CN111270770A - Assembled ecological circular tube room - Google Patents

Abstract

The invention discloses an assembled ecological circular pipe house, relates to the technical field of house construction, and solves the technical problems that a cement pipe house is difficult to move and cannot be disassembled for re-assembly and use in the prior art. The assembled ecological circular pipe house comprises a circular pipe house body, a door and window mechanism and an installation base, wherein the circular pipe house body is of a hollow cylindrical structure formed by assembling a plurality of layers of composite boards, the door and window mechanism is positioned on the end face of the circular pipe house body, the installation base is arranged on the side face of the circular pipe house body, and the installation base is used for fixing the circular pipe house body. According to the assembled ecological circular tube house, the circular tube house body is formed by assembling the multilayer composite boards, so that the assembled ecological circular tube house has the advantages of light weight, high assembling speed and convenience in transportation, and the installation of one set of circular tube house can be completed by two persons in half a day generally; because the adopted assembly structure is convenient to disassemble, the application range of the device can be greatly expanded.

Description

Assembled ecological circular tube room

Technical Field

The invention relates to the technical field of building construction, in particular to an assembled ecological circular tube house.

Background

At present, the demand of people to the house continuously increases on the one hand, and on the other hand, available house land is less and less, consequently, in order to satisfy people's demand, the architectural designer has designed very practical cement pipe house based on cement pipeline. The cement pipe house can be arranged under a bridge, between two buildings or in any space due to small occupied area, has independent bedrooms and toilets, can live 2 persons at the same time, has the characteristics of good independence, good privacy and cleanness, and is gradually favored by people.

However, the cement pipe house is formed by pouring cement, so that the cement pipe house has the defects of difficult movement and incapability of being disassembled and repeatedly assembled for use, and the application range of the cement pipe house is greatly limited. Therefore, in order to expand the application range of the cement pipe house, providing an ecological circular pipe house which is easy to assemble becomes a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

One of the purposes of the invention is to provide an assembled ecological circular tube house, which solves the technical problems that the cement tube house is difficult to move and can not be disassembled for re-assembly and use in the prior art. The various technical effects that can be produced by the preferred technical solution of the present invention are described in detail below.

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

the assembled ecological circular pipe house comprises a circular pipe house body, a door and window mechanism and an installation base, wherein the circular pipe house body is of a hollow cylindrical structure formed by assembling a plurality of layers of composite boards, the door and window mechanism is positioned on the end face of the circular pipe house body, the installation base is arranged on the side face of the circular pipe house body, and the installation base is used for fixing the circular pipe house body.

According to a preferred embodiment, the circular tube house body comprises a first arc-shaped plate, a second arc-shaped plate and a third arc-shaped plate, and the first arc-shaped plate, the second arc-shaped plate and the third arc-shaped plate are detachably connected through a connecting assembly.

According to a preferred embodiment, the first, second and/or third curved plates comprise, in order from the inside to the outside: a calcium silicate board layer, a cement polyphenyl particle sandwich layer and a calcium silicate board layer; or a glass fiber reinforced plastic plate layer, an extruded plate sandwich layer and a glass fiber reinforced plastic plate layer; or a calcium silicate board layer, an extruded sheet sandwich layer and a calcium silicate board layer.

According to a preferred embodiment, the radian of each of the first arc-shaped plate, the second arc-shaped plate and the third arc-shaped plate is 120 °, and the first arc-shaped plate is located above the central axis of the circular tubular house body, or the first arc-shaped plate and the second arc-shaped plate are located above the central axis of the circular tubular house body and symmetrically distributed.

According to a preferred embodiment, the connecting assembly comprises a first cover seam strip, a second cover seam strip and a dovetail penetrating strip, wherein an inwards concave dovetail groove is formed in the plate head of each of the first arc-shaped plate, the second arc-shaped plate and the third arc-shaped plate respectively, the dovetail penetrating strip is installed in two dovetail grooves of two adjacent arc-shaped plates, and the first cover seam strip and the second cover seam strip are installed in a gap between the two dovetail grooves of the two adjacent arc-shaped plates.

According to a preferred embodiment, the first cover seam strip comprises a fixing part and a clamping part, wherein the fixing part is of a T-shaped structure, the clamping part and the end part of the fixing part are integrally formed, the clamping part is of an inclined surface structure, and the inclination of the clamping part is equivalent to that of the side surface of the dovetail groove; the second cover seam strip is of a T-shaped structure; or the second cover seam strip has the same structure as the first cover seam strip.

According to a preferred embodiment, the door and window mechanism comprises a first door and window assembly and a second door and window assembly, wherein the first door and window assembly is positioned on one end face of the circular tube house body, the second door and window assembly is positioned on the other end face of the circular tube house body, the first door and window assembly comprises an aluminum alloy glass door and first windows positioned on two sides of the aluminum alloy glass door, and a structure that aluminum plates on two sides are lined with extruded plates is arranged below the aluminum alloy glass door and the first windows on two sides; the second door and window assembly comprises a first plug board and a second plug board, the first plug board is connected with the second plug board through a U-shaped primary-secondary groove, and a second window is arranged on the first plug board.

According to a preferred embodiment, the installation base comprises a first installation base, the first installation base is arranged on one side, close to the ground, of the circular pipe house body, the first installation base and one side, in contact with the circular pipe house body, of the first installation base are of an arc-shaped structure matched with the circular pipe house body, at least two first fixing holes are symmetrically formed in the first installation base, and therefore a car tightening rope penetrating through the first fixing holes can fix the first installation base and the circular pipe house body.

According to a preferred embodiment, a first groove is formed in one side, which is in contact with the circular tubular house body, of the first installation base, so that an operation space can be formed between the first installation base and the circular tubular house body after the first installation base is fixed with the circular tubular house body; one side of the first mounting base, which is far away from the side in contact with the circular pipe house body, is provided with a drain hole, and the drain hole is semicircular.

According to a preferred embodiment, the mounting bases comprise second mounting bases, a plurality of second mounting bases are arranged on one side, close to the ground, of the circular pipe house body, and each second mounting base comprises a first fixing plate, a second fixing plate and end sealing plates, wherein the first fixing plate is used for being in contact with the circular pipe house body, the second fixing plate is used for being connected with a lifting device, the end sealing plates are arranged at two ends of the first fixing plate, the first fixing plate is of an arc-shaped structure matched with the circular pipe house body, and second grooves are formed in the first fixing plate, so that an operating space can be formed between the first fixing plate and the circular pipe house body after the first fixing plate is in contact with the circular pipe house body; a second fixing hole is formed in the second fixing plate and used for being connected with the lifting device; the head plate is provided with a third fixing hole and a ground anchor fixing hole, wherein the third fixing hole is used for installing a vehicle tightening rope, and the ground anchor fixing hole is used for fixing a second installation base.

The assembled ecological circular tube house provided by the invention at least has the following beneficial technical effects:

according to the assembled ecological circular tube house, the circular tube house body is formed by assembling the multilayer composite boards, so that the assembled ecological circular tube house has the advantages of light weight, high assembling speed and convenience in transportation, and the installation of one set of circular tube house can be completed by two persons in half a day generally; because the adopted assembly structure is convenient to disassemble, the application range of the device can be greatly expanded. The assembled ecological circular tube house is formed by assembling a plurality of layers of composite boards, and overcomes the defects that the existing circular tube house formed by pouring cement is difficult to move and can not be disassembled for repeated assembly and use. In addition, the assembled ecological circular tube house has the advantages of wind resistance, rain resistance and moisture resistance due to the fact that the overall shape of the assembled ecological circular tube house is circular arc. Specifically, the overall appearance of the assembled ecological circular tube house is arc-shaped, so that the arc-shaped design not only has small wind resistance, but also the arc-shaped appearance can assist wind-proof fixing facilities, so that the house has a good wind-proof effect; the arc appearance can also make the rainwater flow down along the arc surface by gravity, the whole surface does not accumulate water, and is rain-proof and moisture-proof.

The assembled ecological circular pipe house is characterized in that a circular pipe house body is formed by assembling a plurality of layers of composite boards, and a door and window mechanism and an installation base are installed on the circular pipe house body, so that the assembled ecological circular pipe house can be applied to the following occasions: the special ecological mobile house hotel, the field plant and animal observation house, the temporary construction management house, the water touring management house, the water nursing management house, the temporary medical treatment house for epidemic prevention and/or isolation and the like, and the temporary office or lodging or nursing or management house in the hard-condition areas such as mountainous areas and/or deserts. Compared with the circular tube house formed by pouring cement in the prior art, the assembled ecological circular tube house greatly expands the application range.

Drawings

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

FIG. 1 is a schematic view of an assembled ecological circular tube house of the present invention;

FIG. 2 is a side view of the fabricated ecological circular tube house of the present invention;

FIG. 3 is a schematic structural view of a dovetail groove of the present invention;

FIG. 4 is a schematic view of the installation of the first and second cover seam strips of the present invention;

FIG. 5 is a schematic view of the installation of the connection assembly of the present invention;

FIG. 6 is a schematic view of a first door/window assembly according to the present invention;

FIG. 7 is a schematic view of a second door and window assembly of the present invention;

FIG. 8 is a schematic view of a first mounting base of the present invention;

FIG. 9 is a schematic view of a second mounting base of the present invention;

fig. 10 is a schematic view of the head plate of the present invention.

In the figure: 100. a circular tube house body; 101. a first arc-shaped plate; 102. a second arc-shaped plate; 103. a third arc-shaped plate; 104. a connecting assembly; 1041. a first cover seam strip; 10411. a fixed part; 10412. a clamping part; 1042. a second cover seam strip; 1043. threading the dovetail; 105. a dovetail groove; 106. a pipeline fixing mechanism;

200. a door and window mechanism; 201. a first door window assembly; 2011. an aluminum alloy glass door; 2012. a first window; 2013. extruding a plastic plate; 202. a second door and window assembly; 2021. a first blanking plate; 2022. a second blanking plate; 2023. a second window;

300. installing a base; 301. a first mounting base; 3011. a first fixing hole; 3012. a first groove; 3013. a drain hole; 302. a second mounting base; 3021. a first fixing plate; 30211. a second groove; 3022. a second fixing plate; 30221. a second fixing hole; 3023. a head sealing plate; 30231. a third fixing hole; 30232. and a ground anchor fixing hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

The assembled ecological circular tube house of the embodiment is described in detail below with reference to the attached drawings 1-10 of the specification.

The assembled ecological circular tube house of this embodiment includes circular tube house body 100, door and window mechanism 200 and installation base 300. Wherein, the circular tube room body 100 is the hollow cylinder structure that the multilayer composite sheet assembled formed, and door and window mechanism 200 is located the terminal surface of circular tube room body 100, and installation base 300 sets up on the side of circular tube room body 100 to installation base 300 is used for fixing circular tube room body 100, as shown in fig. 1.

Preferably, the inner diameter of the circular tubular house body 100 is 2440mm, and the outer diameter is 2600 mm. The circular tube house body 100 is of a hollow cylindrical structure, and articles such as bedrooms and toilets can be arranged in the circular tube house body as required, so that the daily requirements of users can be met. The ecological round tube house of assembled of this embodiment can collect official working, rest, life multiple functions in an organic whole. The inner wall plate can adopt plates with high protection grade such as A-grade surface color FRP flat plate clean plates and the like so as to adapt to the medical places such as temporary epidemic prevention, isolation and the like in emergencies.

In the assembled ecological circular tube house of the embodiment, the circular tube house body 100 is assembled by adopting a plurality of layers of composite plates, has the advantages of light weight, quick assembly and convenient transportation, and can be generally installed by two persons in half a day; because the adopted assembly structure is convenient to disassemble, the application range of the device can be greatly expanded. The ecological pipe house of assembled of this embodiment forms pipe house body 100 through the assembly of multilayer composite sheet promptly, has solved the current pipe house that adopts cement to pour and has existed and has removed and can not dismantle the defect that the reassembly was used. In addition, the ecological pipe house of assembled of this embodiment, because whole appearance is arc, has anti-wind, rain-proof, dampproofing advantage. Specifically, the overall appearance of the assembled ecological circular tube house is arc-shaped, so that the arc-shaped design not only has small wind resistance, but also the arc-shaped appearance can assist wind-proof fixing facilities, so that the house has a good wind-proof effect; the arc appearance can also make the rainwater flow down along the arc surface by gravity, the whole surface does not accumulate water, and is rain-proof and moisture-proof.

The ecological pipe house of assembled of this embodiment forms pipe house body 100 through the assembly of multilayer composite sheet, and the door and window mechanism 200 and installation base 300 can be installed again, and it can be applied to following occasion: the special ecological mobile house hotel, the field plant and animal observation house, the temporary construction management house, the water touring management house, the water nursing management house, the temporary medical treatment house for epidemic prevention and/or isolation and the like, and the temporary office or lodging or nursing or management house in the hard-condition areas such as mountainous areas and/or deserts. The ecological pipe house of assembled of this embodiment promptly, compare in the pipe house that adopts cement to pour among the prior art and form, enlarged its range of application greatly.

According to a preferred embodiment, the circular tubular house body 100 comprises a first curved plate 101, a second curved plate 102 and a third curved plate 103, as shown in fig. 2. Preferably, the first arc plate 101, the second arc plate 102 and the third arc plate 103 are detachably connected through a connecting assembly 104. Without being limited thereto, the circular tubular house body 100 may also include four, five or even more arc-shaped plates, and the plurality of arc-shaped plates may be assembled into the cylindrical circular tubular house body 100. The circular tube house body 100 can be formed by splicing 2-12 arc plates according to diameter change and different materials. The pipe room body 100 of this embodiment is formed by the polylith arc through coupling assembling 104 demountable connection assembly, because the arc size is nimble, but the components of a whole that can function independently transportation reachs the erection site and later carries out assembly construction, does not need large-scale lifting device cooperation, and the cost of transportation is low.

Preferably, the first arc plate 101, the second arc plate 102 and/or the third arc plate 103 comprise, in order from inside to outside: a calcium silicate board layer, a cement polyphenyl particle sandwich layer and a calcium silicate board layer; or a glass fiber reinforced plastic plate layer, an extruded plate sandwich layer and a glass fiber reinforced plastic plate layer; or a calcium silicate board layer, an extruded sheet sandwich layer and a calcium silicate board layer. More preferably, the thickness of the first arc-shaped plate 101, the second arc-shaped plate 102 and/or the third arc-shaped plate 103 is 80mm, the thickness of the calcium silicate plate layer or the glass fiber reinforced plastic plate layer of the inner layer and the outer layer is 5mm, and the thickness of the middle cement polyphenyl granule sandwich layer or the extruded plate sandwich layer is 70 mm. The first arc-shaped plate 101, the second arc-shaped plate 102 and/or the third arc-shaped plate 103 in the preferred technical scheme of the embodiment are made of three layers of composite plates, and the adopted calcium silicate plate, the extruded sheet and the glass steel plate have the advantages of good heat insulation performance, good strength, good pressure resistance and ecological environmental protection.

Preferably, the circular tubular house body 100 is manufactured by the following steps:

the first embodiment: checking the template; fixing the template; fixing the inner layer and the outer layer of calcium silicate boards; fixing the keel, the line pipe and the like; fixing a clamp; pouring cement polyphenyl particle slurry; curing in the mold for 12 hours; demolding; maintaining at 5 deg.C above natural condition for 12 days; and (7) checking and warehousing.

The second embodiment: checking the template; fixing a lower template; fixing the inner glass fiber reinforced plastic plate or the calcium silicate plate; fixing a keel, a line pipe and the like; fixing a clamp; spraying glue on the inner side plate; fixing the arc-shaped extruded sheet; spraying glue on the inner side of the outer side plate; pressurizing and compounding; curing in the mold for 4 hours; demolding; maintaining at 5 deg.C for 3 days; and (7) checking and warehousing.

The first arc-shaped plate 101, the second arc-shaped plate 102 and/or the third arc-shaped plate 103 in the preferred technical scheme of the embodiment are made of three layers of composite plates, the preparation process is simple, and large-scale hoisting tools are not needed to be matched.

According to a preferred embodiment, the arc of the first arcuate plate 101, the second arcuate plate 102 and the third arcuate plate 103 are all 120 °, as shown in fig. 2. Preferably, the three arc-shaped plates are placed in the following way: the first arc-shaped plate 101 is positioned above the central axis of the circular tubular house body 100, and the second arc-shaped plate 102 and the third arc-shaped plate 103 are positioned below the first arc-shaped plate 101, as shown in fig. 2. Or the first arc-shaped plate 101 and the second arc-shaped plate 102 are located above the central axis of the circular tubular house body 100 and symmetrically distributed, and the third arc-shaped plate 103 is located below the first arc-shaped plate 101 and the second arc-shaped plate 102. The preferred technical scheme of this embodiment sets up first arc 101 and second arc 102 in the top, and third arc 103 sets up in the below, so sets up, installs the house back in pipe room body 100, still can keep better stationarity.

According to a preferred embodiment, the connection assembly 104 includes a first cover strip 1041, a second cover strip 1042, and a dovetail strip 1043, as shown in fig. 4 or 5. The first arc-shaped plate 101, the second arc-shaped plate 102 and the third arc-shaped plate 103 are respectively formed with an inward concave dovetail groove 105, the dovetail penetration strip 1043 is installed in the two dovetail grooves 105 of the two adjacent arc-shaped plates, and the first cover seam strip 1041 and the second cover seam strip 1042 are installed in the gap between the two dovetail grooves 105 of the two adjacent arc-shaped plates, as shown in fig. 3 to 5. Strip 1043 is worn through inserting the forked tail to two dovetail 105 that this embodiment is preferred technical scheme adjacent, and install first lid seam strip 1041 and second lid seam strip 1042, thereby can be fixed with two adjacent arcs, in addition, when needing to demolish the pipe house, the accessible is demolishd first lid seam strip 1041, second lid seam strip 1042 and forked tail are worn strip 1043 and are made pipe house body 100 decompose into the polylith arc, make pipe house body 100 repeatedly usable not only, can also conveniently transport, the current difficult defect that removes and can not dismantle the used of repeatedly assembling that adopts the pipe house that cement poured to form to exist has been solved.

According to a preferred embodiment, the first cover strip 1041 includes a fixing portion 10411 and a fastening portion 10412, wherein the fixing portion 10411 is of a T-shaped structure, the fastening portion 10412 is integrally formed with an end portion of the fixing portion 10411, and the fastening portion 10412 is of a slope structure, and a slope of the fastening portion 10412 is equal to a slope of a side surface of the dovetail groove 105, as shown in fig. 4 or 5. The second cover seam bar 1042 is a T-shaped structure; alternatively, the second cover strip 1042 has the same structure as the first cover strip 1041, as shown in fig. 4 or 5. In the preferred embodiment, the first cover seam strip 1041 is a cover seam strip similar to an "i" shape, the second cover seam strip 1042 is a T-shaped cover seam strip or a cover seam strip similar to an "i" shape, and the seam between two adjacent arc-shaped plates can be sealed by the first cover seam strip 1041 and the second cover seam strip 1042. The second cover seam strip 1042 of the preferred embodiment is preferably of a T-shaped structure, because during installation, if the dovetail penetrating strip 1043 is installed first, the dovetail penetrating strip 1043 presses the dovetail groove 105 due to the action of its own gravity, and if the second cover seam strip 1042 is also similar to an "i" type cover seam strip, the installation of the second cover seam strip 1042 is difficult. If the second cover seam bar 1042 is an "i" type cover seam bar, the following installation method can be adopted: firstly, the two arc-shaped plates are sewn oppositely, then a first cover seam strip 1041 and a second cover seam strip 1042 are penetrated, and finally a dovetail penetrating strip 1043 is penetrated.

Preferably, a line securing mechanism 106 is provided on the lower arcuate plate, such as the second arcuate plate 102, as shown in FIG. 2. The line securing mechanism 106 may also be referred to as a conduit fixing keel. Preferably, the pipeline fixing mechanism 106 is an extruded glass fiber reinforced plastic profile, and a preformed hole for a pipeline is formed in the pipeline fixing mechanism 106, so that the pipeline can be conveniently installed.

According to a preferred embodiment, the door and window mechanism 200 includes a first door and window assembly 201 at one end surface of the circular tubular house body 100 and a second door and window assembly 202 at the other end surface of the circular tubular house body 100, as shown in fig. 6 and 7. The first door and window assembly 201 and the second door and window assembly 202 of the preferred technical scheme of this embodiment are located two end faces of the circular tubular house body 100, so that the user can live in the circular tubular house body 100 with a wide visual field, and a good ventilation effect can be achieved.

Preferably, the first door/window assembly 201 includes an aluminum alloy glass door 2011 and first windows 2012 disposed at both sides of the aluminum alloy glass door 2011, as shown in fig. 6. More preferably, the aluminum alloy glass door 2011 and the lower part of the first windows 2012 on both sides are configured by lining the extruded sheet 2013 with aluminum sheets on both sides. The second door and window assembly 202 includes a first plug board 2021 and a second plug board 2022, the first plug board 2021 and the second plug board 2022 are connected by a U-shaped primary-secondary slot, and a second window 2023 is disposed on the first plug board 2021, as shown in fig. 7. Preferably, the material of the first plug plate 2021 and the second plug plate 2022 is the same as that of the arc-shaped wall plate. Preferably, the first plug plate 2021 is further provided with an exhaust fan. The aluminum alloy glass door 2011 of the preferred technical scheme of this embodiment is an outward opening structure, and the user can get in and out the circular tube room body 100 through the aluminum alloy glass door 2011. In addition, according to the present embodiment, the extruded sheet 2013 is lined below the aluminum alloy glass door 2011 and the first window 2012, so that the stability of the window can be increased. The first window 2012 and/or the second window 2023 in the preferred embodiment may be a fixed glass window, or an outward opening glass window.

According to a preferred embodiment, the mounting bases 300 include a first mounting base 301 and/or a second mounting base 302, and a plurality of the first mounting bases 301 and/or a plurality of the second mounting bases 302 are disposed on one side of the circular tubular house body 100 close to the ground. Preferably, the first mounting base 301 is used for fixing the circular tubular house body 100 on the flat ground; the second mounting base 302 can also be called a lifting base, and the height of the second mounting base 302 can be adjusted according to the actual situation of the mounting position, the terrain and the appearance and the like, so that the circular tubular house body 100 is overall horizontal, and the circular tubular house is particularly suitable for rugged terrains such as hilly lands. The first mounting bases 301 of the preferred technical solution of this embodiment can be symmetrically mounted on the lower left and right sides of the circular tubular house body 100; the second mounting bases 302 may also be symmetrically mounted on the lower left and right sides of the circular tubular house body 100.

Preferably, the fixing legs can be additionally arranged below the line of the installation base 300, and only two fixing legs are needed to support, so that the circular tube house body 100 can be installed in the green belt for use.

Preferably, one side of the first mounting base 301, which is in contact with the circular tubular room body 100, is an arc structure matched with the circular tubular room body 100, and at least two first fixing holes 3011 are further symmetrically formed in the first mounting base 301, so that the first mounting base 301 and the circular tubular room body 100 can be fixed by a car tightening rope passing through the first fixing holes 3011, as shown in fig. 8. One surface of the first installation base 301 in the preferred technical solution of this embodiment is set to be an arc-shaped structure, so that the circular tubular house body 100 is placed on the first installation base 301, the arc-shaped structure of the surface can be attached to the arc surface of the circular tubular house body 100, the other surface of the first installation base 301 is a planar structure, and the first installation base 301 can be fixed on the ground under the action of gravity of the circular tubular house body 100; meanwhile, one side of the first mounting base 301, which is in contact with the circular tubular house body 100, is of an arc-shaped structure, so that the circular tubular house body 100 can be prevented from being turned on one side. Further, a first fixing hole 3011 is further formed in the first mounting base 301 according to the preferred technical solution of this embodiment, and the first fixing hole 3011 is used for installing a car tightening rope, so that the first mounting base 301 and the circular tubular room body 100 can be fixedly connected through the car tightening rope.

Preferably, a first groove 3012 is formed at a side of the first installation base 301 contacting the circular tubular room body 100, so that after the first installation base 301 is fixed to the circular tubular room body 100, an operation space can be formed between the first installation base 301 and the circular tubular room body 100, as shown in fig. 8. When the junction of two arcs just in time is located and contacts the department with first installation base 301, the preferred technical scheme of this embodiment sets up first recess 3012 on first installation base 301, through first recess 3012, can reserve operating space for the waterproof aftertreatment at expansion joint behind the installation of two arcs.

Preferably, the first mounting base 301 is provided with a drainage hole 3013 at a side away from the side contacting with the circular tubular house body 100, as shown in fig. 8. More preferably, the drainage holes 3013 are semicircular. The preferred technical scheme of this embodiment is equipped with wash port 3013 in first installation base 301 one side of keeping away from and contacting with pipe room body 100, can discharge surface ponding through wash port 3013, avoids surface ponding to cause the influence to pipe room body 100.

Preferably, the second mounting base 302 includes a first fixing plate 3021 for contacting the circular tubular house body 100 and a second fixing plate 3022 for connecting with the lifting device, as shown in fig. 9. The first fixing plate 3021 has an arc-shaped structure matched with the circular tubular room body 100, and a second groove 30211 is formed in the first fixing plate 3021, so that an operating space can be formed between the first fixing plate 3021 and the circular tubular room body 100 after the first fixing plate 3021 contacts the circular tubular room body 100, as shown in fig. 9. The second fixing plate 3022 is provided with a second fixing hole 30221, and the second fixing hole 30221 is used for connecting with the lifting device, as shown in fig. 9. The lifting device is a structure common in the prior art, and is not described in detail herein.

In the preferred technical solution of this embodiment, the first fixing plate 3021 is configured to be an arc-shaped structure, so that the circular tubular room body 100 is placed on the second mounting base 302, and the arc-shaped structure can be attached to the arc surface of the circular tubular room body 100; meanwhile, the first fixing plate 3021 has an arc-shaped structure, and can prevent the circular tubular house body 100 from being turned over. The preferred technical scheme of this example sets up second recess 30211 on first fixed plate 3021, through second recess 30211, can reserve operating space for the waterproof aftertreatment at expansion joint behind the two blocks of arcs installation. On the other hand, in the second fixing plate 3022 according to the preferred embodiment of the present invention, a second fixing hole 30221 for connecting with the lifting device is provided, and the lifting device is connected through the second fixing hole 30221, so that the circular tubular house body can be fixed on a slope.

More preferably, the first fixing plate 3021 has a multi-layer structure, and the middle layer is a welded steel plate reinforcing rib with a thickness of 5 to 8 mm; a layer of arc-shaped steel plate with the thickness of 5mm and a damping rubber plate with the thickness of 5mm above the middle layer and in contact with the circular tube house body 100; below the intermediate layer is a steel plate of 10mm thickness. More preferably, the second fixing plate 3022 is a flange. More preferably, the first fixing plate 3021 and the second fixing plate 3022 are connected to each other by a welded steel pipe.

Preferably, the second mounting base 302 further includes head covers 3023, and the head covers 3023 are disposed at both ends of the first fixing plate 3021. More preferably, the head plate 3023 is provided with a third fixing hole 30231 and an earth anchor fixing hole 30232, as shown in fig. 10. The third fixing hole 30231 is used for fixing a tightening rope, and the ground anchor fixing hole 30232 is used for fixing the second mounting base 302. More preferably, the head plate 3023 has a thickness of 5 mm. The head cover plate 3023 of the preferred embodiment is provided with a third fixing hole 30231, and the third fixing hole 30231 is used for installing a car tightening rope, so that the second installation base 302 and the circular tubular room body 100 can be fixedly connected through the car tightening rope.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. The utility model provides an ecological pipe house of assembled, its characterized in that, includes pipe house body (100), door and window mechanism (200) and installation base (300), wherein, pipe house body (100) are the hollow cylinder structure that multilayer composite sheet assembly formed, door and window mechanism (200) are located the terminal surface of pipe house body (100), installation base (300) set up in on the side of pipe house body (100), and installation base (300) be used for with pipe house body (100) are fixed.

2. The assembled ecological circular pipe house according to claim 1, wherein the circular pipe house body (100) comprises a first arc-shaped plate (101), a second arc-shaped plate (102) and a third arc-shaped plate (103), and the first arc-shaped plate (101), the second arc-shaped plate (102) and the third arc-shaped plate (103) are detachably connected through a connecting assembly (104).

3. The assembled ecological circular pipe house according to claim 2, characterized in that the first curved plate (101), the second curved plate (102) and/or the third curved plate (103) comprise in sequence from inside to outside: a calcium silicate board layer, a cement polyphenyl particle sandwich layer and a calcium silicate board layer; or a glass fiber reinforced plastic plate layer, an extruded plate sandwich layer and a glass fiber reinforced plastic plate layer; or a calcium silicate board layer, an extruded sheet sandwich layer and a calcium silicate board layer.

4. The assembled ecological circular pipe house according to claim 2, characterized in that the radian of the first arc-shaped plate (101), the second arc-shaped plate (102) and the third arc-shaped plate (103) are all 120 °,

and the first arc-shaped plate (101) is positioned above the central shaft of the circular tubular house body (100), or the first arc-shaped plate (101) and the second arc-shaped plate (102) are positioned above the central shaft of the circular tubular house body (100) and are symmetrically distributed.

5. The assembled ecological circular pipe house according to claim 2, wherein the connection assembly (104) comprises a first cover seam strip (1041), a second cover seam strip (1042) and a dovetail penetration strip (1043),

the plate heads of the first arc-shaped plate (101), the second arc-shaped plate (102) and the third arc-shaped plate (103) are respectively provided with an inwards concave dovetail groove (105), dovetail penetrating strips (1043) are installed in the two dovetail grooves (105) of the two adjacent arc-shaped plates, and the first cover seam strip (1041) and the second cover seam strip (1042) are installed in a gap between the two dovetail grooves (105) of the two adjacent arc-shaped plates.

6. The assembled ecological circular tube house as claimed in claim 5, wherein the first cover seam strip (1041) comprises a fixing portion (10411) and a clamping portion (10412), wherein the fixing portion (10411) is of a T-shaped structure, the clamping portion (10412) is integrally formed with an end portion of the fixing portion (10411), the clamping portion (10412) is of a slope structure, and the slope of the clamping portion (10412) is equivalent to that of the side face of the dovetail groove (105);

the second cover seam strip (1042) is of a T-shaped structure; or the second cover seam strip (1042) has the same structure as the first cover seam strip (1041).

7. The assembled ecological circular tube house of claim 1, wherein the door and window mechanism (200) comprises a first door and window assembly (201) located at one end surface of the circular tube house body (100) and a second door and window assembly (202) located at the other end surface of the circular tube house body (100), wherein,

the first door and window assembly (201) comprises an aluminum alloy glass door (2011) and first windows (2012) positioned at two sides of the aluminum alloy glass door (2011), and a structure that extruded sheets (2013) are lined in aluminum plates at two sides is arranged below the aluminum alloy glass door (2011) and the first windows (2012) at two sides;

the second door and window assembly (202) comprises a first plug board (2021) and a second plug board (2022), the first plug board (2021) and the second plug board (2022) are connected through a U-shaped primary and secondary groove, and a second window (2023) is arranged on the first plug board (2021).

8. The fabricated ecological circular pipe house as claimed in claim 1, wherein the mounting bases (300) comprise first mounting bases (301), a plurality of the first mounting bases (301) are disposed at a side of the circular pipe house body (100) close to the ground, and

first installation base (301) with one side that pipe room body (100) contacted be with pipe room body (100) assorted arc structure, it is provided with two at least first fixed orificess (3011) still to symmetry on first installation base (301), makes to pass the tight car rope of first fixed orificess (3011) can with first installation base (301) with pipe room body (100) are fixed.

9. The assembled ecological circular pipe house according to claim 8, wherein a first groove (3012) is formed on a side of the first mounting base (301) contacting the circular pipe house body (100), so that an operation space can be formed between the first mounting base (301) and the circular pipe house body (100) after the first mounting base (301) is fixed to the circular pipe house body (100);

one side, away from the side in contact with the circular tubular house body (100), of the first mounting base (301) is provided with a water drainage hole (3013), and the water drainage hole (3013) is semicircular.

10. The assembled ecological circular pipe house according to claim 1, wherein the mounting base (300) comprises a second mounting base (302), a plurality of the second mounting bases (302) are disposed on a side of the circular pipe house body (100) close to the ground, and

the second mounting base (302) comprises a first fixing plate (3021) used for contacting with the round tube house body (100), a second fixing plate (3022) used for connecting with a lifting device and head sealing plates (3023) arranged at two ends of the first fixing plate (3021),

the first fixing plate (3021) is of an arc-shaped structure matched with the circular tubular house body (100), and a second groove (30211) is formed in the first fixing plate (3021), so that an operating space can be formed between the first fixing plate (3021) and the circular tubular house body (100) after the first fixing plate (3021) is in contact with the circular tubular house body (100);

a second fixing hole (30221) is formed in the second fixing plate (3022), and the second fixing hole (30221) is used for being connected with a lifting device;

the head cover plate (3023) is provided with a third fixing hole (30231) and a ground anchor fixing hole (30232), wherein the third fixing hole (30231) is used for installing a vehicle tightening rope, and the ground anchor fixing hole (30232) is used for fixing a second installation base (302).

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