CN217434190U - Power tool machine and torque force display device thereof - Google Patents

Power tool machine and torque force display device thereof Download PDF

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Publication number
CN217434190U
CN217434190U CN202121322267.4U CN202121322267U CN217434190U CN 217434190 U CN217434190 U CN 217434190U CN 202121322267 U CN202121322267 U CN 202121322267U CN 217434190 U CN217434190 U CN 217434190U
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power
power tool
sheath
torsion shaft
shell
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CN202121322267.4U
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Chinese (zh)
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吴逸民
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Sunfeng Industrial Co ltd
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Sunfeng Industrial Co ltd
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Abstract

The utility model relates to a power tool machine and torsion demonstration setting thereof. The power tool machine comprises a shell, and a control panel, a power device, a bearing group, a transmission mechanism and a torsion shaft which are arranged in the shell. The power device is arranged in the shell through the bearing set and transmits torque force through the transmission mechanism. The torsion shaft is connected to the rear side of the power unit and rotates with the power unit. Furthermore, the power tool may be provided with a torque sensor at the rear side of the power unit for sensing the torque of the power tool.

Description

Power tool machine and torque force display device thereof
Technical Field
The present invention relates to power tools, and more particularly, to a power tool and a torque display device thereof.
Background
The main structure of a conventional power tool, such as an electric screwdriver and a pneumatic-electric wrench, includes a housing, a power device (such as a battery or high pressure air), a transmission mechanism, and a control assembly, wherein the power device is fixed in the housing, a rotating shaft of the power device is connected to the transmission mechanism, and the control assembly is electrically connected to the power device. Therefore, the control component controls the operation of the power device to drive the transmission mechanism and the tool head arranged on the transmission mechanism, thereby providing enough torque force to rotate the tool head.
However, most of the conventional power tools have variable torque, and the power device often continues to rotate after exceeding a predetermined torque, which results in damage to components such as the power device and reduction of service life, and thus needs to be improved.
Furthermore, the conventional power tool is provided with a torque sensor for detecting the torque, and transmits a signal to the control component when a predetermined torque is reached, so as to control the power device to stop operating. In addition, a torque sensor of a general power tool is disposed on a transmission mechanism, and the torque sensor is rotated for a long time along with the operation of the transmission mechanism, so that problems such as wire breakage and poor contact occur, which affect electrical connection and damage the power tool. In addition, when the power tool operates, the transmission mechanism connected with the tool head can vibrate or deform, and the like, so that the torsion value detected by the torsion sensor is influenced, and the accuracy of the torsion sensor is reduced.
SUMMERY OF THE UTILITY MODEL
An object of the present invention is to provide a power tool, the power body of which can rotate relative to the housing through the setting of the bearing set, so as to be in the reverse rotation state after exceeding the predetermined torque, and the torque sensor can transmit the signal to the control panel, so as to stop the operation of the power body immediately, so that the power device will not be damaged or the service life of the power device will not be reduced.
To achieve the above objects, the present invention provides a power tool. The shell comprises an accommodating space and a working end positioned in front of the accommodating space, and the working end is provided with an opening. The control panel is arranged in the accommodating space. The power device is arranged in the accommodating space and comprises a power body electrically connected with the control board, a driving shaft driven by the power body and a sheath sleeved on the power body. The bearing set is arranged between the sheath and the shell so that the power body can rotate relative to the shell. The transmission mechanism is arranged in the accommodating space and positioned on the front side of the power device, the transmission mechanism comprises a gearbox connected with the driving shaft and an actuating part protruding out of the gearbox, and the actuating part rotates along with the gearbox and extends out of the opening of the shell to drive the tool piece to rotate. The torsion shaft is arranged in the accommodating space and is positioned at the rear side of the power device relative to the transmission mechanism, and the torsion shaft is connected with the power device and rotates along with the power device.
Optionally, the power device further includes a linkage cover located between the sheath and the torsion shaft, and two sides of the linkage cover are respectively connected to the sheath and the torsion shaft.
Optionally, the sheath has a front side and a rear side opposite to each other, the front side is formed with a plurality of first pawls, the rear side is formed with a plurality of second pawls, and the linking cover is formed with a plurality of third pawls abutting against the second pawls on a side facing the sheath.
Optionally, the linkage cover includes a cover and a sleeve connected to the cover, the cover is sleeved on a rear side of the power body and is formed with the third pawls, and the sleeve is sleeved on a front end of the torsion shaft.
Optionally, the torsion shaft further comprises a rear bearing fixed in the housing and receiving a rear end of the torsion shaft.
Optionally, two protruding rings are formed on the outer edge surface of the torsion shaft at intervals, and each protruding ring abuts against the sleeve and the rear bearing respectively.
Optionally, the transmission mechanism further includes a connecting ring, the connecting ring is formed with a plurality of protrusions arranged at intervals, and each protrusion is used for clamping each first pawl.
Optionally, the bearing set includes a front bearing and a rear bearing disposed at an interval, a first annular rib is formed on an outer peripheral surface of the sheath, and the front bearing and the rear bearing respectively abut against two sides of the first annular rib and form an annular groove; the inner wall surface of the shell is formed with a second annular rib, and the sheath is positioned in the shell by abutting the second annular rib against the first annular rib.
Another object of the present invention is to provide a torque display device for a power tool, wherein the torque sensor is disposed at the rear side of the power body, so that the torque sensor is not affected by the vibration of the external tool, thereby providing an accurate torque value.
In order to achieve the above object, the present invention provides a torque display device for a power tool, including a power tool and a torque sensor, the torque sensor is disposed in a housing and located at a rear side of a power device.
Optionally, the torsion sensor is disposed on the torsion shaft.
Compared with the prior art, the utility model discloses a power tool sets up the bearing group between power body and casing to provide power body and can make the rotation and be in the reversal state relatively the casing after exceeding predetermined torsion, at this moment, torque sensor can transmit signal to control panel, in order to stop power body operation immediately, makes power device take place to destroy or reduce life's situation. Furthermore, the utility model discloses in addition provide the torsion of power tool machine and show the setting, its torque sensor sets up the rear side at the power body, makes torque sensor unlikely to receive the vibration of outside tool piece or take place deformation and influence the torsion sensing to provide accurate torsion value. In addition, set up the space of more reducible casing front end with torque sensor at the casing rear end of power tool to avoid influencing power take off, make power more directly transmit to the work end, increase the practicality in the use.
Drawings
Fig. 1 is a schematic view of a combined cross-sectional view of a power tool and a torque display device thereof according to the present invention.
Fig. 2 is a schematic perspective view of the transmission part of the present invention.
Fig. 3 and 4 are schematic exploded views of the transmission part of the present invention in two lateral directions.
In the figure:
1, a power tool; 2, a torsion sensor; 3, a display; 10, a shell; 100, an accommodating space; 101, a working end; 102, an opening; 11, a body portion; 12, a handle part; 121, pressing a key; 13, a second annular rib; 20, a control panel; 30, a power device; 31, a power body; 32, a driving shaft; 321 a driving gear; 33, a sheath; 330, a ring groove; 331, front side; 3311 a first pawl; 332, the rear side; 3321 a second pawl; 333: a first annular rib; 34, a linkage cover; 340, a third pawl; 341, cover cap; 342, a sleeve; 3420 hexagonal hole; 40, bearing group; 41, a front bearing; 42, a rear bearing; 50, a transmission mechanism; 51, a gear box; 52, an actuating part; 53, connecting rings; 531, a bump; 60, a torsion shaft; 61, hexagonal column; 62, a convex ring; 70, a rear bearing seat; 80, a battery.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not limited to the present invention.
Referring to fig. 1, a combined sectional view of the power tool and the torque force display device thereof according to the present invention is shown. The power tool 1 of the present invention includes a housing 10 and a control board 20, a power device 30, a bearing set 40, a transmission mechanism 50 and a torsion shaft 60 disposed in the housing 10. The power device 30 is disposed in the housing 10 through the bearing assembly 40, and transmits the torque to a tool (not shown) through the transmission mechanism 50. The torsion bar 60 is connected to the rear side of the power unit 30 and rotates with the power unit 30, thereby constituting the power tool 1. The structure of the power tool 1 will be described in more detail below.
The housing 10 includes a receiving space 100 and a working end 101 located in front of the receiving space 100, wherein the working end 101 has an opening 102 communicating with the outside. The control board 20 is electrically connected to the power device 30 to control the operation of the power tool 1.
The power device 30 is disposed in the accommodating space 100. The power device 30 includes a power body 31 electrically connected to the control board 20, a driving shaft 32 driven by the power body 31, a sheath 33 engaging the power body 31, and a driving gear 321 engaged with the driving shaft 32. The driving gear 321 is connected to the transmission mechanism 50.
In this embodiment, the power body 31 is an electric motor, which uses a battery as a power source and uses the electric motor to drive the driving shaft 32 to rotate. In practice, the power body 31 may be configured as an air motor, which uses compressed air as a power source to drive the driving shaft 32 to rotate by using high-pressure air.
The bearing set 40 is disposed between the sheath 33 and the housing 10 so that the power body 31 (together with the sheath 33) can rotate relative to the housing 10.
Furthermore, the transmission mechanism 50 is disposed in the accommodating space 100 and located at the front side of the power device 30. The transmission mechanism 50 includes an actuating portion 52. The actuating portion 52 rotates with the gear box 51 and extends out of the opening 102 of the housing to drive a tool (not shown) to rotate. In addition, the torsion shaft 60 is disposed in the accommodating space 100 and located at the rear side of the power unit 30 with respect to the transmission mechanism 50. The torsion shaft 60 is connected to the power unit 30 and rotates with the power unit 30.
In this embodiment, the power body 31 is an electric motor; the transmission mechanism 50 includes a gearbox 51 connected to the driving shaft 32, and the actuating portion 52 is connected to the gearbox 51 for outputting rotation.
Also, the housing 10 includes a main body 11 and a handle 12 connected to the main body 11. The power unit 30 and the transmission mechanism 50 are provided in the main body 11. The handle portion 12 is provided with a button 121 that exposes the housing. In addition, in the present exemplary embodiment, the power tool 1 also includes a battery 80. The battery 80 is disposed in the handle portion 12 and electrically connected to the control board 20 to provide power required for the operation of the power tool 1.
It should be noted that, in practical implementation, the torsion shaft 60 may also be disposed at a rear side of the power device 30, for example, a side located at the rear end of the power body 31 and abutting against the battery 80 or the key 121.
Furthermore, the present invention provides a torque display device for a power tool, including the power tool 1 and a torque sensor 2. The torque sensor 2 may be configured as a strain gauge, which is disposed in the accommodating space 100 and located at the rear side of the power device 30. In the present embodiment, the torque sensor 2 is disposed on the torsion shaft 60 for sensing the torque of the power tool 1. In practice, the torque sensor 2 may be provided on a sleeve 342, a rear seat 70, or the like, which will be described later.
It is noted that the power tool 1 of the present invention further comprises a display 3. The display 3 exposes the housing 10 and is electrically connected to the control board 20 for displaying the torque value of the power tool 1.
Fig. 2 to 4 are a schematic perspective view of the transmission portion and a schematic perspective exploded view in two lateral directions, respectively. As shown in the drawings, in an embodiment of the present invention, the power device 30 further includes a linking cover 34 located between the sheath 33 and the torsion shaft 60, that is, two sides of the linking cover 34 are respectively connected to the sheath 33 and the torsion shaft 61.
As shown in fig. 3 and 4. In more detail, the sheath 33 has a front side 331 and a rear side 332 opposite to each other. The front side 331 is formed with a plurality of first detents 3311 and the rear side 332 is formed with a plurality of second detents 3321. The cover 34 is formed with a plurality of third pawls 340 on a side facing the sheath 33 and engaging with the second pawls 3311. In addition, the linkage cover 34 includes a cover 341 and a sleeve 342 connected to the cover 341. The cover 341 is fitted over a rear side of the power body 31 and is formed with the third pawls 340. The sleeve 342 is fitted over the front end of the torsion shaft 60. In this embodiment, the socket 342 is formed with a hexagonal hole 3420 (see fig. 4), the front end of the torsion shaft 60 is formed with a hexagonal post 61, and the torsion shaft 60 is coupled to the socket 342 by the hexagonal post 61 passing through the hexagonal hole 3420.
In this embodiment, the power tool 1 further includes a rear seat 70. The rear socket 70 is fixed in the housing 10 (see fig. 1) and receives a rear end of the torsion shaft 60. Specifically, two protruding rings 62 are formed on the outer edge surface of the torsion bar 60 at intervals. The two protruding rings 62 abut against the sleeve 342 and the rear seat 70, respectively. Accordingly, the torsion shaft 60 is supported between the linking cover 34 and the rear seat 70.
Furthermore, in an embodiment of the present invention, the transmission mechanism 50 further includes a connecting ring 53. The connecting ring 53 is formed with a plurality of protrusions 531 arranged at intervals, and each protrusion 531 is used for clamping each first pawl 331.
It should be noted that the bearing set 40 disposed between the sheath 33 and the housing 10 includes a front bearing 41 and a rear bearing 42 disposed at an interval. The outer peripheral surface of the sheath 33 is formed with a first annular rib 333. The front bearing 42 and the rear bearing 42 respectively abut against two sides of the first annular rib 333 and are formed with an annular groove 330 (see also fig. 2). In addition, a second annular rib 13 is formed on the inner wall surface of the housing 10 (see also fig. 1). The sheath 33 is positioned within the housing 10 by the second annular rib 13 abutting the first annular rib 333.
Accordingly, the user presses the key 121 to activate the control panel 20 to start operation. The control board 20 starts the operation of the power body 31. The power body 31 drives the transmission mechanism 50 to rotate through the driving shaft 32, and the actuating portion 52 of the transmission mechanism 50 can drive the external tool to rotate after the power body 31 reaches a predetermined torque. Subsequently, after the predetermined torque is exceeded, the power body 31 rotates relative to the housing 10 through the arrangement of the bearing set 40. At this time, the interlocking cover 34 and the torsion shaft 60 rotate together with the power body 31. In addition, the torque sensor 2 disposed at the rear side of the power body 31 can sense the received torque, and the torque signal is transmitted by the control board 20 and displayed on the display 3.
It should be noted that the power body 31 of the present invention is in the reverse rotation state after exceeding the predetermined torque, and transmits the torque to the torsion shaft 60, at this time, the torque sensor 2 transmits a signal to the control board to immediately stop the operation of the power body 31. Furthermore, since the torque sensor 2 of the present invention is disposed at the rear side of the power body 31, the torque sensor is not affected by the vibration of the external tool, and provides an accurate torque value. In addition, the torque sensor 2 is disposed at the rear end of the housing 10 of the power tool 1, so that the space at the front end of the housing 10 can be reduced, the power output can be prevented from being affected, and the power can be transmitted to the working end 101 more directly.
The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. A power tool, comprising:
the shell comprises an accommodating space and a working end positioned in front of the accommodating space, and the working end is provided with an opening;
the control panel is arranged in the accommodating space;
the power device is arranged in the accommodating space and comprises a power body electrically connected with the control panel, a driving shaft driven by the power body and a sheath sleeved on the power body;
the bearing group is arranged between the sheath and the shell so that the power body can rotate relative to the shell;
the transmission mechanism is arranged in the accommodating space and positioned on the front side of the power device, and comprises an actuating part which rotates along with the driving shaft and extends out of the opening of the shell to drive a tool piece to rotate; and
and the torsion shaft is arranged in the accommodating space and is positioned at the rear side of the power device relative to the transmission mechanism, and the torsion shaft is connected with the power device and rotates along with the power device.
2. The power tool of claim 1, wherein the power assembly further comprises a linkage cover positioned between the sheath and the torsion shaft, the linkage cover having two sides connected to the sheath and the torsion shaft, respectively.
3. The power tool of claim 2, wherein said sheath has a front side and a rear side opposite, said front side having a plurality of first detents formed thereon, said rear side having a plurality of second detents formed thereon, said cooperating cover having a plurality of third detents formed thereon on a side facing said sheath for engaging each of said second detents.
4. The power tool of claim 3, wherein the linkage cover includes a cover and a sleeve connected to the cover, the cover being fitted over a rear side of the power body and formed with the third pawls, the sleeve being fitted over a front end of the torsion shaft.
5. The power tool of claim 4, further comprising a rear bearing fixed within said housing and receiving a rear end of said torsion shaft.
6. The power tool of claim 5, wherein said torsion shaft has an outer peripheral surface formed with two spaced apart raised rings, each of said raised rings abutting said sleeve and said rear socket, respectively.
7. The power tool of claim 3, wherein said drive mechanism further comprises a coupling ring, said coupling ring defining a plurality of spaced projections, each of said projections engaging a respective one of said first detents.
8. The power tool of claim 1, wherein the bearing assembly includes a front bearing and a rear bearing spaced apart from each other, the sheath having an outer peripheral surface formed with a first annular rib, the front bearing and the rear bearing respectively abutting against two sides of the first annular rib and forming an annular groove; the inner wall surface of the shell is formed with a second annular rib, and the sheath is positioned in the shell by abutting the second annular rib against the first annular rib.
9. A torque indicating arrangement for a power tool comprising a power tool according to any one of claims 1 to 8 and a torque sensor disposed in the housing and located on the rear side of the power plant.
10. The torque indicating arrangement of the power tool machine according to claim 9, wherein said torque sensor is disposed on said torsion shaft.
CN202121322267.4U 2021-06-15 2021-06-15 Power tool machine and torque force display device thereof Active CN217434190U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121322267.4U CN217434190U (en) 2021-06-15 2021-06-15 Power tool machine and torque force display device thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121322267.4U CN217434190U (en) 2021-06-15 2021-06-15 Power tool machine and torque force display device thereof

Publications (1)

Publication Number Publication Date
CN217434190U true CN217434190U (en) 2022-09-16

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CN202121322267.4U Active CN217434190U (en) 2021-06-15 2021-06-15 Power tool machine and torque force display device thereof

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4353418A1 (en) * 2022-10-14 2024-04-17 Matatakitoyo Tool Co., Ltd. Torque sensing arrangement of power tool

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4353418A1 (en) * 2022-10-14 2024-04-17 Matatakitoyo Tool Co., Ltd. Torque sensing arrangement of power tool

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