An assembled partition plate
By designing prefabricated partition panels and utilizing structures such as central columns, tie rods, and circulation pipes, the grain silo partition panels can be installed quickly and their temperature adjusted, solving the problems of long construction cycles and poor connection stability, and improving construction efficiency and quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- THE FIRST CONSTRUCTION COMPANY OF CCCC SECOND HARBOR ENGINEERING CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-07-14
Smart Images

Figure CN224495504U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of prefabricated partition wall panels, and in particular to a prefabricated partition panel. Background Technology
[0002] In the construction of grain warehouses, the construction of partition panels is a key step. Traditional methods for constructing grain warehouse partition panels have the problem of long construction cycles. In particular, during the concrete pouring and solidification process, natural curing takes a lot of time, resulting in slow overall construction progress. It is also difficult to avoid adverse construction conditions such as the rainy season, which affects construction quality and efficiency.
[0003] On the other hand, during construction, the installation and positioning of the partition panels were not precise enough, and there were stability issues in the connection with the foundation and between the partition panels themselves. There is a lack of effective means to monitor and regulate the temperature inside the grain silo, making it impossible to provide a suitable environment for grain storage. Currently, there is an urgent need for a construction method that can shorten the construction cycle of grain silo partition panels, ensure precise positioning and installation, enhance connection stability, and effectively monitor and regulate temperature to meet the needs of modern grain silo construction. Utility Model Content
[0004] The main purpose of this utility model is to provide a prefabricated partition board, which solves the problems of long construction period and difficulty in avoiding the rainy season in the traditional construction method of grain warehouse partition boards.
[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a prefabricated partition panel, including a central column, and a plurality of partition panel assemblies are arranged around the central column;
[0006] The partition panel assembly includes multiple partition panels, which are arranged perpendicularly to each other, and right-angled fixing plates are provided between adjacent partition panels.
[0007] The fixed plate is provided with multiple pull holes, and pull rods are provided in the pull holes. The partition plate includes a plate body, and the inside of the plate body is provided with a cavity, and a circulation pipe is provided inside the cavity.
[0008] In the preferred embodiment, the circulation pipes are evenly distributed inside the cavity, and a pouring hole is provided on one side of the top of the plate. The pouring hole is used to pour concrete into the cavity.
[0009] In the preferred embodiment, the bottom end of the plate is provided with multiple through-holes for material discharge, which are used to avoid the reinforcing bars arranged in the casting groove.
[0010] In the preferred embodiment, the top of the plate is also provided with air holes.
[0011] In the preferred embodiment, a through connection hole is provided on one side of the panel, and adjacent partition panels are connected through the connection hole;
[0012] In the preferred embodiment, the tie rod is connected to the fixing plate on the other side through the through-hole, and the tie rod and the fixing plate are locked together by a nut, with a spring washer between the nut and the fixing plate.
[0013] This utility model provides a prefabricated partition panel with the following advantages: The prefabricated partition panel construction method, through prefabrication and hoisting installation, significantly shortens the construction cycle, effectively avoids the rainy season, and accelerates construction efficiency. Installation using a central column as a reference ensures the accuracy of the partition panel assembly. The reasonable design of the connection structure between the partition panels and the foundation enhances overall stability. The circulation pipe within the panel can regulate the concrete temperature, shorten the curing cycle, and improve construction quality and the safety of grain storage. Attached Figure Description
[0014] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0015] Figure 1 This is an axonometric view of the construction of the partition board of this utility model;
[0016] Figure 2 This is an axonometric view of the partition plate of this utility model;
[0017] Figure 3 This is a top view of the plate-breaking construction of this utility model;
[0018] Figure 4 This is a partial axonometric view of the partition panel assembly of this utility model;
[0019] Figure 5 This is an axial sectional view of the partition panel assembly of this utility model;
[0020] Figure 6 This is a partial axial sectional view of the partition panel assembly of this utility model;
[0021] Figure 7 This is a cross-sectional schematic diagram of the circulation tube of this utility model;
[0022] Figure 8 This is a schematic diagram of the hoisting of the partition panel assembly of this utility model;
[0023] Figure 9 This is an isometric view of the hoisting device of this utility model;
[0024] Figure 10 This is an axonometric view of the central column of this utility model.
[0025] In the diagram: Foundation 1; Wall 101; Positioning groove 102; Casting groove 103; Partition panel assembly 2; Partition panel 201; Panel 202; Casting hole 203; Vent 204; Connection hole 205; Discharge hole 206; Extension pipe 207; Circulation pipe 208; Lifting device 3; Lifting top plate 301; Lifting lug 302; Lifting cantilever 303; Clamping cylinder 304; Clamping plate 305; Guide column 306; Intermediate column 4; Fixing plate 5; Tie hole 501; Tie rod 502. Detailed Implementation
[0026] Example 1
[0027] like Figure 1-10 As shown, a prefabricated partition panel includes a central column 4, and multiple partition panel groups 2 are arranged around the central column 4.
[0028] The partition panel assembly 2 includes multiple partition panels 201, with adjacent partition panels 201 arranged vertically, and right-angled fixing plates 5 provided between adjacent partition panels 201.
[0029] The fixed plate 5 is provided with multiple pull holes 501, and pull rods 502 are provided in the pull holes 501. The partition plate 201 includes a plate body 202, and a cavity is provided inside the plate body 202. A circulation pipe 208 is provided inside the cavity.
[0030] In the preferred embodiment, the circulation pipes 208 are evenly distributed inside the cavity, and a pouring hole 203 is provided on one side of the top of the plate 202. The pouring hole 203 is used to pour concrete into the cavity.
[0031] In the preferred embodiment, the bottom end of the plate 202 is provided with a plurality of through discharge holes 206, which are used to avoid the reinforcing bars arranged in the casting groove 103.
[0032] In the preferred embodiment, the top of the plate 202 is also provided with air holes 204.
[0033] In the preferred embodiment, a through connection hole 203 is provided on one side of the plate 202, and adjacent partition plates 201 are connected through the connection hole 203.
[0034] In the preferred embodiment, the tie rod 502 is connected to the fixing plate 5 on the other side through the connecting hole 203, and the tie rod 502 and the fixing plate 5 are locked together by a nut. A spring washer is provided between the nut and the fixing plate 5.
[0035] Example 2
[0036] Further explanation in conjunction with Example 1, such as Figure 1-10 The structure shown illustrates a method for constructing a prefabricated partition panel, the method comprising:
[0037] S1. Pour foundation 1, and assemble partition panel group 2 in the prefabrication yard;
[0038] S2. After the foundation 1 is formed, use the hoisting device 3 to hoist the partition panel assembly 2 into the foundation 1 for installation.
[0039] S3. Pour concrete into the interior of partition panel 2 and vibrate it on the exterior of partition panel 2.
[0040] S4. Install fixing plate 5 between partition board group 2 and foundation 1;
[0041] S5. Then install a temperature sensor on partition panel 2;
[0042] S6. The concrete inside the partition plate group 2 is heated to accelerate the solidification speed of the concrete inside.
[0043] S7. After the concrete has solidified, connect partition panel 2 to the external ventilation equipment to achieve the function of wall temperature regulation. The construction of the partition panel is completed after the concrete has solidified.
[0044] In the preferred embodiment, in step S1, the foundation 1 is provided with walls 101 around its perimeter, with positioning grooves 102 on the walls 101, and a casting groove 103 at the bottom of the foundation 1.
[0045] A central column 4 is also provided at the intersection of the pouring trough 103.
[0046] Step S2.1: Use hoisting device 3 to hoist the partition panel assembly 2 into the foundation 1;
[0047] Step S2.2: The center of the partition panel group 2 is installed with the central column 4 as the installation reference.
[0048] In the preferred embodiment, in step S1, the partition panel group 2 includes multiple partition panels 201, adjacent partition panels 201 are arranged vertically, and right-angled fixing plates 5 are provided between adjacent partition panels 201.
[0049] In the preferred embodiment, step S1.1 involves arranging the partition panels 201 at right angles and installing a fixing plate 5 between adjacent partition panels 201.
[0050] Step S1.2: The fixing plate 5 is provided with multiple pull holes 501, and pull rods 502 are provided in the pull holes 501;
[0051] Step S1.3: Lock the adjacent partition panels 201 together by using the pull rod 502 to assemble them into partition panel group 2.
[0052] In the preferred embodiment, the partition panel 201 includes a panel 202, the interior of which is provided with a cavity, and a circulation pipe 208 is provided inside the cavity;
[0053] The circulation pipes 208 are evenly distributed inside the cavity, and the top side of the plate 202 is provided with a pouring hole 203, which is used to pour concrete into the cavity.
[0054] Step S3.1: After the partition panel assembly 2 is hoisted, concrete is poured into the cavity inside the panel 202 through the pouring hole 203.
[0055] Step S3.2: During pouring, a vibrating device is used to clamp the plate 202 on the outside of the plate 202 for slight vibration.
[0056] Step S3.3: Pour the concrete until it is flush with the top of the slab 202.
[0057] In the preferred embodiment, the bottom end of the plate 202 is provided with a plurality of through discharge holes 206, which are used to avoid the reinforcing bars arranged in the casting groove 103.
[0058] The top of the plate 202 is also provided with air holes 204;
[0059] In step S3.2, during pouring, the concrete inside the slab 202 is vibrated and spread around the bottom reinforcing bars, and the concrete overflowing from the discharge hole 206 is used to fill the gaps in the pouring trough 103.
[0060] In step S3.3, during concrete pouring, the top vent 204 facilitates the filling of concrete into the slab 202.
[0061] In the preferred embodiment, a through connection hole 203 is provided on one side of the plate 202, and adjacent partition plates 201 are connected through the connection hole 203.
[0062] In step 1.2, the tie rod 502 is connected to the fixing plate 5 on the other side through the connecting hole 203. The tie rod 502 and the fixing plate 5 are locked together by a nut, and a spring washer is provided between the nut and the fixing plate 5.
[0063] In the preferred embodiment, in step S2, the hoisting device 3 includes a hoisting top plate 301, and multiple hoisting cantilever arms 303 are provided around the hoisting top plate 301. A clamping cylinder 304 is provided on one side of the hoisting cantilever arm 303, and a clamping plate 305 is provided at the output shaft end of the clamping cylinder 304.
[0064] In the preferred embodiment, in step S2, the lifting cantilever 303 is arranged on both sides of the partition plate 201, and the clamping cylinder 304 is arranged on both sides of the partition plate 201. The clamping cylinder 304 is used to clamp the partition plate 201.
[0065] The clamping plate 305 has a rubber pad on one side facing the partition plate 201, and multiple guide posts 306 on the other side.
[0066] In the preferred embodiment, in step S5, the temperature sensor is inserted into the plate 202 through the air hole 204. The temperature sensor is used to monitor the concrete temperature when pouring concrete and to monitor the grain temperature after grain storage.
[0067] In steps S6-S7, during the concrete curing process in slab 202, the temperature of the concrete is adjusted to a suitable level through circulation pipe 208 to accelerate concrete solidification and shorten the concrete curing cycle.
[0068] The construction process of a prefabricated partition panel is as follows: The foundation 1 is poured at the construction site. Walls 101 are simultaneously poured around the foundation 1, with positioning grooves 102 pre-reserved on the walls 101. These positioning grooves 102 serve a positioning function during the subsequent installation of the partition panel assembly 2. A pouring groove 103 is opened at the bottom of the foundation 1, and a central column 4 is set at the intersection of the pouring grooves 103. The central column 4 will serve as an important reference for the subsequent installation of the partition panel assembly 2.
[0069] The partition panel group 2 is assembled in the prefabrication yard. The partition panel group 2 consists of multiple partition panels 201, and adjacent partition panels 201 are arranged vertically.
[0070] Step S1.1: Arrange the partition boards 201 at right angles and install right-angled fixing plates 5 between adjacent partition boards 201.
[0071] Step S1.2: Multiple tie holes 501 are pre-set on the fixing plate 5, and tie rods 502 are inserted into the tie holes 501.
[0072] In step S1.3, the adjacent partition plates 201 are locked together by the pull rod 502, so that the multiple partition plates 201 are firmly assembled into partition plate group 2. Each partition plate 201 includes a plate body 202, with a through connection hole 203 on one side. The pull rod 502 passes through the connection hole 203 and connects to the fixing plate 5 on the other side. The pull rod 502 and the fixing plate 5 are locked together by a nut, and a spring washer is provided between the nut and the fixing plate 5 to enhance the stability of the connection and prevent loosening.
[0073] After the foundation 1 has reached a certain strength, the partition panel assembly 2 is hoisted using the hoisting device 3. The hoisting device 3 includes a hoisting top plate 301, and multiple hoisting cantilever arms 303 are provided around the hoisting top plate 301. A clamping cylinder 304 is provided on one side of the hoisting cantilever arm 303, and a clamping plate 305 is provided at the output shaft end of the clamping cylinder 304.
[0074] Step S2.1: Move the hoisting device 3 above the partition panel assembly 2, so that the hoisting cantilever 303 is positioned on both sides of the partition panel 201. By operating the clamping cylinder 304, the clamping plate 305 clamps the partition panel 201. The clamping plate 305 has a rubber pad on the side facing the partition panel 201 to prevent damage to the partition panel 201 during clamping. The other side has multiple guide posts 306 for assisting clamping and positioning. Then, the partition panel assembly 2 is hoisted above the foundation 1.
[0075] Step S2.2: Slowly lower the partition panel assembly 2 so that the center of the partition panel assembly 2 is precisely installed with the central column 4 as the installation reference. At the same time, make the edge of the partition panel assembly 2 match the positioning groove 102 on the wall 101 to ensure the accuracy of the installation position of the partition panel assembly 2.
[0076] After the partition panel assembly 2 is hoisted, step S3.1 is performed, in which concrete is poured into the cavity inside the panel 202 through the pouring hole 203 on one side of the top of the panel 202. The bottom end of the panel 202 is provided with multiple through discharge holes 206, which are used to avoid the reinforcing bars arranged in the pouring groove 103.
[0077] Step S3.2: During the concrete pouring process, a vibrating device is used to clamp the slab 202 on the outside of the slab 202 and perform slight vibration. Through vibration, the concrete inside the slab 202 is distributed around the bottom reinforcement. At the same time, the concrete overflowing from the discharge hole 206 is used to fill the gaps in the pouring groove 103 to ensure the compactness of the concrete filling.
[0078] Continue pouring concrete until the requirements of step S3.3 are met, that is, the poured concrete is flush with the top of the slab 202. Air holes 204 are provided on the top of the slab 202. During concrete pouring, the air holes 204 facilitate the filling of concrete into the slab 202 and the expulsion of internal air, thus ensuring the quality of concrete pouring.
[0079] Step S4: Install a fixing plate 5 between the partition panel assembly 2 and the foundation 1 to further enhance the connection stability between the partition panel assembly 2 and the foundation 1.
[0080] Step S5: Insert the temperature sensor into the plate 202 through the vent 204. During concrete pouring, the temperature sensor is used to monitor the concrete temperature in real time so that curing measures can be adjusted in a timely manner; after grain storage, the temperature sensor is used to monitor the grain temperature to provide data support for grain storage.
[0081] Step S6 involves heating the concrete inside the partition plate assembly 2. Since the cavity of the plate 202 is equipped with evenly distributed circulation pipes 208, the temperature of the concrete can be adjusted appropriately through these pipes, accelerating the solidification speed of the concrete and shortening the curing cycle.
[0082] After the concrete has solidified, proceed to step S7, connecting the partition panel assembly 2 to the external ventilation equipment. When connected, drill holes at the corresponding positions on the wall 101 to install the extension pipe 207. The extension pipe 207 is installed at the inlet and outlet of the circulation pipe 208. At this time, through the synergistic effect of the circulation pipe 208 and the ventilation equipment, the wall temperature regulation function is realized, creating a suitable storage environment for the inside of the grain silo. This completes the construction of the partition panel.
[0083] The above embodiments are merely preferred technical solutions of this utility model and should not be considered as limitations on this utility model. The protection scope of this utility model should be the technical solution described in the claims, including equivalent substitutions of the technical features described in the claims. That is, equivalent substitutions and improvements within this scope are also within the protection scope of this utility model.
Claims
1. A prefabricated partition panel, characterized in that: It includes a central column (4), and multiple partition panels (2) are provided around the central column (4). The partition panel group (2) includes multiple partition panels (201), with adjacent partition panels (201) arranged vertically, and right-angled fixing plates (5) provided between adjacent partition panels (201). The fixed plate (5) is provided with multiple pull holes (501), and pull rods (502) are provided in the pull holes (501). The partition plate (201) includes a plate body (202), and a cavity is provided inside the plate body (202). A circulation pipe (208) is provided inside the cavity.
2. The prefabricated partition panel according to claim 1, characterized in that: The circulation pipes (208) are evenly distributed inside the cavity, and the top side of the plate (202) is provided with a pouring hole (203), which is used to pour concrete into the cavity.
3. The prefabricated partition panel according to claim 1, characterized in that: The bottom end of the plate (202) is provided with multiple through discharge holes (206), which are used to avoid the reinforcing bars arranged in the casting groove (103).
4. The prefabricated partition panel according to claim 2, characterized in that: The top of the plate (202) is also provided with air holes (204).
5. The prefabricated partition panel according to claim 2, characterized in that: One side of the panel (202) is provided with a through connection hole (203), and adjacent partition panels (201) are connected through the connection hole (203).
6. The prefabricated partition panel according to claim 1, characterized in that: The tie rod (502) passes through the connecting hole (203) and is connected to the fixing plate (5) on the other side. The tie rod (502) and the fixing plate (5) are locked together by a nut. A spring washer is provided between the nut and the fixing plate (5).