RU188412U1 - Perforator - Google Patents

Abstract

In the perforator, consisting of a housing, an electric motor, a cartridge, percussion and rotational mechanisms of movement of an instrument fixed in a chuck, a switching device and transmission of some impact on an instrument, including an impact transmission element on an instrument in the form of a blow, an impact transmission element on an instrument in the form rotation, having a protrusion at one of its ends with a preferably flat non-circular shape of its end, the element of the transfer of rotation to the element of transmission of impact on the instrument in the form of a blow, an element t transfer of rotation to the element of transmission of impact on the tool in the form of rotation, a mode switch comprising a handle made in the form of a bar and a lug on one of its edges, on which a protrusion is located, preferably consisting of a cylindrical part in its center, and a barb aligned with it, the axis fixed in the punch housing, on the axis there is more than one bar for controlling the rotational transmission element, for example, a bar for controlling the rotational transmission element that has bends at the edges, one of the bends goes beyond the contour trims and forms a lever and a bracket rotation transmitting control element, designed as a bracket, wherein the ends act as levers. On the adjacent levers of the control bars, the corner bends covering the protrusion on the handle hub are made. The arms of the slats are kinematically connected with the elements of the transmission of rotation. By turning the handle of the bar with its levers, one or another element of the transmission of rotation is shifted, while ensuring the activation of the necessary mode of operation of the perforator. The switch axis also contains a fixation bar of the element of transmission of the impact on the tool in the form of rotation, which prevents the rotation of this element in the mode of transmission of the impact on the tool in the form of impact. The punch design has a compactness, wear resistance, is easy to manufacture. This is achieved by using elements that have a simple form in the perforator switch. Separate movement of the control elements of the switch allows you to move the elements of the transmission of rotation separately and for short distances, which leads to a decrease in their wear. The location of the switching elements of the switch on the same axis allows you to place the switch in a minimum space. in the selected position, which allows not to use a separate fixation mechanism.

Description

The invention relates to mechanical engineering, mainly to power tools, including manual rotary drilling machines, and, above all, to rotary hammers used in various industries, including construction, for drilling holes, for example, in stone, concrete or for their destruction.

The perforator, as a rule, includes an electric drive, percussion and rotational mechanisms, a cartridge, a switching device that switches the perforator operating modes and transfers some effect to the tool mounted in the cartridge, as well as the perforator operating mode switch.

By switching modes of operation, it should be understood, in particular, switching between shock and shock-rotational movement, between shock-rotational and rotational movement, between shock and rotational movement of the tool installed in the perforator cartridge.

Under the shock motion refers to the repeated transfer of some body, for example, a drummer, the kinetic energy in the form of a pulse, the instrument.

Under the shock-rotational motion refers to the repeated transfer of some body, for example, a drummer, the kinetic energy in the form of a pulse, the tool, combined with the rotational movement of the tool.

The rotary impact machine is known, namely, the perforator described in the patent RU 2272118, in which the switching of its operation modes is provided by a sleeve covering the guide cylinder and associated with it in the radial direction and having the possibility of axial movement for its installation in the left and right ends axial position to provide respectively shock and shock-rotational modes of operation. In the perforator, a switch handle is used with an eccentric fixed on it, kinematically connected with an element of the mode switching device. The kinematic connection is provided by a v-shaped spring clamped in its central part. In this case, the free ends of the spring, under the influence of an eccentric, displace the sleeve to the side, ensuring the performance of the required mode of operation of the perforator. However, this solution increases the dimensions of the perforator, since the dimensions of the spring directly depend on the amount of displacement of the element of the mode switching device. In addition, in the punch requires an additional device for braking elements of the switching device that are not involved in the transmission of motion in the prescribed mode. It is necessary to fix the switch handle in the selected position. All this complicates the design of the punch.

In US 6,424,235, a gear rack is used to displace the switching element of the operating modes of the perforator, which is moved by the gear connected to the mode switching handle. Such a solution will alleviate the problem of increasing the dimensions of the perforator, but at the same time it requires an additional solution of fixing the mode switching handle in the desired position; as you move several mode switching elements, the number of parts in the kinematic chain increases.

In the perforator described in patent US 7174969, the movement of the switching elements of its modes of operation is carried out by spring-loaded strips, which are shifted by a pin located at the end of the mode-switching handle eccentrically. This solution also requires additional elements of fixing the handle in the selected position.

Known patent US 6192996 adopted for the prototype, according to which in the perforator the switching of operating modes is performed by a bar having bends along the edges, which act as levers. Through the holes in the limb the bar is fixed movably on the axis, pressed by a spring located on the same axis. The levers are kinematically connected with the elements of the mode switching device. At the end of the switch handle there are two pins, with the help of which, by turning the handle, the position of the bar is set, and, accordingly, the position of the elements of the mode switching device. The switch contains elements that ensure the locking of the elements of the mode switching device that are not involved in the transmission of motion in this mode.

The use of one bar and, respectively, two interconnected levers, leads to a joint movement of the elements of the mode switching device, which will affect the resource of the perforator, or lead to an increase in the gaps between the lever and the element of the mode switching device in the contact zone, and, accordingly, increase in size elements of the device switching modes.

The purpose of this utility model is to create a punch with a compact, wear-resistant its elements, quite simple to manufacture.

The essence of the utility model, as a technical solution, is expressed in the combination of essential features sufficient to achieve the technical result provided by the utility model.

The technical result obtained when using this utility model is to create a punch, in which compactness, wear resistance are provided, above all, compactness, wear resistance of the switch modes, the simplicity of its manufacture.

The technical result obtained when using this utility model, is achieved by the fact that the punch, comprising a housing, an electric motor, a cartridge, a tool mounted in the cartridge, a percussion mechanism for moving the tool, a device for transmitting an impact on the tool, having an element for transmitting the impact on the tool by impact, an element transfer the impact on the tool by rotation, made with a protrusion on one of its ends with a non-circular end face, the element of the transfer of rotation on the element of the transfer impact on the tool by impact, the element of transfer of rotation to the element of transmission of impact on the tool by rotation and the switch of modes of action on the tool with a handle made in the form of a bracket and boss placed on one of its edges and axis, characterized in that the boss is made with a protrusion on its end, on the axis of the movably mounted strap fixation element of the transmission effects on the tool by rotation, having the edges of the limb, one of which forms a lever strap control element of the transmission of rotation on the front element and impact on the tool by rotation, having bends at the edges, one of which forms a lever, and a control bar of the element of transferring the rotation to the element of transmission of impact on the tool by impact, made in the form of a bracket, the ends of which form levers located on said axis, the lever of the control bar of the element of rotation transfer onto the element of transmission of impact on the tool by impact is located on the axis between the bends of the bar of control of the element of rotation transfer onto the element of transmission of impact on the tool NT by rotating, on adjacent levers of the control bar of the element of rotation transfer onto the element of transmission of impact on the tool by impact and control of the element of rotation transfer onto the element of transmission of impact on the tool by rotation, bends are formed covering the protrusion at the end of the boss of the mode selector lever, and the lever of the element control bar transfer of rotation to the element of transmission of impact on an instrument by rotation is articulated with the element of transmission of rotation to the element of transmission of influence on an instrument t in the form of rotation, and the lever of the control element of the transmission element of rotation on the element of transmission of impact on the tool by impact is articulated with the element of transmission of rotation on the element of transmission of impact on the tool in the form of impact, while the control bar of the element of transmission of rotation on the element of transmission of impact on the tool by rotation and the control bar of the element of transfer of rotation to the element of transmission of impact on the instrument by impact is compressed between each other by a spring, and the bar of fixation of the element of transmission of impact on tool The ent by means of rotation is pressed by the spring to the control bar of the element of the transfer of rotation on the element of transmission of the impact on the tool by rotation.

In addition, the protrusion on the butt end of the knob of the mode selector consists of a cylindrical part in its center and a barb aligned with it.

In addition, the bends on adjacent levers of the control bars of the element of rotation transfer onto the element of transmission of impact on the tool by impact and controlling the element of transmission of rotation onto the element of transmission of influence on the tool by rotation are angular.

In addition, on the lever strap fixation element of the transmission effects on the tool in the form of rotation made the hole corresponding to the protrusion on this element.

In addition, the force of compression of the spring clamping the bar of fixing the element of impact on the tool in the form of rotation to the control bar of the element of rotation transfer is less than the force of compression of the spring compressing the bar of control of the element of rotation transfer and the control bar of the element of rotation transfer to the element of transmission of impact on the tool .

Below is shown the preferred embodiment of the utility model.

The design of the punch is illustrated by the following figures:

in fig. 1 shows the design of the perforator in the section;

in fig. 2 shows a device for switching and transmitting an impact on a tool and a switch of a perforator in the mode of percussion-rotational movement of the tool;

in fig. 3 shows the switch in the mode of the shock-rotational movement of the instrument;

in fig. 4 shows a device for switching and transmitting an impact on a tool and a punch switch in the mode of percussion movement of the tool;

in fig. 5 shows a switch in the mode of percussion movement of the instrument;

in fig. 6 shows a device for switching and transmitting an impact on a tool and a punch switch in the mode of rotational movement of the tool;

in fig. 7 shows a switch in the mode of rotational movement of the tool.

The perforator (Fig. 1-7) consists of a housing 1, an electric motor 2, a percussion mechanism 3 consisting of a glass, inside of which there is a piston and a rod with a hammer at its end, a rotary actuator 4 including a glass, a rod and a gear rim on the lateral surface cup, cartridge, switching device and transfer effects on the tool 5, mode switch 6. The electric motor 2 has an output shaft 7 with teeth cut on it. On the support shaft 8, fixed in the housing 1 with the possibility of free rotation, in its middle part there are protrusions in the form of teeth of rectangular cross-section, evenly distributed around the circumference of the shaft. Near one of the ends of the support shaft 8 is fixed gear wheel 9, articulated with the teeth of the output shaft 7 of the electric motor 2. Next to the gear wheel 9 is installed the element of transmission impact on the tool in the form of impact - in this embodiment, the sleeve 10, having the possibility of free rotation on the support shaft 8 without the possibility of moving along its longitudinal axis. On the middle part of the shaft there is an element for transmitting the rotation onto the element for transmitting the impact on the tool in the form of a stroke - in this embodiment, a sleeve 11 having slots in the form of slots on the inner surface

rectangular cross-section, compatible with protrusions in the form of teeth of a rectangular cross-section, located in the middle part of the support shaft 9, thus forming a splined connection. The sleeve 11 has at the end of two diametrically located protrusion 12. The sleeve 10 transmission impact at the end facing the sleeve 11 transfer rotation, has two grooves 13, compatible with the protrusions 12 of the sleeve 11 transfer rotation. Near the other end of the support shaft 8, an element of transmission of the impact on the tool is installed in the form of rotation. In this embodiment, the sleeve 14 transmits rotation to the rotational drive 4, having the possibility of free rotation on the support shaft 8 without moving along its longitudinal axis. The sleeve 14 of the transmission of rotation consists of a gear rim 15, the hub 16 and the protrusion 17, having a rectangular cross-section and a flat end. The gear ring 15 of the sleeve is articulated with the ring gear of the rotary actuator cup 4. On the hub 16 of the sleeve 14 of the rotation transmission, there are projections in the form of teeth of rectangular cross section that correspond to the projections in the form of teeth of rectangular section of the middle part of the support shaft 8 and are compatible with them. On the middle part of the support shaft 8, there is an element for transmitting the rotation to the element for transmitting the impact on the tool in the form of rotation. In this embodiment, the sleeve 18 has cavities in the form of splines of rectangular cross section on the inner surface that are compatible with projections in the form of teeth of rectangular cross section. support shaft 8, thus forming a spline connection. On the outer side surface of the sleeves 11 and 18 of the transmission of rotation made annular grooves 19 and 20, respectively. The mode switch 6 includes a handle 21, made in the form of a bar and a lug on one of its edges, an axis 22 fixed in the housing of the perforator, bars 23, 24, 25, which are movably mounted on the axis through their holes. At the end of the boss of the handle there is a protrusion 26, consisting of a cylindrical part in its center and a barb, aligned with it. Plank 23 has bends 27, 28 at the edges, and the edge of the bend 28 extends beyond the contour of the plank and forms a lever 29. Plank 24 also has edges at the bends 30, 31, with the bend edge 31 extends beyond the contour of the plank, and forms a lever 32. Plank 25 is made in the form of a bracket fixed on the axis 22 with its ends - by levers 33 and 34, while the lever 33 is located on the axis between the bends 30, 31 of the bar 24. On the adjacent lever 32 of the bar 24 and the lever 33 of the bar 25 there are corner bends covering the protrusion 26 handles 21. The lever 34 is inserted into the groove 19 of the sleeve 11 of the transmission of rotation. The lever 32 strips 24 wound in the groove 20 of the sleeve 18 of the transmission of rotation. On the lever 29 of the strap 24 is made the hole corresponding to the protrusion 17 of the sleeve 14 and is compatible with it.

On the axis 22 between the limb 30 of the bar 24 and the lever 33 of the bar 25 a spring 35 is installed, which presses the bends on the lever 32 of the bar 24 and the lever 33 of the bar 25 to the protrusion 26 of the handle 21.

The bar 23 is pressed against the bar 24 by a spring 36 mounted on the axis 22 of the switch between the wall of the perforator and this bar, while the force of the spring 36 is less than the force of the spring 35. Such a ratio of the spring forces allows the sleeve 14 to be fixed and the fixture to be fixed in the desired mode without disrupting the operation of the slats 24, 25.

The punch operation is described in each of the three modes - in the blow mode with rotation, in the blow only mode, in the only rotation mode of the tool installed in the chuck.

In the impact mode with rotation (FIGS. 1-3), the handle 21 of the mode switch 6 is rotated to a position in which the pin of the protrusion 26 is located between the bends of the levers 32, 33. The levers lock the handle in this position. The lever 34 keeps articulated protrusions 12 of the sleeve 11 with grooves 13 (FIG. 6) of the impact transmission sleeve 10, the lever 32 holds the rotational transmission sleeve 18 with one of its parts located on the hub 16 of the rotational transmission sleeve 14, and with the other part in the middle part of the support shaft 8. The lever 29 is in a position that prevents fixing the sleeve 14.

After power is applied to the electric motor 2, its output shaft 7 begins to rotate, the gear wheel 9 coupled to it and the support shaft 8 rotated rigidly connected to the gear wheel 9. The spline connection of the support shaft 8 with the rotational transmission sleeve 11 provides the transmission of rotation to the impact transmission sleeve 10 . The slotted connection of the support shaft 8 with the sleeve of the transmission of rotation 18 provides the transmission of rotation to the sleeve 14 of the transmission of rotation. Produced percussion and rotational motion of the tool.

In the impact mode (Fig. 1, Fig. 4, Fig. 5), the knob 21 of the mode selector 6 is rotated to a position in which the small knob of the knob 26 moves the lever 32 and rests against the top of the angular bend of this lever, which fixes the knob in the selected position . The lever, shifting, moves the rotational transmission sleeve 18 along the support shaft 8, removing it from the spline connection with the rotational transmission sleeve 14, the lever 29 fixes the sleeve 14 to prevent its rotation, while the lever 34 keeps the protrusions 12 of the sleeve 11 with the grooves 13 (FIG. 6) the hub 10 of the transfer of impact. After power is applied to the electric motor 2, its output shaft 7 begins to rotate, the gear wheel 9 coupled to it rotates, rigidly connected to the support shaft 8. The slotted connection of the support shaft 8 to the rotational transmission sleeve 11 provides the transmission of rotation to the impact transfer sleeve 10. The impact transfer sleeve 10 converts rotary motion into reciprocating motion, which is transmitted to the piston of the impact mechanism 3, while the piston compresses the air in the glass, thereby affecting the rod with the hammer at its end, resulting in the impact movement of the tool installed in the cartridge fixed on stock.

In the rotation mode (Fig. 1, Fig. 6, Fig. 7), the knob 21 of the mode switch 6 is rotated to a position in which the beard of the knob protrusion 26 moves the lever 33 and abuts the apex of the angular curve of the lever, which ensures the fixation of the knob in the selected position. The lever, shifting, shifts the sleeve 11 of the transmission of rotation along the support shaft 8, removing it from the articulation with the sleeve 10 of the transfer of impact, the lever 32 moves the sleeve of the transmission of rotation 18 to a position in which the sleeve one part is located on the hub 16 of the sleeve 14 of the transmission of rotation, the other part - on the middle part of the support shaft 8. Together with the lever 32, the lever 29 is shifted, removing the fixation of the sleeve 14. After power is applied to the electric motor 2, its output shaft 7 starts to rotate, the gear wheel 9 connected to it and the supporting shaft 8 rigidly connected to s wheel 9. The splined joint of the support shaft 8 with the rotational transmission sleeve 18 provides rotation transmission to the rotational transmission sleeve 14, which in turn transmits rotation to the gear ring of the rotation mechanism 4, thereby rotating the tool installed in the cartridge, fixed on the stock.

Of course, the above option is not the only one in the implementation of the utility model and does not limit its use.

The design of the perforator has a compact, wear-resistant, easy to manufacture. This is achieved by using elements that have a simple form in the perforator switch. The separate movement of the control elements of the switch allows you to move the elements of the transmission of rotation separately and for short distances, which leads to a decrease in their wear. The arrangement of the switching elements of the switch on the same axis allows you to place the switch in the minimum space. The angular bends of the arms, covering the protrusion on the handle hub, securely hold the handle in the selected position, which allows not to use a separate fixation mechanism.

Claims (5)

1. Perforator, comprising a housing, an electric motor, a cartridge, a tool mounted in a cartridge, a percussion mechanism for moving an instrument, a device for transmitting an impact on an instrument, having an element for transmitting an impact on an instrument by impact, an element for transmitting an impact on an instrument by rotating, made with a protrusion on one from its ends with a flat non-circular shape of the end, the element of the transfer of rotation on the element of transmission of impact on the tool by impact, the element of transfer of rotation on the element of transmission of impact on the tool t by rotation and a switch of modes of impact on the instrument with a handle made in the form of a bracket and boss attached to the body at one of its edges and axis, characterized in that the boss is made with a protrusion at its end; on the tool by rotation, having bends at the edges, one of which forms a lever, the control bar of the element of transfer of rotation to the element of transmission of impact on the tool by rotation, having bends at the edges, one of which is The lever, and the control bar of the element of transfer of rotation on the element of transmission of impact on the tool by impact, is made in the form of a clamp, the ends of which form levers located on the said axis, while the lever of the bar of control of the element of transmission of rotation on the element of transmission of impact on the tool by impact is located on the axis between the bends of the control bar of the element of transfer of rotation to the element of transmission of impact on the instrument by rotation, on the adjacent levers of the bars of control of the element of transmission of rotation of rotation the element of transmission of impact on the tool by impact and controlling the element of transferring rotation on the element of transmission of influence on the tool by rotating are bends covering the protrusion on the butt end of the boss of the mode selector lever; moreover, the lever of the control bar controls the element of rotation on the element of transmission of impact on the tool by rotation connected to transfer of rotation to the element of transmission of impact on the tool in the form of rotation, and the lever of the control bar of the element of transmission of rotation to the element of The effects of impact on the tool by impact are articulated with the element of transmission of rotation on the element of transmission of impact on the tool in the form of impact, while the control bar of the element of transmission of rotation on the element of transmission of influence on the tool by rotation and the control bar of the element of rotation transfer on the element of transmission of impact on the tool by impact are compressed between each other by a spring, and the fixing bar of the element of transmission of the impact on the instrument is rotated by a spring to the bar for controlling the element of rotational transmission on element transfer effects on the tool by rotating. 2. The puncher according to claim 1, characterized in that the protrusion at the end of the boss of the handle of the mode switch consists of a cylindrical part in its center and a barb aligned with it. 3. The rotary hammer p. 1, characterized in that the bends on adjacent levers of the control bars of the element of transfer of rotation to the element of transmission of impact on the tool by impact and control of the element of transfer of rotation to element of transmission of influence on the tool by rotation are made angular. 4. A perforator according to claim 1, characterized in that on the lever of the fixing bar of the element of transmission of the impact on the tool in the form of rotation, an opening is made corresponding to the protrusion on this element. 5. The rotary hammer p. 1, characterized in that the force of compression of the spring, pressing the bar of fixing the element of impact on the tool in the form of rotation to the control bar of the rotational transmission element, is less than the force of compression of the spring compressing the control bar of the rotational transmission element and the control bar of the element transfer of rotation to the element of transmission of impact on the instrument by impact.

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