CN207812490U - Piping lane circumferential direction connection structure - Google Patents

Abstract

The utility model discloses a kind of piping lane circumferential direction connection structures, by being located at, the cell boards of top and bottom and two sides is circumferentially assembled to form unit tube coupling, unit tube coupling is assembled in an axial direction to form piping lane, respectively try orchid in the end of adjacent cells plate, one side contacts of flange face of adjacent flanges, the other side is formed separately lateral openings, and longitudinal cover board is set at the lateral openings, the longitudinal direction cover board forms cavity, the fill concrete in cavity with adjacent flanges.The cell board of the utility model piping lane is normally cut by required length, without cutting into 45 degree of angles, by realizing that piping lane circumferentially connects in the end mounting flange of cell board, the longitudinal cover board of setting and fill concrete after dicing, this connection structure processing efficiency is very high and quality controllable, while cutting process can be matched with automatic production line.

Description

Piping lane circumferential direction connection structure

Technical field

The utility model is related to a kind of connection structure more particularly to a kind of piping lane circumferential direction connection structures.

Background technology

The applicant is dedicated to piping lane and studies and applied many related patents, Pipe rack as shown in Figure 1, by respectively Positioned at the cell board of top and bottom and two sides, circumferentially assembly forms unit tube coupling, and unit tube coupling is assembled in an axial direction to form piping lane. In implementation process, when which circumferentially connects (when four apex angle connections), need top and bottom and two sides 45 degree of angles (Fig. 2) are cut into the end of cell board, and this cutting process is relatively difficult, cannot be completed with general scissors tool, It is not only time-consuming by line manual oxygen cutting or manual plasma cut after can only crossing, and kerf quality is difficult to ensure, together When cut away 45 degree of corner block and also result in waste of material (Fig. 3), in addition, the cutting process is difficult to match with production technology assembly line Altogether, lead to low production efficiency.

Utility model content

Purpose of utility model：The utility model is intended to provide a kind of be easily worked and the circumferential connection knot of quality controllable piping lane Structure.

Technical solution：The piping lane circumferential direction connection structure of the utility model, by the unit for being located at top and bottom and two sides Plate is circumferentially assembled to form unit tube coupling, and unit tube coupling is assembled in an axial direction to form piping lane, and orchid is respectively tried in the end of adjacent cells plate, One side contacts of flange face of adjacent flanges, the other side is formed separately lateral openings, and longitudinal cover board is set at the lateral openings, should Longitudinal cover board forms cavity, the fill concrete in cavity with adjacent flanges.

Preferably, cell board is corrugated plating, and the wave molding direction of the corrugated plating is vertical with piping lane length direction.It is basic herein On, cell board circumferential end faces extending direction is vertical with the wave molding direction of the cell board.

Flange in the utility model is U-steel, is made of flange bottom plate and flange wall；Longitudinal cover board is outside flange Side is connect with flange wall, or is connect with flange bottom plate on the inside of flange.The flange face of adjacent flanges bolts, and it is strong to improve connection Degree.

It is located at the outside arch camber of cell board of piping lane top and bottom in the utility model；Cell board positioned at piping lane two sides can be with It is vertical plate, it can also outside arch camber.

Cell board in the utility model is steel plate, and flange is steel flange, between the flange face that adjacent flanges are in contact Equipped with gasket.

Advantageous effect：Compared with prior art, the utility model has the following advantages that：First, the cell board of piping lane presses institute Length is needed normally to cut (cutting once only needs 5~6 seconds), without (cutting is primary at 45 degree of angles by cell board end cut Need 5~10 minutes), by real in the end mounting flange of cell board, the longitudinal cover board of setting and fill concrete after dicing Existing piping lane circumferentially connects, and this connection structure processing efficiency is very high and quality controllable, seldom will appear cell board end after cutting Portion's out-of-flatness needs subsequently to trim perfect situation, while cutting process can be matched with automatic production line；Secondly, circumferential Fill concrete in connection structure increases the intensity and sealing performance of circumferential connecting portion；Meanwhile flange is common flange example , need not be at an acute angle by side processing between flange bottom plate and flange wall such as U-steel, obtuse angle is processed into the other side, thus Reduce the difficulty of processing of flange.

Description of the drawings

Fig. 1 is the structural schematic diagram of existing piping lane；

Fig. 2 is the sectional view that 45 degree of angles are processed into cell board end in existing piping lane；

Fig. 3 is the corner block sectional view that cell board end is cut away in existing piping lane；

Fig. 4 is the structural schematic diagram that cell board is corrugated plating in the utility model piping lane；

Fig. 5 is cell board end construction schematic diagram in the utility model piping lane；

Fig. 6 is the structural schematic diagram of cell board end set flange in the utility model piping lane；

Fig. 7 is the circumferential connection diagram of the first piping lane of the utility model；

Fig. 8 is the circumferential connection diagram of second of piping lane of the utility model；

Fig. 9 is the enlarged drawing of the utility model piping lane circumferential direction connection structure；

Figure 10 is another connection structure diagram of the utility model piping lane longitudinal direction cover board and flange.

Specific implementation mode

The technical solution of the utility model is described further below in conjunction with the accompanying drawings.

The piping lane of the utility model forms unit by the cell board 101 for being located at top and bottom and two sides is circumferentially assembled Tube coupling 102, unit tube coupling 102 is assembled in an axial direction to form piping lane, wherein cell board can be steel plate, be located at piping lane top and bottom Cell board 101 can outside arch camber, the cell board 101 for being located at piping lane two sides can outside arch camber, or vertical plate, such as Shown in Fig. 7-8；Cell board 101 is corrugated plating in Fig. 4, and the wave molding direction of the corrugated plating is vertical with piping lane length direction, thus The strength and stability that assembling obtains piping lane is preferable.

As described in Figure 5,101 circumferential end faces extending direction of cell board is vertical with the wave molding direction of cell board, such list First plate is normally cut by required length, ripple scissor cut, usually cold cut can be used to cut, cutting once only needs 5 ~6 seconds；Without cutting into 45 degree of angles as the prior art because traditional thermal cutting mode cut it is primary need 5~ 10 minutes, the utility model greatly reduced operation difficulty from cell board cutting angle, has saved the operating time.

As shown in fig. 6, orchid 103 is respectively tried in 101 end of cell board, flange is steel flange；Since cell board is using conventional Cutting mode, circumferential end faces extending direction is vertical with the wave molding direction of cell board, thus flange can also select it is conventional U-steel, the U-steel are made of flange bottom plate 107 and flange wall 108, wherein flange bottom plate 107 is close to cell board end, method Blue wall 108 is vertical between flange bottom plate 107 and flange wall 108 towards cell board mainboard direction, without as in traditional approach Side processing between flange bottom plate and flange wall is at an acute angle, and obtuse angle is processed into the other side, it can be seen that, the utility model is significantly Reduce the difficulty of processing of flange.

As shown in fig. 7, when adjacent cells plate splices, one side contacts of flange face of adjacent flanges 103, the other side separates shape At lateral openings, and longitudinal cover board 104 is set at the lateral openings, which forms cavity 105, Fig. 9 with adjacent flanges In cavity be triangular cavity, be also not necessarily limited to triangular form certainly, cavity structure can change according to the structure type of longitudinal cover board Become, the fill concrete 106 in cavity 105, the concrete filled here can be the concrete of anti-leak.In order to by longitudinal lid Plate and flanged joint, Fig. 9-10 show two kinds of forms, the first form is longitudinal cover board 104 on the outside of flange and flange wall 108 connections, longitudinal cover board 104 includes one piece of bottom plate at this time, and both ends pass through after extending bending to flange side with flange wall 108 Bolt 109 bolts, as shown in Figure 9；Second of form is that longitudinal cover board 104 is connect on the inside of flange with flange bottom plate 107, at this time Longitudinal cover board also includes one piece of bottom plate, is bolted by bolt 109 with flange bottom plate after the bending of both ends, as shown in Figure 10.

In order to enhance the bonding strength of flange, adjacent flanges can also be bolted using flange bolt 110, such as Fig. 9 It is shown.In order to enhance the leakproofness of flange, it is equipped with gasket 111 in the flange face contact site of adjacent flanges, gasket can be with Rubber sheet gasket is selected, at the same time, the bolt position of longitudinal cover board and flange can also use gasket, to realize that sealing connects It connects.When having used, fill concrete in cavity, longitudinal cover board is connect with flange seal and the flange face contact site of adjacent flanges When sealed connection, the utility model can be obtained triple seal effect.

Claims (10)

1. a kind of piping lane circumferential direction connection structure, by being located at the cell boards (101) of top and bottom and two sides circumferentially assembled shape At unit tube coupling (102), unit tube coupling (102) is assembled in an axial direction to form piping lane, it is characterised in that：Adjacent cells plate (101) End is respectively tried blue (103), one side contacts of flange face of adjacent flanges (103), and the other side is formed separately lateral openings, and at this Longitudinal cover board (104) is set at lateral openings, which forms cavity (105) with adjacent flanges, the filling in cavity (105) Concrete (106).

2. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The cell board (101) is corrugated plating, should The wave molding direction of corrugated plating is vertical with piping lane length direction.

3. piping lane circumferential direction connection structure according to claim 2, it is characterised in that：Cell board (101) circumferential end faces are prolonged It is vertical with the wave molding direction of the cell board to stretch direction.

4. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The flange (103) is by flange bottom plate (107) and flange wall (108) constitute U-steel；Longitudinal cover board (104) connect on the outside of flange with flange wall (108), or It is connect with flange bottom plate (107) on the inside of from flange.

5. according to the piping lane circumferential direction connection structure of claim 1 or 4, it is characterised in that：The flange face bolt of adjacent flanges (103) It connects.

6. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The cell board positioned at piping lane top and bottom (101) outside arch camber.

7. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The cell board positioned at piping lane two sides (101) it is vertical plate or outside arch camber.

8. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The cell board (101) is steel plate.

9. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：The flange (103) is steel flange.

10. piping lane circumferential direction connection structure according to claim 1, it is characterised in that：What the adjacent flanges (103) were in contact Gasket (111) is equipped between flange face.