CN111472557B - Fabricated building unit and construction method thereof - Google Patents

Abstract

The invention relates to the field of fabricated buildings, in particular to a fabricated building unit and a construction method thereof. The construction method of the fabricated building unit comprises the following steps: s1: the wall position is set up: the moving strip can slide left and right between the two bottom rods, the left and right positions of the bottom rods are adjusted, and the setting position of the wall is adjusted; s2: an inner wall with a certain angle is arranged; s3: setting an outer wall: the outer wall plate is equivalent to the outer wall of an assembly type building, the lower round hole plate can rotate on the convex shaft, the angle of the outer wall plate is adjusted, the translation seat rod can slide left and right, and the left and right positions of the outer wall plate are adjusted; s4: setting a floor: the two lower round hole strips and the lower round hole plate on the same side are used for placing a floor, and the laid floor is fixed by inserting screws into the round threaded holes; s5: setting a shed roof: the two upper round hole strips and the upper round hole plate on the same side are used for placing a shed roof, and the laid shed roof is fixed by inserting screws into the round threaded holes.

Description

Fabricated building unit and construction method thereof

Technical Field

The invention relates to the field of fabricated buildings, in particular to a fabricated building unit and a construction method thereof.

Background

The application number is CN201820052674.X, and the assembly type building structure wall comprises an L-shaped assembly type building column module, a linear assembly type building column module and a flat plate-shaped prefabricated lateral force resisting support module; the assembled building post module of L shape includes L shape wallboard and the steel construction support column of setting in L shape wallboard, the assembled building post module of line shape includes line wallboard and the steel construction support column of setting in line wallboard, the prefabricated anti side force of dull and stereotyped shape supports the module and supports including prefabricated anti side force support wallboard and the anti side force steel construction that sets up in prefabricated anti side force support wallboard. The utility model discloses a realized modularization, the merchantable thing of wall body, modulization, have interchangeability and replaceability, can realize the integration of wall structure and building, the industrial production of being convenient for. But this patent does not allow for adjustment of the wall position as needed for use.

Disclosure of Invention

The invention provides a fabricated building unit, which has the advantage that the position of a wall can be adjusted according to use requirements.

The invention relates to the field of assembly type buildings, in particular to an assembly type building unit which comprises a bottom rod, a sliding groove, a moving strip, a convex column, a middle screw, a stop rod and an upper layer strip.

Be provided with two around the sill bar, all be provided with the spout on the opposite face of two sill bars, both ends difference sliding connection is on two spouts around the removal strip, two projections of upside fixedly connected with of removal strip, the upper strata strip is inserted on two projections, the upper strata strip is located at two sill bar upsides, the equal fixedly connected with pin in both ends around the upper strata strip, two pin are laminated with the outside of two sill bars respectively mutually, it has well screw to peg graft in the middle part of upper strata strip, the middle part of screw is passed through threaded connection at the middle part of removal strip in the lower part of well screw.

Assembled building unit still includes L shape pole, the slider, fastening screw II, the limit swivel mount, vertical axis and triangle slot, the equal fixedly connected with L shape pole in both ends around the upper strata strip, equal sliding connection has the slider on two L shape poles, all there is fastening screw II through threaded connection on two sliders, two fastening screw II push up respectively on two L shape poles, the equal fixedly connected with vertical axis of upside of two sliders, rotate respectively on two limit swivel mounts and connect on two vertical axes, all be provided with the triangle slot on two limit swivel mount's the opposite face.

The assembled building unit further comprises socket boards, half wallboards and inserting columns, the lower parts of the two side rotary bases are fixedly connected with the socket boards, one sides of the two half wallboards are inserted into the two triangular slots respectively, the lower sides of the two half wallboards are fixedly connected with the inserting columns, and the two inserting columns are inserted into the two socket boards respectively.

The assembled building unit still includes fixed cover, fastening screw III, T shape pole and an internal thread section of thick bamboo, and the equal fixedly connected with in right side of two half wallboards is fixed to be put in, and two T shape poles sliding connection respectively are sheathe in two are fixed, all have fastening screw III through threaded connection on two are fixed, and two fastening screw III push up respectively on two T shape poles, and the outside of two T shape poles all is provided with a plurality of internal thread sections of thick bamboos.

Assembled building unit still includes the spring housing post, the upper carriage, well even seat, the telescopic strip, the slip sheet, minor axis and gear, equal fixedly connected with upper carriage in the upside inner of two half wallboards, the equal fixedly connected with spring housing post in the outside of two upper carriages, compression spring has all been cup jointed on two spring housing posts, be provided with two around the telescopic strip, two telescopic strips are sliding connection respectively on two upper carriages, the equal fixedly connected with slip sheet in the outer end of two telescopic strips, two slip sheet difference sliding connection are on two spring housing posts, two compression spring all are located between corresponding spring housing post and the slip sheet, the equal fixedly connected with minor axis in the inner of two telescopic strips, two minor axes rotate respectively and connect both ends around well even seat, the equal fixedly connected with gear in the upper end of two minor axes, the meshing transmission between two gears.

Assembled building unit still includes fastening screw I, the kerve, the rectangle frame, cylinder pole and trapezoidal sand grip, both ends all are provided with trapezoidal sand grip around the rectangle frame downside, two trapezoidal sand grips sliding connection are at the upside of upper strata strip about on the direction, there are two fastening screw I through threaded connection on the upper strata strip, two fastening screw I push up both sides around the rectangle frame respectively, the downside of two half wallboards all is provided with the kerve, the equal fixedly connected with cylinder pole in both ends around the rectangle frame, two cylinder pole difference sliding connection are on two kerves.

The assembled building unit still includes translation seat pole, protruding axle, lower round hole board and side fascia, and both ends difference sliding connection is on two spouts around the translation seat pole, and the middle part fixedly connected with protruding axle of translation seat pole, the middle part of lower round hole board rotate to be connected on the protruding axle, the upside fixedly connected with side fascia of lower round hole board.

The assembled building unit still includes round hole strip down, round hole strip under the equal fixedly connected with in four angle departments of rectangle frame, all is provided with a plurality of round screw holes under four on round hole strip and the two round hole boards down, and four round hole strips are in same height with round hole board down.

The assembled building unit still includes round hole strip and last round hole board, and the upper end of two side fascia all is provided with round hole board, and the left and right sides on two half wallboard upper portions all is provided with round hole strip, all is provided with a plurality of round screw holes on four round hole strips and two last round hole boards, goes up round hole strip and two and goes up the round hole board and be in same height on four.

The construction method of the fabricated building unit comprises the following steps:

s1: the wall position is set up: the moving strip can slide left and right between the two bottom rods, the left and right positions of the bottom rods are adjusted, and the setting position of the wall is adjusted;

s2: the setting is the interior wall of certain angle: after the two half wallboards are adjusted to different position angles, the two T-shaped rods are slid to enable the inner ends of the two T-shaped rods to be contacted, the two T-shaped rods can be both attached with a plate, the plate is inserted into the internal thread cylinder through a screw to be fixed, and then a gap between the two half wallboards is shielded to form a wall with a certain angle;

s3: setting an outer wall: the outer wall plate is equivalent to the outer wall of an assembly type building, the lower round hole plate can rotate on the convex shaft, the angle of the outer wall plate is adjusted, the translation seat rod can slide left and right, and the left and right positions of the outer wall plate are adjusted;

s4: setting a floor: the two lower round hole strips and the lower round hole plate on the same side are used for placing a floor, and the laid floor is fixed by inserting screws into the round threaded holes;

s5: setting a shed roof: the two upper round hole strips and the upper round hole plate on the same side are used for placing a shed roof, and the laid shed roof is fixed by inserting screws into the round threaded holes.

The assembly type building unit has the beneficial effects that:

according to the assembly type building unit, the two bottom rods are placed on the ground, the moving strip can slide left and right between the two bottom rods, so that the left and right positions of the bottom rods are adjusted, the upper sides of the bottom rods are used for arranging a wall, and the position of the wall is adjusted according to use requirements; the upper layer strip is inserted and is fixed a position on two convex columns on the moving strip, and when the screw pushes down the upper layer strip in the rotating, the upper layer strip can be pressed on two bottom rods, and then the moving strip and the upper layer strip are fixed between the two bottom rods.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of a prefabricated building unit of the present invention;

FIG. 2 is a second schematic view of the overall structure of the prefabricated building unit of the present invention;

FIG. 3 is a schematic view of a portion of the modular building unit of the present invention;

FIG. 4 is a second schematic view of a portion of the modular building unit of the present invention;

FIG. 5 is a first schematic structural diagram of a moving bar;

FIG. 6 is a second schematic structural view of a moving bar;

FIG. 7 is a schematic structural view of a slider;

FIG. 8 is a first schematic structural view of a half wall panel;

FIG. 9 is a second schematic structural view of a half wall panel;

FIG. 10 is a schematic structural view of the middle connecting seat;

FIG. 11 is a first schematic structural diagram of a rectangular frame;

FIG. 12 is a second schematic structural view of a rectangular frame;

fig. 13 is a schematic structural view of the translation seat rod.

In the figure: a bottom bar 1; a chute 101; a moving bar 2; a convex column 201; a middle screw 202; a fastening screw I203; an L-shaped rod 204; a stop lever 205; an upper layer strip 206; a slider 3; a fastening screw II 301; an edge transposition 302; a vertical shaft 303; a triangular slot 304; a socket board 305; a half wall panel 4; an upper round hole bar 401; a spring pocket post 402; an upper slide 403; a bottom tank 404; a plug 405; a securing sleeve 406; a fastening screw III 407; a T-bar 408; an internally threaded barrel 409; a middle connecting seat 5; a flex 501; a slide hole plate 502; a minor axis 503; a gear 504; a rectangular frame 6; a cylindrical rod 601; a lower circular aperture strip 602; trapezoidal convex strips 603; a translation seat post 7; a protruding shaft 701; a lower circular orifice plate 702; exterior wall panels 703; an upper circular orifice plate 704.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The first embodiment is as follows:

the present invention relates to the field of assembly type buildings, and more particularly to an assembly type building unit, which is described below with reference to fig. 1 to 13, and includes a bottom bar 1, a sliding groove 101, a moving bar 2, a protruding column 201, a middle screw 202, a stop lever 205, and an upper bar 206, and the position of a wall can be adjusted according to the use requirement.

Be provided with two around the sill bar 1, all be provided with spout 101 on the opposite face of two sill bars 1, both ends difference sliding connection is on two spout 101 around removing strip 2, remove two projections 201 of upside fixedly connected with of strip 2, upper strata strip 206 is inserted on two projections 201, upper strata strip 206 is located at two sill bar 1 upsides, the equal fixedly connected with pin 205 in both ends around upper strata strip 206, two pin 205 laminate with the outside of two sill bars 1 respectively mutually, the middle part of upper strata strip 206 is pegged graft and is had well screw 202, the lower part of well screw 202 passes through threaded connection at the middle part of removing strip 2. The two bottom rods 1 are placed on the ground, the moving strip 2 can slide left and right between the two bottom rods 1, so that the left and right positions of the bottom rods 1 are adjusted, the upper sides of the bottom rods 1 are used for arranging a wall, and the position of the wall is adjusted according to use requirements; the upper layer strip 206 is inserted into the two convex columns 201 on the moving strip 2 for positioning, and when the upper layer strip 206 is pressed down by rotating the middle screw 202, the upper layer strip 206 can be pressed on the two bottom rods 1, and then the moving strip 2 and the upper layer strip 206 are fixed between the two bottom rods 1.

The second embodiment is as follows:

this embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes L-shaped rod 204, slider 3, fastening screw II301, limit swivel base 302, vertical shaft 303 and triangle slot 304, equal fixedly connected with L-shaped rod 204 in both ends around upper strip 206, equal sliding connection has slider 3 on two L-shaped rods 204, all there is fastening screw II301 through threaded connection on two sliders 3, two fastening screw II301 push up respectively on two L-shaped rods 204, equal fixedly connected with vertical shaft 303 in the upside of two sliders 3, rotate respectively on two limit swivel bases 302 and connect on two vertical shafts 303, all be provided with triangle slot 304 on the opposite face of two limit swivel bases 302. The two sliding blocks 3 can respectively slide back and forth on the two L-shaped rods 204, the sliding blocks 3 can be fixed on the L-shaped rods 204 by rotating the fastening screws II301, the front and back positions of the sliding blocks 3 determine the front and back positions of the side rotary bases 302, and the two side rotary bases 302 are used for being plugged into a wall to complete the setting of the wall in the assembly type building. The opposing side transpositions 302 may be arranged in pairs, and thus walls. The front and back positions of the two side rotary bases 302 can be adjusted, and then walls with different lengths can be arranged.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes socket boards 305, half wall boards 4, and insertion posts 405, the lower portions of the two side rotary bases 302 are fixedly connected with the socket boards 305, one sides of the two half wall boards 4 are respectively inserted into the two triangular insertion slots 304, the lower sides of the two half wall boards 4 are fixedly connected with the insertion posts 405, and the two insertion posts 405 are respectively inserted into the two socket boards 305. The two half-panels 4 correspond to the walls provided between the two side swivels 302. Two posts 405 are inserted into the two socket boards 305, respectively, to fix the two half wall boards 4 to the two side rotary bases 302, respectively. The two side rotary bases 302 can rotate on the two vertical shafts 303, respectively, and then the two half wall plates 4 can be adjusted to different position angles.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 13, the fabricated building unit further includes a fixing sleeve 406, fastening screws III407, T-shaped rods 408 and internal thread cylinders 409, the fixing sleeve 406 is fixedly connected to the right sides of the two half wall panels 4, the two T-shaped rods 408 are slidably connected to the two fixing sleeves 406 respectively, the fastening screws III407 are connected to the two fixing sleeves 406 through threads, the two fastening screws III407 are respectively abutted against the two T-shaped rods 408, and a plurality of internal thread cylinders 409 are disposed on the outer sides of the two T-shaped rods 408. After the two half wall boards 4 are adjusted to different position angles, a gap exists between the two half wall boards 4, the two T-shaped rods 408 are slid, so that the inner ends of the two T-shaped rods 408 are contacted, and then the two fastening screws III407 are screwed to fix the two T-shaped rods 408. At this time, the two T-shaped rods 408 can be attached with plates, the plates are fixed by inserting the plates into the internal thread cylinder 409 through screws, and then gaps between the two half wall plates 4 are shielded to form a wall with a certain angle.

The fifth concrete implementation mode:

referring to fig. 1-13, the present embodiment is described, the prefabricated building unit further includes spring casing columns 402, upper sliding seats 403, middle connecting seats 5, two telescopic bars 501, sliding hole plates 502, short shafts 503 and gears 504, upper sliding seats 403 are fixedly connected to inner ends of upper sides of the two half wall plates 4, spring casing columns 402 are fixedly connected to outer sides of the two upper sliding seats 403, compression springs are sleeved on the two spring casing columns 402, two telescopic bars 501 are arranged in front and at back, the two telescopic bars 501 are respectively slidably connected to the two upper sliding seats 403, sliding hole plates 502 are fixedly connected to outer ends of the two telescopic bars 501, the two sliding hole plates 502 are respectively slidably connected to the two spring casing columns 402, the two compression springs are respectively located between the corresponding spring casing columns 402 and the sliding hole plates 502, the short shafts 503 are fixedly connected to inner ends of the two telescopic bars 501, the two short shafts 503 are respectively rotatably connected to front and back ends of the middle connecting seats 5, the upper ends of the two short shafts 503 are fixedly connected with gears 504, and the two gears 504 are in meshing transmission. Two telescopic strips 501 can slide on two upper slide 403 back and forth respectively, and two compression springs give two slide hole boards 502 and two forces that telescopic strip 501 outwards removed respectively, make two half wallboard 4 constitute a planar wall at ordinary times, when pushing one of them half wallboard 4 left or right, because mesh between two gears 504, and then two telescopic strip 501 can rotate the same angle, and then make two half wallboard 4 can the same angle of synchronous rotation. It is convenient to adjust the two half-wall panels 4 to different position angles.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes fastening screws I203, bottom grooves 404, a rectangular frame 6, cylindrical rods 601 and trapezoidal convex strips 603, trapezoidal convex strips 603 are provided at both ends of the front and back of the lower side of the rectangular frame 6, the two trapezoidal convex strips 603 are slidably connected to the upper side of the upper layer 206 in the left and right directions, the upper layer 206 is connected to the two fastening screws I203 through threads, the two fastening screws I203 are respectively supported at both sides of the front and back of the rectangular frame 6, the bottom grooves 404 are provided at both sides of the two half wall boards 4, the cylindrical rods 601 are fixedly connected to both ends of the front and back of the rectangular frame 6, and the two cylindrical rods 601 are respectively slidably connected to the two bottom grooves 404. Rectangular frame 6 can be on upper strata strip 206 the horizontal slip, and two fastening screw I203 are used for fixed rectangular frame 6, and rectangular frame 6 horizontal slip drives two cylindric poles 601 horizontal slip, and then two cylindric poles 601 drive two half wallboard 4 synchronous rotation the same angle.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes a translation seat rod 7, a protruding shaft 701, a lower circular hole plate 702 and an external wall plate 703, the front end and the rear end of the translation seat rod 7 are respectively slidably connected to the two sliding grooves 101, the protruding shaft 701 is fixedly connected to the middle of the translation seat rod 7, the middle of the lower circular hole plate 702 is rotatably connected to the protruding shaft 701, and the external wall plate 703 is fixedly connected to the upper side of the lower circular hole plate 702. The external wall panel 703 is equivalent to the external wall of prefabricated building, and lower round hole board 702 can rotate on protruding axle 701, adjusts the angle of external wall panel 703, and translation seatpost 7 can slide about adjusting external wall panel 703.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes a lower circular hole strip 602, the lower circular hole strips 602 are fixedly connected to four corners of the rectangular frame 6, a plurality of circular threaded holes are respectively formed in the four lower circular hole strips 602 and the two lower circular hole plates 702, and the four lower circular hole strips 602 and the lower circular hole plates 702 are at the same height. Two lower round hole strips 602 and a lower round hole plate 702 on the same side are used for placing the floor, and the paved floor is fixed by inserting screws into round threaded holes.

The specific implementation method nine:

the present embodiment is described below with reference to fig. 1 to 13, the prefabricated building unit further includes an upper circular hole strip 401 and an upper circular hole plate 704, the upper ends of the two external wall panels 703 are provided with the upper circular hole plate 704, the left and right sides of the upper portions of the two half wall panels 4 are provided with the upper circular hole strip 401, the four upper circular hole strips 401 and the two upper circular hole plates 704 are provided with a plurality of circular threaded holes, and the four upper circular hole strips 401 and the two upper circular hole plates 704 are at the same height. The two upper round hole strips 401 and the upper round hole plate 704 on the same side are used for placing a shed roof, and the paved shed roof is fixed by inserting screws into round threaded holes.

The construction method of the fabricated building unit comprises the following steps:

s1: the wall position is set up: the moving strip 2 can slide between the two bottom rods 1 left and right, the left and right positions of the bottom rods 1 are adjusted, and the setting position of a wall is adjusted;

s2: the setting is the interior wall of certain angle: after the two half wallboards 4 are adjusted to different position angles, the two T-shaped rods 408 are slid to enable the inner ends of the two T-shaped rods 408 to be contacted, the two T-shaped rods 408 can be both attached with a plate, the plate is fixed by inserting the plate into the internal thread cylinder 409 through screws, and then a gap between the two half wallboards 4 is shielded to form a wall with a certain angle;

s3: setting an outer wall: the external wall panel 703 is equivalent to the external wall of the fabricated building, the lower round hole plate 702 can rotate on the convex shaft 701, the angle of the external wall panel 703 is adjusted, the translation seat post 7 can slide left and right, and the left and right positions of the external wall panel 703 are adjusted;

s4: setting a floor: the two lower circular hole strips 602 and the lower circular hole plate 702 on the same side are used for placing a floor, and the paved floor is fixed by inserting screws into the circular threaded holes;

s5: setting a shed roof: the two upper round hole strips 401 and the upper round hole plate 704 on the same side are used for placing a shed roof, and the paved shed roof is fixed by inserting screws into round threaded holes.

The working principle of the invention is as follows: the two bottom rods 1 are placed on the ground, the moving strip 2 can slide left and right between the two bottom rods 1, so that the left and right positions of the bottom rods 1 are adjusted, the upper sides of the bottom rods 1 are used for arranging a wall, and the position of the wall is adjusted according to use requirements; the upper layer strip 206 is inserted into the two convex columns 201 on the moving strip 2 for positioning, and when the upper layer strip 206 is pressed down by rotating the middle screw 202, the upper layer strip 206 can be pressed on the two bottom rods 1, and then the moving strip 2 and the upper layer strip 206 are fixed between the two bottom rods 1. The two sliding blocks 3 can respectively slide back and forth on the two L-shaped rods 204, the sliding blocks 3 can be fixed on the L-shaped rods 204 by rotating the fastening screws II301, the front and back positions of the sliding blocks 3 determine the front and back positions of the side rotary bases 302, and the two side rotary bases 302 are used for being plugged into a wall to complete the setting of the wall in the assembly type building. The opposing side transpositions 302 may be arranged in pairs, and thus walls. The front and back positions of the two side rotary bases 302 can be adjusted, and then walls with different lengths can be arranged. The two half-panels 4 correspond to the walls provided between the two side swivels 302. Two posts 405 are inserted into the two socket boards 305, respectively, to fix the two half wall boards 4 to the two side rotary bases 302, respectively. The two side rotary bases 302 can rotate on the two vertical shafts 303, respectively, and then the two half wall plates 4 can be adjusted to different position angles. After the two half wall boards 4 are adjusted to different position angles, a gap exists between the two half wall boards 4, the two T-shaped rods 408 are slid, so that the inner ends of the two T-shaped rods 408 are contacted, and then the two fastening screws III407 are screwed to fix the two T-shaped rods 408. At this time, the two T-shaped rods 408 can be attached with plates, the plates are fixed by inserting the plates into the internal thread cylinder 409 through screws, and then gaps between the two half wall plates 4 are shielded to form a wall with a certain angle. Two telescopic strips 501 can slide on two upper slide 403 back and forth respectively, and two compression springs give two slide hole boards 502 and two forces that telescopic strip 501 outwards removed respectively, make two half wallboard 4 constitute a planar wall at ordinary times, when pushing one of them half wallboard 4 left or right, because mesh between two gears 504, and then two telescopic strip 501 can rotate the same angle, and then make two half wallboard 4 can the same angle of synchronous rotation. It is convenient to adjust the two half-wall panels 4 to different position angles. Rectangular frame 6 can be on upper strata strip 206 the horizontal slip, and two fastening screw I203 are used for fixed rectangular frame 6, and rectangular frame 6 horizontal slip drives two cylindric poles 601 horizontal slip, and then two cylindric poles 601 drive two half wallboard 4 synchronous rotation the same angle. The external wall panel 703 is equivalent to the external wall of prefabricated building, and lower round hole board 702 can rotate on protruding axle 701, adjusts the angle of external wall panel 703, and translation seatpost 7 can slide about adjusting external wall panel 703. Two lower round hole strips 602 and a lower round hole plate 702 on the same side are used for placing the floor, and the paved floor is fixed by inserting screws into round threaded holes. The two upper round hole strips 401 and the upper round hole plate 704 on the same side are used for placing a shed roof, and the paved shed roof is fixed by inserting screws into round threaded holes.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. Assembled building unit, including sill bar (1), spout (101), removal strip (2), projection (201), well screw (202), pin (205) and upper strata strip (206), its characterized in that: the two bottom rods (1) are arranged in front and at the back, sliding grooves (101) are formed in opposite surfaces of the two bottom rods (1), the front end and the back end of a moving strip (2) are respectively connected to the two sliding grooves (101) in a sliding mode, two convex columns (201) are fixedly connected to the upper side of the moving strip (2), an upper layer strip (206) is inserted into the two convex columns (201), the upper layer strip (206) is located on the upper sides of the two bottom rods (1), stop rods (205) are fixedly connected to the front end and the back end of the upper layer strip (206), the two stop rods (205) are respectively attached to the outer sides of the two bottom rods (1), a middle screw (202) is inserted into the middle of the upper layer strip (206), and the lower portion of the middle screw (202) is connected to the middle of the moving strip (2) through threads; the assembly type building unit further comprises L-shaped rods (204), sliding blocks (3), fastening screws II (301), side rotary bases (302), vertical shafts (303) and triangular slots (304), the L-shaped rods (204) are fixedly connected to the front end and the rear end of the upper layer bar (206), the sliding blocks (3) are slidably connected to the two L-shaped rods (204), the fastening screws II (301) are connected to the two sliding blocks (3) through threads, the two fastening screws II (301) are respectively propped against the two L-shaped rods (204), the vertical shafts (303) are fixedly connected to the upper sides of the two sliding blocks (3), the two side rotary bases (302) are respectively rotatably connected to the two vertical shafts (303), and the triangular slots (304) are formed in opposite surfaces of the two side rotary bases (302);

the assembly type building unit further comprises socket boards (305), half wall boards (4) and inserting columns (405), the lower parts of the two side rotary bases (302) are fixedly connected with the socket boards (305), one sides of the two half wall boards (4) are respectively inserted into the two triangular inserting grooves (304), the lower sides of the two half wall boards (4) are respectively fixedly connected with the inserting columns (405), and the two inserting columns (405) are respectively inserted into the two socket boards (305);

the assembly type building unit further comprises a fixing sleeve (406), fastening screws III (407), T-shaped rods (408) and internal thread cylinders (409), the fixing sleeves (406) are fixedly connected to the right sides of the two half wall plates (4), the two T-shaped rods (408) are respectively connected to the two fixing sleeves (406) in a sliding mode, the fastening screws III (407) are respectively connected to the two fixing sleeves (406) through threads, the two fastening screws III (407) respectively abut against the two T-shaped rods (408), and a plurality of internal thread cylinders (409) are arranged on the outer sides of the two T-shaped rods (408);

the assembly type building unit further comprises spring sleeve columns (402), upper sliding seats (403), middle connecting seats (5), telescopic strips (501), sliding hole plates (502), short shafts (503) and gears (504), the inner ends of the upper sides of the two half wall plates (4) are fixedly connected with the upper sliding seats (403), the outer sides of the two upper sliding seats (403) are fixedly connected with the spring sleeve columns (402), compression springs are sleeved on the two spring sleeve columns (402), the front and the rear of each telescopic strip (501) are provided with two telescopic strips (501), the two telescopic strips (501) are respectively and slidably connected onto the two upper sliding seats (403), the outer ends of the two telescopic strips (501) are respectively and fixedly connected with sliding hole plates (502), the two sliding hole plates (502) are respectively and slidably connected onto the two spring sleeve columns (402), the two compression springs are respectively positioned between the corresponding spring sleeve columns (402) and the sliding hole plates (502), the inner ends of the two telescopic strips (501) are respectively and fixedly connected with the short shafts (503), the two short shafts (503) are respectively and rotatably connected to the front end and the rear end of the middle connecting seat (5), the upper ends of the two short shafts (503) are respectively and fixedly connected with gears (504), and the two gears (504) are in meshing transmission;

the assembly type building unit further comprises fastening screws I (203), bottom grooves (404), a rectangular frame (6), cylindrical rods (601) and trapezoidal convex strips (603), wherein the trapezoidal convex strips (603) are arranged at the front end and the rear end of the lower side of the rectangular frame (6), the two trapezoidal convex strips (603) are connected to the upper side of the upper layer strip (206) in a sliding mode in the left-right direction, the upper layer strip (206) is connected with the two fastening screws I (203) through threads, the two fastening screws I (203) are respectively abutted to the front side and the rear side of the rectangular frame (6), the bottom grooves (404) are arranged at the lower sides of the two half wall plates (4), the cylindrical rods (601) are fixedly connected to the front end and the rear end of the rectangular frame (6), and the two cylindrical rods (601) are respectively connected to the two bottom grooves (404) in a sliding mode;

the prefabricated building unit further comprises a translation seat rod (7), a protruding shaft (701), a lower circular hole plate (702) and an outer wall plate (703), wherein the front end and the rear end of the translation seat rod (7) are respectively connected to the two sliding grooves (101) in a sliding mode, the middle of the translation seat rod (7) is fixedly connected with the protruding shaft (701), the middle of the lower circular hole plate (702) is rotatably connected to the protruding shaft (701), and the upper side of the lower circular hole plate (702) is fixedly connected with the outer wall plate (703).

2. A fabricated building unit according to claim 1, wherein: the assembled building unit further comprises lower round hole strips (602), four corners of the rectangular frame (6) are fixedly connected with the lower round hole strips (602), a plurality of round threaded holes are formed in the four lower round hole strips (602) and the two lower round hole plates (702), and the four lower round hole strips (602) and the lower round hole plates (702) are located at the same height.

3. A fabricated building unit according to claim 2, wherein: the assembled building unit further comprises an upper round hole strip (401) and an upper round hole plate (704), the upper ends of the two outer wall plates (703) are provided with the upper round hole plate (704), the left side and the right side of the upper portions of the two half wall plates (4) are provided with the upper round hole strip (401), a plurality of round threaded holes are formed in the four upper round hole strips (401) and the two upper round hole plates (704), and the four upper round hole strips (401) and the two upper round hole plates (704) are located at the same height.

4. A fabricated building unit according to claim 3, wherein: the method for construction using the fabricated building unit includes the steps of:

s1: the wall position is set up: the moving strip (2) can slide left and right between the two bottom rods (1), the left and right positions of the bottom rods (1) are adjusted, and the setting position of a wall is adjusted;

s2: the setting is the interior wall of certain angle: after the two half wallboards (4) are adjusted to different position angles, the two T-shaped rods (408) are slid to enable the inner ends of the two T-shaped rods (408) to be contacted, plates can be attached to the two T-shaped rods (408), the plates are fixed by inserting the plates into the internal thread cylinders (409) through screws, and then gaps between the two half wallboards (4) are shielded to form a wall with a certain angle;

s3: setting an outer wall: the external wall panel (703) is equivalent to the external wall of an assembly type building, the lower round hole plate (702) can rotate on the convex shaft (701), the angle of the external wall panel (703) is adjusted, the translation seat rod (7) can slide left and right, and the left and right positions of the external wall panel (703) are adjusted;

s4: setting a floor: the two lower round hole strips (602) and the lower round hole plate (702) on the same side are used for placing the floor, and the paved floor is fixed by inserting screws into the round threaded holes;

s5: setting a shed roof: two upper round hole strips (401) and an upper round hole plate (704) on the same side are used for placing a shed roof, and the paved shed roof is fixed by inserting screws into round threaded holes.

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