1. The high-strength beam laying structure for archaizing building construction is characterized by comprising a beam vertical column (1), wherein a beam seat (2) is arranged at the top end of the beam vertical column (1), a sliding wheel (3) is arranged at the bottom end of the beam vertical column (1), an installation cavity (4) is arranged in the beam seat (2), an installation rotating shaft (5) is rotationally arranged in the installation cavity (4), a first screw area (6) and a second screw area (7) are arranged on the installation rotating shaft (5), the first screw area (6) and the second screw area (7) are in threaded connection with a wire block (8), a through column (9) is arranged on the wire block (8), the through column (9) penetrates through a limiting through groove (10) in the beam seat (2) and is connected with a dynamic and stable column (11), one end of the installation rotating shaft (5) is connected with a rotating hand, and the other end of the installation rotating shaft; the lower part of the crossbeam seat (2) is provided with a linkage assembly (12); the linkage assembly (12) is used for connecting the two wire blocks (8); a threaded moving rod (13) is connected to the dynamic stability column (11) in a threaded mode, one end of the threaded moving rod (13) is connected with an internal thread of an outer sleeve (14), a handle is arranged at the other end of the threaded moving rod, the outer sleeve (14) is connected with a mounting seat (15), a rectangular opening (16) is formed in the mounting seat (15), a protection assembly (17) is arranged in the rectangular opening (16), and the protection assembly (17) is connected with a protection clamping plate (18); the transverse beam seat (2) is further provided with a placing seat (19), a placing groove (20) is formed in the placing seat (19), and fasteners (21) are arranged on the two sides of the placing groove (20) on the placing seat (19).

2. The archaize building construction high-strength beam laying structure according to claim 1, wherein the limit through groove (10) is arranged in the range of the first screw area (6) and the second screw area (7), and the screw threads of the first screw area (6) and the second screw area (7) are opposite.

3. The archaize building construction high-strength beam laying structure according to claim 1, characterized in that the linkage assembly (12) comprises a linkage box (121), the linkage box (121) is arranged at the lower part of the beam seat (2), a linkage slider (122) is arranged in the linkage box (121) in a sliding manner, the two linkage sliders (122) are respectively connected with a linkage pull rope (123), the linkage pull rope (123) passes through the beam seat (2) through a guide wheel (124) to be connected with a wire block (8), a linkage sliding groove (125) is arranged on the inner side wall of the linkage box (121), a linkage vertical column (126) is arranged in the linkage sliding groove (125) in a sliding manner, the linkage vertical column (126) is connected with a linkage cross rod (127), and the linkage cross rod (127) is connected with the linkage slider (122).

4. Archaizing building construction high-strength beam-laying structure according to claim 3, characterized in that two of said interlocking upstands (126) are connected by an interlocking spring (128).

5. The archaize building construction high-strength beam laying structure according to claim 1, characterized in that the protection component (17) comprises a protection box (171), a protection cross column (172) is fixedly arranged in the protection box (171), two protection cross columns (172) are sleeved with a protection cross sleeve (173), the protection cross sleeve (173) is connected with a protection through rod (174), the protection through rod (174) penetrates through the protection box (171) to be connected with a protection clamping block (175), the protection cross sleeve (173) is connected with a movable contact (176), the movable contact (176) is electrically connected with a static contact (177) on the protection through rod (174), and one end of the protection cross column (172) is provided with a stop block (179).

6. The archaizing building construction high-strength beam laying structure according to claim 5, wherein the movable contact piece (176) and the fixed contact piece (177) are in contact with an alarm device for an alarm (178), and the alarm (178) is arranged on the penetration bar (174).

7. The archaized building construction high-strength beam laying structure according to claim 5, wherein the protection cross sleeve (173) is connected with the protection box (171) through a protection spring (1710).

8. The archaize building construction high-strength beam laying structure according to claim 1, characterized in that the fastening piece (21) comprises a fastening vertical column (211), the fastening vertical column (211) and the placing seat (19) are fixedly installed, a fastening screw (212) is connected to the fastening vertical column (211) in a threaded manner, one end of the fastening screw (212) is provided with a fastening clamp block (213), the two fastening clamp blocks (213) jointly fix the beam, and a fastening hand is installed at the other end of the fastening screw (212).

9. The archaize building construction high-strength beam laying structure according to claim 1, characterized in that the outer sleeve (14) is provided with a limiting sleeve (22), the limiting sleeve (22) is slidably sleeved on a limiting and fixing rod (23), the limiting and fixing rod (23) is arranged on the dynamic stabilization column (11), and one end of the limiting and fixing rod (23) far away from the dynamic stabilization column (11) is provided with an anti-drop block (24).

Background

The archaized building is a building which is specially used for simulating and replacing ancient buildings, traditional religious temples, traditional landscapes, historical buildings and ancient village groups and restoring historical landscape general; the antique building form has broad sense and narrow sense, and the broad sense of the antique building form refers to the reconstruction of the antique building form according with the traditional cultural characteristics by using modern building materials or traditional building materials; the narrow form of the archaized building refers to the restoration of the ancient building in a specific range by using traditional building materials, strictly speaking, belongs to the category of cultural relic restoration, and when a cross beam for constructing the archaized building needs to be laid, a laying structure is usually adopted for laying treatment.

The laying structure needs to support the cross beam more, and the existing laying structure can play a stable supporting effect on the cross beam less, so that the laying accuracy and safety performance are influenced.

Disclosure of Invention

The invention aims to provide a high-strength beam laying structure constructed by an antique building, which aims to solve the problems in the background technology.

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

the high-strength beam laying structure for archaized building construction comprises a beam vertical column, wherein a beam seat is arranged at the top end of the beam vertical column, a sliding wheel is arranged at the bottom end of the beam vertical column, an installation cavity is arranged in the beam seat, an installation rotating shaft is arranged in the installation cavity in a rotating manner, a first screw area and a second screw area are arranged on the installation rotating shaft, the first screw area and the second screw area are in threaded connection with a screw block, a through column is arranged on the screw block, the through column penetrates through a limiting through groove on the beam seat and is connected with a dynamic and stable column, one end of the installation rotating shaft is connected with a rotating hand, and the other end of the installation rotating shaft is connected with the inner side wall of the installation cavity in a rotating manner; the lower part of the beam seat is provided with a linkage assembly; the linkage assembly is used for connecting the two wire blocks; the movable and stable column is connected with a threaded moving rod in a threaded manner, one end of the threaded moving rod is connected with the internal thread of the external thread sleeve, the other end of the threaded moving rod is provided with a handle, the external thread sleeve is connected with the mounting seat, a rectangular opening is formed in the mounting seat, a protection assembly is arranged in the rectangular opening, and the protection assembly is connected with the protection clamping plate; still be equipped with on the crossbeam seat and place the seat, be equipped with the standing groove on placing the seat, the standing groove both sides are equipped with the fastener on placing the seat.

Preferably, the limiting through groove is arranged in the range of the first screw area and the second screw area, and the threads of the first screw area and the second screw area are opposite.

Preferably, the linkage assembly comprises a linkage box, the linkage box is arranged on the lower portion of the crossbeam seat, linkage sliders are arranged in the linkage box in a sliding mode, the two linkage sliders are connected with the linkage pull rope respectively, the linkage pull rope penetrates through the crossbeam seat through guide wheels to be connected with the wire block, a linkage sliding groove is formed in the inner side wall of the linkage box, a linkage vertical column is arranged in the linkage sliding groove in a sliding mode, the linkage vertical column is connected with a linkage transverse rod, and the linkage transverse rod is connected with the linkage sliders.

Preferably, the two linked upstands are connected by a linked spring.

Preferably, the protection assembly comprises a protection box, protection transverse columns are fixedly arranged in the protection box, protection transverse sleeves are sleeved on the two protection transverse columns and connected with a protection penetrating rod, the protection penetrating rod penetrates through the protection box and is connected with a protection clamping block, the protection transverse sleeves are connected with a movable contact piece, the movable contact piece is electrically connected with a static contact piece on the protection penetrating rod, and a blocking block is arranged at one end of each protection transverse column.

Preferably, the movable contact piece and the static contact piece are in contact with each other and used for alarm setting of an alarm, and the alarm is arranged on the protective penetration rod.

Preferably, the protective transverse sleeve is connected with the protective box through a protective spring.

Preferably, the fastener includes the fastening upstand, and the fastening upstand sets up with placing seat fixed mounting, threaded connection has fastening screw on the fastening upstand, and fastening screw one end is equipped with the fastening clamp splice, and two fastening clamp splices are fixed the crossbeam jointly, and the fastening hand is installed to the fastening screw other end.

Preferably, the outer sleeve is provided with a limiting sleeve, the limiting sleeve is sleeved on a limiting fixed rod in a sliding mode, the limiting fixed rod is arranged on the dynamic stability column, and one end, far away from the dynamic stability column, of the limiting fixed rod is provided with an anti-falling block.

Compared with the prior art, the invention has the beneficial effects that:

(1) one side of the cross beam is placed in the placing groove, and then the fastening clamping block is driven to move through the rotation of the fastening screw rod, so that the clamping and fixing of the cross beam are realized, the two sides of the cross beam are fixed, and the supporting and fixing effects of the cross beam are improved; the rotating hand rotates to drive the mounting rotating shaft to rotate, the first screw area and the second screw area are in threaded connection with the screw block, so that the movement of the screw block is realized, and the through column penetrates through the limiting through groove on the crossbeam seat to be connected with the dynamic and stable column, so that the movement of the dynamic and stable column is realized; thereby realizing that the protective splint is close to the cross beam and is primarily fixed; the screw thread moves the pole, and screw thread moves pole one end and the female connection of outer thread bush, and then realizes that outer thread bush drives the mount pad and removes, drives the further fixed to the crossbeam of protection splint through the protection subassembly to improve its fixed stability, thereby play stable supporting effect.

(2) Through the protection clamp splice drive protection wear the pole to remove, the protection violently overlaps and drives the protection spreader bar and remove, realizes then that the movable contact spring is connected with the static contact electricity on the protection wear the pole to realize the warning of alarm, remind the protection clamp splice to remove the maximize position, remind crossbeam fixed mounting to accomplish. Meanwhile, the movable contact piece and the static contact piece are further protected by the compression of the protection spring.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic structural view of a linkage assembly according to the present invention;

FIG. 3 is a schematic structural view of a protective assembly according to the present invention;

FIG. 4 is a schematic view of a cross beam fastening plane structure according to the present invention;

FIG. 5 is a schematic structural view of a fastener of the present invention;

fig. 6 is a schematic structural view of the position limiting sleeve and the position limiting rod of the present invention.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the high-strength beam laying structure for archaized building construction comprises a beam vertical column 1, a beam seat 2 is arranged at the top end of the beam vertical column 1, a sliding wheel 3 is arranged at the bottom end of the beam vertical column 1, an installation cavity 4 is arranged in the beam seat 2, an installation rotating shaft 5 is rotatably arranged in the installation cavity 4, a first screw area 6 and a second screw area 7 are arranged on the installation rotating shaft 5, the first screw area 6 and the second screw area 7 are in threaded connection with a wire block 8, a through column 9 is arranged on the wire block 8, the through column 9 penetrates through a limiting through groove 10 on the beam seat 2 to be connected with a dynamic and stable column 11, one end of the installation rotating shaft 5 is connected with a rotating hand, and the other end of the installation rotating shaft is rotatably connected with the inner side wall of the installation cavity 4; the lower part of the crossbeam seat 2 is provided with a linkage assembly 12; the linkage assembly 12 connects the two wire blocks 8; a threaded moving rod 13 is connected to the dynamic stabilization column 11 in a threaded manner, one end of the threaded moving rod 13 is connected with the internal thread of an external thread sleeve 14, a handle is arranged at the other end of the threaded moving rod, the external thread sleeve 14 is connected with an installation seat 15, a rectangular opening 16 is formed in the installation seat 15, a protection assembly 17 is arranged in the rectangular opening 16, and the protection assembly 17 is connected with a protection clamping plate 18; the crossbeam seat 2 is further provided with a placing seat 19, the placing seat 19 is provided with a placing groove 20, and the two sides of the placing groove 20 are provided with fasteners 21 on the placing seat 19.

The rotating hand rotates to drive the mounting rotating shaft 5 to rotate, the first screw area 6 and the second screw area 7 are in threaded connection with the screw block 8, so that the movement of the screw block 8 is realized, the through column 9 penetrates through the limiting through groove 10 on the crossbeam seat 2 to be connected with the dynamic and stable column 11, and further the movement of the dynamic and stable column 11 is realized; thereby realizing that the protective splint 18 is close to the cross beam and carries out primary fixation on the cross beam;

the threaded moving rod 13 is rotated, one end of the threaded moving rod 13 is connected with the internal thread of the external thread sleeve 14, so that the external thread sleeve 14 drives the mounting seat 15 to move, the protection component 17 drives the protection clamping plate 18 to further fix the cross beam, and the fixing stability of the cross beam is improved.

The limiting through groove 10 of the present embodiment is disposed in the range of the first screw region 6 and the second screw region 7, and the screw threads of the first screw region 6 and the second screw region 7 are opposite.

The moving stability of the wire block 8 is improved, and meanwhile, the wire block 8 is prevented from being separated from the first spiral area 6 and the second spiral area 7 through the limit through groove 10 arranged in the ranges of the first spiral area 6 and the second spiral area 7.

The linkage assembly 12 of this embodiment includes a linkage box 121, the linkage box 121 is disposed at the lower portion of the crossbeam seat 2, a linkage slider 122 is slidably disposed in the linkage box 121, the two linkage sliders 122 are respectively connected with a linkage pull rope 123, the linkage pull rope 123 passes through the crossbeam seat 2 through a guide wheel 124 and is connected with the wire block 8, a linkage sliding groove 125 is disposed on the inner side wall of the linkage box 121, a linkage vertical column 126 is slidably disposed in the linkage sliding groove 125, the linkage vertical column 126 is connected with a linkage cross rod 127, and the linkage cross rod 127 is connected with the linkage slider 122.

The two linked upstands 126 of this embodiment are connected by a linked spring 128.

The movement of the linkage pull rope 123 is driven by the wire block 8, so that the movement of the linkage sliding block 122 is realized, meanwhile, the linkage vertical column 126 slides in the linkage sliding groove 125, the linkage spring 128 is driven to stretch, and the stretching and resetting of the linkage spring 128 are realized, so that the movement stability of the wire block 8 is improved.

The protection assembly 17 of this embodiment includes a protection box 171, a protection cross column 172 is fixedly arranged in the protection box 171, a protection cross sleeve 173 is sleeved on two protection cross columns 172, the protection cross sleeve 173 is connected with a protection penetrating rod 174, the protection penetrating rod 174 penetrates through the protection box 171 and is connected with a protection clamping block 175, the protection cross sleeve 173 is connected with a movable contact 176, the movable contact 176 is electrically connected with a static contact 177 on the protection penetrating rod 174, and a blocking block 179 is arranged at one end of the protection cross column 172.

The moving contact 176 and the stationary contact 177 of the present embodiment contact an alarm setting for an alarm 178, the alarm 178 being provided on the penetration bar 174.

The protective cross sleeve 173 of the present embodiment is connected to the protective case 171 by a protective spring 1710.

Drive protection through protection clamp splice 175 and wear the pole 174 and remove, protection horizontal cover 173 drives protection horizontal post 172 and removes, realizes then that movable contact 176 is connected with the static contact 177 electricity on the protection pole 174 to realize the warning of alarm 178, remind protection clamp splice 175 to remove to the maximize position, remind crossbeam fixed mounting to accomplish. Meanwhile, the movable contact piece 176 and the fixed contact piece 177 are further protected by the compression of the protection spring 1710.

The fastener 21 of this embodiment is including fastening upstand 211, fastening upstand 211 and the setting of placing seat 19 fixed mounting, threaded connection has fastening screw 212 on the fastening upstand 211, and fastening screw 212 one end is equipped with fastening clamp splice 213, and two fastening clamp splices 213 are fixed the crossbeam jointly, and the fastening hand is installed to the fastening screw 212 other end.

Crossbeam one side is placed in standing groove 20, then through fastening screw 212's rotation, drives fastening clamp splice 213 and removes, realizes the tight fixed of clamp of crossbeam then to fix the crossbeam both sides, improved the fixed effect of support of crossbeam.

The outer thread sleeve 14 of this embodiment is provided with a limiting sleeve 22, the limiting sleeve 22 is slidably sleeved on a limiting fixed rod 23, the limiting fixed rod 23 is arranged on the dynamic stabilization column 11, and one end of the limiting fixed rod 23, which is far away from the dynamic stabilization column 11, is provided with an anti-drop block 24.

The spacing effect of the outer thread sleeve 14 is improved and the stabilizing effect is also improved through the matching of the dynamic stabilization column 11, the spacing sleeve 22 and the spacing fixed rod 23.

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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.