JP5111429B2 - Fluid pressure cylinder and piping fixing structure - Google Patents

Description

  The present invention relates to a fluid pressure cylinder provided with a working fluid pipe in the vicinity of an outer peripheral surface of a cylinder tube, and a pipe fixing structure thereof.

  For example, in a fluid pressure cylinder (hydraulic cylinder) that drives a boom or the like of a work machine, a pipe for guiding a working fluid extends along the side of the cylinder tube. In order to prevent vibration of this pipe, prevent loosening of pipe connections, and reduce the overall volume including the cylinder tube, etc., there is a pipe fixing structure that fixes the pipe with a bracket etc. in the state as close as possible to the cylinder tube. Is provided.

  As a piping fixing structure provided in such a fluid pressure cylinder, for example, the one shown in FIG. 7 is conventionally known (see Patent Document 1).

  This pipe fixing structure 50 fixes two pipes (supply / discharge pipes) 52, 52 drawn from a port (not shown) of a fluid pressure cylinder in the cylinder axial direction to a predetermined position close to the cylinder tube 51. It is.

  The pipe fixing structure 50 includes a pair of bands 54a and 54b attached to the outer peripheral surface 51a of the cylinder tube 51, and ends of the bands 54a and 54b are fastened through bolts 55a, nuts 55b, and washers 55c. . Accordingly, the bands 54a and 54b are fixed by winding the cylinder tube 51 from both sides.

  A bracket 53 made of sheet metal is fixed to one band 54a by welding. A pair of holders 57, 57 are fastened to the bracket 53 via bolts 58, nuts 59, and washers 60. The block-shaped holders 57, 57 hold the pipes 52, 52 between the respective recesses 56, and fix the pipes 52, 52 at a predetermined position with respect to the cylinder tube 51.

  In addition, the code | symbol L1 in a figure has shown the horizontal distance from the holder 52 on the bracket 53 to the cylinder outer peripheral surface 51a, and it becomes compact as the piping fixing structure 50, so that this distance L1 is short.

JP 2008-057606 A

  However, in such a conventional piping fixing structure 50, the position at which the bracket 53 is welded to the band 54a is changed according to the specifications such as the mounting position of the piping 52, 52 to the cylinder tube 51. There is a problem in that the types of component assemblies constituting the pipe fixing structure 50 are increased and the cost of the fluid pressure cylinder is increased.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a fluid pressure cylinder and a pipe fixing structure constituted by a small number of types of component assemblies.

  The present invention is a pipe fixing structure for fixing a pipe to a cylinder tube, a band that is wound around the outer peripheral surface of the cylinder tube, a bracket that seats the pipe, and a first and a second that fasten the bracket to the band. A first bolt hole is formed along a bolt hole reference line extending linearly, and at least one of the first and second bolt holes is formed. It is a long and narrow hole that extends along the bolt hole reference line, and is a pipe fixing structure that fixes the pipe to the cylinder tube. The band is wrapped around the outer peripheral surface of the cylinder tube, the bracket that seats the pipe, and the bracket to the band. First and second bolts for fastening the first and second bolt holes through which the first and second bolts are inserted into the brackets, respectively. Forming along the quasi-line, at least one of the first and second bolt holes is a long hole extending along the bolt hole reference line, and the center of the first bolt and the seat part on which the outer peripheral surface of the pipe is seated on the bracket The connecting straight line is the pipe reference line, and the intersection angle between the pipe reference line and the bolt hole reference line is the pipe reference angle. This pipe reference angle is set to a value half of the fastening portion center line sandwiching angle θ. .

  According to the present invention, since the first and second bolts are arranged along the bolt hole reference line, when the interval between the first and second bolts changes according to the size of the band, A change in the posture of the bracket (a change in the position of the bolt hole reference line) can be suppressed, and the positional relationship of the piping with respect to the cylinder tube can be kept substantially constant. As a result, the pipe fixing structure can fasten a common bracket to bands of different sizes, reducing the types of component assemblies constituting the pipe fixing structure, and reducing the cost of the product.

The perspective view of the fluid pressure cylinder and piping fixing structure which show embodiment of this invention. The perspective view of a piping fixing structure similarly. The top view of a piping fixing structure similarly. The top view of a bracket etc. similarly. The side view of brackets and the like. The top view of a piping fixing structure similarly. The top view of the piping fixing structure which shows a prior art example.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing a part of a cylinder tube 2 constituting the fluid pressure cylinder 1 and the entire piping fixing structure 3 thereof.

  The fluid pressure cylinder 1 is, for example, a hydraulic cylinder that drives a boom or the like of a work machine, and a piston rod (not shown) is expanded and contracted with respect to the cylinder tube 2 by an operating fluid pressure (operating oil pressure) guided by a pipe 4. . The fluid pressure cylinder 1 may use a working fluid such as a water-soluble alternative liquid instead of oil as the working fluid. The fluid pressure cylinder 1 is not limited to liquid but may be air as the working fluid.

  In the fluid pressure cylinder 1, a pipe 4 for guiding a working fluid extends along a side portion of the cylinder tube 2, and the pipe 4 is fixed to the cylinder tube 2 by a pipe fixing structure 3.

  In the pipe fixing structure 3 of the present invention, the pipe 4 is fixed between the pair of bands 10 fixed around the outer peripheral surface 2 a of the cylinder tube 2, the bracket 20 fastened to the band 10, and the bracket 20. A holder 40 for binding is provided, and the pipe 4 is fixed to the cylinder tube 2 at a predetermined position.

  FIG. 1 shows a state where one pipe (hydraulic pipe) 4 is fixed to the cylinder tube 2. However, the present invention is not limited to this, and the pipe fixing structure 3 may be configured to fix two or more pipes 4.

  FIG. 2 is a perspective view showing the band 10 and the bracket 20. FIG. 3 is a plan view showing the band 10.

  The band 10 made of sheet metal has a band plate-shaped band main body 10b wound around the outer peripheral surface 2a of the cylinder tube 2 and a plurality of pairs of flanges 11 protruding from the outer peripheral surface 2a of the cylinder tube 2, and these are pressed. Are integrally formed.

  The pair of bands 10 are curved in a substantially semi-annular shape and are wound from both sides of the cylinder tube 2.

  When the outer diameter of the cylinder tube 2 is D, the band main body 10b is formed to be curved in an arc shape having a curvature radius of approximately D / 2, and is mounted along the outer peripheral surface 2a of the cylinder tube 2.

  The band main body 10b is formed with a band main body end portion 10a by bending both ends in the circumferential direction. Each band 10 is fixed to the outer peripheral surface 2 a of the cylinder tube 2 by fastening the band main body end portions 10 a with bolts 5 and nuts 6.

  A hole 10c is opened in the band main body end 10a, and the bolt 5 is inserted into the hole 10c.

  The nut 6 is fixed to the band body end portion 10a of one band 10 by welding.

  Each band 10 attached to the cylinder tube 2 in this way serves as a base portion for detachably fixing the pipe fixing structure 3 to the outer peripheral surface 2 a of the cylinder tube 2.

  Each rib-shaped flange 11 is formed by bending so as to protrude in the cylinder radial direction (the radial direction of the cylinder tube 2) from both ends of the band main body 10b in the cylinder axial direction.

  Each flange 11 is formed with a flange hole 12. The brackets 20 are fastened to the flanges 11 by the first and second bolts 7 and 8 inserted through the flange holes 12 and the nuts 17 and 18 screwed into the first and second bolts 7 and 8, respectively. .

  Each band 10 shown in FIGS. 1, 2, and 3 has a different specification, and the number of flanges 11 formed is different. Since the bracket 20 is fastened to the band 10 via the two first and second bolts 7 and 8, at least two pairs of flanges 11 need to be formed on the band 10. By increasing the number of the flanges 11 to 3, 4, 5, and 5, the degree of freedom in setting the mounting position of the bracket 20 or the number of mounting brackets 20 can be increased.

  The flange hole 12 is formed as a round hole as shown in FIG. 2, or as a long hole extending in the cylinder radial direction as shown in FIG.

  The connecting portion of the bracket 20 to each flange 11 of the band 10 is not limited to the structure using the two first and second bolts 7 and 8 and the two nuts 17 and 18 screwed to the two as described above. The bracket 20 may be configured to be fastened independently for each flange 11 of the band 10 through four bolts and four nuts screwed to the bolts. Thereby, each leg board part 20a does not leave | separate from each flange 11, but the rigidity which prevents each leg board part 20a from falling is further improved.

  Moreover, not only the fastening structure using a bolt and a nut but it is good also as a structure which welds a bracket to a band.

  FIG. 4 is a plan view showing the band 10, the bracket 20, and the holder 40. FIG. 5 is a side view showing the band 10, the bracket 20, and the holder 40. As shown in FIGS. 4 and 5, the sheet metal bracket 20 includes a pair of leg plate portions 20a fastened across the flanges 11 of the band 10, a top plate portion 20b connecting the leg plate portions 20a, and each leg plate portion 20a. And a seat portion 20d that opens over the top plate portion 20b and seats the pipe 4, and these are integrally formed by pressing.

  The leg plate portion 20 a is formed in a flat plate shape orthogonal to the center line O <b> 2 of the cylinder tube 2 so as to extend along each flange 11 of the band 10.

  Each leg plate portion 20a is formed with a circular first bolt hole 22 and an oval second bolt hole 23, and is fastened to each flange 11 via the first and second bolts 7 and 8 inserted therethrough. Is done.

  The first bolt 7 passes through the first bolt hole 22 of each leg plate portion 20a and the flange hole 12 of each flange 11 respectively. A nut 17 screwed into the first bolt 7 is fixed to the bracket 20 by welding.

  The second bolt 8 passes through the second bolt hole 23 of each leg plate portion 20a and the flange hole 12 of each flange 11 respectively. The nut 18 that is screwed into the second bolt 8 is not fixed to the bracket 20, and its arrangement is changed corresponding to the position of the second bolt 8.

  The top plate portion 20b is formed in a flat plate shape extending in the cylinder axial direction. Each leg plate portion 20a is formed by bending so as to be orthogonal to the top plate portion 20b.

  As a result, the bracket 20 has first and second arch portions 20g and 20f having a U-shaped cross section coupled to each flange 11 and extending in an arch shape, and the first and second arch portions 20g and 20f. A seat portion 20d is formed between which the pipe 4 is seated. The first and second arch portions 20g and 20f of the sheet metal bracket 20 are coupled to the flanges 11 of the sheet metal band 10 to form a cylindrical casing.

  The top plate portion 20b is not limited to this, and may be formed to be curved in a semi-cylindrical shape. In this case, the bracket 20 first and second arch portions 20 g and 20 f are formed in an arch shape having a U-shaped cross section.

  An oval cutout is punched in the metal plate that is the material of the bracket 20, and an oval opening edge 20c is formed around the cutout. The opening edge portion 20c formed in the leg plate portion 20a extends in a semicircular arc shape in the plan view shown in FIG. 6A and constitutes a seat portion 20d on which the outer peripheral surface 4a of the pipe 4 is seated.

  As shown in FIG. 4, the bracket 20 is common to the pipes 4A, 4B, and 4C having different outer diameters. For this reason, the curvature radius R of the seat part 20d is formed corresponding to the pipe 4A having the largest outer diameter in which it is used.

  The holder 40 presses the pipe 4 against the sheet portion 20d, but a holder having a size corresponding to the outer diameter of the pipes 4A, 4B, 4C is prepared.

  The seat portion 20d of the bracket 20 and the holder 40 may be formed in a triangular or trapezoidal square. In this case, the sheet portion 20d of the bracket 20 and the tapered portion of the holder 40 are fitted to the outer peripheral surface 4a of the pipe 4, and the pipe 4 is sandwiched.

  The holder 40 is fastened to the top plate portion 20 b of the bracket 20 via bolts 9 and nuts 19. A hole 20e through which the holder 40 is inserted is formed in the top plate portion 20b. The nut 19 is fixed to the back side of the top plate portion 20b by welding.

  In the holder 40 made of sheet metal, the mounting seat portion 40a and the clamp portion 40b are integrally formed by pressing.

  The flat mounting seat portion 40 a is fastened to the top plate portion 20 b of the bracket 20 via bolts 9 and nuts 19. Thus, the holder 40 is fastened to the bracket 20 by the single bolt 9 and is cantilevered.

  The clamp portion 40 b is curved in an arc shape and abuts along the outer peripheral surface 4 a of the pipe 4.

  The holder 40 is bent and deformed so that the clamp portion 40 b is pressed against the outer peripheral surface 4 a of the pipe 4 in a state where the mounting seat portion 40 a is fastened to the bracket 20. Thereby, the pipe 4 is pressed against the seat portion 20 d by the elastic restoring force of the holder 40, and the pipe 4 is fixed to the bracket 20.

  However, the present invention is not limited thereto, and the holder 40 may be fastened to the bracket 20 by two bolts and supported at both ends.

  As described above, in the band 10, the radius of curvature of the band body 10 b is set to approximately D / 2 corresponding to the outer diameter D of the cylinder tube 2. For this reason, the band 10 having a size corresponding to the outer diameter D of the cylinder tube 2 to which the band 10 is attached is prepared.

  As described above, the bracket 20 is fastened to the flanges 11 of the band 10 by the first and second bolts 7 and 8, but the first bolt hole 22 through which the first bolt 7 is inserted is formed in a circular round hole. On the other hand, the second bolt hole 23 through which the second bolt 8 is inserted is formed in an oval long hole. This corresponds to a change in the position where the second bolt 8 is inserted into the second bolt hole 23 as the size of the band 10 changes.

  In FIG. 6A, a medium band is used for the band 10, and the second bolt 8 is inserted through the center of the oval second bolt hole 23. On the other hand, when the large band 10 is used, the second bolt 8 is inserted through one end of the oval second bolt hole 23 away from the first bolt 7. When the small band 10 is used, the second bolt 8 is inserted through the other end close to the first bolt 7 through the oval second bolt hole 23.

  In the plan view shown in FIG. 6A, a round first bolt hole 22 and a long second bolt hole 23 are formed along a bolt hole reference line G extending linearly. That is, in FIG. 6A, the center point of the first bolt hole 22 is arranged on the bolt hole reference line G, and the center line of the second bolt hole 23 is arranged on the bolt hole reference line G.

  The first bolt hole 22 may be a long hole, the second bolt hole 23 may be a round hole, and these may be formed along the bolt hole reference line G.

  In FIG. 6A, a straight line connecting the center line O2 of the cylinder tube 2 and the center O7 of the flange hole 12 through which the first bolt 7 is inserted is defined as a first fastening portion center line F1, and the center line O2 of the cylinder tube 2 is A straight line connecting the centers O8 of the flange holes 12 through which the second bolts 8 are inserted is defined as a second fastening portion center line F2, and an intersection angle between the first and second fastening portion center lines F1 and F2 is defined as a fastening portion center line sandwiching angle θ. To do.

  In the bands 10 having different sizes, the interval in the circumferential direction between the adjacent flanges 11 is set so that the fastening portion centerline sandwiching angle θ becomes a constant value.

  In FIG. 6A, a straight line passing through the center O7 of the first bolt 7 and orthogonal to the first fastening portion center line F1 is defined as a pipe reference line E, and the pipe reference line E and the bolt hole reference line G intersect. If the angle is the pipe reference angle α, the pipe reference angle α is set to a value θ / 2 which is half of the fastening portion centerline sandwiching angle θ.

6A, the distance between the center line O2 of the cylinder tube 2 and the center O7 of the first bolt 7 is L, and the distance between the center line O2 of the cylinder tube 2 and the center O8 of the second bolt 8 is L. Then, L is expressed by the following equation.
L = D / 2 + H
The distance H is the distance from the outer peripheral surface 2a of the cylinder tube 2 to the center O7 of the first bolt 7 or the center O8 of the second bolt 8, and is arbitrarily set so that the pipe 4 does not interfere with the cylinder tube 2.

6B is a plan view showing a positional relationship between the center O7 of the first bolt 7 and the center O8 of the second bolt 8 with respect to the center line O2 of the cylinder tube 2. FIG. 6B, the lateral phase difference X between the center O7 of the first bolt 7 (flange hole 12) and the center O8 of the second bolt 8 (flange hole 12) is expressed by the following equation.
X = L (1-cos θ)
6B, the longitudinal phase difference Y between the center O7 of the first bolt 7 (flange hole 12) and the center O8 of the second bolt 8 (flange hole 12) is expressed by the following equation.
Y = L × sin θ
In FIG. 6B, the distance Z between the center O7 of the first bolt 7 (flange hole 12) and the center O8 of the second bolt 8 (flange hole 12) is expressed by the following equation.
Z = L × sqrt {2 (1-cos θ)}
The length P of the second bolt hole 23 formed in the shape of a long hole is arbitrarily set corresponding to the maximum value of the distance Z.

  Corresponding to the cylinder tubes 2 having different outer diameters D, the bands 10 having different sizes (inner diameters) are used. Based on the above configuration, in each band 10 having a different size (inner diameter), when the flanges 11 are arranged so that the fastening portion center line sandwiching angle θ is the same value and the distance H is constant, the common bracket 20 Even if it uses, the attitude | position (attachment angle) of the bracket 20 with respect to each band 10 is kept constant, the space | interval of the piping 4 with respect to the cylinder tube 2 is made constant, and it can prevent that both interfere.

  As described above, in this embodiment, the pipe fixing structure 3 fixes the pipe 4 to the cylinder tube 2, the band 10 wound around the outer peripheral surface 2 a of the cylinder tube 2, and the bracket on which the pipe 4 is seated. 20 and first and second bolts 7 and 8 for fastening the bracket 20 to the band 10. First and second bolt holes 22 and 23 through which the first and second bolts 7 and 8 are inserted into the bracket 20, respectively. Is formed along a bolt hole reference line G extending in a straight line, and at least one of the first and second bolt holes 22, 23 is a long hole extending along the bolt hole reference line G, and from the axial direction of the cylinder tube 2. On the viewed plan view, a straight line connecting the center line O2 of the cylinder tube 2 and the center O7 of the flange hole 12 of the band 10 through which the first bolt 7 is inserted is defined as a first fastening portion center line F1, A straight line connecting the center line O2 of the tube 2 and the center O8 of the flange hole 12 of the band 10 through which the second bolt 8 is inserted is defined as a second fastening part center line F2, and the first fastening part center line F1 and the second fastening part center A crossing angle of the line F2 is a fastening part center line sandwiching angle θ, a straight line passing through the center O7 of the first bolt 7 and perpendicular to the first fastening part center line F1 is a pipe reference line E, and the pipe reference line E and the bolt When the crossing angle with the hole reference line G is the pipe reference angle α, the pipe reference angle α is set to a value θ / 2 which is half of the fastening portion center line sandwiching angle θ.

  Based on the above configuration, the first and second bolts 7 and 8 are arranged along the bolt hole reference line G in the pipe fixing structure 3. When the interval of 8 changes, the posture change of the bracket 20 with respect to the band 10 (position change of the bolt hole reference line G) can be suppressed, and the positional relationship of the pipe 4 with respect to the cylinder tube 2 can be kept substantially constant. As a result, the pipe fixing structure 3 can fasten the common bracket 20 to the bands 10 having different sizes, thereby reducing the types of component assemblies constituting the pipe fixing structure 3 and reducing the cost of the product. .

  In the present embodiment, in the plan view viewed from the axial direction of the cylinder tube 2, the band 10 having a different size corresponding to the cylinder tube 2 having a different outer diameter has a constant fastening portion centerline sandwiching angle θ. In addition, the adjacent flange holes 12 are arranged so that the distance H from the outer peripheral surface 2a of the cylinder tube 2 to the center O7 of the first bolt 7 or the center O8 of the second bolt 8 becomes a constant value.

  Based on the above configuration, even if the circumferential interval between the adjacent flange holes 12 changes according to the size of the band 10, the posture of the bracket 20 with respect to the band 10 is kept substantially constant, and the piping 4 with respect to the cylinder tube 2. Can be kept substantially constant.

  In the present embodiment, the piping 4 that guides the working fluid is the fluid pressure cylinder 1 that extends along the side of the cylinder tube 2, and the piping 4 is fixed to the cylinder tube 2 by the piping fixing structure 3.

  Based on the above configuration, the types of component assemblies constituting the pipe fixing structure 3 are reduced, and the cost of the fluid pressure cylinder 1 is reduced.

  The present invention is not limited to the above-described embodiment, and it is obvious that various modifications can be made within the scope of the technical idea.

DESCRIPTION OF SYMBOLS 1 Fluid pressure cylinder 2 Cylinder tube 2a Cylinder tube outer peripheral surface 3 Piping fixed structure 4 Piping 4a Piping outer peripheral surface 7 1st bolt 8 2nd bolt 10 Band 11 Flange 12 Flange hole 20 Bracket 20d Seat part

Claims (2)

A piping fixing structure for fixing piping to a cylinder tube,
A band that is wound around and fixed to the outer peripheral surface of the cylinder tube;
A bracket for seating the pipe;
Comprising first and second bolts for fastening the bracket to the band;
Forming first and second bolt holes through which the first and second bolts are inserted into the brackets along a bolt hole reference line extending linearly;
At least one of the first and second bolt holes is an elongated hole extending along the bolt hole reference line,
On the plan view seen from the axial direction of the cylinder tube,
A straight line connecting the center line of the cylinder tube and the center of the flange hole of the band through which the first bolt is inserted is a first fastening portion center line,
A straight line connecting the center line of the cylinder tube and the center of the flange hole of the band through which the second bolt is inserted is a second fastening portion center line,
The intersection angle between the first fastening part center line and the second fastening part center line is the fastening part center line sandwich angle,
A straight line passing through the center of the first bolt and orthogonal to the center line of the first fastening portion is a pipe reference line,
When the intersection angle between this pipe reference line and the bolt hole reference line is the pipe reference angle,
A pipe fixing structure characterized in that the pipe reference angle is set to a value half of the clamping part center line sandwich angle. The piping for guiding the working fluid extends along the side of the cylinder tube;
A fluid pressure cylinder characterized in that the pipe is fixed to the cylinder tube by the pipe fixing structure according to claim 1.

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