A farmyard wall support device

Abstract

The application discloses a kind of farm area wall body supporting equipment.A kind of farm area wall body supporting equipment, including house wall body, wall body supporting equipment is installed on house wall body, house wall body inside includes house, and house wall body outside is provided with house outside terrace;Crack needs to be provided with even first through hole on house wall body, and even first through hole center line intersection point is provided with second through hole, and even track groove is provided with the connection of house wall body and house outside terrace;Wall body supporting equipment is provided with inner wall clamp inside, and torsion disc is provided in the middle of inner wall clamp.Through respectively installing inner wall clamp and outer wall clamp in the wall body of cracking, offset, make sleeve on inner wall clamp after through wall body and connect with outer wall clamp, and under the assistance of outer wall clamp to pull force device, crack, offset wall body is fastened, while cooperating with the effective support formed by two sides of original wall body, to prevent wall body from cracking, offset and subsequent collapse problem.

Description

Technical Field

[0001] This invention relates to the field of building support technology, specifically a wall support device for a livestock farm. Background Technology

[0002] The breeding farm area is the core carrier of large-scale livestock and poultry farming. It is usually planned according to the principles of "zoning management, biosecurity, and environmental control" and covers three major functional areas: production area, auxiliary area, and management area. The production area is mainly composed of chicken houses, with supporting facilities such as feed warehouses, manure cleaning areas, and isolation sheds. The auxiliary area is equipped with disinfection rooms, power distribution rooms, and warehouses. The management area includes office areas, staff dormitories, and monitoring centers.

[0003] However, the existing technology has the following shortcomings: As the core building of the production area, the walls of the chicken coop bear key functions such as load-bearing, heat preservation, dust isolation, and disease prevention barrier. However, in some old farms, due to factors such as long service life, foundation settlement, and extreme weather, the walls generally suffer from aging, cracking, and local displacement. Moreover, the currently used single-sided support equipment is prone to accelerating its displacement speed. Therefore, there is an urgent need for a support device for the walls of the farm to solve this problem. Summary of the Invention

[0004] Other features and advantages of the invention will be set forth in the description which follows, and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of the invention may be realized and obtained by means of the structures particularly pointed out in the description and other accompanying drawings.

[0005] The purpose of this invention is to overcome the above-mentioned shortcomings and provide a wall support device for aquaculture farms. This device involves installing inner and outer wall panels at the cracked and offset wall locations, connecting the inner wall panel sleeve through the wall to the outer wall panel, and using the outer wall panel tensioning device to tighten the wall. This, together with the original walls on both sides, forms effective support to prevent collapse.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a wall support device for a livestock farm, comprising a building wall, on which a wall support device is installed; the inner side of the building wall includes an interior space, and the outer side of the building wall is provided with an exterior floor; an even number of first through holes are required to be formed at cracks in the building wall, and a second through hole is formed at the intersection of the centers of the even number of first through holes; an even number of track grooves are formed at the connection between the building wall and the exterior floor; the wall... The body support device is equipped with an inner wall panel, a torsion plate is located in the center of the inner wall panel, and rear reinforcement components are located on both sides of the torsion plate. An even number of ground rails are located at the bottom of the inner wall panel, and an even number of inner panel sleeves are fixed on the outer wall of the inner wall panel. An outer wall panel is located on the outside of the inner wall panel. Anti-detachment lugs are installed in the inner panel sleeves, and anti-detachment rods are erected between the anti-detachment lugs. External locking caps are installed on the outside of the inner panel sleeves, and a tension-bearing device is installed on the outer wall panel.

[0007] In a further improvement to the present invention, a connecting platform is provided inside the tension-bearing device, and an even number of hinge ears are installed on the upper and lower surfaces of the connecting platform. A top-fixed inner tie rod passes through the center of the connecting platform, and an adjustable support is installed on each of the even number of hinge ears.

[0008] In a further improvement to the present invention, an outer sleeve is provided inside the adjustable support member, and a fixed hinge block is connected to the end of the outer sleeve. Another outer sleeve is connected to a snap-fit ​​hinge block at its end. An inner cavity is formed inside each outer sleeve, and a sleeve-fitting slot is provided on each outer sleeve. A one-way anti-disengagement hook is installed in the sleeve-fitting slot. A swing handle is snapped in front of the one-way anti-disengagement hook. A limit ring is installed at the center of the swing handle. A nested toothed rod is nested inside the outer sleeve.

[0009] In a further improvement to the present invention, the nested toothed rod engages with the limiting retaining ring, the limiting retaining ring is driven by the swing handle, the swing handle partially penetrates the outer sleeve, the fixed hinge block is fixed to the top of the outer surface of the outer wall panel, the end of the nested toothed rod is connected between the hinge ears, the engaging hinge block engages with the ground rail, and the inner wall is attached to the outer surface of the outer wall panel.

[0010] In a further improvement to the present invention, the top-fixed inner tie rod passes sequentially through the connecting platform, the second through hole, and the center of the inner wall clamping plate. The inner wall clamping plate cooperates with the outer wall clamping plate through the inner clamping plate sleeve. The outer wall clamping plate is in a through state where it passes through the inner clamping plate sleeve. The inner clamping plate sleeve is threadedly connected to the anti-detachment rotating lug. The outer surface of the inner clamping plate sleeve is threadedly connected to the external locking cap. The torque plate is used for the threaded connection of the outer surface of the top-fixed inner tie rod.

[0011] In a further improvement to the present invention, an outer fixing sleeve is provided inside the rear reinforcement component. Tension locking lugs are fixed on both sides of the upper section of the outer fixing sleeve. An inner cavity is formed inside the outer fixing sleeve. An even number of compensation blocks are installed in the inner cavity. An even number of buried steel inserts are installed in the inner cavity. A downward pressure bolt platform is provided at the top of one of the buried steel inserts. A bottom through groove is opened at the bottom of the outer fixing sleeve. Inner cavity locking blocks are fixed on both sides of the inner wall of the inner cavity.

[0012] In a further improvement to the present invention, the cavity locking block is used for locking and limiting the compensation block. The compensation block is generally in the shape of a "3". The compensation blocks are used for the passage of the buried steel insert. One of the buried steel inserts passes through the bottom through groove, and the other buried steel insert is fixed to the top of the previous buried steel insert. The lowering bolt is fixed to the top of one of the buried steel inserts. The bolt rod of the lowering bolt passes through the tension lock lug and is tightened by a nut.

[0013] In a further improvement to the present invention, the ground rail includes a track body, one end of which is equipped with an anti-disengagement plate, and a rail top locking block is installed inside the anti-disengagement plate. An external reinforcing block is installed at the other end of the track body, and several insertion locking rods are installed at both the external reinforcing block and the end of the track body.

[0014] In a further improvement to the present invention, the insertion locking rod needs to be submerged in the stratum below the outdoor floor, the external reinforcement block is engaged and fixed to the end of the track body through the insertion locking rod, the top locking block on the track is attached to the inner wall of the inner wall panel, the track body passes through the track groove, and the bottom of the engaging hinge block is movably engaged with the top locking block on the track.

[0015] Compared with the prior art, the present invention has the following beneficial effects;

[0016] 1. This invention installs inner wall panels and outer wall panels on the inside and outside of cracked or displaced walls, respectively. The sleeve on the inner wall panel passes through the wall and connects with the outer wall panel. With the assistance of the tension-bearing device on the outer wall panel, the cracked or displaced wall is secured. At the same time, it works together with the original walls on both sides to form effective support, thereby preventing the wall from collapsing due to cracking or displacement.

[0017] 2. This invention utilizes a post-reinforcement component after the interior wall panel is installed. First, a buried steel insert is nested into the inner cavity of the sleeve and the end space is compensated with a compensation block. Then, another buried steel insert is inserted and finally fixed at the top of the rear-inserted steel insert, so that the lower section of the pre-inserted buried steel insert is submerged in the ground below the building. At the same time, the bolt rod and the nut of the tension lock lug are tightened to make the lower bolt platform continuously bear the force, indirectly enhancing the stress strength of the interior wall panel. Attached Figure Description

[0018] Figure 1 This is a structural schematic diagram of a wall support device for a livestock farm according to the present invention;

[0019] Figure 2 This is a schematic diagram of the inner wall panel structure in the inner wall panel of a wall support device for a breeding farm area according to the present invention.

[0020] Figure 3 This is a three-dimensional structural diagram of the external wall panel in a wall support device for a livestock farm area according to the present invention;

[0021] Figure 4 This is a side view of the tension-bearing device in a wall support system for a livestock farm, according to the present invention.

[0022] Figure 5 This is a schematic diagram of the internal structure of the post-reinforcement component in a wall support device for a livestock farm area according to the present invention;

[0023] Figure 6 This is a top view schematic diagram of the inner cavity of a wall support device for a breeding farm area according to the present invention;

[0024] Figure 7 This is a cross-sectional structural schematic diagram of an adjustable support component in a livestock farm wall support device according to the present invention;

[0025] Figure 8 This is a schematic diagram of the inner structure of the wall of a building in a breeding farm area according to the present invention.

[0026] In the diagram: Interior - 1, Building Wall - 2, Exterior Floor - 3, Wall Support Equipment - 4, First Through Hole - 21, Second Through Hole - 22, Track Groove - 23, Inner Wall Panel - 41, Torque Disc - 42, Post-Reinforcement Component - 43, Ground Rail - 44, Exterior Wall Panel - 45, Anti-Drop Ear - 46, External Locking Cap - 47, Anti-Drop Rod - 48, Inner Panel Sleeve - 411, External Fixing Sleeve - 431, Tension Locking Ear - 432, Lower Pressure Bolt Platform - 433, Sleeve Inner Cavity - 434, Compensation Block - 435, Buried Steel Insert - 436, Anti-Drop Locking Plate - 441, Rail Top Clamping Block - 442 Track body-443, Insert locking rod-444, External reinforcing block-445, Pull-and-hold force device-451, Sleeve bottom through groove-4311, Cavity locking block-4341, Connecting platform-4511, Hinge ear-4512, Top-fixed inner pull rod-4513, Adjustable support-4514, Fixed hinge block-45141, Engaging hinge block-45142, Outer sleeve-45143, Inner cavity-45144, One-way anti-disengagement hook-45145, Sleeve slot-45146, Swing handle-45147, Limiting retaining ring-45148, Nested toothed rod-45149. Detailed Implementation

[0027] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0028] Furthermore, in the description of this invention, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," and "circumferential" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention.

[0029] In this invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral unit; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. However, specifying a direct connection indicates that the two main bodies are not connected through a transitional structure, but rather formed as a whole through a connecting structure. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0030] In this invention, unless otherwise expressly specified and limited, the first feature "on" or "below" the second feature may be in direct contact with the first and second features, or indirect contact through an intermediate medium. In the description of this specification, references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0031] The present invention will be further described below with reference to the accompanying drawings:

[0032] Example 1: As shown in the attached document Figure 1 To be continued Figure 4 Appendix Figure 7 To be continued Figure 8 As shown:

[0033] This embodiment provides a wall support device for a breeding farm, including a house wall 2, a wall support device 4 installed on the house wall 2, an inner side of the house wall 2 including a house interior 1, and an outer floor 3 provided on the outer side of the house wall 2; an even number of first through holes 21 are required to be opened at the cracks in the house wall 2, a second through hole 22 is opened at the intersection of the center lines connecting the even number of first through holes 21, and an even number of track grooves 23 are opened at the connection between the house wall 2 and the outer floor 3;

[0034] Furthermore, "inside the house 1" refers to the inside of the chicken coop, while "outside the house ground 3" refers to the road surface outside the house wall 2.

[0035] Furthermore, at least five holes need to be made at the cracks in the wall 2, with four first through holes 21 distributed at four locations, and the second through hole 22 made at the center of the intersection of the four first through holes 21.

[0036] Furthermore, the track groove 23 is mainly opened on the bottom of the room wall 2, located above the floor of the room 1 and the ground of the room 3.

[0037] The wall support device 4 is equipped with an inner wall plate 41, a torsion plate 42 in the center of the inner wall plate 41, and rear reinforcement components 43 on both sides of the torsion plate 42. An even number of ground rails 44 are provided at the bottom of the inner wall plate 41. An even number of inner plate sleeves 411 are fixed on the outer wall of the inner wall plate 41. An outer wall plate 45 is provided on the outer side of the inner wall plate 41. Anti-detachment lugs 46 are installed in the inner plate sleeves 411. Anti-detachment rods 48 are erected between the anti-detachment lugs 46. External locking caps 47 are installed on the outer side of the inner plate sleeves 411. A tension bearing device 451 is installed on the outer wall plate 45.

[0038] Furthermore, both the inner wall panel 41 and the outer wall panel 45 are made of galvanized steel sheet, and the inner wall panel 41 has a semi-solid inner panel sleeve 411 with a threaded outer surface welded on the inner side, while the outer wall panel 45 has a hollow hole at the position opposite the inner panel sleeve 411.

[0039] Furthermore, at least two ground rails 44 are provided and installed in the rail groove 23 for the displacement of the inner wall panel 41 and the outer wall panel 45 and to provide assistance when clamping and tightening.

[0040] Furthermore, the external locking cap 47 is mainly connected to the inner clamping sleeve 411 with a semi-solid outer surface with threads by threading, thereby forming an inward push of the outer wall clamping plate 45, and finally fitting against the outer wall of the outer wall clamping plate 45 after reaching the maximum torque.

[0041] The ground rail 44 includes a rail body 443. One end of the rail body 443 is equipped with an anti-loosening plate 441. The anti-loosening plate 441 is equipped with a rail top locking block 442. The other end of the rail body 443 is equipped with an external reinforcing block 445. Both the external reinforcing block 445 and the end of the rail body 443 are equipped with several insertion locking rods 444.

[0042] Furthermore, the top rail clamp 442 is mainly used to fix the top of the track body 443, while the end of the track body 443 is fixed by the external reinforcing block 445 in conjunction with the insertion locking rod 444. The top rail clamp 442 also adopts the fixing method of inserting the locking rod 444.

[0043] Furthermore, the insertion of the locking rod 444 must penetrate through the concrete of the outdoor ground 3 or the indoor concrete 1, and be secured with the expansion sleeve.

[0044] The tension-bearing device 451 is equipped with a connecting platform 4511. The upper and lower surfaces of the connecting platform 4511 are each equipped with an even number of hinge ears 4512. A top-fixed inner tie rod 4513 passes through the center of the connecting platform 4511. Adjustable support members 4514 are installed on each of the even number of hinge ears 4512.

[0045] Furthermore, the connecting platform 4511 mainly serves to transmit force, thereby indirectly driving the adjustable support 5414 to form a force-bearing and fixing structure, thus strengthening the fastening force between the outer wall panel and the inner wall panel.

[0046] Furthermore, the top-fixed inner tie rod 4513 is mainly used to transmit the tension to the connecting platform 4511, and it needs to pass through the outer wall panel 45, the second through hole 22 and the inner wall panel 41 in sequence, and finally be threaded by the torque plate 42 to form a fastener.

[0047] The adjustable support 4514 includes an outer sleeve 45143, with a fixed hinge block 45141 connected to the end of the outer sleeve 45143. Another outer sleeve 45143 has a locking hinge block 45142 connected to its end. Each outer sleeve 45143 has an inner cavity 45144. Each outer sleeve 45143 has a mounting slot 45146, in which a one-way anti-disengagement hook 45145 is installed. A swing handle 45147 is engaged in front of the one-way anti-disengagement hook 45145. A limit ring 45148 is installed in the center of the swing handle 45147. A nested toothed rod 45149 is nested inside the outer sleeve 45143.

[0048] Furthermore, the inner cavity 45144 is mainly used for nesting the nested toothed rod 45149. The swing of the handle 45147 leads to the engagement of the limiting ring 45148 installed on the handle 45147 with the nested toothed rod 45149, thus forming a length positioning.

[0049] Furthermore, the other end of the nested toothed rod 45149 is connected to the hinge ear 4512, thereby forming an indirect engagement with the connecting platform 4511 to always complete the top fixation of the outer wall of the outer wall panel 45.

[0050] Furthermore, the adjustable support 4514 located below is identical in structure except that the fixed hinge block 45141 is replaced by a snap-fit ​​hinge block 45142. The snap-fit ​​hinge block 45142 is movable and snapped into place within the track body 443 and is continuously fixed to the lower end of the outer wall panel 45.

[0051] The specific working principle is as follows:

[0052] This invention involves creating a first through hole 21, a second through hole 22, and a track groove 23 on the wall 2 of room 1. One end of the track body 443 is then fixed with an anti-loosening locking plate 441 and a locking rod 444 inserted into it. The other end is fixed with an external reinforcing block 445 in conjunction with the locking rod 444. The top locking block 442 and the inner wall clamping plate 41 need to be pre-installed. The inner wall clamping plate 41 is attached to the inner wall of room 2, and the inner clamping plate sleeve 411 passes through the first through hole 21 for positioning and nesting the outer wall clamping plate 45. The bottom of the outer wall clamping plate 45 is also on the track body 443. After preparation, the external locking cap 47 is pre-tightened. The tensioning device 451 installed on the outer wall clamping plate 45 is adjusted to the appropriate length so that the connecting platform 4511 faces the center hole of the outer wall clamping plate 45, and the top-fixed inner tie rod 4513 passes through the center of the outer wall clamping plate 45. After the hole, the second through hole 22 and the inner wall plate 41 are passed through in sequence. The top-fixed inner tie rod 4513 is pre-tightened by the torque plate 42. The anti-detachment rotating ear 46 is screwed into the inner plate sleeve 411, and the external lock cap 47 and the torque plate 42 are tightened at the same time. Finally, the anti-detachment rod 48 is passed through the external lock cap 47 to form an anti-detachment. When the torque plate 42 is tightened, the top-fixed inner tie rod 4513 in the connecting platform 4511 is pulled inward, and indirectly transmitted to the nested toothed rod 45149. The nested toothed rod 45149 is pulled inward by the fixed hinge block 45141 at the end of one of the outer sleeves 45143 and the upper part of the outer wall plate 45. The other outer sleeve 45143 located below engages with the hinge block 45142 and moves in the track body 443, and is fixed to the bottom of the outer wall plate 45 for continuous support, thereby preventing the wall from collapsing due to cracking and displacement.

[0053] Example 2: As shown in the attached document Figure 2 Appendix Figure 5 To be continued Figure 6 As shown:

[0054] The inner wall panel 41 has a torsion plate 42 in the center, and a rear reinforcement component 43 on both sides of the torsion plate 42. An even number of ground rails 44 are provided at the bottom of the inner wall panel 41, and a rail top locking block 442 is installed inside the anti-loosening plate 441.

[0055] Furthermore, the top clamping block 442 on the track is mainly used to close the bottom position of the inner wall panel 41, thereby realizing the closing of the inner wall panel.

[0056] Furthermore, the torque disc 42 mainly rotates to press the inner wall panel 41 tightly, while simultaneously pulling the top-fixed inner tie rod installed on the outer wall panel inward.

[0057] Furthermore, when installing the inner wall panel 41, the cracked or misaligned part should be used as the center point, and the two sides should be used to form an outward expansion to clamp the original wall that is not cracked or misaligned.

[0058] The rear-mounted reinforcement component 43 is provided with an outer fixed sleeve 431. Pull lock lugs 432 are fixed on both sides of the upper section of the outer fixed sleeve 431. An inner cavity 434 is formed inside the outer fixed sleeve 431. An even number of compensation blocks 435 are installed in the inner cavity 434. An even number of buried steel plugs 436 are installed in the inner cavity 434. One of the buried steel plugs 436 has a pressure bolt platform 433 at its top. A bottom through groove 4311 is opened at the bottom of the outer fixed sleeve 431. Inner cavity locking blocks 4341 are fixed on both sides of the inner wall of the inner cavity 434.

[0059] Furthermore, the rear wall of the outer fixed sleeve 431 is mainly fixed to the inner surface of the inner wall plate 41, and the inner cavity 434 formed by the central hollowing is provided with cavity locking blocks 4341 on both sides of the inner wall, and is fixed by matching the cavity locking blocks 4341 with the compensation blocks 435.

[0060] Furthermore, the compensation block 435 is mainly used to compensate for the length of the buried steel plug 436. After the first buried steel plug 436 is inserted into the ground, the channel between the compensation blocks 435 clamps the second buried steel plug 436, thus completing the top fixation of the first buried steel plug 436.

[0061] Furthermore, the top of the second buried steel plug 436 is secured by the lower pressure bolt 433. After the bolt rod of the lower pressure bolt 433 passes through the tension lock lug 432, it is tightened to the maximum torque with the help of the nut, so that the lower pressure bolt 433 always applies downward force, indirectly ensuring the firmness of the buried steel plug 436.

[0062] The specific working principle is as follows:

[0063] This invention secures the inner wall clamp 41 to the outer wall clamp 43, and then secures the post-reinforcement component 43. The buried steel insert 436, which is pre-placed in the inner cavity 434, is submerged in the ground under the subsequent compensation block 435 and the second buried steel insert 436. Then, the surface of the second buried steel insert 436 is fitted with a downward bolt platform 433, ensuring that its top is always against the surface of the buried steel insert 436. The bolt rod passes through the tension locking lugs 432 on both sides of the outer fixed sleeve 431 and is threaded with the help of nuts, which pulls down the downward bolt platform 433, always maintaining downward force, indirectly ensuring the firmness of the buried steel insert 436. After the post-reinforcement component 43 is installed, the steel inserts of the buried steel insert 436 submerged in the ground can also indirectly provide strong support for the inner wall clamp 41, ensuring the firmness and reliability of the wall support.

[0064] It should be understood that the embodiments disclosed herein are not limited to the specific processing steps or materials disclosed herein, but should be extended to equivalent substitutions of such features as understood by those skilled in the art. It should also be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

[0065] The term "embodiment" as used in this specification means that a specific feature or characteristic described in connection with an embodiment is included in at least one embodiment of the invention. Therefore, phrases or "embodiments" appearing in various places throughout the specification do not necessarily refer to the same embodiment.

[0066] Furthermore, the described features or characteristics can be incorporated into one or more embodiments in any other suitable manner. In the above description, specific details, such as thickness, quantity, etc., are provided to provide a comprehensive understanding of embodiments of the invention. However, those skilled in the art will understand that the invention can be implemented without the aforementioned specific details or may be implemented using other methods, components, materials, etc.

Claims

1. A wall support device for a livestock farm, characterized in that, Includes a room wall (2), on which a wall support device (4) is installed, the inner side of the room wall (2) includes the room interior (1), and the outer side of the room wall (2) is provided with an outdoor floor (3); An even number of first through holes (21) are required to be made at the cracks in the wall (2). A second through hole (22) is made at the intersection of the center lines of the even number of first through holes (21). An even number of track grooves (23) are made at the connection between the wall (2) and the ground outside the house (3). The wall support device (4) is provided with an inner wall clamp (41), a torsion plate (42) is provided in the center of the inner wall clamp (41), a rear reinforcement component (43) is provided on both sides of the torsion plate (42), an even number of ground rails (44) are provided at the bottom of the inner wall clamp (41), an even number of inner clamp sleeves (411) are fixed on the outer wall of the inner wall clamp (41), an outer wall clamp (45) is provided on the outer side of the inner wall clamp (41), an anti-detachment rotating ear (46) is installed in each of the inner clamp sleeves (411), an anti-detachment rod (48) is erected between the anti-detachment rotating ears (46), an external lock cap (47) is installed on the outer side of the inner clamp sleeve (411), and a tension bearing device (451) is installed on the outer wall clamp (45). The tensioning device (451) is provided with a connecting platform (4511). The upper and lower surfaces of the connecting platform (4511) are equipped with an even number of hinge ears (4512). A top-fixed inner tie rod (4513) runs through the center of the connecting platform (4511). An adjustable support (4514) is installed on each of the even number of hinge ears (4512). The adjustable support (4514) is provided with an outer sleeve (45143), and a fixed hinge block (45141) is connected to the end of the outer sleeve (45143), wherein another outer sleeve (45143) is connected to a snap-fit ​​hinge block (45142). The top-fixed inner tie rod (4513) passes through the connecting platform (4511), the second through hole (22) and the center of the inner wall clamp (41) in sequence. The inner wall clamp (41) cooperates with the outer wall clamp (45) through the inner clamp sleeve (411). The outer wall clamp (45) is in a through state where it passes through the inner clamp sleeve (411). The inner clamp sleeve (411) is threadedly connected to the anti-detachment rotating ear (46). The outer surface of the inner clamp sleeve (411) is threadedly connected to the external lock cap (47). The torque plate (42) is used for the threaded connection of the outer surface of the top-fixed inner tie rod (4513). The rear reinforcement component (43) is provided with an outer fixing sleeve (431). Pull lock lugs (432) are fixed on both sides of the upper section of the outer fixing sleeve (431). An inner cavity (434) is formed inside the outer fixing sleeve (431). An even number of compensation blocks (435) are installed in the inner cavity (434). An even number of buried steel plugs (436) are installed in the inner cavity (434). A pressure bolt platform (433) is provided at the top of one of the buried steel plugs (436). A bottom through groove (4311) is opened at the bottom of the outer fixing sleeve (431). Inner cavity locking blocks (4341) are fixed on both sides of the inner wall of the inner cavity (434). The ground rail (44) includes a track body (443), one end of which is equipped with an anti-disengagement plate (441), and a rail top locking block (442) is installed inside the anti-disengagement plate (441). The other end of the track body (443) is equipped with an external reinforcing block (445), and several insertion locking rods (444) are installed at the ends of the external reinforcing block (445) and the track body (443). The insertion locking rod (444) needs to be inserted into the stratum below the outdoor floor (3). The external reinforcement block (445) is engaged and fixed to the end of the track body (443) through the insertion locking rod (444). The top locking block (442) on the track is attached to the inner wall of the inner wall panel (41). The track body (443) passes through the track groove (23). The bottom of the engaging hinge block (45142) is engaged with the top locking block (442) on the track.

2. The wall support device for a livestock farm area according to claim 1, characterized in that: Each of the outer sleeves (45143) has an inner cavity (45144), and each of the outer sleeves (45143) has a sleeve groove (45146). A one-way anti-disengagement hook (45145) is installed in the sleeve groove (45146). A swing handle (45147) is engaged in front of the one-way anti-disengagement hook (45145). A limit ring (45148) is installed in the center of the swing handle (45147). A nested toothed rod (45149) is nested inside the outer sleeve (45143).

3. The wall support device for a livestock farm area according to claim 2, characterized in that: The nested toothed rod (45149) meshes with the limiting ring (45148), the limiting ring (45148) is driven by the swing handle (45147), the swing handle (45147) partially penetrates the outer sleeve (45143), the fixed hinge block (45141) is fixed to the top of the outer surface of the outer wall panel (45), the end of the nested toothed rod (45149) is connected between the hinge ears (4512), the engaging hinge block (45142) engages with the ground rail (44), and the inner wall is attached to the outer surface of the outer wall panel (45).

4. The wall support device for a livestock farm area according to claim 1, characterized in that: The cavity locking block (4341) is used for locking and limiting the compensation block (435). The compensation block (435) is in the shape of a "3". The compensation blocks (435) are used for the passage of the buried steel plug (436). One of the buried steel plugs (436) passes through the bottom through groove (4311). Another buried steel plug (436) is fixed to the top of the previous buried steel plug (436). The lowering bolt platform (433) is fixed to the top of one of the buried steel plugs (436). The bolt rod of the lowering bolt platform (433) passes through the tension lock lug (432) and is tightened by a nut.

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