CN111910957A

CN111910957A - Remove glass steel base reinforced structure for house

Info

Publication number: CN111910957A
Application number: CN202010726908.6A
Authority: CN
Inventors: 张晓卫
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-26
Filing date: 2020-07-26
Publication date: 2020-11-10

Abstract

The invention discloses a base reinforcing structure for a mobile glass fiber reinforced plastic house, relates to the technical field of building of mobile houses, and solves the problems that the existing base reinforcing structure is mainly fixed by pouring or foundation bolts, the preset steps are very troublesome, the cost is too high, and the base reinforcing structure cannot be quickly fixed according to the needs. A base reinforcing structure for a mobile glass reinforced plastic house comprises a corner bin; the corner bins and the long connecting bins are arranged in four groups, and the four groups of corner bins and the four groups of long connecting bins form a frame structure in an enclosing manner; the top of each corner bin is fixedly provided with a top cover through bolts; through being provided with the setting in turning storehouse and long connection storehouse, for reinforced structure provides quick fixed function, can stimulate round pin post and guide arm through the slip group, with turning storehouse and long connection storehouse taut, enclose to establish and fix in the outside of house base, compare pour with the fixed more simple to operate of rag bolt, can be applied to the house of different widths.

Description

Remove glass steel base reinforced structure for house

Technical Field

The invention relates to the technical field of building of moving and transporting houses, in particular to a base reinforcing structure for a moving glass fiber reinforced plastic house.

Background

The mobile house is also called prefabricated house, and is a prefabricated house which can be hauled from a manufacturing factory to a home base. The movable house is widely applied to the characteristics of convenient assembly, attractive appearance, convenient construction, environmental protection, energy conservation, small investment and the like, and comprises a house foundation, a house wall body, a house cover, a decorative ground and a top grid, wherein the house foundation comprises unit ground piles and a base.

Through search, for example, patent No. CN204983140U discloses a base reinforcing structure for a mobile glass fiber reinforced plastic house, which is characterized in that a front bottom beam and a rear bottom beam are arranged in parallel, the front bottom beam and the rear bottom beam are both composed of a bottom edge and two side edges connected with the bottom edge, the sections of the front bottom beam and the rear bottom beam are in a U shape with an upward opening, the bottom edges of the front bottom beam and the rear bottom beam are provided with through holes connected with unit ground piles at intervals, two ends of the front bottom beam and the rear bottom beam are respectively provided with U-shaped connecting grooves with opposite openings, the left bottom beam and the right bottom beam are connected with the front bottom beam and the rear bottom beam through the U-shaped connecting grooves to form a base, the utility model has the advantages of simple and convenient installation, high stability, strong anti-seismic and anti-tearing capability, the connecting points are wrapped by the U-shaped connecting grooves, corrosion resistance and safety factor are achieved, in addition, the front bottom beam, the rear bottom beam, the left bottom beam, the right bottom beam and, is particularly suitable for industrial mass production.

However, the base reinforcing structure used at present mainly utilizes pouring or anchor bolts for fixing, the preset steps are very troublesome, the cost is too high, the base reinforcing structure cannot be quickly fixed according to needs, the base reinforcing structure is inconvenient to be selectively installed and fixed according to the property of an installation place, the function of fixing the wall of the glass fiber reinforced plastic house cannot be realized, and the function of preventing freezing and deformation cannot be provided at the same time, so that the existing requirements cannot be met, and the base reinforcing structure for the movable glass fiber reinforced plastic house is provided.

Disclosure of Invention

Problem (A)

The invention aims to provide a base reinforcing structure for a mobile glass fiber reinforced plastic house, which solves the problems that the existing base reinforcing structure proposed in the background technology is mainly fixed by pouring or anchor bolts, the preset steps are very troublesome, the cost is too high, the fixing cannot be rapidly carried out according to the requirement, the selective installation and the fixing cannot be conveniently carried out according to the property of an installation place, the function of fixing the wall of the glass fiber reinforced plastic house cannot be realized, and the function of preventing freezing and deforming cannot be provided.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a base reinforcing structure for a mobile glass reinforced plastic house comprises a corner bin; the corner bins and the long connecting bins are arranged in four groups, and the four groups of corner bins and the four groups of long connecting bins form a frame structure in an enclosing manner; the top of each corner bin is fixedly provided with a top cover through bolts; the top of each long connecting bin is fixedly provided with a connecting bin seat through a bolt; and the middle of the top of the connecting bin seat is fixedly provided with a heating device through bolts.

Preferably, the corner bin further comprises an inserting plate, an inserting groove, a guide rod and a pin; two groups of inserting plates are integrally arranged on two sides in the corner bin, and two groups of inserting grooves are vertically formed in the tops of the inserting plates; guide rods are arranged in the inserting grooves in a sliding manner; one end of the guide rod is integrally provided with two groups of wafer structures, and the guide rod is clamped and embedded in the embedding groove through the wafer structures; round holes are formed in the guide rods, and pin columns are fixedly arranged in the round holes through clearance fit; the guide rods penetrate through two sides of the long connecting bin and are limited and fixed through the pin columns; the inner ends of the corners of the corner bins are of right-angle structures.

Preferably, the top cover further comprises a pouring bin and an inserting structure; the bottom structure of the top cover is consistent with the top surface structure of the corner bin; pouring bins are uniformly arranged on two sides of the top cover, the pouring bins are all of a communicated structure, and bin covers are fixedly arranged on the tops of the pouring bins; two groups of inserting structures are integrally arranged on two sides of the bottom of the top cover; the inserting structure is a structure matched with the inserting embedding groove, the bottom of the inserting structure is provided with a semicircular groove, and the diameter of the semicircular groove is consistent with that of the guide rod.

Preferably, the long connecting cabin further comprises a sliding group and a tensioning bolt; the two sides of the inner side of the long connecting bin are uniformly provided with a sliding strip structure in a whole manner, and the inner side of the long connecting bin is provided with two groups of sliding groups in a sliding manner through the sliding strip structure; the middle of the sliding group is provided with a screw hole, and the sliding group is internally provided with a tensioning bolt through the rotation of the screw hole.

Preferably, the bottom in turning storehouse and long connection storehouse all runs through and has seted up the round hole structure, and all wears to be equipped with the spiral round pin through clearance fit in the round hole.

Preferably, the spiral pin further comprises a pin barrel and a spiral drill rod; the main bodies of the spiral pins are all arranged into round cap structures, and the bottoms of the spiral pins are uniformly provided with pin cylinders in a whole manner; the outer sides of the bottoms of the pin cylinders are all provided with conical structures; four groups of strip-shaped grooves are formed in the outer side of the bottom of the pin cylinder at equal intervals; the middle bottom of each spiral pin is rotatably provided with a spiral drill rod through a bearing, the outer diameter of each spiral drill rod is attached to the inner wall of each pin cylinder, and the top of each spiral drill rod penetrates through the spiral pin to be matched with the bearing to be rotatably connected; the top outer end of auger stem is provided with the cylinder structure with the style, and the hexagonal slotted hole has all been seted up to the top inboard of cylinder structure.

Preferably, the connecting bin seat further comprises an air exhaust, an air flow port, a top air passage and an arc-shaped channel; five groups of reinforcing rib structures are uniformly arranged on the outer side of the top of the connecting bin seat, and air rows are uniformly arranged on the inner sides of the reinforcing ribs; airflow openings are uniformly formed in the two sides of the inner end of the air exhaust bar, and the outlets of the airflow openings are square openings; outlets of the airflow openings are arranged towards two sides and inclined at an angle of 15 degrees with the inner surface of the connecting bin seat; the top of the air exhaust is integrally provided with a top air passage, and the top air passage penetrates through the air exhaust to be communicated with the air flow ports; the outer bottom of the top air passage is uniformly provided with an arc-shaped channel.

Preferably, the heating device further comprises a turbofan and a side row hole; a turbofan is uniformly arranged in the middle of the outer side of the heating device, and cambered surface filter screens are fixedly arranged outside the turbofan; side row holes are uniformly formed in two ends of the bottom of the outer side of the turbofan, and the bottoms of the side row holes are located in the arc-shaped channel; both sides of the top air passage are provided with pipelines communicated with both sides of the heating device; heating wires are arranged in both sides of the interior of the heating device, and air entering the turbofan passes through the heating wires on both sides and then enters the top air passage through the pipeline.

(III) advantageous effects

The invention provides a base reinforcing structure for a mobile glass fiber reinforced plastic house, which provides a quick fixing function for the reinforcing structure by arranging a corner bin and a long connecting bin, can pull a pin column and a guide rod through a sliding group to tighten the corner bin and the long connecting bin, and is fixed outside a house base in a surrounding way.

Secondly, round holes are formed in the bottoms of the corner bin and the long connecting bin, the function of selective use can be provided for the reinforcing device, when the corner bin and the long connecting bin need to be fixed in a hardening field, pouring can be directly conducted, the top cover and the connecting bin seat can be installed without waiting for pouring and fixing, when the reinforcing device is applied to a soil field, the spiral pin can penetrate through the round holes in the bottoms of the corner bin and the long connecting bin and is fixed on the ground, and reinforcement is completed.

Furthermore, heating device and airflow opening's setting, the function of deformation prevents frostbite is provided for the house wall, in round the clock in turn or in cold season, heater strip and turbofan in the heating device can be started, utilize turbofan to last the air in inhaling heating device, the air passes and gets into the air escape after the heater strip heating, the reposition of redundant personnel through the airflow opening lasts to the outward appearance in house heat and dries by the fire and blows, it is even to dry by the fire, both can promote the house temperature and can defrost again, prevent the deformation of being refrigerated in house, be favorable to reinforced structure's use.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

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

FIG. 3 is a partially disassembled schematic view in the embodiment of the present invention;

FIG. 4 is a schematic view of an inner side structure of the connecting bin base according to the embodiment of the present invention;

FIG. 5 is a schematic diagram of an outer side structure of the connecting bin base according to the embodiment of the present invention;

FIG. 6 is a schematic perspective view of a corner bin according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view of a top cover according to an embodiment of the present invention;

FIG. 8 is a perspective view of a screw pin according to an embodiment of the present invention;

in fig. 1 to 8, the correspondence between the part names or lines and the reference numbers is:

1. a corner bin; 101. Inserting plates; 102. Inserting the caulking groove; 103. A guide bar; 104. A pin; 2. A top cover; 201. A storehouse is poured; 202. A plug-in structure; 3. A long connecting bin; 301. A sliding group; 302. Tightening the bolts; 4. A screw pin; 401. A pin barrel; 402. A auger stem; 5. Connecting the bin base; 501. Air exhaust; 502. An airflow port; 503. A top airway; 504. An arc-shaped channel; 6. A heating device; 601. A turbo fan; 602. And (4) side row holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a base reinforcing structure for a mobile glass reinforced plastic house comprises a corner bin 1; the number of the corner bins 1 and the number of the long connecting bins 3 are four, and the four groups of corner bins 1 and the four groups of long connecting bins 3 form a frame structure in an enclosing manner; the top of each corner bin 1 is fixedly provided with a top cover 2 through bolts; the top of the long connecting bin 3 is fixedly provided with a connecting bin seat 5 through bolts; the middle of the top of the connecting bin seat 5 is fixedly provided with a heating device 6 through bolts.

The corner bin 1 further comprises an inserting plate 101, an inserting groove 102, a guide rod 103 and a pin 104; two groups of inserting plates 101 are integrally arranged on two sides in the corner bin 1, and two groups of inserting grooves 102 are vertically formed in the tops of the inserting plates 101; the inserting slots 102 are all provided with guide rods 103 in a sliding manner; one end of the guide rod 103 is integrally provided with two groups of disc structures, and the guide rod 103 is clamped and embedded in the embedding groove 102 through the disc structures; round holes are formed in the guide rods 103, and pin columns 104 are fixedly arranged in the round holes through clearance fit; the guide rods 103 penetrate through two sides of the long connecting bin 3 and are limited and fixed through the pins 104; the inner ends of the corners of the corner bin 1 are of right-angle structures.

Wherein, the top cover 2 also comprises a pouring bin 201 and an inserting structure 202; the bottom structure of the top cover 2 is consistent with the top structure of the corner bin 1; pouring bins 201 are uniformly arranged on two sides of the top cover 2, the pouring bins 201 are all of a communicated structure, and bin covers are fixedly arranged on the tops of the pouring bins 201; two groups of plug-in structures 202 are integrally arranged on two sides of the bottom of the top cover 2; the inserting structures 202 are all structures matched with the inserting embedding grooves 102, and the bottoms of the inserting structures 202 are all provided with semicircular grooves, and the diameters of the semicircular grooves are consistent with the guide rods 103.

Wherein, the long connecting cabin 3 also comprises a sliding group 301 and a tensioning bolt 302; the two sides of the inner side of the long connecting bin 3 are uniformly provided with a sliding strip structure in a whole manner, and the inner side of the long connecting bin 3 is provided with two groups of sliding groups 301 in a sliding manner through the sliding strip structure; the middle of the sliding group 301 is provided with a screw hole, and the sliding group 301 is internally provided with a tension bolt 302 through the screw hole in a rotating manner.

Wherein, the bottom of turning storehouse 1 and long connection storehouse 3 has all run through and has seted up the round hole structure, and all wears to be equipped with spiral round pin 4 through clearance fit in the round hole.

Wherein, the spiral pin 4 also comprises a pin cylinder 401 and an auger stem 402; the main bodies of the spiral pins 4 are all of round cap structures, and the bottoms of the spiral pins 4 are uniformly provided with pin cylinders 401; the outer sides of the bottoms of the pin cylinders 401 are all provided with conical structures; four groups of strip-shaped grooves are formed in the outer side of the bottom of the pin cylinder 401 at equal intervals; the middle bottom of the spiral pin 4 is rotatably provided with an auger stem 402 through a bearing, the outer diameter of the auger stem 402 is attached to the inner wall of the pin cylinder 401, and the top of the auger stem 402 passes through the spiral pin 4 and is rotatably connected with the bearing; the top outer end homogeneous body formula of auger stem 402 is provided with the cylinder structure, and the hexagonal slotted hole has all been seted up to the top inboard of cylinder structure.

Wherein, the connecting bin base 5 also comprises an air exhaust 501, an air flow port 502, a top air passage 503 and an arc-shaped channel 504; the outer side of the top of the connecting bin base 5 is uniformly provided with five groups of reinforcing rib structures, and the inner side of each reinforcing rib is uniformly provided with the air bar 501; airflow openings 502 are uniformly formed in the two sides of the inner end of the air outlet 501, and the outlets of the airflow openings 502 are square openings; the outlets of the airflow openings 502 are both opened towards two sides and inclined at an angle of 15 degrees with the inner surface of the connecting bin seat 5; the top of the air discharge row 501 is integrally provided with a top air passage 503, and the top air passage 503 passes through the air discharge row 501 and is communicated with each group of air flow openings 502; the outer bottom of the top air passage 503 is integrally provided with an arc-shaped channel 504.

Wherein, the heating device 6 also comprises a turbofan 601 and a side row hole 602; a turbofan 601 is uniformly arranged in the middle of the outer side of the heating device 6, and cambered surface filter screens are fixedly arranged outside the turbofan 601; two ends of the outer bottom of the turbofan 601 are integrally provided with side row holes 602, and the bottoms of the side row holes 602 are located in the arc-shaped channel 504; both sides of the top air passage 503 are provided with pipelines communicated with both sides of the heating device 6; heating wires are arranged in both sides of the interior of the heating device 6, and air entering the turbofan 601 passes through the heating wires on both sides and then enters the top air passage 503 through a pipeline.

The working principle is as follows: during the use, enclose corner storehouse 1 and long connecting bin 3 and establish in the outside of house base, the corner laminating of corner storehouse 1 is in the corner of house base, long connecting bin 3 laminates outside the house base, set up guide arm 103 in inserting caulking groove 102, pass long connecting bin 3 and slip group 301 with the other end of guide arm 103, then pass slip group 301 and insert in a set of round hole that is closest to slip group 301 and establish round pin 104 in guide arm 103, then rotatory tensioning bolt 302 top tight slip group 301, it tightens up guide arm 103 with each group's corner storehouse 1 and long connecting bin 3 fixedly to pull round pin 104 through slip group 301.

If the bottom in house is cement etc. sclerosis ground, can directly pour in the round hole structure in turning storehouse 1 and long connection storehouse 3, with turning storehouse 1 and the fixed setting on ground in long connection storehouse 3.

If the bottom in house is soil etc. and softens ground, can insert ground with the round hole that auger bolt 4 passed corner storehouse 1 and long connection storehouse 3, rotate auger stem 402 and continue to descend auger bolt 4, insert the underground with auger bolt 4, fix corner storehouse 1 and long connection storehouse 3.

After storehouse 3 is connected to fixed length, connect storehouse seat 5 at the long top erection joint storehouse seat of connecting storehouse 3 of each group, connect storehouse seat 5 laminating house wall and consolidate, and, in the time of round clock in turn or in cold season, heater strip and turbofan 601 in the heating device 6 can be started, turbofan 601 continuously inhales the heating device 6 with the air, the air passes into the row of anger 501 behind the heater strip heating, the reposition of redundant personnel through air-flow opening 502 lasts to the outward appearance in house and dries by the fire and blows, both can promote the house temperature and can defrost again, prevent the deformation of catching cold in house, the comdenstion water can be discharged to both sides in flowing into arc canal 504 from side discharge hole 602.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a remove base reinforced structure for glass steel house which characterized in that: comprises a corner bin (1); the corner bins (1) and the long connecting bins (3) are arranged in four groups, and the four groups of corner bins (1) and the four groups of long connecting bins (3) are enclosed to form a frame-shaped structure; the top of each corner bin (1) is fixedly provided with a top cover (2) through bolts; the top parts of the long connecting bins (3) are all fixedly provided with connecting bin seats (5) through bolts; and the middle of the top of the connecting bin seat (5) is fixedly provided with a heating device (6) through bolts.

2. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the corner bin (1) further comprises an inserting plate (101), an inserting groove (102), a guide rod (103) and a pin column (104); two groups of inserting plates (101) are integrally arranged on two sides in the corner bin (1), and two groups of inserting grooves (102) are vertically formed in the tops of the inserting plates (101); guide rods (103) are arranged in the inserting and embedding grooves (102) in a sliding manner; two groups of disc structures are uniformly arranged at one end of the guide rod (103), and the guide rod (103) is clamped and embedded in the embedding groove (102) through the disc structures; round holes are formed in the guide rods (103), and pin columns (104) are fixedly arranged in the round holes in a clearance fit manner; the guide rods (103) penetrate through the two sides of the long connecting bin (3) and are limited and fixed through the pins (104); the inner ends of the corners of the corner bin (1) are of right-angle structures.

3. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the top cover (2) also comprises a pouring bin (201) and an inserting structure (202); the bottom structure of the top cover (2) is consistent with the top surface structure of the corner bin (1); pouring bins (201) are uniformly arranged on two sides of the top cover (2), the pouring bins (201) are all of a communicated structure, and bin covers are fixedly arranged on the tops of the pouring bins (201); two groups of plug-in structures (202) are integrally arranged on two sides of the bottom of the top cover (2); the inserting structures (202) are all structures matched with the inserting embedding grooves (102), semicircular grooves are formed in the bottoms of the inserting structures (202), and the diameters of the semicircular grooves are consistent with those of the guide rods (103).

4. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the long connecting bin (3) further comprises a sliding group (301) and a tensioning bolt (302); the two sides of the inner side of the long connecting bin (3) are uniformly provided with a sliding strip structure, and the inner side of the long connecting bin (3) is provided with two groups of sliding groups (301) in a sliding manner through the sliding strip structure; the middle of the sliding group (301) is provided with a screw hole, and the sliding group (301) is internally provided with a tensioning bolt (302) through the rotation of the screw hole.

5. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the bottom of the corner bin (1) and the bottom of the long connecting bin (3) are both provided with round hole structures in a penetrating mode, and spiral pins (4) are arranged in the round holes in a penetrating mode through clearance fit.

6. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 5, wherein: the spiral pin (4) further comprises a pin barrel (401) and an auger stem (402); the main bodies of the spiral pins (4) are all arranged to be round-cap structures, and pin cylinders (401) are uniformly arranged at the bottoms of the spiral pins (4); the outer sides of the bottoms of the pin cylinders (401) are all provided with conical structures; four groups of strip-shaped grooves are formed in the outer side of the bottom of the pin cylinder (401) at equal intervals; the middle bottom of each spiral pin (4) is rotatably provided with a spiral drill rod (402) through a bearing, the outer diameter of each spiral drill rod (402) is attached to the inner wall of the corresponding pin cylinder (401), and the top of each spiral drill rod (402) penetrates through the spiral pin (4) to be matched with the bearing to be rotatably connected; the top outer end of auger stem (402) is provided with the cylinder structure with the style, and the hexagonal slotted hole has all been seted up to the top inboard of cylinder structure.

7. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the connecting bin seat (5) also comprises an air exhaust (501), an air flow port (502), a top air passage (503) and an arc-shaped channel (504); the outer side of the top of the connecting bin seat (5) is uniformly provided with five groups of reinforcing rib structures, and the inner side of each reinforcing rib is uniformly provided with an air exhaust (501); airflow openings (502) are uniformly formed in the two sides of the inner end of the air exhaust (501), and the outlets of the airflow openings (502) are square openings; outlets of the airflow openings (502) are both opened towards two sides and inclined at an angle of 15 degrees with the inner surface of the connecting bin seat (5); the top of the air exhaust (501) is integrally provided with a top air passage (503), and the top air passage (503) penetrates through the air exhaust (501) to be communicated with the air flow openings (502); the bottom of the outer side of the top air passage (503) is uniformly provided with an arc-shaped channel (504).

8. The base reinforcing structure for the mobile glass fiber reinforced plastic house according to claim 1, wherein: the heating device (6) also comprises a turbofan (601) and a side row hole (602); a turbofan (601) is uniformly arranged in the middle of the outer side of the heating device (6), and cambered surface filter screens are fixedly arranged outside the turbofan (601); two ends of the bottom of the outer side of the turbofan (601) are integrally provided with side row holes (602), and the bottoms of the side row holes (602) are located in the arc-shaped channel (504); both sides of the top air passage (503) are provided with pipelines which are communicated with both sides of the heating device (6); heating wires are arranged in both sides of the interior of the heating device (6), and air entering the turbofan (601) passes through the heating wires on both sides and then enters the top air passage (503) through a pipeline.