RU2466855C2 - Electrical hand-held machine with vibration-isolating handle - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: hand-held machine contains a housing and a handle interconnected by turning fastening and vibration-isolating unit to linear motion guide. Linear motion guide contains two linear guide elements, each of them is installed in elastic vibration-isolating element with possibility of directed movement in it. Each vibration-isolating element is designed as a bushing with through-hole guiding movement of linear guide element. Linear guide elements are rigidly fixed on handle. Vibration-isolating elements are fixed on housing.

EFFECT: preventing transmission of impact load from housing to handle.

15 cl, 3 dwg

Description

State of the art

The present invention relates to an electric manual machine, especially a manual rotary hammer having a housing and a handle, which are interconnected by a rotary mount and at least one vibration-isolating unit spaced from the axis of this rotary mount, provided with at least one linear guide.

In a known electric manual machine of the type indicated at the beginning of the description, which is made in the form of a perforator, the handle is movably fixed to the body of the manual machine with the possibility of rotation relative to it. The swivel mount required for this is located at one end of the handle, which is approximately U-shaped. At the other end of the handle is a vibration isolating unit designed to reduce vibrations that occur when the hammer is operated. Such a vibration-isolating unit has a helical compression spring, which at one end rests on the body of a manual machine, and with its other end rests on its handle. The pre-compression force of the helical compression spring is perceived by a linear guide, which is rigidly connected to the handle on one side and movably connected to the housing on the other hand and which is in the initial position, i.e. in the position in which the punch operator does not apply any manual forces to the handle, it is firmly attached to the body in the direction of its movement. This design, in principle, has proven itself in practice, but requires further improvement in order to reduce the vibrations transmitted to the handle of the manual machine, respectively, in order to increase the efficiency of vibration isolation of the handle of the manual machine relative to its body.

Summary of the invention

The electric hand machine proposed in the invention is characterized in that the linear guide has two linear guide elements, each of which is mounted in an elastic vibration-isolating element with the possibility of directional movement in it, each vibration-isolating element is made in the form of a sleeve with a through hole guiding the movement of the linear guide element , linear guiding elements are rigidly fixed on the handle, and vibration-insulating elements made in the form of bushings are fixed in the housing.

In this design, the linear guide no longer forms a relatively rigid jumper between the body of the hand-held machine and its handle, since they, due to the presence of an elastic vibration-isolating element, are not rigidly interconnected and are vibration-insulated from each other. The design proposed in the invention allows the operator to accurately transmit the guiding forces to the electric hand-held machine and at the same time significantly reduces the unwanted transmission of vibrations to the handle and through it to the operator.

In one embodiment of the invention, the linear guide element for movable seating is inserted into the landing through hole of the vibration isolating element. Accordingly, the linear guide element is passed through this through hole and, in the preferred embodiment, has a head that rests or is supported by the vibration isolating element. When the tool of the electric manual machine is pressed to the place to be processed, the head of the linear guide element moves away from the vibration-isolating element, however, however, the linear guide element is kept from lateral withdrawal by the walls of the guide through which it moves a through hole in the elastic vibration-isolating element.

In a preferred embodiment, the linear guide element is made in the form of a screw, the head of which forms the head of the linear guide element.

In a further preferred embodiment of the electric hand-held machine according to the invention, its body and handle in the area of the vibration isolating unit are loaded with the force of at least one spring element. Such a springing element, when it acts on the handle, tends to squeeze it from the body of the manual machine and turn it around the axis of the swivel mount. In this case, however, the head of the linear guide element abuts against the vibration-isolating element and as a result limits the rotation of the handle. When working with an electric manual machine, when the operator holds it by the handle and presses it to the place to be processed, the handle turns slightly towards the body while compressing the spring element, while the head of the linear guide element moves away or can move away from the body of the manual machine. However, in its transverse direction, the linear guide element abuts against the walls of the through-hole guiding its movement in the elastic vibration-isolating element while damping the vibrations.

The spring element may be, for example, a compression screw spring.

In a further preferred embodiment, two linear guide elements may be provided between which a spring element is arranged.

It is also preferable to perform the pivot mounting with a vibration isolating device in order to prevent the transmission of too strong vibrations to the handle of the manual machine through the pivot mount connecting the handle of the manual machine and its body.

In a preferred embodiment, the swivel mount has a first support part with a mounting hole in which a fastener is separated from its walls by at least one elastic vibration-isolating part. The mounting hole is preferably located on the body of the manual machine. The vibration-isolating part is made primarily in the form of a vibration-isolating ring, which is located in the specified mounting hole and serves as a vibration-suppressing support for the fastener.

In a further preferred embodiment, at least one end of the fastener is attached, in particular detachably fastened, fastener means passed through an opening in the second support part of the pivot mount. The second supporting part preferably relates to the handle, and the first supporting part to the body. In accordance with this, the fastener, vibrationally mounted in the mounting hole of the first supporting part, is intended for fastening the fastening means to which the second supporting part is fastened, i.e. first of all the handle. Thus, the handle is vibroisolated relative to the housing and in the area of the swivel mount.

In another preferred embodiment, between the first and second supporting parts is a section of the vibration-isolating part. As a result of this, even when the electric manual machine is operating in severe conditions, the transmission of vibrations from its body to its handle is excluded due to impacts of the body into the handle. The transfer of such an impact load from the housing to the handle is prevented by the presence of a portion of the vibration isolating part intermediate between the first and second support parts.

The reduction of time and money spent on the manufacture of a manual machine is achieved when the handle is equipped with a rubber lining (rubberizing), and the vibration-isolating elements are made of the same material as the specified lining, simultaneously with it. In this case, vibration-isolating elements can be made by applying under pressure the material applied to the handle of the rubber lining inside the handle.

Brief Description of the Drawings

Below the invention is described in more detail on the example of one of the variants of its implementation with reference to the accompanying drawings, which show:

figure 1 is a side view and partially in section of an electric manual machine in the form of a perforator,

figure 2 is a view in longitudinal section of a vibration-isolating node with which the handle of the hammer is attached to its body, and

figure 3 - vibration-insulated swivel mount, which in this case, as an example, is located on the lower end of the handle and with which it is also attached to the body of the drill.

Description of Embodiment (s) of the Invention

Figure 1 shows an electric manual machine 1 having a housing 2 and a handle 3 fixed thereon. The handle of the manual machine is attached to its housing by a rotary mount 4, which is located in the end part 5 of the handle 3, which is preferably U-shaped. In its other end part 6, the handle 3 is connected to the casing 2 by a vibration-isolating unit 7. The swivel mount 4 is also made damping (vibration damping), and therefore the vibrations of the casing 2 that occur when working with an electric manual machine made in this case in the form of a perforator are only felt slightly or even not at all felt on the handle 3. The rotary mount 4 has an axis 8, which is oriented perpendicular to the direction of movement of the feed of the electric manual machine 1, indicated by 9, when working with it. The vibration isolating assembly 7 is provided with a linear guide 10 (FIG. 2), which allows the end part 6 of the handle 3 to be moved relative to the axis 8 in the direction indicated in FIG. 1 by the bidirectional arrow 11.

Figure 2 shows in more detail the design of the vibration isolating assembly 7 and the linear guide 10, while two linear guides 10 are provided between which the vibration isolating assembly 7 is located. Below, only one of such linear guides 10 is considered, since the other linear guide has a similar design.

The vibration-isolating unit 7 has two springing or elastic elements 12 arranged concentrically to each other, made in the form of compression coil springs 13 of different diameters, which are concentrically inserted one into the other and which with their one end 14 rest on the handle 3, and rest with their other end 15 on the housing 2 and thereby act in the direction of arrow 16 on the handle 3, squeezing it from the housing 2. When working with an electric manual machine 1, the operator, holding it by the handle 3, thereby controls the movements of the electric manual machine and applies to it, if we are talking about a puncher, pressing forces in the direction opposite to the direction of arrow 16. Under the action of such pressing forces, the compression ratio of compression screw springs 13 increases, since the handle 3 approaches the housing 2. In this case, the variable gaps between the housing 2 and the handle 3 is closed by elastic corrugated (bellows) covers 17. To ensure accurate supply of the electric manual machine 1, the above linear guide 10 is provided, which limits the number of degrees of freedom of the handle and allows you see its movement relative to the body of the manual machine within certain limits in the directions indicated by the bidirectional arrow 11 (Fig. 1). For this, the linear guide 10 has a linear guide element 18 rigidly fixed to the handle 3. Such a linear guide element 18 is made in the form of a screw 19, which is screwed into the blind hole 21 in the handle 3 with its thread 20. The shaft 22 of the screw 19 is oriented in the direction of the housing 2 and passes through the through hole 24, forming a landing hole 23 in the elastic vibration-isolating element 25, which is fixed in the mounting socket 26 in the housing 1. The vibration-isolating element 25 is made, in particular, in the form of a sleeve. The screw 19 has a head 27, which forms the head 28 of the linear guide element 18 and which, in the position shown in Fig. 1, with its inner side 29 abuts against the wall 45 of the housing 2 in front of the vibration isolating element 25. The screw shaft 22 has the possibility of directional movement in the through hole 24 in its longitudinal direction.

When pressing in the process of working with an electric manual machine 1 on its handle 3 in the direction opposite to the arrow 16 shown in FIG. 2, such pressure occurs against the force of the compression screw springs 13, as a result of which the screw head 27 may slightly depart from the wall 45 of the housing 2 in front of the vibration isolating element 25. Moreover, due to the fact that the linear guide element 18 is passed through the through hole 24 with the possibility of directional movement in it, the linear guide element is laterally removed, i.e. its movement is transverse to the direction of the arrow 16, and thereby provides its lateral stability.

Below with reference to figure 3, vibration isolation of the handle in the center of its rotation relative to the body of the manual machine is described in more detail, i.e. in the swivel mount 4. This swivel mount has a first supporting part 30 with a mounting hole 31, which is connected to the housing 2 of the manual machine or made on it. A vibration-isolating part 32 is arranged in the mounting hole 31 in the form of a vibration-isolating ring 33. In the embodiment shown in FIG. 3, two vibration-isolating parts 32 are provided on the end sections of the first support part 30. However, the design of the pivot mount is described in more detail only on one side thereof, e. in the area of the vibration insulating ring 33, since on the other hand, the swivel mount has the same design. In such a swivel mount, the support axis is formed by a fastener 34, which passes through the vibration isolating ring 33 and thereby is vibration-insulated by it. The handle 3 through the support element 37 is mounted on the fastener 34 by a screw 38 so that the vibration isolation element 33 protrudes somewhat from the first support and thereby forms a vibration isolation gap "a" between this first support 30, which refers to the housing 2, and the second supporting part 40, which relates to the handle 3.

Thus, when vibration is caused by small rotary movements of the handle 3 around the axis 8, the elastic vibration-isolating part 32 ensures damping of the vibration and thereby vibration-isolates the handle 3 of the hand-held machine relative to its body 2.

From the above explanations it clearly follows that the vibration isolating element 25 and the vibration isolating part 32 provide vibration isolation of the handle of the manual machine relative to its body. Both of these details, i.e. the vibration isolating element and the vibration isolating part can be made, for example, of rubber or foam (for example, polyurethane). Due to the presence of an end stop (the function of which is performed by the screw head 27) and a wall 45, in front of the vibration isolating part, the handle, even when the above vibration isolating parts fail, remains reliably connected to the electric manual machine, i.e. with her body. In extreme cases, an electric hand-held machine can continue to operate with limited vibration isolation. The above explanations further indicate the simplicity of the design of the vibration-isolating system and the possibility of its simple coordination with the design of an electric tool, i.e. with the design of a concrete type electric hand-held machine. The parts performing the main vibration-isolating function can be manufactured in a simple way, especially in the form of cylindrical bushings, and replaced with parts of a material with a different density and / or other damping properties. When using injection-molding material for the manufacture of vibration-insulating elements, it is possible to feed the material by extrusion applied to the handle, or by extruding the rubber lining through specially provided and preferably optimally placed holes inside the handle, and thus, during the process of gumming, simultaneously extrude elastic vibration-isolating guide elements , i.e. the vibration isolating element 25 and the vibration isolating part 32. The vibration isolating element 25 forms a relatively rigid lateral stop for the linear guide element 18 passing through it, which limits the lateral deviation of this linear guide element to a certain value. Thus, with effective vibration isolation, it is possible to firmly hold the electric hand-held machine and provide accurate directional feed when working with it. Vibration isolating elements allow you to place them in a rather limited mounting space. They can even be “integrated” into the circuit of existing electric manual machines, which makes it possible to equip them with similar vibration-isolating elements for a given installation space. Instead of the handle, which is the main handle, or in addition to the vibration isolation parts proposed in the invention, accordingly, additional handles of electric manual machines can also be equipped.

Claims (15)

1. An electric manual machine, primarily a manual punch, having a housing and a handle that are interconnected by a rotary mount and at least one vibration-isolating unit spaced from the axis of this rotary mount, provided with at least one linear guide, characterized in that the linear guide (10) has two linear guide elements (18), each of which is installed in an elastic vibration-isolating element (25) with the possibility of directional movement in it, each vibration-isolating element ( 25) is made in the form of a sleeve with a through hole (24) directing the movement of the linear guide element (18), while the linear guide elements (18) are rigidly fixed to the handle (3), and the vibration insulating elements (25) made in the form of bushings are fixed in case (2). 2. An electric manual machine according to claim 1, characterized in that each linear guide element (18) is movably inserted into the through hole (24) of the vibration isolating element (25). 3. An electric hand-held machine according to claim 1, characterized in that each linear guide element (18) has a head (28), which rests or has the ability to lean on a vibration-isolating element (25). 4. An electric hand machine according to claim 3, characterized in that each linear guide element (18) is made in the form of a screw (19), the head (27) of which forms the head (28) of the linear guide element. 5. An electric hand-held machine according to claim 1, characterized in that its body (2) and the handle (3) in the area of the vibration-isolating unit (7) are loaded with the force of at least one spring element (12). 6. An electric hand-held machine according to claim 5, characterized in that the spring element (12) is a compression coil spring (13). 7. An electric hand machine according to claim 5 or 6, characterized in that the spring element (12) is located between the linear guide elements (18). 8. An electric hand-held machine according to claim 1, characterized in that the pivot mount (4) is vibration-proof. 9. An electric hand-held machine according to claim 8, characterized in that the pivot mount (4) has a first supporting part (30) with a mounting hole (31), in which at least one elastic vibration-isolating part (32) separated from its walls is installed fastener (34). 10. An electric hand-held machine according to claim 9, characterized in that the vibration-isolating part (32) is a vibration-isolating ring (33). 11. An electric hand-held machine according to claim 9, characterized in that at least one end of the fastener (34) is fastened, first of all, removably fastened, the fastening means (37) passed through an opening in the second rotary fastening support (40) (four). 12. An electric hand-held machine according to claim 11, characterized in that between the first and second supporting parts (30, 40) there is a section of the vibration-isolating part (32). 13. An electric hand-held machine according to claim 11, characterized in that between the first support part (30) - the bearing bracket and the handle (3), a vibration isolating gap (a) is formed, axially overlapping by the vibration isolating part (32). 14. An electric manual machine according to claims 1-6 and 8-13, characterized in that the handle (3) is provided with a rubber lining, and the vibration-isolating elements (25) are made of the same material as the specified lining, and simultaneously with it. 15. An electric hand-held machine according to claim 14, characterized in that the vibration-isolating elements (25) are made by applying, under pressure, the material applied to the handle (3) of the rubber lining inside the handle.

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