CZ34190U1 - Hand tool clamping and operating devices and hand tool assembly and hand tool clamping and operating devices - Google Patents

Description

In the registration procedure, the Industrial Property Office does not determine whether the subject of the utility model meets the conditions for eligibility for protection pursuant to Section 1 of Act no. E. 478/1992 Sb.

CZ 34190 Ul

Hand tool clamping and operating devices and hand tool assembly and hand tool clamping and operating devices

Field of technology

The technical solution relates to a device for clamping and operating a hand tool and a set of hand tools and a device for clamping and operating a hand tool. In this present solution, the hand tools are in particular impact wrenches or drills or screwdrivers. The device for clamping and operating the hand tool serves in particular to simplify the work of manually operating the hand tool, which together with it forms the subject assembly.

Prior art

Hand tools are used to simplify, streamline and mechanize activities associated with assembly, machining, tooling and repair operations and activities. This includes activities such as tightening nuts and bolts, screwdriving, cutting and other similar workshop activities. To reduce the physical demands of these activities, either by the need to exert great physical force, even repeatedly, and to accelerate these activities, man produced and began to use first hand-operated hand tools and later hand and machine tools for electric, pneumatic or other drive.

This tool is used in households, small and large workshops, as well as in areas such as the construction of buildings, bridges, railways, etc. While some activities and the associated manual craft operations are simplified with the tool, the problem of size and weight of this tool. This disadvantage is eliminated in some tools by providing carriers of the carrier technology type, which serve as a clamping and at the same time transport element. However, this technique may not get everywhere and its use is mostly single-purpose.

Classic hand tools are as dependent on the carrying force of a person as the operator. The disadvantage is that the tool must be operated in a squat, forward bend or body bend, when the transmission of weight and possible shocks or vibrations to the spinal system of the device operator is not optimal. Although working with hand tools facilitates some types of manual activities, on the other hand it causes fatigue of the spinal muscles, wear of the intervertebral discs and other similar fatigue effects of the locomotor, and especially the supporting system of the human body of the operator.

The task of the present technical solution is to eliminate the shortcomings of known technical solutions by creating a device for clamping and operating hand tools, which allows to operate hand tools while standing without bending the spine, ideally with variable length adjustment of grip height and inclination. Simultaneously with the possibility of gripping and control in an upright position, the device must also enable remote operation of the switching functions of the installed hand tools.

The essence of the technical solution

Devices for clamping and operating hand tools, such as an impact wrench or a drill or screwdriver, consist of three basic parts. These parts are the carrier, the control mechanism and the at least one switching mechanism. The carrier is adapted for direct clamping of hand tools. The control mechanism is connected to the carrier and serves to manually control the movement of the hand tool in a state where the hand tool is arranged in the carrier. The switching mechanism connects the control mechanism to the carrier, thus ensuring remote switching of the hand tool function. In this embodiment of the technical solution, the carrier is provided with at least one clamping device for clamping hand tools. The control mechanism in this embodiment of the technical solution consists of handlebars and rods which are connected to each other. Switching mechanism in this design

- 1 CZ 34190 U1 technical solution consists of a manual switch mounted on the handlebars, an actuator for controlling the function buttons of the hand tool, which is arranged on a carrier and a line that connects the manual switch and actuator and ensures transmission of switching signals between the manual switch and the actuator. member.

In a preferred embodiment, the carrier is connected to the control mechanism in the lower part of the rod, this connection being rotatable and made by means of a hinge. This joint is rotatable with one degree of freedom and forms the connecting part between the rod and the carrier, but is part of the rod, i.e. the actuating mechanism. In this preferred embodiment, the joint is provided with a locking lever which allows the set position of the joint to be fixed.

In another preferred embodiment, the carrier is formed by an upper anchoring element, which is provided with a quick release and is fixed to the joint of the actuating mechanism. Furthermore, the carrier consists of a lower circular sleeve with a quick-release clamp. The fixed connection between the upper anchoring element and the lower annular sleeve forms an arm which forms another part of the carrier.

In the following preferred embodiment, the connection of the handlebars and the rod is designed to be detachable. This connection is formed by a sleeve arranged simultaneously in the middle of the handlebars and at the upper end of the rod.

In another preferred embodiment, the rod is constructed as telescopic and is provided with a locking sleeve, ensuring a fixed locking of the extension of the rod.

In another preferred embodiment, the handlebars are provided with rubber grips for a more comfortable grip and damping of the transmission of shocks and vibrations from the tool through the device to the operator.

In the following preferred embodiment, the manual switch is designed as a mechanical switching lever, wherein the guide is formed by a control cable. In this preferred embodiment, the actuator for switching the function buttons of the tool is formed by a fixed cable guide arranged on the upper anchoring element. In this preferred embodiment, the control lever rests on the function button of the hand tool. In this preferred embodiment, the control lever is arranged on the arm. In addition, the fixed water rope is provided with a stop which defines the extreme positions of the control lever.

In another preferred embodiment, the manual switch is designed as an electrical manual switch and the line is designed as an electrical line. In this preferred embodiment, the control lever is provided with an electric actuator.

Hand tools anchored to the device form a set of hand tools and equipment. Thus, in this technical embodiment, the hand tool is clamped in the device carrier and its at least one function key is connected to the device control mechanism by means of a switching mechanism.

In a preferred embodiment, the hand tool has an electric drive and is provided with a built-in replaceable rechargeable battery power source.

The main advantage of the technical solution is that the device allows the operation of hand tools while standing without the need to bend the spine. In addition, the device has a telescopic rod with an adjustable extension length and a joint with one degree of freedom, which has a lock and allows you to adjust the vertical inclination of the clamped hand tool. All this helps to set the optimal inclination of the grip and its length. Simultaneously with the possibility of gripping and control in the upright position of the device, it also enables remote operation of the switching functions of the installed hand tools.

Explanation of drawings

The technical solution will be explained in more detail with the help of drawings, which show:

-2 CZ 34190 U1

Giant. 1 is a perspective view of the device;

Giant. 2 is a perspective view of the device carrier from the front left side;

Giant. 3 is a perspective view of the device carrier from the front right side;

Giant. 4 is a perspective view of the device carrier from behind;

Giant. 5 is a perspective view of an assembly with installed hand tools in the form of an impact wrench.

Examples of technical solution

The device 1 for clamping and operating the hand tool 19 according to Figs. 1 to 5 serves for more comfortable control of selected types of hand tools 19, such as impact wrench, drill, screwdriver, etc. According to Figs. 1 and 5, the device 1 consists of three basic parts are a carrier 9, an actuating mechanism and at least one switching mechanism. According to Figs. 2 to 4, the carrier 9 is adapted for direct clamping of the hand tool 19. According to Fig. 1, the control mechanism is connected to the carrier 9 and serves to manually control the functions of the hand tool 19 in a state where the hand tool 19 is arranged in the carrier 9. The control mechanism thus serves to grip the device 1, move it, and hold it in the selected position. The switching mechanism connects the actuating mechanism to the carrier 9, thus ensuring remote switching of the hand tool function 19. In this exemplary embodiment of the technical solution, the carrier is provided with at least one clamping device for clamping the hand tool 19, the clamping not limiting the functions of the tool 19. In this exemplary embodiment of the technical solution, it consists of a handlebar 2 and a rod 7. Both of these parts are interconnected into one unit and imitate the appearance of the steering control of a children's scooter. The switching mechanism in this exemplary embodiment consists of a manual switch mounted on the handlebars 2 and an actuator 21 for controlling the function buttons of the hand tool 19. The actuator 21 is arranged on a carrier 9. The switching mechanism further comprises a line 6 connecting the manual switch and the actuator. member 21 and ensures the transmission of switching signals between the manual switch and the actuator 21.

In the following exemplary embodiment of the technical solution shown in FIGS. 1 to 5, the carrier 9 is connected to the control mechanism in the lower part of the rod 7. This connection is rotatable and is made by a joint 16. The joint 16 is rotatable with one degree of freedom and forms a connecting the part between the rod 7 and the carrier 9. In this exemplary embodiment of the technical solution, the joint 16 is an integral part of the rod 7, i.e. the actuating mechanism. In this exemplary embodiment of the technical solution, the joint 16 is further provided with a locking lever 17, which allows the set position of the joint 16 to be fixed.

According to an exemplary embodiment of the technical solution shown in Figs. 1 to 5, the carrier 9 is formed by an upper anchoring element 12 into which the hand tool handle 19 is fixed. The upper anchoring element 12 is provided with a quick release 13 ensuring quick fixing of the gripping part 19. anchoring element 12. The upper anchoring element 12 is fixed to the joint 16 of the actuating mechanism. Furthermore, the carrier 9 is formed by a lower circular sleeve 10 with a quick-release clamp 11, which serves to position and clamp the circular part of the hand tool 19 under the working head of the hand tool 19. For firmly connecting the upper anchoring element 12 to the lower circular sleeve 10, the carrier 9 is further provided with an arm. 18, which thus form a detachable connection of the upper anchoring element 12 and the lower annular sleeve 10 and at the same time define their mutual position.

According to the exemplary embodiment of the technical solution shown in FIG. 1, the connection between the handlebars 2 and the rod 7 is designed to be detachable. This connection is formed by a sleeve 5 which is detachably anchored simultaneously in the middle of the handlebars 2 which it embraces and grips, and at the same time the sleeve 5 is fixed at the upper end of the rod 7, where it is fixed to the rod body 7.

-3 CZ 34190 U1

According to the exemplary embodiment of the technical solution shown in Figure 1, the rod 7 is constructed as telescopic and is provided with a locking sleeve 8. The locking sleeve 8 surrounds the place where one part of the rod 7 slides out of the other and clamps the joint with its lever mechanism, thus ensuring a firm connection. bar extension lock 7.

According to the exemplary embodiment of the technical solution shown in Figure 1, the handlebars 2 are provided with rubber handles 3 for a more comfortable grip and damping of the transmission of shocks and vibrations from the hand tool 19, which the device 1 transmits to the operator of the device 1.

According to the exemplary embodiment of the technical solution shown in FIG. 1, the manual switch is designed as a mechanical switching lever 4. In this exemplary embodiment of the technical solution, the guide 6 is formed by a control cable. The actuator 21 for switching the function buttons of the hand tool 19 in this exemplary embodiment is formed by a fixed cable guide 20 arranged on the upper anchoring element 12. The control lever 14 in this exemplary embodiment rests on the function button of the hand tool 19. The control lever 14 is arranged on of the arm 18. The fixed cable guide 20 is additionally provided with a stop 15, which serves to define one extreme position of movement of the control lever 14.

According to another exemplary embodiment of the technical solution, the manual switch is designed as an electric manual switch and the line 6 is designed as an electric line 6. In this non-illustrated exemplary embodiment, the control lever 14 is provided with an electric actuator.

Fig. 5 shows an assembly 22 of a hand tool 19 and a device 1 for clamping and operating a hand tool 19. This assembly 22 forms a final work unit, the use of which depends on the type of fixed hand tool 19. In the present illustrated embodiment 19 electric impact wrench for nuts and bolts. Thus, in this exemplary embodiment of the technical solution, the hand tool 19 is clamped in the carrier 9 of the device 1, where at least one functional button of the hand tool 19 is connected to the control mechanism of the device 1 by means of a switching mechanism.

According to the exemplary embodiment of the technical solution shown in FIG. 5, the hand tool 19 has an electric drive and is provided with a built-in replaceable rechargeable battery source 23 of electric energy.

Industrial applicability

Equipment for clamping and control of hand tools can be used in workshops as well as in traffic engineering, in the construction of buildings and transport structures, railways, their maintenance and repairs, for fastening and operating especially heavier hand tools, or for lightening the skeletal system during long-term repetitive with assembly activities normally performed in the forward bend with stress on the spinal system and muscles.

Claims (10)

CLAIMS FOR PROTECTION Device (1) for clamping and actuating hand tools (19), in particular an impact wrench or drill or screwdriver, characterized in that it consists of a carrier (9) adapted to clamp hand tools (19), of an actuating mechanism connected to the carrier (9) for manually controlling the movement of the hand tool (19) and of at least one switching mechanism connecting the control mechanism and the carrier (9) for providing remote switching of the hand tool function (19), the carrier (9) being provided with at least one clamping device for clamping the hand tool. tool (19), the control mechanism consists of handlebars (2) and rods (7), which are connected to each other and -4 CZ 34190 U1 mechanism consists of a manual switch mounted on the handlebars (2), an actuator (21) for controlling the function buttons of the hand tool (19) arranged on the carrier (9) and a line (6) connecting the manual switch and actuator ( 21), for the transmission of switching signals between the manual switch and the actuator (21). Device according to claim 1, characterized in that the carrier (9) is connected to the actuating mechanism in the lower part of the rod (7), this connection being rotatable by means of a joint (16) with one degree of freedom, the joint (16) ) forms a connecting part between the rod (7) and the carrier (9) and is provided with a locking lever (17) for fixing the set position of the joint (16). Device according to claims 1 and 2, characterized in that the carrier (9) consists of an upper anchoring element (12) with a quick-release fastener (13), rotatably connected to the joint (16), an arm (18) and a lower circular sleeve ( 10) with a quick-release clamp (11), the arm (18) forming a fixed connection between the upper anchoring element (12) and the lower annular sleeve (10). Device according to Claims 1 to 3, characterized in that the connection between the handlebars (2) and the rod (7) is detachable and formed by means of its sleeve (5). Device according to claims 1 to 4, characterized in that the rod (7) is telescopic and provided with a locking sleeve (8) for locking the extension length of the rod (7). Device according to claims 1 to 5, characterized in that the handlebars (2) are provided with rubber handles (3). Device according to claims 1 to 6, characterized in that the manual switch is a mechanical switching lever (4), that the guide (6) is formed by a control cable, and that the actuating member (21) for switching the function buttons of the tool (19) is a fixed cable guide (20) arranged on the upper anchoring element (12) and a control lever (14) abutting on the function button of the hand tool (19), the control lever (14) being arranged on the arm (18), the fixed cable guide (20) being provided with a stop (15) for defining the extreme position of the control lever (14). Device according to Claims 1 to 6, characterized in that the manual switch is designed as an electric manual switch, that the line (6) is designed as an electrical line (6) and that the control lever (14) is provided with an electric actuator. Hand tool assembly (22) and device (1) according to one of Claims 1 to 8, characterized in that the hand tool (19) is clamped in the carrier (9) of the device (1) and its at least one functional the button is connected to the control mechanism of the device (1) by means of a switching mechanism. Assembly according to claim 9, characterized in that the hand tool (19) is electrically driven and is provided with a built-in replaceable rechargeable battery power source.