CN114525947A - Low-energy-consumption socket type field camping structure and installation method thereof - Google Patents

Abstract

The invention discloses a low-energy-consumption socket joint type field camping structure and an installation method thereof, wherein the structure comprises a main body structure, a herringbone solar panel and a sunlight room, wherein a plurality of foldable beds are arranged in the main body structure; the method comprises the steps of firstly, assembling the upright post, the lower cross beam and the lower longitudinal beam; step two, mounting a bottom plate; step three, installing the intermediate wall; step four, mounting an upper cross beam and an upper longitudinal beam; fifthly, installing an external wall panel; step six, installing a top plate; seventhly, installing a herringbone solar panel; step eight, mounting a foldable bed; and step nine, installing the sunlight room. The invention has reasonable structural design, simple and convenient assembly method and convenient disassembly and transportation, can effectively preserve heat inside the camping structure, reduce the heat dissipation inside the camping structure, improve the living environment of the camping house, effectively reduce the energy consumption energy required by heat supply in the camping house, convert solar energy into electric energy to supply power for the daily electricity of field operation personnel and effectively improve the utilization rate of energy.

Description

Low-energy-consumption socket type field camping structure and installation method thereof

Technical Field

The invention belongs to the technical field of field camping structures, and particularly relates to a low-energy-consumption socket type field camping structure and an installation method thereof.

Background

As is well known, field operations are common in special industries such as military, surveying and mapping, mining and the like, and some of the activities are regularly arranged and are arranged for dealing with sudden events. The field camping is a link necessary for field operation and a foothold around which the future operating personnel can carry out activities. At present, a tent or a movable board house is usually adopted for field camping, but the tent and the inflatable cushion are adopted, so that field camping personnel are greatly influenced by environmental conditions and are not suitable for use in winter or in cold weather; the portable house needs to be installed by professional persons, is large in size, is not suitable for carrying, is relatively long in installation time, and simultaneously needs large heat supply to heat in winter. Therefore, it is necessary to design a low-energy-consumption field camping structure with good heat-insulating performance and convenient installation and disassembly.

Disclosure of Invention

The invention aims to solve the technical problem that the prior art is insufficient, and provides a low-energy-consumption socket type field camping structure which is reasonable in structural design, simple, convenient and quick in assembly method and convenient to disassemble, assemble and transport, can effectively preserve heat inside the camping structure, reduces heat dissipation inside the camping structure, can effectively improve living environment of a camping house, effectively reduces energy consumption energy required by heat supply in the camping house, can convert solar energy into electric energy to supply power for daily electricity of field operation personnel, and can effectively improve the utilization rate of energy.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides a open-air structure of camping of socket joint formula of low energy consumption which characterized in that: the solar energy collecting device comprises a main body structure, a herringbone solar panel arranged on the upper part of the main body structure and a sunlight room arranged on the front side of the main body structure, wherein a plurality of foldable beds are arranged in the main body structure;

the main structure comprises a socket type framework, and a bottom plate, a top plate and an external wall plate which are arranged on the socket type framework, wherein the internal space of the main structure is separated by an intermediate wall, the bottom plate, the top plate and the external wall plate are all phase-change energy-gathering plates, and the socket type framework is a cubic framework formed by assembling a plurality of stand columns, an upper cross beam, an upper longitudinal beam, a lower cross beam and a lower longitudinal beam;

the foldable bed is characterized in that a plurality of hinged seats for hinged installation of the foldable bed are arranged on the stand column, upper single-side clamping pieces for clamping a top plate and an external wall plate are respectively arranged on an upper cross beam and an upper longitudinal beam of an outer ring of the main structure, lower single-side clamping pieces for clamping a bottom plate and the external wall plate are respectively arranged on a lower cross beam and a lower longitudinal beam of the outer ring of the main structure, upper double-side clamping pieces for clamping the top plate and an intermediate wall are respectively arranged on the upper longitudinal beam in the middle of the top of the main structure, and lower double-side clamping pieces for clamping the bottom plate and the intermediate wall are respectively arranged on the lower longitudinal beam in the middle of the bottom of the main structure;

the upper single-side clamping piece and the lower single-side clamping piece are respectively provided with an additional clamping groove for clamping an additional thermal insulation wallboard;

the upper end and the lower extreme of stand are provided with a fixed bearing board respectively, the both ends of entablature, last longeron, bottom end rail and longeron are provided with a plug connector respectively, be provided with four slots with plug connector assorted on the fixed bearing board.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the herringbone solar panel is arranged above the socket type framework through a herringbone support, and the upper end of each upright column is provided with a support column for mounting the herringbone support;

the herringbone support comprises a plurality of herringbone back ridges, two adjacent herringbone back ridges are mutually connected through a plurality of transverse back ridges, each herringbone back ridge comprises two symmetrically-arranged oblique back ridges, and the two oblique back ridges are connected into a whole through a herringbone connecting sleeve;

the utility model discloses a support column, including support column detachable, the stupefied both ends of horizontal back of the body are provided with a connector clip respectively, the stupefied both ends of slant back of the body are provided with a plurality of connector clips, be provided with four slots with connector clip assorted on the activity bearing board.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the herringbone solar panel comprises a plurality of rectangular solar panels, the rectangular solar panels are detachably mounted on the herringbone support through bolts, and a plurality of nuts matched with the bolts are arranged on the oblique back edges.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: one side of the foldable bed is hinged to two adjacent upright posts, and the other side of the foldable bed is respectively connected with the two adjacent upright posts through two connecting rod mechanisms;

the connecting rod mechanism comprises a first connecting rod and a second connecting rod which are hinged with each other, one end of the first connecting rod is hinged to the end portion of the foldable bed through a hinged shaft, the other end of the first connecting rod is hinged to one end of the second connecting rod, and the other end of the second connecting rod is hinged to a hinged seat on the stand through a hinged shaft.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the upper single-side clamping piece is also provided with a beam body clamping groove used for clamping an upper cross beam or an upper longitudinal beam, an outer wall clamping groove used for clamping an outer wall plate and a top plate clamping groove used for clamping a top plate; openings of an additional clamping groove, a beam body clamping groove and an outer wall clamping groove on the upper single-side clamping piece face downwards, and openings of the top plate clamping grooves are arranged inwards;

the lower single-side clamping piece is also provided with a beam body clamping groove used for clamping a lower cross beam or a lower longitudinal beam, an outer wall clamping groove used for clamping an outer wall plate and a bottom plate clamping groove used for clamping a bottom plate; openings of an additional clamping groove, a beam body clamping groove and an outer wall clamping groove on the lower single-side clamping piece are upward, and openings of the bottom plate clamping grooves are inwards distributed;

the outer wall clamping grooves are located on the outer sides of the beam body clamping grooves, the additional clamping grooves are located on the outer sides of the outer wall clamping grooves, and the top plate clamping grooves and the bottom plate clamping grooves are located above the corresponding beam body clamping grooves.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the upper double-side clamping piece is provided with a vertical clamping groove used for clamping the upper longitudinal beam and the middle partition wall and two horizontal clamping grooves symmetrically distributed at the upper parts of the two sides of the beam body clamping groove and used for clamping the top plate;

the lower double-side clamping piece is provided with a longitudinal beam clamping groove used for clamping a lower longitudinal beam, an intermediate wall clamping groove located above the longitudinal beam clamping groove and used for clamping an intermediate wall, and two horizontal clamping grooves symmetrically arranged on two sides of the intermediate wall clamping groove and used for clamping a bottom plate.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the sunlight room is a detachable glass room arranged on the front side of the main body structure, the rear side of the detachable sunlight room is open, and the open end of the detachable sunlight room is closely attached to the external wall panel on the front side of the main body structure;

the side fascia of major structure front side is provided with a body, the door body is seted up in the sunshine room, the left side or the right side in sunshine room are provided with the glass door.

Foretell open-air structure of camping of socket joint formula of low energy consumption, its characterized in that: the fixed bearing plate is a square annular plate sleeved on the upright post, the plug connector is a right-angle trapezoidal piece with the cross section area gradually reduced from top to bottom, the right-angle waist of the plug connector is arranged close to the upright post, and the slot is a rectangular slot;

the connector clip inlays and is equipped with a movable locating part, a locating part mounting groove has been seted up on the oblique waist of connector clip, the activity locating part rotates to be installed in the locating part mounting groove, the lower extreme of locating part mounting groove is linked up with the bottom of connector clip.

Meanwhile, the invention also discloses a low-energy-consumption installation method of the socket type field camping structure, which is characterized by comprising the following steps:

step one, assembling the upright post, the lower cross beam and the lower longitudinal beam, wherein the concrete process is as follows:

step 101, positioning and fixing a plurality of stand columns on the ground according to a design drawing of a field camping structure;

102, connecting a lower cross beam and a lower longitudinal beam between two adjacent upright columns through a fixed bearing plate at the lower ends of the upright columns;

the plug connectors at the two ends of the lower cross beam are respectively inserted into the slots of the two fixed bearing plates, and the plug connectors at the two ends of the lower longitudinal beam are respectively inserted into the slots of the two fixed bearing plates;

step two, mounting the bottom plate, and the concrete process is as follows:

step 201, mounting a lower double-side clamping piece on a lower longitudinal beam in the middle of the bottom of the main body structure;

step 202, mounting lower single-side clamping pieces on the bottom plates, sequentially mounting the bottom plates in place from top to bottom, and simultaneously clamping the lower single-side clamping pieces on the corresponding lower cross beams or lower longitudinal beams;

step three, installing the mid-board: clamping the middle partition wall on the lower double-side clamping piece;

step four, mounting an upper cross beam and an upper longitudinal beam: connecting an upper cross beam and an upper longitudinal beam between two adjacent upright columns through a fixed bearing plate at the upper ends of the upright columns, and clamping and fixing the middle partition wall and the corresponding upper longitudinal beam through an upper double-side clamping piece;

step five, installing external wall panels: an external wall panel is clamped on each lower single-side clamping piece;

the external wall panel is positioned outside the upright post, and a door body is arranged on the external wall panel on the front side of the main body structure;

step six, installing a top plate: mounting the top plate in place from top to bottom to complete the mounting of the main body structure;

the top plate is provided with an upper single-edge clamping piece at the outer side edge of the main structure, and when the top plate is installed, the upper single-edge clamping piece and the outer wall plate as well as the upper single-edge clamping piece and the upper cross beam or the upper longitudinal beam are synchronously clamped and fixed;

step seven, installing the herringbone solar panel: installing a herringbone support on the top of the main body structure through a plurality of support columns, and installing a herringbone solar panel on the herringbone support through bolts;

wherein, the upper end of each upright post is provided with a support column;

step eight, mounting a foldable bed: a foldable bed is arranged on the upright post of the main body structure;

wherein, two ends of the foldable bed are respectively arranged on two adjacent upright posts;

ninth, installing a sunlight room: the front side of the main structure is provided with a sunlight room made of glass, and the door body on the front side of the main structure is arranged in the sunlight room.

The method is characterized in that: when the environment temperature of field camping is lower than 0 ℃, additional thermal insulation wallboards are respectively installed on the left side, the right side and the rear side of the main body structure, wherein the top of each additional thermal insulation wallboard is clamped in an additional clamping groove of the upper single-side clamping piece, and the bottom of each additional thermal insulation wallboard is clamped in an additional clamping groove of the lower single-side clamping piece.

Compared with the prior art, the invention has the following advantages:

1. according to the camping structure, the upright posts, the upper cross beam, the lower cross beam, the upper longitudinal beam and the lower longitudinal beam are detachably assembled together in a socket mode to form the cubic socket type framework, so that the socket type framework is convenient to integrally assemble and disassemble, the transportation of the camping structure can be facilitated, and the repeated use of the camping structure can be realized.

2. According to the camping structure, the herringbone solar panel is arranged at the top of the top plate, solar energy can be absorbed by the herringbone solar panel and then converted into electric energy to be stored in the storage battery, the power can be supplied for daily electricity consumption of field operation personnel, the utilization rate of energy can be effectively improved, and meanwhile, due to the herringbone design, drainage is facilitated.

3. According to the camping structure, the bottom plate, the top plate and the external wall plate are all manufactured by adopting the phase change energy storage plate, and the sunlight room is arranged on the front side of the main body structure, so that the heat preservation can be effectively carried out inside the camping house, the overall heat preservation performance of the camping house is improved, the heat dissipation inside the camping house is reduced, the energy consumption required by heat supply in the camping house can be effectively reduced, and the living environment of field camping can be effectively improved.

4. According to the camping structure, the plurality of hinged seats are arranged on the stand column, and the foldable bed is mounted on the stand column through the hinged seats, so that the foldable bed can be flexibly folded and unfolded, the mounting and dismounting efficiency of the camping structure can be effectively improved, the indoor space can be saved, and the comfort of the temporary living environment of operating personnel can be ensured.

5. According to the method, the camping structure is assembled by the method from bottom to top, and the socket type framework and the wall plate are synchronously assembled, so that the assembly efficiency of the camping structure can be effectively improved, the problem that the beam and the plate conflict in the assembly process of the camping structure and then need to be disassembled and reassembled in the assembly process can be effectively solved, and the overall assembly quality of the camping structure is guaranteed.

In conclusion, the heat-insulation type camping house has the advantages that the structural design is reasonable, the assembly method is simple, convenient and quick, the disassembly, the assembly and the transportation are convenient, the heat insulation can be effectively carried out inside the camping structure, the heat dissipation inside the camping structure is reduced, the living environment of the camping house can be effectively improved, the energy consumption required by heat supply in the camping house is effectively reduced, solar energy can be converted into electric energy to supply power for daily electricity of field operation personnel, and the utilization rate of energy can be effectively improved.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the connection structure of the socket type framework and the herringbone bracket.

Fig. 3 is an enlarged view of fig. 2 at a.

Fig. 4 is a schematic structural view of the lower single-sided card assembly of the present invention.

Fig. 5 is a schematic view of the upper single-sided card assembly of the present invention.

Fig. 6 is a schematic view of the lower double-sided card of the present invention.

Fig. 7 is a schematic structural view of the upper double-sided card assembly of the present invention.

Fig. 8 is a schematic view of the mounting structure of the base plate of the present invention.

Fig. 9 is a schematic view of the installation structure of the top plate of the present invention.

Fig. 10 is a schematic view of the connection structure of the foldable bed and the upright post of the invention.

FIG. 11 is a block flow diagram of the method of the present invention.

Description of reference numerals:

1-a herringbone solar panel; 2-a support column; 3-1-oblique back arris;

3-2-herringbone connecting sleeves; 4-transverse back arris; 5, moving a bearing plate;

6, a plug connector; 6-1-a movable limit piece; 7-upright post;

8, an upper cross beam; 9-upper longitudinal beam; 10-lower beam;

11-lower longitudinal beam; 12-fixing a bearing plate; 13-a base plate;

14-a top plate; 15-external wall panel; 16-an intermediate wall;

17-upper single-sided snap-fit; 18-lower single-sided clip; 19-upper double-sided clip;

20-lower double-sided clip; 21-an additional card slot; 22-beam body slot;

23-an outer wall clamping groove; 24-a top plate slot; 25-backplane card slot;

26-vertical neck; 27-horizontal card slot; 28-longitudinal beam clamping groove;

29-mid-partition slot; 32-foldable bed; 33-a first link;

34-a second link; 35-a hinged seat; 36-sunlight room.

Detailed Description

A low energy consumption socket type field camping structure as shown in fig. 1 to 10, comprising a main structure, a herringbone solar panel 1 disposed on the upper part of the main structure, and a sunlight room 36 disposed on the front side of the main structure, wherein a plurality of foldable beds 32 are disposed in the main structure;

the main structure comprises a socket type framework, and a bottom plate 13, a top plate 14 and an external wall plate 15 which are arranged on the socket type framework, wherein the internal space of the main structure is partitioned by an intermediate wall 16, the bottom plate 13, the top plate 14 and the external wall plate 15 are all phase-change energy-gathering plates, and the socket type framework is a cubic framework formed by assembling a plurality of upright posts 7, an upper cross beam 8, an upper longitudinal beam 9, a lower cross beam 10 and a lower longitudinal beam 11;

a plurality of hinged seats 35 for hinged installation of a foldable bed 32 are arranged on the upright post 7, upper single-side clamping pieces 17 for clamping a top plate 14 and an external wall plate 15 are respectively arranged on an upper cross beam 8 and an upper longitudinal beam 9 of the outer ring of the main body structure, lower single-side clamping pieces 18 for clamping a bottom plate 13 and the external wall plate 15 are respectively arranged on a lower cross beam 10 and a lower longitudinal beam 11 of the outer ring of the main body structure, upper double-side clamping pieces 19 for clamping the top plate 14 and an intermediate wall 16 are arranged on the upper longitudinal beam 9 in the middle of the top of the main body structure, and lower double-side clamping pieces 20 for clamping the bottom plate 13 and the intermediate wall 16 are arranged on the lower longitudinal beam 11 in the middle of the bottom of the main body structure;

the upper single-side clamping piece 17 and the lower single-side clamping piece 18 are both provided with additional clamping grooves 21 for clamping additional thermal insulation wallboards;

the upper end and the lower end of the upright post 7 are respectively provided with a fixed bearing plate 12, two ends of the upper cross beam 8, the upper longitudinal beam 9, the lower cross beam 10 and the lower longitudinal beam 11 are respectively provided with a plug connector 6, and the fixed bearing plate 12 is provided with four slots matched with the plug connectors 6.

During the in-service use, form a cube socket joint formula skeleton through adopting socket joint mode detachable assembly with stand 7, entablature 8, bottom end rail 10, last longeron 9 and bottom end rail 11 together, be convenient for the overall assembly and the dismantlement of socket joint formula skeleton can be convenient for the transportation of structure of camping, can realize the many times turnover use of structure of camping.

It should be noted that, by arranging the herringbone solar panel 1 on the top of the top plate 14, solar energy can be absorbed by the herringbone solar panel 1 and then converted into electric energy to be stored in the storage battery, so that power can be supplied for daily electricity consumption of field workers, the utilization rate of energy can be effectively improved, and meanwhile, drainage is facilitated due to the herringbone design.

Particularly, the bottom plate 13, the top plate 14 and the external wall plate 15 are all made of phase-change energy storage plates, so that the overall heat insulation performance of the camping house can be effectively improved, the camping house is further suitable for the field environment, and meanwhile, the energy consumption required by heat supply in the camping house can be effectively reduced.

During concrete implementation, through set up a sunshine room 36 in major structure's front side, under cold weather, the door body of major structure is not direct contact outdoor environment, and it is indoor to avoid opening the back cold wind entering, and sunshine room 36 can play the effect of keeping out the wind, can not shelter from the sunlight again, guarantees shining of sunshine, can effectively keep warm to the room inside of camping, reduces the inside heat of camping room and gives off, can effectively improve the living environment of camping room.

During concrete implementation, be provided with a plurality of articulated seats 35 on the stand 7 to through articulated seat 35 installation collapsible bed 32 on the stand, can be nimble fold and expand collapsible bed 32, can effectively improve the installation and the dismantlement efficiency of structure of camping, can save the interior space simultaneously, guarantee the travelling comfort of the interim living environment of operation personnel.

During the in-service use, through upper portion unilateral dress spare 17 and lower part unilateral dress spare 18 with bottom plate 13, roof 14 and side fascia 15 clamp on socket joint formula skeleton, can realize the quick installation and the dismantlement of whole structure of camping, can also guarantee the overall stability of structure of camping simultaneously.

It should be noted that, by arranging the additional clamping grooves 21 on the upper single-side clamping piece 17 and the lower single-side clamping piece 18, when the outdoor temperature is low, the additional heat-insulating wall board can be additionally arranged on the outer side of the outer wall board 15, and when the additional heat-insulating wall board is installed, the additional heat-insulating wall board only needs to be inserted into the additional clamping grooves 21 from one ends of the upper single-side clamping piece 17 and the lower single-side clamping piece 18, so that the installation is convenient, and after the whole camping structure is assembled, the additional heat-insulating wall board can be flexibly added and detached.

During concrete implementation, carry out adding man-hour of side fascia 15, make the both ends of side fascia 15 of major structure both sides all inwards buckle, and then contact with the side fascia of front side and rear side, make the stand of the corner of socket joint formula skeleton wrapped up into, can effectively improve the integrality of whole structure wallboard of camping.

During specific implementation, the upper cross beams 8 and the lower cross beams 10 are equal in number and correspond to each other one by one, the upper longitudinal beams 9 and the lower longitudinal beams 11 are equal in number and correspond to each other one by one, and each upright is at least connected with one upper cross beam 8, one lower cross beam 10, one upper longitudinal beam 9 and one lower longitudinal beam 11.

As shown in fig. 1 to 3, in the present embodiment, the herringbone solar panel 1 is installed above the socket-type framework through a herringbone bracket, and the upper end of each of the columns 7 is provided with a support column 2 for installing the herringbone bracket;

the herringbone support comprises a plurality of herringbone back ridges, two adjacent herringbone back ridges are connected with each other through a plurality of transverse back ridges 4, each herringbone back ridge comprises two oblique back ridges 3-1 which are symmetrically arranged, and the two oblique back ridges 3-1 are connected into a whole through a herringbone connecting sleeve 3-2;

the detachable of support column 2 installs in the upper end of stand 7, the top of support column 2 articulates there is movable bearing board 5, the both ends of the stupefied 4 of horizontal back of the body are provided with a plug connector 6 respectively, be provided with a plurality of plug connectors 6 on the stupefied 3-1 of slant back of the body, be provided with four slots with plug connector 6 assorted on the movable bearing board 5.

During actual use, a plurality of herringbone back ridges are arranged at equal intervals along the transverse direction of the main body structure, when the internal space of the main body structure is divided into N single spaces, the number of the herringbone back ridges is N +1, wherein N is a positive integer and N is more than or equal to 2.

It should be noted that, a connecting sleeve is fixed at the lower end of the supporting column 2, when the supporting column 2 is installed, the connecting sleeve can be directly sleeved at the upper end of the upright post 7, and then the connecting sleeve and the upright post 7 are fixed by pin joint; every stupefied bottom of chevron shape back of the body all is provided with two sets of support columns, and two sets of support columns symmetry are laid, and every group all contains a plurality of support columns 2, and the length that is located a plurality of support columns 2 of same group is all inequality, and the length that is close to support column 2 in the middle part of the major structure is longer than the length that is close to support column 2 in the major structure outside.

During the concrete implementation, activity bearing board 5 articulates on support column 2, and activity bearing board 5 can rotate for the top of support column 2, makes it can be adapted to the installation of various slope chevron shape solar panel 1.

It should be noted that a transverse back ridge 4 is also connected between two adjacent herringbone connecting sleeves 3-2, and two sides of each herringbone connecting sleeve 3-2 are respectively provided with a bearing plate matched with the plug connector 6, so that the socket connection between the herringbone connecting sleeves 3-2 and the transverse back ridge 4 can be realized.

In this embodiment, chevron shape solar panel 1 includes a plurality of rectangle solar panel, rectangle solar panel passes through bolt detachable and installs on the chevron shape support, be provided with a plurality of nuts with bolt assorted on the stupefied 3-1 of slant back.

In actual use, when the size of the main structure is large, a plurality of rectangular solar panels can be spliced to form the herringbone solar panel 1.

As shown in fig. 10, in the present embodiment, one side of the foldable bed 32 is hinged to two adjacent columns 7, and the other side of the foldable bed 32 is connected to two adjacent columns 7 through two link mechanisms respectively;

the link mechanism comprises a first connecting rod 33 and a second connecting rod 34 which are hinged with each other, one end of the first connecting rod 33 is hinged at the end part of the foldable bed 32 through a hinged shaft, the other end of the first connecting rod 33 is hinged with one end of the second connecting rod 34, and the other end of the second connecting rod 34 is hinged on a hinged seat 35 on the upright post 7 through a hinged shaft.

In actual use, one foldable bed 32 corresponds to two of the linkage mechanisms and four of the hinge seats 35.

It should be noted that the two link mechanisms are respectively located at two ends of the foldable bed 32, so that folding of the foldable bed 32 is not affected, when the foldable bed 32 is folded upwards and attached to the inner side of the column 7, and meanwhile, the first link 33 and the second link 34 of the link mechanisms are folded, and when the foldable bed 32 is unfolded downwards and perpendicular to the wall plate 3, the first link 33 and the second link 34 are parallel to each other and tie and fix the foldable bed 32 and the column 7.

As shown in fig. 4, 5, 8 and 9, in this embodiment, the upper single-side clamping unit 17 is further provided with a beam body clamping slot 22 for clamping the upper cross beam 8 or the upper longitudinal beam 9, an outer wall clamping slot 23 for clamping the outer wall panel 15, and a top plate clamping slot 24 for clamping the top plate 14; openings of an additional clamping groove 21, a beam body clamping groove 22 and an outer wall clamping groove 23 on the upper single-side clamping piece 17 are downward, and openings of a top plate clamping groove 24 are inwards arranged;

the lower single-side clamping piece 18 is also provided with a beam body clamping groove 22 for clamping on the lower cross beam 10 or the lower longitudinal beam 11, an outer wall clamping groove 23 for clamping the outer wall panel 15 and a bottom plate clamping groove 25 for clamping the bottom plate 13; openings of an additional clamping groove 21, a beam body clamping groove 22 and an outer wall clamping groove 23 on the lower single-side clamping piece 18 face upwards, and an opening of the bottom plate clamping groove 25 is arranged inwards;

the outer wall clamping groove 23 is located on the outer side of the beam body clamping groove 22, the additional clamping groove 21 is located on the outer side of the outer wall clamping groove 23, and the top plate clamping groove 24 and the bottom plate clamping groove 25 are located above the corresponding beam body clamping groove 22.

In practical use, the top plate clamping groove 24 on the upper single-side clamping piece 17 is positioned right above the beam body clamping groove 22, the opening of the top plate clamping groove 24 is arranged inwards, that is, the opening of the top plate clamping groove 24 on the upper single-side clamping piece 17 on the left side of the main structure is arranged towards the right, and the opening of the top plate clamping groove 24 on the upper single-side clamping piece 17 on the right side of the main structure is arranged towards the left.

The bottom plate engaging groove 25 of the lower single-sided engaging member 18 is located right above the beam engaging groove 22, and an opening of the bottom plate engaging groove 25 is disposed inward, that is, an opening of the bottom plate engaging groove 25 of the lower single-sided engaging member 18 on the left side of the main structure is disposed rightward, and an opening of the bottom plate engaging groove 25 of the lower single-sided engaging member 18 on the right side of the main structure is disposed leftward.

As shown in fig. 6 to 9, in the present embodiment, the upper double-side clamping piece 19 is provided with a vertical clamping groove 26 for clamping the upper longitudinal beam 9 and the middle partition wall 16, and two horizontal clamping grooves 27 symmetrically arranged at the upper parts of two sides of the beam body clamping groove 22 and used for clamping the top plate 14;

the lower double-side clamping piece 20 is provided with a longitudinal beam clamping groove 28 used for being clamped on the lower longitudinal beam 11, an intermediate wall clamping groove 29 which is positioned above the longitudinal beam clamping groove 28 and used for clamping the intermediate wall 16, and two horizontal clamping grooves 27 which are symmetrically arranged at two sides of the intermediate wall clamping groove 29 and used for clamping the bottom plate 13.

In practical use, the opening of the vertical clamping groove 26 faces downwards, the depth of the vertical clamping groove 26 is greater than the height of the upper longitudinal beam 9, and it can be ensured that when the upper longitudinal beam 9 is clamped inside the vertical clamping groove 26, a distance from one end of the vertical clamping groove 26 can be reserved for clamping the intermediate wall 16; two horizontal clamping grooves 27 are formed after a middle limiting plate is arranged at the top of the vertical clamping groove 26, and the top plates 14 at two sides of the upper double-side clamping piece 19 are respectively arranged at two sides of the middle limiting plate.

Note that the intermediate wall engagement groove 29 is located directly above the longitudinal beam engagement groove 28.

In this embodiment, the sunlight room 36 is a detachable glass room installed on the front side of the main structure, the rear side of the detachable sunlight room 36 is open, and the open end of the detachable sunlight room is closely attached to the external wall panel 15 on the front side of the main structure;

the outer wall panel 15 of major structure front side is provided with the door body, the door body is seted up in sunshine room 36, the left side or the right side in sunshine room 36 are provided with the glass door.

In practical use, the door on the sunlight room 36 is opened at the left side or the rear side of the sunlight room 36, so that wind is prevented from directly blowing the door of the camping structure.

In this embodiment, the fixed supporting plate 12 is a square annular plate sleeved on the upright post 7, the plug connector 6 is a right-angle trapezoidal piece with a gradually decreasing cross-sectional area from top to bottom, the right-angle waist of the plug connector 6 is arranged close to the upright post 7, and the slot is a rectangular slot;

the connector 6 is embedded with a movable limiting part 6-1, a limiting part mounting groove is formed in the oblique waist of the connector 6, the movable limiting part 6-1 is rotatably mounted in the limiting part mounting groove, and the lower end of the limiting part mounting groove is communicated with the bottom of the connector 6.

When the socket framework is used in practice, the movable limiting parts 6-1 are arranged, so that the overall stability and safety of the socket framework can be improved, when the socket installation of beams and columns of the socket framework is carried out, the plug connectors 6 at beam ends are inserted into the slots of the fixed bearing plates 12 on the stand columns 7 from top to bottom, the movable limiting parts 6-1 on the plug connectors 6 are folded inwards under the action of the side walls of the slots, and when the plug connectors 6 are downwards inserted in place, the movable limiting parts 6-1 on the plug connectors 6 are separated from the fixed bearing plates 12 and then downwards rotate to a horizontal state under the self weight, so that the plug connectors 6 cannot be taken out of the slots of the fixed bearing plates 12 due to the limitation of the movable limiting parts 6-1.

A method for installing a low-energy-consumption socket type field camping structure as shown in fig. 11, the method comprising the steps of:

step one, assembling the upright post, the lower cross beam and the lower longitudinal beam, wherein the concrete process is as follows:

step 101, positioning and fixing a plurality of upright posts 7 on the ground according to a design drawing of a field camping structure;

102, connecting a lower cross beam 10 and a lower longitudinal beam 11 between two adjacent upright columns 7 through a fixed bearing plate 12 at the lower ends of the upright columns 7;

the plug connectors 6 at two ends of the lower cross beam 10 are respectively inserted into the slots of the two fixed bearing plates 12, and the plug connectors 6 at two ends of the lower longitudinal beam 11 are respectively inserted into the slots of the two fixed bearing plates 12;

step two, mounting the bottom plate, and the concrete process is as follows:

step 201, mounting a lower double-side clamping piece 20 on a lower longitudinal beam 11 in the middle of the bottom of the main body structure;

step 202, mounting lower single-side clamping pieces 18 on the bottom plates 13, sequentially mounting the bottom plates 13 in place from top to bottom, and simultaneously clamping the lower single-side clamping pieces 18 on the corresponding lower cross beams 10 or lower longitudinal beams 11;

during the in-service use, according to the length of longeron and crossbeam, major structure bottom can be assembled by polylith bottom plate 13, and the size of bottom plate 13 and the size looks adaptation of crossbeam and longeron.

It should be noted that, four corners of the bottom plate 13 are all provided with notches for the stand column 7 to pass through, so that the bottom plate 13 can be conveniently installed in place after passing through the stand column 7 from top to bottom, and the size of the notch formed in the bottom plate 13 can ensure that the hinge seat 35 on the stand column 7 does not affect the installation of the bottom plate 13.

During specific implementation, the lower single-side clamping piece 18 is firstly installed on the bottom plate 13, and then the bottom plate 13 is hoisted, so that the clamping of the lower single-side clamping piece 18 and the lower cross beam 10 or the lower longitudinal beam 11 is conveniently realized, and meanwhile, the construction efficiency can be effectively improved.

Step three, installing the mid-board: the middle wall 16 is clamped on the lower double-side clamping piece 20;

step four, mounting an upper cross beam and an upper longitudinal beam: the upper cross beam 8 and the upper longitudinal beam 9 are connected between two adjacent upright columns 7 through the fixed bearing plate 12 at the upper ends of the upright columns 7, and the middle partition wall 16 and the corresponding upper longitudinal beam 9 are clamped and fixed through the upper double-side clamping piece 19;

during actual use, when the upper cross beam 8 and the upper longitudinal beam 9 are installed, only two ends of the upper cross beam 8 or the upper longitudinal beam 9 are respectively overlapped on the fixed bearing plates 12 on the two adjacent upright posts 7, and meanwhile, the plug connector 6 at the end part of the upper cross beam 8 or the upper longitudinal beam 9 is inserted into the corresponding slot on the fixed bearing plates 12, so that the movable limiting part 6-1 on the plug connector 6 can be automatically locked, and the reliable connection of the beam and the column is ensured.

Step five, installing external wall panels: an external wall panel 15 is clamped on each lower single-side clamping piece 18;

the external wall panel 15 is positioned outside the upright post 7, and a door body is arranged on the external wall panel 15 at the front side of the main body structure;

during the actual use, carry out clamping of side fascia 15 back, need guarantee side fascia 15's straightness that hangs down, the installation of roof 14 behind the convenient.

Step six, installing a top plate: mounting the top plate 14 in place from top to bottom to complete the mounting of the main structure;

an upper single-side clamping piece 17 is installed on the outer side edge of the main body structure on the top plate 14, and when the top plate 14 is installed, the upper single-side clamping piece 17 and the outer wall plate 15, and the upper single-side clamping piece 17 and the upper cross beam 8 or the upper longitudinal beam 9 are synchronously clamped and fixed;

during the actual use, when there is the polylith roof 14, polylith roof 14 installs in proper order, and during roof 14 installation, install the side fascia 15 that roof 14 corresponds first, then install roof 14 again, until accomplishing the installation of all roofs 14.

Step seven, installing the herringbone solar panel: a herringbone support is arranged at the top of the main body structure through a plurality of support columns 2, and a herringbone solar panel 1 is arranged on the herringbone support through bolts;

wherein, the upper end of each upright post 7 is provided with a support column 2;

step eight, mounting a foldable bed: a foldable bed 32 is arranged on the upright post 7 of the main structure;

wherein, two ends of the foldable bed 32 are respectively arranged on two adjacent upright posts 7;

ninth, installing a sunlight room: a sunlight room 36 made of glass is arranged on the front side of the main body structure, and the door body on the front side of the main body structure is arranged in the sunlight room 36.

During the in-service use, through assembling the structure of camping from lower supreme method earlier, make socket joint formula skeleton and wallboard synchronous assembly simultaneously, can effectively improve the assembly efficiency of structure of camping, can effectively avoid the structure of camping simultaneously in the assembling process, the roof beam conflicts with the board in the assembling process, and then needs demolish the problem of reassembling, guarantees the whole assembly quality of structure of camping.

In this embodiment, when the ambient temperature of camping in the field is lower than 0 ℃, additional thermal insulation wall boards are respectively installed on the left side, the right side and the rear side of the main structure, wherein the top of the additional thermal insulation wall board is clamped in the additional clamping groove 21 of the upper single-side clamping piece 17, and the bottom of the additional thermal insulation wall board is clamped in the additional clamping groove 21 of the lower single-side clamping piece 18.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, changes and equivalent structural changes made to the above embodiment according to the technical spirit of the present invention still fall within the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a open-air structure of camping of socket joint formula of low energy consumption which characterized in that: the solar energy collecting and drying system comprises a main body structure, a herringbone solar panel (1) arranged on the upper portion of the main body structure and a sunlight room (36) arranged on the front side of the main body structure, wherein a plurality of foldable beds (32) are arranged in the main body structure;

the main structure comprises a socket type framework, and a bottom plate (13), a top plate (14) and an external wall plate (15) which are arranged on the socket type framework, wherein the internal space of the main structure is divided by an intermediate wall (16), the bottom plate (13), the top plate (14) and the external wall plate (15) are all phase-change energy-gathering plates, and the socket type framework is a cubic framework formed by assembling a plurality of stand columns (7), an upper cross beam (8), an upper longitudinal beam (9), a lower cross beam (10) and a lower longitudinal beam (11);

a plurality of hinged seats (35) for a foldable bed (32) to be hinged are arranged on the upright column (7), upper single-side clamping pieces (17) for clamping a top plate (14) and an outer wall plate (15) are respectively arranged on an upper cross beam (8) and an upper longitudinal beam (9) of the outer ring of the main body structure, lower single-side clamping pieces (18) for clamping a bottom plate (13) and the outer wall plate (15) are respectively arranged on a lower cross beam (10) and a lower longitudinal beam (11) of the outer ring of the main body structure, upper double-side clamping pieces (19) for clamping the top plate (14) and an intermediate wall (16) are respectively arranged on the upper longitudinal beam (9) in the middle of the top of the main body structure, and lower double-side clamping pieces (20) for clamping the bottom plate (13) and the intermediate wall (16) are respectively arranged on the lower longitudinal beam (11) in the middle of the bottom of the main body structure;

the upper single-side clamping piece (17) and the lower single-side clamping piece (18) are respectively provided with an additional clamping groove (21) for clamping an additional thermal insulation wallboard;

the upper end and the lower extreme of stand (7) are provided with a fixed bearing board (12) respectively, the both ends of entablature (8), last longeron (9), bottom end rail (10) and bottom end longeron (11) are provided with a plug connector (6) respectively, be provided with four on the fixed bearing board (12) and plug connector (6) assorted slot.

2. The low-energy-consumption socket type field camping structure according to claim 1, characterized in that: the herringbone solar panel (1) is arranged above the socket type framework through a herringbone support, and the upper end of each upright post (7) is provided with a support column (2) for mounting the herringbone support;

the herringbone support comprises a plurality of herringbone back ridges, two adjacent herringbone back ridges are connected with each other through a plurality of transverse back ridges (4), each herringbone back ridge comprises two oblique back ridges (3-1) which are symmetrically arranged, and the two oblique back ridges (3-1) are connected into a whole through a herringbone connecting sleeve (3-2);

support column (2) detachable installs in the upper end of stand (7), the top of support column (2) articulates there is activity bearing board (5), the both ends of the stupefied (4) of horizontal back of the body are provided with one plug connector (6) respectively, be provided with a plurality of plug connectors (6) on the stupefied (3-1) of slant back of the body, be provided with four on the activity bearing board (5) and plug connector (6) assorted slot.

3. The low-energy-consumption socket type field camping structure according to claim 2, characterized in that: the herringbone solar panel (1) comprises a plurality of rectangular solar panels, the rectangular solar panels are detachably mounted on the herringbone support through bolts, and a plurality of nuts matched with the bolts are arranged on the oblique back edges (3-1).

4. The low-energy-consumption socket type field camping structure according to claim 1, characterized in that: one side of the foldable bed (32) is hinged to two adjacent upright posts (7), and the other side of the foldable bed (32) is respectively connected with the two adjacent upright posts (7) through two connecting rod mechanisms;

the link mechanism comprises a first connecting rod (33) and a second connecting rod (34) which are hinged to each other, one end of the first connecting rod (33) is hinged to the end portion of the foldable bed (32) through a hinged shaft, the other end of the first connecting rod (33) is hinged to one end of the second connecting rod (34), and the other end of the second connecting rod (34) is hinged to a hinged seat (35) on the upright post (7) through a hinged shaft.

5. The low-energy-consumption socket type field camping structure according to claim 1, characterized in that: the upper single-side clamping piece (17) is also provided with a beam body clamping groove (22) for clamping the upper cross beam (8) or the upper longitudinal beam (9), an outer wall clamping groove (23) for clamping the outer wall panel (15) and a top plate clamping groove (24) for clamping the top plate (14); openings of an additional clamping groove (21), a beam body clamping groove (22) and an outer wall clamping groove (23) on the upper single-side clamping piece (17) are downward, and openings of a top plate clamping groove (24) are inwards arranged;

the lower single-side clamping piece (18) is also provided with a beam body clamping groove (22) used for clamping the lower cross beam (10) or the lower longitudinal beam (11), an outer wall clamping groove (23) used for clamping the outer wall panel (15) and a bottom plate clamping groove (25) used for clamping the bottom plate (13); openings of an additional clamping groove (21), a beam body clamping groove (22) and an outer wall clamping groove (23) on the lower single-side clamping piece (18) face upwards, and openings of the bottom plate clamping grooves (25) are arranged inwards;

the outer wall clamping groove (23) is located on the outer side of the beam body clamping groove (22), the additional clamping groove (21) is located on the outer side of the outer wall clamping groove (23), and the top plate clamping groove (24) and the bottom plate clamping groove (25) are located above the corresponding beam body clamping groove (22).

6. The low-energy-consumption socket type field camping structure according to claim 1, characterized in that: the upper double-side clamping piece (19) is provided with a vertical clamping groove (26) which is used for clamping the upper longitudinal beam (9) and is used for clamping the middle partition wall (16) and two horizontal clamping grooves (27) which are symmetrically distributed at the upper parts of the two sides of the beam body clamping groove (22) and are used for clamping the top plate (14);

the lower double-side clamping piece (20) is provided with a longitudinal beam clamping groove (28) used for clamping the lower longitudinal beam (11), an intermediate wall clamping groove (29) which is positioned above the longitudinal beam clamping groove (28) and used for clamping the intermediate wall (16), and two horizontal clamping grooves (27) which are symmetrically arranged at two sides of the intermediate wall clamping groove (29) and used for clamping the bottom plate (13).

7. The low-energy-consumption socket type field camping structure according to claim 1, characterized in that: the sunlight room (36) is a detachable glass room arranged on the front side of the main body structure, the rear side of the detachable sunlight room (36) is open, and the open end of the detachable sunlight room is closely attached to the external wall panel (15) on the front side of the main body structure;

the utility model discloses a sunshine room, including main structure, be provided with the door body on the side fascia (15) of major structure front side, the door body is seted up in sunshine room (36), the left side or the right side in sunshine room (36) are provided with the glass door.

8. A low energy consumption socket type camping structure for open country according to claim 1, characterized in that: the fixed bearing plate (12) is a square annular plate sleeved on the upright post (7), the plug connector (6) is a right-angle trapezoidal piece with the cross section area gradually reduced from top to bottom, the right-angle waist of the plug connector (6) is arranged close to the upright post (7), and the slot is a rectangular slot;

the connector clip (6) is embedded with a movable limiting part (6-1), a limiting part mounting groove is formed in the oblique waist of the connector clip (6), the movable limiting part (6-1) is rotatably mounted in the limiting part mounting groove, and the lower end of the limiting part mounting groove is communicated with the bottom of the connector clip (6).

9. A method of installing the low energy consumption socket-and-spigot camping structure of claim 1, comprising the steps of:

step one, assembling the upright post, the lower cross beam and the lower longitudinal beam, wherein the concrete process is as follows:

step 101, positioning and fixing a plurality of upright posts (7) on the ground according to a design drawing of a field camping structure;

102, connecting a lower cross beam (10) and a lower longitudinal beam (11) between two adjacent upright columns (7) through a fixed bearing plate (12) at the lower end of the upright column (7);

the plug connectors (6) at two ends of the lower cross beam (10) are respectively inserted into the slots of the two fixed bearing plates (12), and the plug connectors (6) at two ends of the lower longitudinal beam (11) are respectively inserted into the slots of the two fixed bearing plates (12);

step two, mounting the bottom plate, and the concrete process is as follows:

step 201, mounting a lower double-side clamping piece (20) on a lower longitudinal beam (11) in the middle of the bottom of the main body structure;

202, mounting lower single-side clamping pieces (18) on the bottom plates (13), sequentially mounting the bottom plates (13) in place from top to bottom, and simultaneously clamping the lower single-side clamping pieces (18) on the corresponding lower cross beams (10) or lower longitudinal beams (11);

step three, installing the mid-board: the middle wall (16) is clamped on the lower double-side clamping piece (20);

step four, mounting an upper cross beam and an upper longitudinal beam: the upper cross beam (8) and the upper longitudinal beam (9) are connected between two adjacent upright columns (7) through a fixed bearing plate (12) at the upper ends of the upright columns (7), and the middle partition wall (16) and the corresponding upper longitudinal beam (9) are clamped and fixed through an upper double-side clamping piece (19);

step five, installing external wall panels: an external wall panel (15) is clamped on each lower single-side clamping piece (18);

the external wall panel (15) is positioned outside the upright post (7), and a door body is arranged on the external wall panel (15) on the front side of the main body structure;

step six, installing a top plate: mounting the top plate (14) in place from top to bottom to complete the mounting of the main body structure;

an upper single-side clamping piece (17) is installed on the top plate (14) and located on the outer side edge of the main body structure, and when the top plate (14) is installed, the upper single-side clamping piece (17) and the outer wall plate (15) as well as the upper single-side clamping piece (17) and the upper cross beam (8) or the upper longitudinal beam (9) are synchronously clamped and fixed;

step seven, installing the herringbone solar panel: a herringbone support is arranged at the top of the main body structure through a plurality of support columns (2), and a herringbone solar panel (1) is arranged on the herringbone support through bolts;

wherein, the upper end of each upright post (7) is provided with a supporting column (2);

step eight, mounting a foldable bed: a foldable bed (32) is arranged on the upright post (7) of the main body structure;

wherein, two ends of the foldable bed (32) are respectively arranged on two adjacent upright posts (7);

step nine, installing a sunlight room: a sunlight room (36) made of glass is installed on the front side of the main body structure, and the door body on the front side of the main body structure is arranged in the sunlight room (36).

10. The method of claim 9, wherein: and when the ambient temperature of field camping is lower than 0 ℃, additional heat-insulating wall boards are respectively installed on the left side, the right side and the rear side of the main body structure, wherein the top of each additional heat-insulating wall board is clamped in an additional clamping groove (21) of the upper single-side clamping piece (17), and the bottom of each additional heat-insulating wall board is clamped in an additional clamping groove (21) of the lower single-side clamping piece (18).

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