JPS6170214A - Bolt tensioner - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention [Industrial Application Field 1] The present invention relates to a bolt tensioner for applying a tensile force to a bolt corresponding to a specified tightening force when tightening a nut. This bolt tensioner is made smaller and lighter by improving the shape of the nut that engages the bolt and the ram that presses the nut, thereby equalizing the load shared by each thread.

[Conventional technology] Methods for tightening a nut on a bolt include the torque method using a hydraulic wrench or electric wrench, the nut rotation angle method, and the method of tightening the nut by heating only the bolt until the temperature of the bolt reaches room temperature. Various methods are known, such as a heating method that uses the contraction force when
There is a tension method in which a tensile force equivalent to the specified tightening force is applied to the bolt and the nut is fixed in place. In tightening the pole l- by this method, a hydraulic bolt tensioner equipped with a cylinder and a ram is used to apply a tensile force to the bolt corresponding to a specified tightening force.

FIG. 2 shows an example of a conventionally known POL tensioner. In the figure, 1 is an object to be tightened that is fixed by bolts and nuts, 1a is the surface of the object to be tightened 1 which is the seating surface of the nut with hII, and 2 is a bolt insertion hole drilled in the object to be tightened 1. be.

A bolt 3 is inserted into the bolt insertion hole 2, and a tightening nut 4 is screwed into the protruding portion from the surface 1a of the object 1 to be tightened.

Since the bolt tensioner is attached to the outside of the bolt 3 and the tightening nut 4, which are in a rough state, first, the outer periphery of the tightening nut 4 is covered with a cylindrical ram chair 5. The legs of the ram chair 5 are in contact with the surface 1a of the fastener 1, and the upper part supports a cylinder 6 and a ram 7, which are separate members from the ram chair 5. , an opening 5a is provided on the side of the ram chair 5 so that the hM (J-nut 4) can be rotated from the outside of the ram chair 5 to the inside.The cylinder 6 and the ram 7 are both ring-shaped. Without, Ram Chair-5
The threaded portion of the inner diameter portion of the ram 7 is screwed into the threaded portion of the bolt 3. The cylinder 6 is provided with a hydraulic port 6a, and by supplying pressure oil to the cylinder 6b between the cylinder 6 and the ram 7, the ram 7 is moved upward. Further, a nut 8, which is a separate member, is supported.

This nut 8 is screwed into the threaded portion of the pole 1-3 by inserting a tool into an engaging hole 8a provided on its outer periphery and rotating it.

With a conventional bolt tensioner having such a structure, in order to apply a tensile force equivalent to a specified tightening force to the bolt 3 and fix the tightening nut 4, pressurized oil is supplied to the cylinder 6 and the ram 7 is moved - 11, the nut 8 supported by the ram 7 rises, a tensile force is applied to the bolt 3 into which the nut 8 is screwed, and the bolt 3 becomes i=. In this case, the reaction force of the tensile force of the pole 1-3 is received by the surface 1a of the object to be tightened 1 via the ram chair 5 supporting the cylinder 6. When a tensile force equivalent to the specified tightening force is applied to the bolt 3, a gap is created between the tightening nut 4 screwed into the bolt 3 in advance and the surface of the target Itm Nl vIJl, so that the legs of the Ram Chair-5 are tightened. Insert the tool through the opening 5a provided in the section, press the tip of the tool into the hole 4a provided around the tightening nut l-4, and tighten the nut.
After fixing the tightening nut 4, drain the pressure oil from the cylinder 5/) to the drain, the ram 7 will descend, and the bolt 3 will be tightened until the A tensile force equivalent to the tightening force will be applied.

[Problems to be solved by the invention] By the way, this type of bolt tensioner uses hydraulic pressure of 1500 kq/C...2 Jfl in order to apply a large tensile force to the bolt up to nearly 80% of the yield point.
AI pressure, and each component is thickened to withstand it.
It comes with a skewer. Therefore, the tightening equipment is expensive and cannot be easily carried, so it is not suitable for use in places with good conditions such as factories.
When working in a high place or in a narrow space, such as during A5 maintenance after product installation, there is a problem that it is not suitable for practical use.

However, in the conventional bolt tensioner mentioned above, since the nut 8 was supported on the upper surface of the ram 7, the height of the ram chair 5 was set to hl, and the cylinder 6 and ram 7
Let h2 be the combined height of the nut 8, and h3 be the height of the nut 8, then the height H of the entire pol]-tensiffener is H-h1+h2+h3, and in this case, the height of the ram chair-5 is The height hl cannot be reduced below a certain level depending on the size of the tightening nut 4 to be tightened, and the convexity h2 of the cylinder 6 and ram 7 is also determined by the size of the tensile force applied to the bolt 3. It was impossible to make this part smaller and lighter.

In addition, since the nut 8 also requires a gripping allowance of 80% or more of the diameter of the bolt 3, it is impossible to make the n length h3 of the nut 8 around 1. It was thought that it was impossible to make the body smaller and lighter. Also, there are 10 cars on some of the screw threads in the gripping area! There is also the problem of using I-co.

[Means for Solving the Problems 1] The present invention aims to solve the problems of the prior art as described above and to provide a bolt tensioner that is smaller and lighter in weight. The following measures were adopted.

The bolt tensioner of the present invention comprises a conical nut having a flange portion formed at the upper portion and a truncated conical convex portion formed at the lower portion thereof, and the upper surface of the ram supporting the conical nut. By forming a support part that supports the flange part of the conical nut and a truncated conical recess that fits into the truncated conical convex part, the bolt and the conical nut can be gripped securely. , the amount of protrusion of the conical nut from the upper surface of the ram is reduced, the entire bolt tensioner is made smaller and lighter, and the load of each thread + n is balanced.

[Example] An embodiment of the present invention will be described below with reference to FIG.

Note that the same members, such as the conventional bolt tensioner shown in FIG. 2, are designated by the same reference numerals, and a description thereof will be omitted.

In this embodiment, the conical nut 18 supported on the upper part of the ram 17 has a flange portion 18b and a flange portion 18b.
b and a truncated conical convex portion 18c integrally formed. The inner diameter of this conical nut 18 is formed with a female thread that is screwed into the threaded part of the bolt 3.
At least 80 parents of the diameter are secured.

On the other hand, on the upper surface of the ram 17 that supports the conical nut 18, a support portion 17a is horizontally formed to abut on the lower surface of the seven flange portions 18b of the conical nut 18.

Further, a truncated conical recess 17b is formed in a portion of the inner diameter side of the ram 17, and is fitted with a truncated conical convex portion 18C at the lower part of the conical nut 18. This truncated conical recess 1
7b is formed so as to fit with the truncated conical convex portion 18c of the conical nut 18 without contacting each other but with a slight gap.

Although not explained in detail in the prior art shown in Fig. 2,
This ram 17 is slidably assembled with the cylinder 6, and a cylinder plan 6b is formed at the joint between the two, to which pressure oil is supplied from the port 6a. In order to ensure the sealing performance of this cylinder 6b, a packing 11 held by a packing presser 10 is provided on the sliding surfaces of both cylinders. Note that 12 is a backup ring that supports the packing 11, and 13 is a dirt catcher that prevents foreign matter from entering the sliding surface.

Further, a stopper 14 for preventing the dirt receptacle 13 from being removed is provided at the upper part of the cylinder 6.

The bolt tensioner of this embodiment having such a configuration applies tensile force to the bolt 3 by supplying pressure oil to the cylinder 6 to raise the ram 17 and raising the conical nut 18 in the same way as in the conventional example. It gives

However, in this embodiment, the conical nut 18 has a truncated circle ↑I
It has an E-shaped convex part 18c, and the force from the ram 17 is supported by the flange part 18b, which is a structure called "slimming" in the technical field of screw connections.
The loads shared by each thread in the gripping area between the conical nut 18 and the bolt 3 are balanced. As a result, unlike the conventional POL 1 tensioner, it is possible to avoid the burden of VJ machining on some threads, and the ram 17
It is possible to prevent damage to the screw threads even under the great pressure of screws. Further, the truncated conical convex portion 18c of the conical nut 18 is
Ram 17i! Since the conical nut 18 is fitted into the R-head conical recess 17b, the protrusion height h3 of the conical nut 18 from the surface of the ram 17 is
- is much smaller than the protrusion height h3 of the conventional nut in which all the mouthpieces protrude. As a result, the overall height H' of the bolt tensioner can be lowered, and
As a result of providing the truncated conical recess 17b for fitting the conical nut 18, the weight of the ram 17 itself has been reduced, and when taken together, the bolt tensioner of this embodiment is significantly smaller than the conventional type. It becomes lighter. Although the ram chair and ram are separate bodies in this embodiment, it is obvious that they may be formed integrally.

[Effects of the Invention] As described above, according to the present invention, a conical nut is used as the nut, and the ram is provided with a truncated conical recess that fits into a truncated conical convex portion of the conical nut. With this configuration, it is possible to provide a bolt tensioner that is small and lightweight while ensuring sufficient gripping allowance between the bolt and conical nut that applies a tensile force, and balancing the directions m of each screw thread. As a result, it becomes easier for workers to transport and handle the bolt tensioner, and this has great effects, such as making it easier to tighten nuts even in high places or in narrow spaces during product maintenance and inspection.

[Brief explanation of the drawing]

FIG. 1 is a partially sectional view showing an embodiment of a bolt tensioner of the present invention, and FIG. 2 is a partially sectional view showing an example of a conventional bolt tensioner. 1... object to be tightened, 2... bolt insertion hole, 3... bolt, 4... tightening nut, 4a... tool insertion hole,
5... Ram chair, 5a... Ram chair frontage, 6... Cylinder, 6a... Hydraulic boat, 6b
...Cylinder to, 7.17...Ram, 17a...
Conical nut support portion, 17b... truncated conical recess;
8.18... Nut, 8a... Tool insertion hole, 18
b...flange part, 18C... truncated conical convex part,
10...Patchkin presser, 11...Packkin, 12.
... Backup ring, 13... Garbage receptacle, 1/I
...stopper.

Claims (1)

[Claims] When a tensile force equivalent to a specified tightening force is applied to a bolt, there is a ram chair that receives the reaction force, a cylinder and ram supported by this ram chair, and a tensile force that is supported on the top of this ram and applied to the bolt. In the bolt tensioner, the nut is a conical nut having a flange portion formed in the upper part and a truncated conical convex part formed in the lower part, and the upper surface of the ram supporting the conical nut. a support portion that supports the flange portion of the conical nut;
A bolt tensioner characterized in that a truncated conical concave portion is formed to fit with the truncated conical convex portion of the conical nut with a gap.