connector second grooves 5224. The side plate lower connecting piece second groove 5224 is used for the insertion connection of the bottom plate 201, and the groove of the side plate lower connecting piece supporting column 5221 is used for the insertion connection of the side plate 301.

As shown in fig. 12 to 13, the front-rear connecting member 530 includes a front-rear connecting member supporting column 5311 having a cross section in a shape of a Chinese character 'ao', a front-rear connecting member first connecting plate 5312 and a front-rear connecting member second connecting plate 5313 which are arranged in parallel are provided on one side surface of the front-rear connecting member supporting column 5311, and the front-rear connecting member first connecting plate 5312 and the front-rear connecting member second connecting plate 5313 form a front-rear connecting member second groove 5314; the front and rear connector support posts 5311 have the same length at both end points as the front and rear connector second grooves 5314. The grooves of the front and rear connector support posts 5311 are used for the insertion connection of the bottom plate 201 or the top plate 302, and the front and rear connector second grooves 5314 are used for the insertion connection of the side plates 301.

Preferably, a door 600 is disposed at one side of the splicing library.

As shown in fig. 16-20, a bottom plate 201, which includes a bottom plate inner plate 200 and a bottom plate outer plate 100, wherein the bottom plate inner plate 200 faces the interior of the garage and the bottom plate outer plate 100 faces the exterior of the garage; at least one male buckle is arranged on the bottom plate inner plate 200; at least one female buckle is correspondingly arranged on the bottom plate outer plate 100; the inner bottom plate 200 and the outer bottom plate 100 are connected in an inserting manner through the male buckle and the female buckle; at least one reinforcing rib 280 is arranged on the inner side of the bottom plate inner plate 200; the reinforcing ribs 280 are disposed at intervals inside the floor inner panel 200.

Preferably, a bottom plate inner plate male buckle left side plate 210 and a bottom plate inner plate female buckle right side plate 220 are respectively arranged on two end faces of the bottom plate inner plate 200.

Preferably, follow bottom plate inner panel 200 is to the 100 directions of bottom plate planking, the bottom of bottom plate inner panel pin thread left side board 210 and bottom plate inner panel box right side board 220 is provided with bottom plate inner panel connection left pin thread 230 and bottom plate inner panel connection right pin thread 250 respectively, between bottom plate inner panel connection left pin thread 230 and bottom plate inner panel connection right pin thread 250, follow bottom plate inner panel 200 is to the 100 directions of bottom plate planking, bottom plate inner panel 200 inboard is provided with bottom plate inner panel connection fixed pin thread 240.

Preferably, the left end of the bottom plate outer plate 100 is provided with a bottom plate outer plate connecting left female buckle 110, which is inserted into the bottom plate inner plate connecting left male buckle 230; the right end of the bottom plate outer plate 100 is provided with a bottom plate outer plate connecting right female buckle 130 which is inserted with the bottom plate inner plate connecting right male buckle 250; the bottom plate outer plate is connected between the left female buckle 110 and the bottom plate outer plate is connected between the right female buckle 130, and the bottom plate outer plate 100 is provided with a bottom plate outer plate connecting and fixing female buckle 120 which is inserted and combined with the bottom plate inner plate connecting and fixing male buckle 240. Through the inserting connection of the plurality of male buckles and the female buckle, the tight connection of the bottom plate outer plate and the bottom plate inner plate is realized.

Preferably, a bottom plate inner plate male buckle left buckle 260 is arranged on the outer side of the bottom plate inner plate male buckle left side plate 210; a bottom plate inner plate female buckle right buckle 270 is arranged on the outer side of the bottom plate inner plate female buckle right side plate 220; the left buckle 260 of the inner plate male buckle of the bottom plate and the right buckle 270 of the inner plate female buckle of the bottom plate are matched, so that the left buckle 260 of the inner plate male buckle of the bottom plate 200 is adjacent to the right buckle 270 of the inner plate female buckle of the bottom plate 200 and sequentially spliced.

Preferably, at least one rib 290 is disposed on the outer side of the inner floor panel 200 at a position corresponding to the reinforcing rib 280.

Preferably, the ribs 280 are disposed at equal intervals on the inner side of the floor inner panel 200. The reinforcing ribs are arranged at intervals, so that the stress of the bottom plate is more balanced.

Preferably, the spaced apart ribs 280 define the insulating material receiving cavity 102 therebetween.

Preferably, a moisture drying absorbent is provided in the base insulating material accommodating chamber 102.

Preferably, a vacuum sensor is disposed in the bottom plate heat insulating material accommodating chamber 102, which can immediately monitor whether the heat insulating material is damaged due to external force.

Further preferably, a bottom plate heat insulating material accommodating chamber 102 is formed between the bottom plate outer plate connecting and fixing female buckle 120 and the bottom plate inner plate connecting and fixing male buckle 240, which are inserted and connected, and the reinforcing rib 280. Preferably, an insulation material is disposed in the bottom insulation material accommodating chamber 102. Heat insulating material has been found through a plurality of strengthening ribs and strengthening rib and the pin thread box of inserting and has held the chamber, has been found heat insulating material through a plurality of strengthening ribs and strengthening rib and the pin thread box of inserting and has held the chamber, has realized the installation of heat insulating material, can extensively be used for freezer or heat preservation storehouse.

Preferably, the inner floor panel 200 and/or the outer floor panel 100 are glass fiber reinforced plastic panels, PE panels, stainless steel panels, galvanized panels, color steel tiles, cold-rolled steel panels, hot-rolled steel panels, aluminum panels, plastic steel panels, carbon fiber panels, PVC panels, high-density polyethylene panels, polypropylene panels, or polystyrene panels.

The bottom plate has the advantages of simple structure, convenience in installation and good heat insulation effect, the inner plate and the outer plate of the bottom plate and the adjacent heat insulation plates are connected in an inserting and combining mode, the installation is convenient, the air tightness is good, and the bottom plate is not easy to stress and separate. Simultaneously, the bottom plate creatively has constructed thermal insulation material through a plurality of strengthening ribs and strengthening rib and the pin thread box of inserting to close and has held the chamber, has realized thermal insulation material's installation, can extensively be used for freezer or heat preservation storehouse.

As shown in fig. 21-25, a side panel 301 or top panel 302, which includes an inner panel 300 and an outer panel 400, wherein the inner panel 300 faces the interior of the garage and the outer panel 400 faces the exterior of the garage; at least one female buckle is arranged on the inner plate 300; at least one male buckle is correspondingly arranged on the outer plate 400; the inner plate 300 and the outer plate 400 are inserted and connected by the female and male buckles.

Preferably, both end surfaces of the outer plate 400 are respectively provided with an outer plate pin left side plate 410 and an outer plate box right side plate 420.

Preferably, along planking 400 to inner panel 300 direction, the bottom of planking pin thread left side board 410 and planking box right side board 420 is provided with planking respectively and connects left pin thread 430 and planking and connect right pin thread 450, between planking connection left pin thread 430 and planking connection right pin thread 450, along planking 400 to inner panel 300 direction, planking 400 inboard is provided with planking connection fixed pin thread 440.

Preferably, the left end of the inner plate 300 is provided with an inner plate connecting left female buckle 310, which is inserted into the outer plate connecting left male buckle 430; the right end of the inner plate 300 is provided with an inner plate connecting right female buckle 330 which is inserted with the outer plate connecting right male buckle 450; between left box 310 and the right box 330 of inner panel connection, inner panel 300 is provided with the fixed box 220 of inner panel connection, with the fixed pin 440 is inserted to close to outer panel connection. Through the inserting connection of the plurality of male buckles and the female buckle, the tight connection of the outer plate and the inner plate is realized.

Preferably, an outer plate pin left chuck 460 is arranged on the outer side of the outer plate pin left side plate 410; an outer plate female fastener left clamping head 470 is arranged on the outer side of the outer plate female fastener right side plate 420; the left clamp head 460 of the outer plate pin thread is matched with the left clamp head 470 of the outer plate box, so that the left clamp head 460 of the outer plate pin thread of the outer plate 400 is sequentially spliced with the left clamp head 470 of the outer plate box of the adjacent outer plate 400. Through the left dop 460 of the male buckle of the outer plate 400 and the left dop 470 of the female buckle of the outer plate 400 are sequentially spliced, the tight splicing of multiple heat insulation plates is realized, and the stress separation is not easy.

Preferably, a heat insulation material accommodating cavity 303 is formed between the inserted and connected inner plate connecting and fixing female buckle 220 and outer plate connecting and fixing male buckle 440 and the outer plate male buckle left side plate 410 and the outer plate female buckle right side plate 420. The inner plate connecting and fixing female buckle and the outer plate connecting and fixing male buckle connected and fixed with the outer plate, the outer plate male buckle left side plate and the outer plate female buckle right side plate form a heat insulation material containing cavity, so that the heat insulation material is installed, and the heat insulation material containing cavity can be widely used in a refrigeration house or a heat preservation house.

Preferably, an insulating material is arranged in the insulating material accommodating cavity 303.

Preferably, a moisture drying absorbent is arranged in the heat insulation material accommodating cavity 303.

Preferably, a vacuum sensor is arranged in the heat insulation material accommodating cavity 303, and the vacuum sensor can immediately monitor whether the heat insulation material is damaged due to external force.

Preferably, the inner panel 300 and/or the outer panel 400 is a glass fiber reinforced plastic panel, a PE panel, a stainless steel panel, a galvanized sheet, a color steel tile, a cold-rolled steel panel, a hot-rolled steel panel, an aluminum panel, a plastic steel panel, a carbon fiber panel, a PVC panel, a high density polyethylene panel, a polypropylene panel, or a polystyrene panel.

The heat insulation plate structure adopted by the side plate 301 or the top plate 302 is simple in structure, convenient to install, good in heat insulation effect, convenient to install, good in air tightness and not easy to stress and separate, and the inner plate and the outer plate and adjacent heat insulation plates are connected in an inserting and combining mode. In addition, the heat insulation plate structure adopted by the side plate 301 or the top plate 302 creatively constructs a heat insulation material containing cavity through the inner plate connecting and fixing female buckle and the outer plate connecting and fixing male buckle connected and fixed with the outer plate male buckle and the outer plate female buckle left side plate and the outer plate female buckle right side plate, so that the installation of heat insulation materials is realized, and the heat insulation plate structure can be widely used in a refrigeration house or a heat insulation house.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A double-module splicing warehouse is characterized by being formed by connecting 2 single-module splicing warehouses with the same structure, wherein the 2 single-module splicing warehouses with the same structure are connected through two module connecting pieces.

2. The splicing warehouse of claim 1, wherein the single-module splicing warehouse is a cuboid or square box structure lacking one side surface and comprises 2 upright posts, 2 side plate connecting pieces and 4 front and rear connecting pieces;

wherein the content of the first and second substances,

the 1 side plate connecting piece and the 2 front and rear connecting pieces are connected to form the bottom surface of the box body lacking one side;

in addition, 1 side plate connecting piece and 2 front and rear connecting pieces are connected to form the top surface of the box body lacking one side;

the 2 upright posts and the 2 side plate connecting pieces are connected to form one side surface of the box body, the 2 upright posts and the 4 front and rear connecting pieces are connected to form two opposite side surfaces of the box body, which lack one side edge, and one end of each of the two opposite side surfaces is connected with the 2 upright posts and the 2 side plate connecting pieces to form one side surface of the box body;

the bottom surface of the box body is provided with a bottom plate, the top surface of the box body is provided with a top plate, and three surfaces of the box body are provided with side plates;

2 stands, 2 side plate connecting pieces, 4 front and back connecting pieces are all inserted and connected each other.

3. The splice library of claim 1,

the two-module connecting piece comprises two module connecting piece supporting columns which are of cuboid tubular structures and internally provided with through cavities, and the opposite two side surfaces of the two module connecting piece supporting columns are respectively provided with a female buckle and a male buckle.

4. The splice library of claim 3,

the two module connecting pieces are inserted and connected with the front connecting piece and the rear connecting piece.

5. Splicing library according to claim 2, characterized in that the front and rear connecting members of the 2 single modules are of an integral structure.

6. The splice library of claim 2,

each upright column comprises an upright column supporting column, an upright column first groove and an upright column second groove;

the first groove and the second groove of the upright post are respectively connected with two adjacent side surfaces of the upright post support column in a right angle;

the length of the upright post supporting column at two end points exceeds the upright post first groove and the upright post second groove.

7. The splice library of claim 2,

the side plate connecting piece comprises 1 side plate upper connecting piece, the side plate upper connecting piece comprises a side plate upper connecting piece supporting column, a side plate upper connecting piece first groove and a side plate upper connecting piece second groove;

the first groove of the upper connecting piece of the side plate and the second groove of the upper connecting piece of the side plate are respectively connected with two adjacent side surfaces of the supporting column of the upper connecting piece of the side plate in a right angle;

the length of the connecting piece support column on the side plate at two end points is the same as that of the connecting piece second groove on the side plate, and exceeds the connecting piece first groove on the side plate.

8. The splice library of claim 2,

the side plate connecting piece comprises 1 side plate lower connecting piece, the side plate lower connecting piece comprises a side plate lower connecting piece supporting column with a concave-shaped section, a side face of the side plate lower connecting piece supporting column is provided with a side plate lower connecting piece first connecting plate and a side plate lower connecting piece second connecting plate which are arranged in parallel, and the side plate lower connecting piece first connecting plate and the side plate lower connecting piece second connecting plate form a side plate lower connecting piece second groove;

the length of the side plate lower connecting piece supporting column at two end points exceeds the side plate lower connecting piece second groove.

9. The splice library of claim 2,

the front and rear connecting pieces comprise front and rear connecting piece supporting columns with concave-shaped sections, one side surface of each front and rear connecting piece supporting column is provided with a front and rear connecting piece first connecting plate and a front and rear connecting piece second connecting plate which are arranged in parallel, and the front and rear connecting piece first connecting plates and the front and rear connecting piece second connecting plates form front and rear connecting piece second grooves;

the length of the front and rear connecting piece supporting columns at two end points is the same as that of the front and rear connecting piece second grooves.

10. The splice magazine of claim 1, wherein a door is provided to a side of the splice magazine.

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