RU2224071C2 - Constructing-and-mounting gun and spring thereof - Google Patents

Abstract

FIELD: constructing-and-mounting gun for fastening member driving in, particularly for peg or pin driving in. SUBSTANCE: gun has body and working plunger movably inserted in gun body. Working plunger can perform reciprocal motion for fastening member driving. Working member is actuated by ignition charge. Gun has spring formed of resiliently deformable material, particularly of elastic material. Spring moves working piston into initial position after driving cycle. Spring has non-deformable reinforcement members distributed along spring length and having orifices. Spring is vulcanized through reinforcement member orifices. EFFECT: prevention of uncontrolled elastic bush deformation during working plunger movement with quick acceleration. 13 cl, 2 dwg

Description

The invention relates to a construction and assembly gun, by means of which a fastening element can be driven, which, as a rule, has the shape of a pin or pin. The construction-mounting gun contains a working piston, driven by gases of a flammable substance after ignition of the cartridge and providing for driving a pin when it makes a feed movement.

It is preferable that, in particular, in the automatic mode of use of such a construction and mounting gun, in which the fasteners are driven from the magazine attached to the gun, the working piston automatically returns to its original position.

A construction-mounting gun of this type is known (US Pat. No. 3,331,546), in which a plurality of Belleville springs are located around the piston rod to achieve this goal. These Belleville springs are made primarily of polyurethane and are located with the so-called inverted alternation, as a result of which a package is formed of unrelated springs.

The basis of the invention is the task of creating a construction and installation gun in which the working piston after driving the fastener would return to its original position and which would be characterized by durability if there was no need to replace the springs. The basis of the invention is also the task of creating a spring for such a construction gun.

To solve this problem according to the invention, a construction and assembly gun is proposed, the signs of which are indicated in paragraph 1 of the claims, as well as a spring to it with the signs set forth in paragraph 15 of the formula. Examples of the device made according to the invention are set forth in the dependent claims.

The location of the spring, which is stretched during the driving of the fastener, when overcoming its compressive force, provides, with the simplicity of the design of the gun, the ability to return the working piston at the end of the hammering to its original position. Immediately upon completion of driving, the next fastener may become clogged.

In an embodiment of the invention, it can be provided that the piston rod has a reduced diameter and that a spring made in the form of a sleeve is arranged around it and along at least part of its length.

The spring according to the invention, when assembling the pistol, is simply put on the piston rod, after which the pistol is assembled. Now it is no longer necessary to monitor the location of the individual disk springs, which in turn should be constantly located opposite.

As an embodiment of the present invention, it may be provided that the spring is located between the part of the pistol not participating in the movement of the working piston and the working piston itself. Then the spring will directly affect the working piston.

In an embodiment of the construction gun according to the invention, it can be provided in particular that the spring acts on the brake element interacting with the working piston. In this case, at the end of the piston stroke, when the spring is tight, this movement is partially converted by the brake element into braking movement.

The spring thus made can be, for example, a tension spring. However, it is most optimal for the spring to be made in the form of a compression spring, as a result of which, when the fastener is clogged, the spring is loaded with compression force.

In another exemplary embodiment of the construction and assembly gun of the invention, it may be provided that stiffeners which are not deformed per se are distributed along the length of the spring. Such stiffeners may in particular be made of harder and / or some other material. In this case, the deformation of the spring will occur in small areas located between, respectively, two stiffeners, as a result of which it becomes possible to ensure its slight deviation from the cylindrical shape with strong compression of the spring.

In particular, in another embodiment of the construction and assembly pistol made according to the present invention, it can be provided that when the working piston moves, the stiffening elements are guided when they are moved by this piston and / or its working surface. Therefore, the situation is excluded in which the spring consisting of an elastomeric material, during accelerated movement during feeding, is unilaterally deformed or untwisted to such an extent that it can interfere with the piston feed movement or even destroy it.

In particular, it can be provided that the stiffening elements are in the form of metal ring washers, the outer diameter of which essentially corresponds to the inner diameter of the piston working surface, as a result of which they will be guided along their outer side. In addition, their inner diameter can essentially correspond to the outer diameter of the piston rod, as a result of which they can be guided along their inner side, thereby preventing distortion.

According to the invention, it can be provided that the spring and the stiffeners are interconnected by vulcanization. As a result, a single spring is formed, which is performed as a separate element, and has all the necessary properties.

In particular, it can be provided that the wall thickness of the spring is equal to not more than half, preferably not more than one third, of the value that makes up the difference between the radius of the stiffeners and the radius of the inner hole of these elements. The result is a position in which the axial length of the spring along the axis in the compressed state is relatively small and is determined mainly only by the thickness of all the stiffeners, which are almost adjacent to each other.

Preferably, the sleeve spring would be located near the inner bore of the stiffeners and therefore close to the piston rod. Therefore, its deformation is carried out primarily along the radial line to the outside.

Preferably, the spring at rest would have a cylindrical shape.

The stiffeners can be located, in particular, equally spaced from each other, which has, among other things, the consequence that the spring will not have front and rear ends. Therefore, the orientation of the spring when assembling the gun will not be difficult.

Preferably, the stiffeners would be positioned so that the distance between them corresponded to essentially half their diameter.

Other features, details and advantages of the device made according to the invention are given in the claims made in view of the description and in the following description of a preferred embodiment of the invention with reference to the drawings, in which:

FIG. 1 schematically depicts a longitudinal section passing through the most critical nodes of a construction gun made according to the invention;

FIG. 2 is a front view of a stiffener made in the form of an annular washer and intended for a spring in the device shown in FIG. 1, on an enlarged scale.

Figure 1 shows in simplified form a longitudinal section of a construction gun made in accordance with the invention. A construction gun made according to the invention comprises a rear housing 1 in which, inter alia, devices for supplying and igniting a charge of a flammable substance are disposed. Such details are not shown. A piston sleeve 2 is placed in the housing 1, forming on its inner side a cylindrical cavity 3. In this cylindrical cavity 3 there is a working piston 4, which is sealed with respect to the cavity 3 by means of not shown seals. The working piston 4 is able to move inside the cylinder cavity 3. This movement is caused by the charge of a flammable substance flammable on the right side of the working piston 4 shown in FIG. 1.

On the front, i.e. figure 1 on the left, the end of the cavity 3 of the cylinder posted by an annular element 5 of elastomeric material adjacent to the end wall 6 of the head sleeve 11 and forming a brake buffer. On the side of the brake buffer 5, facing away from the end wall 6, there is a brake cone 7, which can be moved inside the sleeve 2. The brake cone 7 has an internal funnel-shaped hole 8, expanding towards the working piston 4.

On the front end surface of the working piston 4, i.e. on the side facing away from the charge of a flammable substance, a piston rod 9 is attached to the working piston 4, the first half of which, directly adjacent to the working piston 4, has one first diameter, and the section adjacent to it and oriented towards the free end has a second, further reduced, diameter.

As a result, an annular chamber is formed between the piston rod 9 and the sleeve 2, in which the return spring 10 is located. The return spring 10 is made in the form essentially repeating the shape of the sleeve and is located between the end surface of the working piston 4 with the rod 9 and the corresponding opposite end surface brake element 7.

An outer head sleeve 11 with a cylindrical cavity 12 is mounted on the front end of the sleeve 2, designed to accommodate the fastening element itself. A hole is made at the base of the cylindrical cavity 12 through which the front end of the piston rod 9 is passed.

A sleeve nozzle 13 is located on the head sleeve 11 with axial displacement, the free end 14 of which has an annular shape and protrudes somewhat with respect to the end edge 15 of the head sleeve 11. The sleeve nozzle 13, on its side facing the gun, passes into a radial flange 16, on the end side of which is placed a buffer 17 made of elastomeric material.

The return spring 10 is in the form of a cylindrical, longitudinally elongated sleeve 18 made of elastomeric material and which is vulcanized through the corresponding holes of numerous stiffening elements 19. The stiffening elements 19 are located at an equal distance along the elastomeric sleeve 18. Their outer edges they are placed at a small distance from the inner wall of the cavity 3 of the cylinder. The stiffening elements 19 are axially provided with a central hole 20 of a circular shape, by means of which they are arranged in a row on the piston rod 9. The inner diameter of said bore 20 substantially corresponds to the outer diameter of the thickened portion of the piston rod 9.

The wall thickness of the elastomeric sleeve 18 is from about one quarter to about one third of the distance between the outer perimeter of the thickened part of the piston rod 9 and the inner diameter of the cavity 3 of the cylinder or the outer diameter of the working piston 4. The placement of the elastomeric sleeve 18 is chosen so that it would be located close to from the Central axial hole 20 of the stiffening elements 19.

Figure 1 shows the construction and installation gun in its original position, in which the working piston 4 is displaced almost to the rear end of the cavity 3 of the cylinder. In this position, the fastener may be inserted into the cavity 12 of the head sleeve 11. The return spring 10 is at rest. When the cartridge for generating working gases is ignited for driving the fastener, the working piston 4 moves at a high speed from the initial position shown in FIG. 1 to the driving position, i.e. to the left. As a result, the return spring is compressed. Since the stiffening elements 19 made of metal are not deformed and, moreover, move both along the piston rod 9 and along the wall of the cylinder cavity 3, the sleeve 18 is deformed only in the area located between the stiffening elements 19, where the material deforms first turn out. Thus, the spring 10 is shortened, taking the form of a compressed accordion, and the deformation of the elastomeric sleeve 18 is evenly distributed along the length of the spring.

By the end of the clogging stroke, when the spring 10 is almost completely deformed and the individual stiffeners 19 are adjacent almost close to each other, the residual piston pulse acts on the brake element 7, causing the brake buffer 5 to compress. Such compression of the brake buffer 5 leads to a decrease in its inner diameter and as a result, the piston rod 9 is braked and stopped. The residual displacement occurring in this case is inhibited by the buffer element 17. After the fastener is clogged, the spring 10 moves the working piston 4 to the initial position shown in FIG. 1.

Figure 2 shows a front view of the stiffener 19, shown on an enlarged scale. The stiffening element 19 has the form of a metal ring washer 21 made, for example, of aluminum. Concentric with respect to the central hole 20, a series of circular holes 22 of a smaller diameter are made. These holes 22 with their location and their diameter correspond to the location and wall thickness of the elastomeric sleeve 18. Through these holes 22, the vulcanization of the elastomeric sleeve 18 is performed, while connecting with the metal washers 21. As a result, a spring is formed in the form of a separate structural element, which due to the stiffening in the device of figure 1 is protected from bending.

Claims (13)

1. Construction and mounting gun, comprising a housing 1, a working piston 4 with a rod 9, located in the housing 1 with the possibility of a reciprocating movement, driven by a flammable charge and made for driving the fastener, as well as a spring 10 made of elastically deformable material , in particular from an elastomer, to return the working piston to its original position after the driving process, characterized in that the spring 10 has distributed along its length, non-deformable, provided with holes elements w stkosti 19, the spring 10 provulkanizirovana through these openings. 2. The gun according to claim 1, characterized in that the spring 10 is made sleeve-shaped and covers at least part of the rod 9 of the working piston. 3. The gun according to claim 1 or 2, characterized in that the spring extends between the rigidly located brake element 7 and the working piston 4. 4. A gun according to any one of claims 1 to 3, characterized in that the spring 10 is configured to act on the brake element 7, interacting with the working piston 4. 5. A gun according to any one of claims 1 to 4, characterized in that the stiffening elements 19 are arranged to be guided by a moving working piston and / or its working surface. 6. A gun according to any one of claims 1 to 5, characterized in that the stiffening elements 19 are made in the form of ring washers 21 consisting of metal, ebonite or plastic, the outer diameter of which essentially corresponds to the inner diameter of the piston 4 working surface and the inner diameter which corresponds to the outer diameter of the piston rod 9. 7. A gun according to any one of claims 1 to 6, characterized in that the wall thickness of the sleeve 18 of the spring 10 is at most half the difference between the radius of the stiffener 19 and the radius of the inner hole 20 of the stiffener 19. 8. The gun according to claim 7, characterized in that the sleeve 18 of the spring 10 is located closer to the inner hole 20 of the stiffener than to its outer perimeter. 9. The gun according to any one of claims 1 to 8, characterized in that the spring 10 in a resting position has a cylindrical shape. 10. A gun according to any one of claims 1 to 9, characterized in that the stiffening elements 19 are located equidistant from each other. 11. The gun according to any one of claims 1 to 10, characterized in that the stiffening elements 19 are located at different distances from each other, in particular at the end sections of the spring 10 at a shorter distance. 12. A gun according to any one of claims 1 to 11, characterized in that the distance between two adjacent stiffeners essentially corresponds to half of their outer diameter. 13. The spring 10 for the construction and installation pistol according to any one of claims 1 to 12, made of progodeformable material, in particular from elastomer, to return the working piston 4 of the construction and installation pistol to its original position after the driving process, characterized in that the spring 10 equipped with distributed along its length, having holes stiffening elements 19 and vulcanized through these holes.

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