Anti-sway pipe support frame

Abstract

The utility model discloses a pipeline support frame of anti -shaking relates to pipeline support frame technical field, including by the support frame subassembly of bottom frame, bottom support seat, upper clamping seat, arc lining, connecting assembly, the connecting assembly includes fastening unit, reinforcing unit, the fastening unit is used for realizing the butt -joint fixed of bottom support seat, upper clamping seat, the reinforcing unit is used for further reinforcing to bottom support seat, upper clamping seat fixed state carries out. The utility model discloses a connecting assembly with butt -joint groove, butt -joint plugboard, vertical slot, trapezoidal bolt is set up, after through bolt, nut is connected fixed to bottom support seat, upper clamping seat, through the close compression of trapezoidal bolt's inclined lower surface and the inner wall bottom of vertical slot, the close compression of trapezoidal bolt's horizontal upper surface and first connecting plate's lower surface, and thus forms the second reinforcing for the connection of first connecting plate and second connecting plate, and further improves the connection stability.

Description

Technical Field

[0001] This utility model relates to the field of pipe support frame technology, specifically a pipe support frame for preventing swaying. Background Technology

[0002] Pipe support frames are designed to safely bear the weight of the pipe, the internal medium, the insulation / cold insulation layer, and various additional loads (such as wind load, seismic load, water hammer, forces generated by thermal expansion and contraction, vibration, etc.), and transfer these loads to the building structure or foundation. Types include: fixed supports / fixed brackets, sliding supports / sliding brackets, guide supports / guide brackets, rigid hangers, spring hangers, etc.

[0003] Fixed supports (fixed brackets) are used to completely restrict the movement and rotation of pipes in all directions (axial, lateral, and vertical) at the support point. Most existing fixed supports (fixed brackets) clamp pipes using bolt structures. In actual use, bolts are prone to loosening, causing pipes to shake. Therefore, in order to further improve the stability of fixed supports for clamping pipes, a pipe support frame that prevents shaking is provided. Utility Model Content

[0004] The purpose of this utility model is to provide a pipe support frame that prevents swaying in order to solve the problems mentioned above.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a pipe support frame for preventing swaying, comprising a support frame assembly consisting of a base frame, a bottom support seat, an upper clamping seat, and an arc-shaped inner liner. The bottom support seat is fixed to the top of the base frame, and the arc-shaped inner liner is fixed to the inner side of the bottom support seat and the upper clamping seat. The upper clamping seat cooperates with the bottom support seat to clamp and fix the pipe. Connecting components are provided on both sides of the outer walls of the bottom support seat and the upper clamping seat, and the connecting components are used to connect and fix the bottom support seat and the upper clamping seat.

[0006] The connection assembly includes a fastening unit and a reinforcement unit;

[0007] The fastening unit is used to connect and fix the bottom support and the upper clamping seat;

[0008] The reinforcement unit is used to further reinforce the fixed state of the bottom support and the upper clamping seat.

[0009] As a further embodiment of this utility model: the fastening unit includes a first connecting plate, a first connecting hole, a second connecting plate, a second connecting hole, a bolt, and a nut;

[0010] The first connecting plate is symmetrically fixed to the top two sides of the bottom support base, and the first connecting hole is symmetrically opened on the top of the first connecting plate and extends through to the bottom of the first connecting plate;

[0011] The second connecting plate is symmetrically fixed to the bottom two sides of the upper clamping seat, and the second connecting hole is symmetrically opened on the top of the second connecting plate and extends through to the bottom of the second connecting plate;

[0012] The upper clamping seat is connected to the bottom support seat by fitting the second connecting plate with the first connecting plate. Bolts are threaded through the second connecting hole and the first connecting hole and tightened with the nut to fix the upper clamping seat and the bottom support seat.

[0013] As a further embodiment of this utility model: the reinforcing unit includes a docking groove, a docking plate, a vertical slot, and a trapezoidal pin;

[0014] The docking groove is formed in the middle of the first connecting plate, and the docking insert is integrally formed in the middle of the second connecting plate and protrudes downward;

[0015] The vertical slot is located at one end of the mating plate and extends completely through to the other end of the mating plate.

[0016] The docking plate is inserted into the inside of the docking groove. It is horizontally inserted through the trapezoidal pin and passes through the vertical slot to achieve the pressing operation between the trapezoidal pin and the lower surface of the first connecting plate.

[0017] As a further embodiment of this utility model: a concave groove is provided at the bottom of the first connecting plate below the first connecting hole, the nut is housed inside the concave groove, and the height of the nut matches the height of the concave groove.

[0018] As a further improvement of this utility model: the vertical slot and the second connecting hole are staggered along the horizontal lateral direction, and the trapezoidal pin is in contact with the bottom of the nut.

[0019] Compared with the prior art, the beneficial effects of this utility model are:

[0020] By setting up a connecting assembly with a mating groove, mating plate, vertical slot, and trapezoidal pin, after the bottom support and upper clamping seat are connected and fixed with bolts and nuts, the trapezoidal pin completely penetrates the vertical slot, so that the inclined lower surface of the trapezoidal pin is tightly pressed against the bottom of the inner wall of the vertical slot, and the horizontal upper surface of the trapezoidal pin is tightly pressed against the lower surface of the first connecting plate. This forms a second reinforcement for the connection between the first connecting plate and the second connecting plate, further improving the stability of the connection. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a schematic diagram showing the connection state between the bottom support and the upper clamping seat of this utility model;

[0023] Figure 3 This is a schematic diagram showing the disassembled parts of this utility model.

[0024] In the diagram: 1. Support frame assembly; 101. Base frame; 102. Bottom support seat; 103. Upper clamping seat; 104. Arc-shaped inner liner; 2. Connecting assembly; 201. First connecting plate; 202. Butt groove; 203. First connecting hole; 204. Concave groove; 205. Second connecting plate; 206. Butt insert plate; 207. Vertical slot; 208. Second connecting hole; 209. Bolt; 210. Nut; 211. Trapezoidal pin; 3. Pipe. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figures 1-3 In this embodiment of the utility model, an anti-sway pipe support frame includes a support frame assembly 1 consisting of a base frame 101, a bottom support seat 102, an upper clamping seat 103, and an arc-shaped inner liner 104. The bottom support seat 102 is fixed to the top of the base frame 101, and the arc-shaped inner liner 104 is fixed to the inner side of the bottom support seat 102 and the upper clamping seat 103. The upper clamping seat 103 cooperates with the bottom support seat 102 to clamp and fix the pipe 3. Connecting components 2 are provided on both sides of the outer wall of the bottom support seat 102 and the upper clamping seat 103. The connecting components 2 are used to connect and fix the bottom support seat 102 and the upper clamping seat 103.

[0027] Connection component 2 includes a fastening unit and a reinforcement unit;

[0028] The fastening unit is used to connect and fix the bottom support 102 and the upper clamping seat 103;

[0029] The reinforcement unit is used to further reinforce the fixed state of the bottom support 102 and the upper clamping seat 103;

[0030] The fastening unit includes a first connecting plate 201, a first connecting hole 203, a second connecting plate 205, a second connecting hole 208, a bolt 209, and a nut 210;

[0031] The first connecting plate 201 is symmetrically fixed on both sides of the top of the bottom support 102, and the first connecting hole 203 is symmetrically opened on the top of the first connecting plate 201 and extends through to the bottom of the first connecting plate 201;

[0032] The second connecting plate 205 is symmetrically fixed to the bottom sides of the upper clamping seat 103, and the second connecting hole 208 is symmetrically opened on the top of the second connecting plate 205 and extends through to the bottom of the second connecting plate 205;

[0033] The upper clamping seat 103 is connected to the bottom support seat 102 by the second connecting plate 205 and the first connecting plate 201. The bolt 209 passes through the second connecting hole 208 and the first connecting hole 203 and is threadedly connected to the nut 210 to tighten it, so as to realize the connection and fixation between the upper clamping seat 103 and the bottom support seat 102.

[0034] The reinforcement unit includes a docking groove 202, a docking insert plate 206, a vertical slot 207, and a trapezoidal pin 211;

[0035] The docking groove 202 is formed in the middle of the first connecting plate 201, and the docking insert plate 206 is integrally formed in the middle of the second connecting plate 205 and protrudes downward;

[0036] The vertical slot 207 is located at one end of the mating plate 206 and extends completely through to the other end of the mating plate 206;

[0037] The mating plate 206 is inserted into the inner side of the mating groove 202. The trapezoidal pin 211 is horizontally inserted and passes through the vertical slot 207 to realize the pressing operation between the trapezoidal pin 211 and the lower surface of the first connecting plate 201.

[0038] In this embodiment, it should be noted that when this support frame assembly 1 is used, the base frame 101 is welded and fixed to a steel plate embedded in a concrete base.

[0039] When clamping and fixing pipe 3, the operation is as follows:

[0040] Pipe 3 is laid and placed inside the bottom support 102. Then, the upper clamping seat 103 is placed on top of pipe 3. Both the bottom support 102 and the upper clamping seat 103 contact the pipe and clamp it through the inner lining 104 (it should be noted that the inner lining 104 is made of materials such as polyurethane, vermiculite, magnesium steel and red pine).

[0041] When the upper clamping seat 103 is closed on the top of the pipe 3, the mating plate 206 is inserted and passes through the mating groove 202. At this time, the second connecting hole 208 and the first connecting hole 203 are automatically aligned. Then, the bolt 209 passes through the second connecting hole 208 and the first connecting hole 203 from top to bottom, and is screwed and tightened with the nut 210 and the bolt 209, thus completing the connection and fixation between the upper clamping seat 103 and the bottom support seat 102, and simultaneously completing the clamping of the pipe 3.

[0042] Next, take the trapezoidal pin 211 and insert it horizontally into the vertical slot 207. Then, use a tool to tap the trapezoidal pin 211 so that it completely penetrates the vertical slot 207. The inclined lower surface of the trapezoidal pin 211 is tightly pressed against the bottom of the inner wall of the vertical slot 207, and the horizontal upper surface of the trapezoidal pin 211 is tightly pressed against the lower surface of the first connecting plate 201.

[0043] This forms a second layer of reinforcement for the connection between the first connecting plate 201 and the second connecting plate 205, further improving the stability of the connection.

[0044] Please refer to this carefully. Figures 1-3 The bottom of the first connecting plate 201 is provided with a concave groove 204 below the first connecting hole 203. The nut 210 is housed inside the concave groove 204, and the height of the nut 210 matches the height of the concave groove 204.

[0045] The vertical slot 207 and the second connecting hole 208 are staggered in the horizontal direction, and the trapezoidal pin 211 is in contact with the bottom of the nut 210.

[0046] In this embodiment: After the trapezoidal pin 211 is installed, the horizontal upper surface of the trapezoidal pin 211 fits against the lower surface of the nut 210, which can limit the downward movement of the nut 210, thereby providing a certain anti-loosening effect for the threaded connection between the nut 210 and the bolt 209.

[0047] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A sway-resistant pipe support frame, comprising a support frame assembly (1) consisting of a base frame (101), a bottom support seat (102), an upper clamping seat (103), and an arc-shaped inner liner (104), wherein the bottom support seat (102) is fixed to the top of the base frame (101), and the arc-shaped inner liner (104) is fixed to the inner side of the bottom support seat (102) and the upper clamping seat (103), wherein the upper clamping seat (103) cooperates with the bottom support seat (102) to clamp and fix a pipe (3), characterized in that, Connecting components (2) are provided on both sides of the outer walls of the bottom support base (102) and the upper clamping base (103). The connecting components (2) are used to connect and fix the bottom support base (102) and the upper clamping base (103). The connecting component (2) includes a fastening unit and a reinforcing unit; The fastening unit is used to fix the bottom support (102) and the upper clamping seat (103) together; The reinforcement unit is used to further reinforce the fixed state of the bottom support (102) and the upper clamping seat (103).

2. The anti-sway pipe support frame according to claim 1, characterized in that, The fastening unit includes a first connecting plate (201), a first connecting hole (203), a second connecting plate (205), a second connecting hole (208), a bolt (209), and a nut (210); The first connecting plate (201) is symmetrically fixed on both sides of the top of the bottom support (102), and the first connecting hole (203) is symmetrically opened on the top of the first connecting plate (201) and extends to the bottom of the first connecting plate (201); The second connecting plate (205) is symmetrically fixed on both sides of the bottom of the upper clamping seat (103), and the second connecting hole (208) is symmetrically opened on the top of the second connecting plate (205) and extends through to the bottom of the second connecting plate (205); The upper clamping seat (103) is connected to the bottom support seat (102) by the second connecting plate (205) and the first connecting plate (201). The bolt (209) passes through the second connecting hole (208) and the first connecting hole (203) and is threadedly connected to the nut (210) to achieve the connection and fixation between the upper clamping seat (103) and the bottom support seat (102).

3. The anti-sway pipe support frame according to claim 2, characterized in that, The reinforcement unit includes a docking groove (202), a docking insert plate (206), a vertical slot (207), and a trapezoidal pin (211); The docking groove (202) is located in the middle of the first connecting plate (201), and the docking insert plate (206) is integrally formed in the middle of the second connecting plate (205) and protrudes downward; The vertical slot (207) is located at one end of the mating plate (206) and extends completely through to the other end of the mating plate (206); The docking plate (206) is inserted into the inner side of the docking groove (202), and is horizontally inserted through the trapezoidal pin (211) and passes through the vertical slot (207) to realize the pressing operation between the trapezoidal pin (211) and the lower surface of the first connecting plate (201).

4. The anti-sway pipe support frame according to claim 3, characterized in that, The bottom of the first connecting plate (201) is provided with a concave groove (204) below the first connecting hole (203). The nut (210) is housed inside the concave groove (204), and the height of the nut (210) matches the height of the concave groove (204).

5. The anti-sway pipe support frame according to claim 3, characterized in that, The vertical slot (207) and the second connecting hole (208) are staggered in the horizontal direction, and the trapezoidal pin (211) is in contact with the bottom of the nut (210).

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