DE202010014534U1 - Multifunctional torque tool detection device - Google Patents

Abstract

A multi-functional torque tool detection device, comprising:
at least one connecting body having two opposite ends each forming a coupling end, and an outer peripheral surface forming at least one holding portion;
at least one tool connecting bar having an end connected to one of the coupling ends of the connecting body and having an opposite end adapted for connection to at least one tool bit for rotationally actuating a threaded fastener;
at least one signal ring assembly coupled between the connector body and the tool connecting bar and including a plurality of isolation rings and a plurality of conductor rings arranged alternately to allow the isolation rings to insulate and to permit isolation of the conductor rings from each other;
at least one torque detecting device configured with the holding portion of the connecting body for detecting a torque value generated by the rotational operation of the tool bit at one end of the tool connecting bar, and converting the torque value into a torque detecting signal, the torque detecting device being electrically connected to at least one of the conductor rings of the signal ring assembly; around the ...

Description

Background of the invention

1. Field of the invention

The present invention relates to a multifunctional torque tool detection device, and more particularly, to an apparatus which has applications in the operation of hand tools for the simultaneous detection and display of applied torques in a clockwise and counterclockwise direction as well as horizontal angles of the hand tool.

A hand tool, such as a screwdriver, socket wrench, or wrench, is widely used in assembly and maintenance work in engineering for tightening or securing threaded fasteners or threaded components, such as screws or nuts. For high-precision mechanical components, however, the bolts or nuts must be tightened or loosened according to predetermined torque levels. Improper work can inadvertently damage the threads of screws or nuts, or cause fractures, or even cause unwanted damage to the functionality and workability of the tools themselves.

The conventional hand tools are unable to detect and display the value of applied torque so that they do not allow the user to be aware of the currently applied torque level. Therefore, a user of these tools must rely on his or her experience and care in operating the tool, which may result in improper operation. If the problem is solved by equipping each tool with a special torque detector to form individual tools with torque detection, the cost of designing and manufacturing can greatly increase. Furthermore, this provision could not be feasible for all applications in which hand tools are used to apply a torque to a workpiece, so that this is detrimental to the actual applicability of the tools and is not suitable for direct use in the industry.

Furthermore, a torque wrench must often be held at a particular horizontal angle during its actuation. Failure to set the key or socket wrench to the correct horizontal angle may result in damage to a screw or nut that is being tightened due to breakage of its thread. So far, the skilled user relies entirely on his or her experience in controlling the horizontal angle, and effective management and alarm can not be realized.

Prior art techniques in this field are known. For example, this discloses Taiwanese Patent No. I300027 a torque wrench with a drive head, which is equipped with a torque device and the Taiwanese Patent No. I307305 discloses a digital alarm device for torque wrenches. Both patents illustrate conventional solutions in which torque detection / display or alarm devices are mounted on torque wrenches. In such known solutions, the assembly of the torque detection and display device on the torque wrench is a difficult process, which makes the manufacture of the torque wrench very complicated. Furthermore, both patents provide only solutions for the detection of torque, which are applicable only to special torque wrench and are not suitable for all types of hand tools.

Furthermore, this discloses Taiwanese Utility Model No. M377299 a torque tool coupler with angle measurement function, wherein a torque wrench is provided with a conventional structure with a torque / horizontal angle detection, display and an alarm to realize an angle detection. However, such a device is only suitable for personal use in the detection, display and output of alarm signals related to the torque and horizontal angle. For a large workshop, it is not possible to provide centralized control and management with regard to the use of torque wrenches. Economic benefits that can be gained through the collective and consistent control and management of the use of torque wrenches can not be realized.

Summary of the invention

The traditional hand tools are not equipped with a mechanism for Detecting and displaying the torques and angles used by them, so they often suffer from problems with damage to threaded fasteners by the application of a wrong torque or angle during assembly and / or disassembly. Although prior art references provide solutions to this problem, the known solutions are applicable only to specific applications for detecting and displaying torques and angles generated by torque wrenches.

To overcome the problems and disadvantages of the conventional devices, the present invention provides a torque detecting and displaying device comprising at least one connector body, at least one tool connecting bar, at least one signal ring assembly, a torque detecting device, an angle sensor, a plurality of signal receiving elements, and a display and Processing unit includes. The connecting body has an end coupled to the tool connecting bar and the tool connecting bar is connected to at least one tool bit. The connecting body is housed in a tool housing. The signal ring assembly is coupled between the connector body and the tool connection bar. The torque detecting device and the angle sensor are fixed to the connector body. The torque detection device and the angle sensor detect a torque and an angle exerted by the tool bit in the clockwise or counterclockwise operation and generate a torque detection signal and an angle detection signal provided via the signal ring assembly. The signal receiving elements are in contact with the signal ring assembly to remove the torque detection signal and the angle detection signal during rotation of the connector body. The presentation and processing unit is connected to the signal receiving elements to receive the torque detection signal and the angle detection signal and to represent a current torque and an angle that the tool bit is using in operation.

The effectiveness of the torque tool detection device of the present invention is that the device is constructed of a modularized connector body, tool connection bar, torque detection device, angle sensor, and presentation and processing unit capable of being coupled to various hand tools such that: when the multifunctional torque tool detection device is coupled to a hand tool, such as a screwdriver, socket or wrench, the multifunctional torque tool detection device allows the tool to detect and present the torque and angle being applied, without additional manufacturing costs for the hand tool itself produce. Further, a signal ring assembly and a plurality of signal receiving elements are provided in such a manner as to enable relative rotation between them when the tool connection bar is operated and signal acquisition can be realized without interference by switching the direction of rotation of the tool connection bar so as to process and display the allow instantaneous torque and angle, which are applied during the rotational operation of the tool. In this way, a multimodal detection and representation of a tool torque and angle can be realized.

Brief description of the figures

The present invention will become apparent to those skilled in the art by reading the following description of preferred embodiments with reference to the accompanying drawings, in which:

1 Fig. 12 is a perspective view showing multifunctional torque tool detection apparatus constructed according to a first embodiment of the present invention;

2A an exploded view of the multi-functional torque tool detection device 1 is;

2 B Figure 11 is an exploded view of a signal ring assembly of the multifunctional torque tool detection apparatus of the present invention;

3 a cross-sectional view of the multi-functional torque tool detection device 1 shows;

4 shows a second embodiment of the multi-functional torque tool detecting device according to the present invention;

5 shows a third embodiment of the multifunctional torque tool detection device according to the present invention;

6 shows a fourth embodiment of the multifunctional torque tool detection device according to the present invention;

7 shows a fifth embodiment of the multifunctional torque tool detection device according to the present invention;

8th an exploded view 7 shows;

9 a perspective view of the device 7 in a cross-sectional shape;

10 a cross-sectional view of 7 shows;

11 an exploded view of a direction switching device 8th shows;

12 shows a sixth embodiment of the multifunctional torque tool detection device according to the present invention; and

13 an exploded view of a connecting body and a direction switching device 12 shows.

Detailed Description of the Preferred Embodiments

Referring to the figures and in particular 1 . 2A . 2 B and 3 , which show a constructed according to a first embodiment of the present invention, a multi-functional torque tool detection device, generally with the reference numeral 100 is designated, the device comprises 100 according to the present invention at least one connecting body 10 which has two opposite ends, each coupling ends 11 . 12 form. The coupling ends 11 . 12 each form a coupling hole 111 . 121 , The connecting body 10 has an outer peripheral surface on which at least one retaining element 13 is formed.

The device 100 further comprises at least one tool connection bar 20 which is a bar-like extension 21 and an adapter 22 is composed. The extension 21 has two opposite ends, each having a body connecting portion 211 and a tool connection section 212 form. The body connection section 211 forms at least one coupling hole 211A , The tool connection section 212 forms at one of its end faces a coupling opening 212A , The coupling opening 212A takes in at least one strong magnet 212B for tightening and holding a tool insert 200 on, which has an end in the coupling opening 212A has and holds the magnet in the coupling opening 212A , The tool insert 200 is not limited to a specific type and a screwdriver is selected as an example in the illustrated embodiment. Other types of hand tools for rotary actuation, such as sockets and wrenches, may be used in combination with the apparatus of the present invention and are considered to be within the scope of the invention.

The adapter 22 forms at least one coupling opening in itself 221 extending axially through the adapter 22 extends to at opposite ends of the adapter 22 To form openings, each the coupling end 11 of the connecting body 10 and the body connecting portion 211 that at one end of the extension 21 is formed to record, which can be inserted in it. The adapter 22 has an outer peripheral wall through which retaining holes 222 . 223 each at locations near the two ends of the adapter 22 are defined. The holding hole 222 Aligns with the coupling hole 111 of the coupling end 11 of the connecting body 10 when the connecting body 10 in the adapter 22 is plugged in, and similarly, the holding hole is aligned 223 with the coupling hole 211A of the body connection section 211 the extension 21 if the extension 21 in the adapter 22 is inserted.

A signal ring arrangement 23 includes at least one sleeve 231 , a variety of installation rings 232 , a variety of guide rings 233 and at least one locking ring 234 , The sleeve 231 defines a central through hole 231A that is sized to fit over the outside wall of the adapter 22 can be plugged. The sleeve 231 has an outer wall, the through holes 231B . 231C forms, wherein the through hole 231B in alignment with the holding hole 222 of the adapter 22 is set to a pen 222A to be absorbed by the through hole 231B , the holding hole 222 and the coupling hole 111 extends to the coupling end 11 of the connecting body 10 , the adapter 22 , the tool connection bar 20 and the sleeve 231 releasably connect to each other and the through hole 231C is aligned with the holding hole 223 of the adapter 22 set to a pin 223A to be absorbed by the through hole 231C , the holding hole 223 and the coupling hole 211A extends, so that the Verbindungsungsköper 10 and the tool connection bar 20 with the sleeve 231 the signal ring arrangement 23 get connected.

The sleeve 231 also forms on its outer circumferential wall two axially extending retaining ribs 231D and at least two attachment grooves 231E , Each mounting groove 231E includes a circumferentially displaced lower opening 231F circumferentially with respect to the mounting groove 231E is moved and with the mounting groove 231E is connected by a circumferentially extending passage (not numbered), whereby the opening 231F and the mounting groove 231E communicate with the circumferential passage which is substantially perpendicular to both the mounting groove 231E as well as the opening 231F runs.

Each isolation ring 232 is made of insulating material and has an inner circumference, which has at least two fitting grooves 232A forms, each of the holding ribs 231D lying on the outer peripheral wall of the sleeve 231 are formed, correspond and axially fit over this. Each conductor ring 233 is formed of an electrically conductive material and has an inner circumference, the at least two fitting grooves 233A forms, each of the holding ribs 231D the sleeve 231 match and fit axially over these. These isolation rings 232 and the conductor rings 233 are on the sleeve 231 inserted, in such a way that the isolation rings 232 and the conductor rings 233 in the axial direction of the sleeve 231 alternate, with the isolation rings 232 isolate and the conductor rings 233 isolate each other.

The locking ring 234 has an inner circumference, the at least two locking blocks 234A forms, each in the openings 231F the two mounting grooves 231E fit. By turning the locking ring 234 in a predetermined angular direction, for example counterclockwise, relative to the sleeve 231 , the locking blocks become 234A along the circumferentially extending passages, respectively, the opening 231 opens the respective mounting groove 231E connect, moved in the circumferential direction, to finally the mounting grooves 231E for securing the locking ring 234 on the outer circumferential wall of the sleeve 231 by a vertical connection of the passages between the fastening grooves 231E and the opening 231F to reach.

The tool connection bar 20 is not on a combination of a separate extension 21 and an adapter 22 limited. If desired, the tool connection bar can 20 be formed from a one-piece part, which is the extension 21 and the adapter 22 or other structures that perform equivalent functions may be used, all of which are considered to be within the scope of the invention. Similarly, the connection between the connecting body 10 and the tool connection bar 20 not limited to the connection made by the adapter 22 and the pen 222A is realized and can be achieved by any structure with equivalent function. Also the connection of the signal ring arrangement 23 to the connecting body 10 and the tool connection bar 20 is not on the means of the adapter 22 realized connection limited and the signal ring arrangement 23 may alternatively and integrally on the connecting body 10 or the tool connection bar 20 be formed.

At least one torque detection device 30 is on the holder portion 13 of the connecting body 10 attached. The torque detection device 30 is constructed of a strain-deformation sensor or a semiconductor-based sensor for torque detection. In one embodiment of the present invention, the torque detection device comprises 30 strain-sensitive resistor, which is considered as an illustrative example, and other devices, such as an integrated circuit device that can detect torque, are also considered to be within the scope of the invention. The torque detection device 30 detects one by pressing a tool insert 200 that at the end of the coupling 11 of the connecting body 10 connected tool connection bar 20 is fixed, clockwise or counterclockwise generated torque and in response to the detection generates a torque detection signal 31 , The torque detection device 30 includes one or more terminals connected to at least one of the conductor rings 233 the signal ring arrangement 23 connected, whereby the torque detection signal 31 through the conductor ring 233 can be transferred to the output.

At least one angle sensor 30A is planned. The angle sensor 30A is on a circuit board 30B mounted, in turn, on a holder section 30 of the connecting body 10 is mounted. The angle sensor 30A is not limited to a specific shape, and a built-in gyrating circuit, the Invensense series ISZ-650 model number, which is available from Macnica Taiwan Limited, is exemplified here. The angle sensor 30A has the function to detect the value of a horizontal angle in soft the connecting body 10 and the tool connection bar 20 are set, and the detected angle value in an output signal of an angle value signal 31A convert. The angle sensor 30A has one with at least one of the conductor rings 233 the signal ring arrangement 23 connected connection, where the angle value signal 31A for output through the conductor ring 233 can be transferred.

A variety of signal receiving elements 32 that are made of ladders is provided and each has a surface that has at least one contact tab 321 forms. The contact lug 321 each signal receiving element 32 is in contact with each conductor ring 233 the signal ring arrangement 23 to each of the signal receiving elements 32 the Recording the torque detection signal 31 and the angle value signal 31A to enable.

At least one presentation and processing unit is constructed of one or more circuits that can represent a torque value and an angle value and represent work functions and menus. The presentation and processing unit is electrically connected to the signal receiving elements 32 connected to that of the torque-detecting device 30 detected torque detection signal 31 and that of the angle sensor 30A detected angle value signal to receive and the values of during the turning operation of the tool insert 200 applied torque and angle represent.

Referring to 4 is a second embodiment of the device 100 shown in accordance with the present invention. In the second embodiment of the device, the presentation and processing unit comprises at least one signal amplifier 40A , an analog-to-digital conversion circuit 41 , a microprocessor 42 , a display interface 43 , a display 44 , a button set 45 and a power unit 46 , The signal amplifier 40A is electrical with the signal receiving elements 32 connected to the torque detection signal 31 and the angle value signal 31A to receive and amplify. The analog-to-digital conversion circuit 41 is electrical with the signal amplifier 40A connected to the torque detection signal 31 and the angle value signal 31A that from the signal amplifier 40A were transformed into digital torque data and digital angle data. The microprocessor 42 is electrically connected to the analog-to-digital conversion circuit 41 to receive the digital torque data and the digital angle value data received from the analog-to-digital conversion circuit 41 be provided, and the microprocessor 42 Adopts the functions of transitional storage of the torque and angle value data as well as the control and operation of the display.

The display interface 43 is electric with the microprocessor 42 connected to receive the torque and angle value data and convert it into a torque value display signal and an angle value display signal. the display 44 is electric with the display interface 43 in order to receive, process and display the torque value representation signal and angle value representation signal. the display 44 is not limited to a specific type, and in one embodiment, the display includes 44 a liquid crystal display (LCD) device, which is considered as an illustrative example of the present invention. Other display devices having equivalent functions, such as light emitting diode (LED) based display devices, are considered to be within the scope of the present invention.

The shawl button set 45 , which is composed of one or more buttons, is electrically connected to the microprocessor 42 connected to instructions related to the display mode for the microprocessor 42 to provide, for example, the switching of the unit of the illustrated torque value or a control command for controlling the brightness of the display.

The power unit 46 provides for the analog-to-digital conversion circuit 41 , the microprocessor 42 , the display interface 43 , the display 44 and the button set 45 a job done. The power unit 46 is not limited to a specific type, and the example of a DC battery or cell is selected in an embodiment of the present invention. Other power supply devices, such as an AC / DC converter, are also contemplated as being within the scope of the invention.

Referring to 5 is a third embodiment of the device 100 shown in accordance with the present invention. In the third embodiment, a backlight plate 47 and at least one vibration alarm device 48 , an audible alarm device 49 , a light alarm device 491 and an auxiliary lighting unit 50 additionally in the presentation and processing unit 40 referring to 4 was discussed. The backlight plate 47 is electric with the microprocessor 42 connected to as a backlight plate for the display 44 to serve. The brightness of the backlight plate 47 can through the switch button set 45 to be controlled. The vibration alarm device 48 , the audible alarm device 49 and the light alarm device 491 are each with the microprocessor 42 connected, whereby whenever the microprocessor 42 receives a detection of the torque and / or the angle value that exceeds a predetermined threshold, the microprocessor 42 , the vibration alarm device 48 , the audible alarm device 49 and the light alarm device 491 activated to generate each a vibration, audible alarms and flashing light, so as to the user of the device 100 to inform that that of the tool insert 200 generated torque or the angle exceeds the predetermined threshold. The preset torque and angle thresholds can be achieved by the operation of the button set 45 in the microprocessor 42 be set.

The vibration alarm device 48 , the audible alarm device 49 and the light alarm device 491 are not limited to specific types or shapes, and in one embodiment of the present invention includes the vibration alarm device 48 a vibration motor, the acoustic alarm device 49 includes a buzzer as an illustrative example and the light alarm device 491 can be composed of light emitting diodes. Other types of electric vibrators, sound generating devices, and light emitting devices exhibiting equivalent functions are all considered to be within the scope of the invention.

The auxiliary lighting unit 50 is electric with the microprocessor 42 and the power unit 46 connected. When through the button set 45 a command to the microprocessor 42 is output, the microprocessor controls the on / off states of the lighting of the auxiliary lighting unit 50 whereby the auxiliary lighting unit controls the rotation of the tool bit 200 can illuminate. The auxiliary lighting unit 50 is not limited to a specific shape, and high power LEDs are selected as an example in the present embodiment.

Referring to 6 is a fourth embodiment of the device 100 shown in accordance with the present invention. In the fourth embodiment of the device 100 includes the microprocessor 42 the presentation and processing unit 40 a wireless transmitter module 421 and a communication interface module 422 for transmitting the torque value data and the angle value data in wireless or wired manner to at least one electronic device 421A , The wireless transmitter module 421 is not limited to a specific type and may be a wireless transmission module such as Universal Serial Bus (USB), Blue Tooth, Wireless Local Area Network (WLAN), Infrared (IR), Amplitude Shift Encryption (ASK) or Frequency Shift Encryption (FSK). The communication interface module 422 is not limited to a specific type and can, for example, USB interface, RS-422 interface and a IEEE1394 interface be. The electronic device 421A Therefore, for example, a mobile phone, a personal digital assistant (PDA), a notebook computer, or a personal computer (PC) equipped with wireless communication or wired communication interface means may transmit the torque value data and the angle value data in a wireless or wired manner the electronic device 421A to enable to use of this or the electronic device 421A to be transmitted for remote control and for monitoring purposes.

Referring to 7 to 11 is a fifth embodiment of the device 100 illustrated according to the present invention, wherein the connecting body 10 , the tool connection bars 20 , the torque detecting device 30 , the presentation and processing unit 40 the device 100 according to the present invention are housed in an interior space, that between a pair of associated tool housing elements 300 . 310 is defined. The tool housing elements 300 . 310 each form interiors 301 . 311 which, when connected to each other, the interior space for housing the connecting body 10 , the tool connection bar 20 , the signal ring assembly 23 , the torque detection device 30 , the signal receiving elements 32 and the presentation and processing unit 40 form. The tool housing elements 300 . 310 are with mounting holes 302 . 312 for receiving screws 320 . 330 equipped for backup purposes. An end to the extension 21 of the tool connection bar 20 is in a sleeve 213 plugged, which serves as storage.

The tool housing elements 300 . 310 include associated rear handle areas 301A . 311A which in at least a part of the interiors 301 . 311 form. Inside handle areas 301A . 311A is a direction switching device 60 added. The handle areas 301A . 311A each form access openings 303 . 313 to the interiors 301 . 311 through a removable lid 303A are closed.

The direction switching arrangement 60 is not limited to a specific type, and in the present illustrative example, the direction switching device includes 60 a solid framework 61 , a coupler 62 , a movable directional block 63 , a heart-shaped spring 64 , a switch button 65 and a locking nut 66 , as in 11 shown. The frame 61 forms at least two arms 611 . 612 that protrude from the inside out and the two arms 611 . 612 are each in the interiors 301 . 311 the handle areas 301A . 311A recorded and fixed. The solid framework 61 make at least one hole 613 , which has an inner peripheral surface containing a plurality of teeth 614 forms.

The coupler 62 has a lower end, which has a body connection area 621 forms, which at least one coupling hole 621A forms as well as a connecting element 622 which is a through hole in itself 622A forms, the two opposite openings each for receiving the body connection area 621 and the coupling end 12 of the connecting body 10 serve by pushing. The connecting element 622 has an outer wall, in each of which retaining holes 622B . 622C are defined at locations close to the two ends of the connecting element 622 lie. The holding hole 622B Aligns with the coupling hole 621A of the body connection area 621 if the body connection area 621 in the connecting element 622 is plugged in, leaving a pen 622D through the holes 622B . 621A can extend to the coupler 62 at one end of the connecting element 622 to fix; and in a similar way the holding hole is aligned 622C of the connecting element 622 with the coupling hole 121 of the coupling end 12 of the connecting body when the coupling end 12 of the connecting body in the connecting element 622 is plugged in, leaving a pen 622E through both holes 622C . 121 can extend to the coupler 62 on the connecting body 10 to fix.

The coupler 62 has a top end, which has a connection shaft 623 forms, which has an outer circumference, which an external thread 623A forms. The connection shaft 623 is through the hole 613 of the frame 61 plugged.

The direction block 63 is in the hole 613 of the frame 61 picked up and has an outer surface, the teeth 631 which forms in the teeth 614 of the hole 613 intervention. The direction block 63 forms at least one center hole 632 ,

The heart-shaped spring 64 is about the liaison 623 of the coupler 62 plugged. The feather 64 has an inner end and an outer end, each with a pair of pins 641 form as well as a vertex area 642 , The insertion pins 641 are in the middle hole 632 of the directional block 63 plugged to a drive connection between the directional block 63 and the spring 64 to create.

The switch button 65 makes a hole 651 in its middle area. The hole 651 is about the liaison 623 of the coupler 62 plugged in and is at the coupler 62 through the locking nut 66 secured in the external thread 623A of the connection shaft 623 engages, causing the toggle button 65 around the liaison 623 is rotatable. The switch button 65 has a lower end, which at least one projection 652 forms, which is in the interior of the vertex area 642 the spring extends so that the projection 652 with the spring 64 is coupled. When the toggle button 65 Turning clockwise or counterclockwise turns the spring 64 through the lead 652 driven and in turn turns the directional block 63 in the circumferential direction in the reverse direction. Opposite ends of the directional block 63 are therefore determined by the rotation of the toggle button 65 clockwise or counterclockwise so that they move circumferentially clockwise or counterclockwise to fit into the teeth if necessary 614 of the hole 613 of the frame 61 to intervene and serve as a ratchet device. If the coupler 62 from the tool insert 200 is driven to rotate when the coupler 62 with the direction block 62 engages in the forward direction, the connecting body 10 , the tool connection bar 20 and the tool insert 200 perform a resilient forward torque rotation and when the coupler 62 in the reverse direction with the direction block 63 is engaged, the rotation of the tool insert 200 interrupted, so the tool insert 200 is set in a ratchet-assisted resilient torque rotation in one direction. In other words, the connecting body 10 , the tool connection bar 20 and the tool insert 200 are selectively set in a one-sided resilient torque rotation in a clockwise or counterclockwise direction, depending on the switching operation of the changeover button 65 clockwise or counterclockwise.

By switching operation of the changeover button 65 can the direction switching device 60 the connecting body 10 , the tool connection bar 20 and the tool insert 200 set either to rotate clockwise or counterclockwise and the conductor rings 233 the signal ring arrangement 23 stay in contact with the signal receiving elements 32 so as to the torque detection device 30 the receipt of the torque detection signal 31 through the signal receiving elements 32 to enable.

The tool housing element 300 forms on its outer surface a liquid crystal display window 304 and a button window 305 , The liquid crystal display window 304 takes the presentation and processing unit 40 and the display 44 on and fastened by screws 304A , A transparent plate 441 and a protective film 442 are outside the display 44 intended.

The switch button window 305 forms a plurality of switch button openings 305A and at least one display opening 305A ' , The button set 45 the presentation and processing unit 40 includes a variety of buttons 451 , a switch button board 452 and a switch button plate 453 , The buttons 451 are on the switch button board 452 assembled. The switch button board 452 is electric with the microprocessor 42 the presentation and processing unit 40 connected. The switch button board 452 is within the button window 305 with screws 305B attached, so the buttons 451 each by the Switch button openings 305A to allow the user access and actuation. The switch button plate 453 is over the buttons 451 plugged and preferably with adhesives on an outer surface of the switch button window 305 attached to the functions of the control buttons 451 to be able to show. The display opening 305A ' make an alarm light of the light alarm device 491 visible to the outside.

The tool housing element 310 forms in itself a performance chamber 314 for picking up and holding the power unit 46 , which may be a DC cell or battery, for example. The performance chamber 314 is inside with power connection elements 314A . 314B equipped, each for engagement in positive and negative electrodes of the listing unit 46 serve. The power connection elements 314A . 314B are also electrically connected to the analog-to-digital conversion circuit 41 , the microprocessor 42 and the display interface 43 , the display 44 , the button set 34 , the backlight plate 47 , the vibration alarm device 48 , the acoustic alarm device 49 and the auxiliary lighting unit 50 connected to provide a work service for them. A lid 314C is outside the performance chamber 314 provided to the power chamber 314 cover and close.

The tool housing elements 300 . 310 have front ends, each with lighting openings 307 . 315 form, which complement each other so that they are the auxiliary lighting unit 50 the presentation and processing unit 40 can receive and hold, causing the auxiliary lighting unit 50 a lighting for irradiating the rotary operation of the tool insert 200 can provide.

The Virbrationsalarmvorrichtung 48 is in inner chambers 301 . 311 the handle areas 301A . 311A the tool housing elements 300 . 310 used to the vibration alarm device 48 generating and transmitting vibrations to the handle areas 301A . 311A allowing a user to control the handle areas 301A . 311A stops, which can feel vibration, to detect whether the working torque or the angle of the tool insert 200 exceeds the given threshold or not.

The tool housing element 300 forms a variety of sound holes and the acoustic alarm device 49 is inside the tool housing element 300 in a place near the sound holes 306 arranged to give audible alarms by the audible alarm device 49 are transmitted to a user, whereby the user can recognize whether the working torque or the angle of the tool insert 200 exceeds the given threshold or not by listening to the audible alarm.

Referring to 12 and 13 is a sixth embodiment of the device 100 according to the present invention, in which an alternative form of direction switching device 600 from the 7 to 11 is provided, wherein the connecting body 10 a coupling end 12 ' which is formed in a shape similar to that of the coupler 62 from the direction switching device 60 out 11 like. The coupling end 12 ' has a top end, which has a connection shaft 122 forms, which has an outer circumference with an external thread 122A Has.

The direction switching device 60 ' includes a fixed frame 61A , a movable directional block 63A , a heart-shaped spring 64A , a switch button 65A , a washer 67 , a safety spring plate 68 and a locking nut 69 , The frame 61A forms at least two arms 611A . 612A which protrude from him to the outside, respectively, in the inner chambers 301 . 311 of the handle area 301A . 311A to be taken up and fixed. The solid framework 61A make at least one hole 63A which has an inner peripheral surface containing a plurality of teeth 614A forms. The hole 613A is over an outer periphery of the coupling element 12 ' plugged.

The direction block 63A is in the hole 613A of the frame 61A picked up and has an outer surface, the teeth 631A which forms in the teeth 614A of the hole 613A intervention. The direction block 63A forms at least one center hole 632A ,

The heart-shaped spring 64A is about the liaison 122 of the coupling end 12 ' of the connecting body 10 plugged. The feather 64 has an inner end and an outer end, each with a pair of pins 641A form as well as a vertex area 642A , The insertion pins 641A are in the middle hole 632A of the directional block 63A plugged to a drive connection between the directional block 63A and the spring 64A manufacture.

The switch button 65A makes a hole 651A in its middle area. The hole 651A is about the liaison 122 of the coupling end 12 ' plugged.

The washer 67 is about the liaison staff 122 of the coupling end 12 plugged in and is on the toggle button 65A arranged.

The retaining spring plate 68 has a surface that has a variety of deformed areas 681 forms and the retaining spring plate 68 makes a hole 682 in their mid-range. The hole 682 is about the liaison 122 of the coupling end 12 ' stuck and is on the washer 67 arranged. The deformed areas 681 the retaining spring plate 68 are not limited to special shapes, and in the present embodiment, corrugation is exemplified as the deformed areas 681 chosen to the retaining spring plate 68 be provided with a deformability when it is compressed and with a restoring force after release.

The locking nut 69 engages in the external thread 122A of the connection shaft 122 a, wherein by the deformability and restoring force of the deformed areas 681 the retaining spring plate 68 the shift button gradually around the connection shaft 122A can be rotated, whereby the direction switching operation of a ratchet assisted resilient torque rotation in a single direction similar to the direction switching device 60 on the 7 to 10 can be realized what the choice between a rotation of the connecting body 10 clockwise or counterclockwise for resilient torque rotation.

Although the present invention with respect to the preferred embodiments of the 1 to 13 It will be apparent to those skilled in the art that a variety of modifications and changes can be made without departing from the scope of the present invention which is to be defined by the appended claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• TW 300027 [0005]
• TW 307305 [0005]
• TW 377299 [0006]

Cited non-patent literature

• IEEE1394 interface [0044]

Claims (34)

A multi-functional torque tool detection device, comprising: at least one connecting body having two opposite ends each forming a coupling end, and an outer peripheral surface forming at least one holding portion; at least one tool connecting bar having an end connected to one of the coupling ends of the connecting body and having an opposite end adapted for connection to at least one tool bit for rotationally actuating a threaded fastener; at least one signal ring assembly coupled between the connector body and the tool connecting bar and including a plurality of isolation rings and a plurality of conductor rings arranged alternately to allow the isolation rings to insulate and to permit isolation of the conductor rings from each other; at least one torque detecting device configured with the holding portion of the connecting body for detecting a torque value generated by the rotational operation of the tool bit at one end of the tool connecting bar, and converting the torque value into a torque detecting signal, the torque detecting device being electrically connected to at least one of the ladder rings of the signal ring assembly; to pass the torque detection signal through the conductor ring; at least one angle sensor attached to the support portion of the connector body to detect an angular value in which the tool bit is set at the end of the tool connecting bar and to convert the angle value into an angle detection signal, the angle sensor being electrically connected to at least one ladder ring of the signal ring assembly to pass the angle detection signal through the conductor ring; a plurality of signal receiving elements each in contact with the conductor rings of the signal ring assembly to pick up the torque detection signal and the angle detection signal; and at least one presentation and processing unit comprising a circuit for digitally representing the torque value and the angle value and representing actuation functions, the presentation and processing unit being electrically connected to the signal receiving elements, the torque detection signal provided by the torque detection device, and the angle sensor and receive the torque value and angle value generated by the rotational actuation of the tool bit at one end of the tool link bar. The multi-functional torque tool detection device according to claim 1, wherein one of the coupling ends of the connector body is connected to a direction switching device. The multi-functional torque tool detection device according to claim 2, wherein the direction switching device comprises: a solid frame forming at least one hole having an inner peripheral surface forming a plurality of teeth; a coupler having a lower end which forms a body connecting portion connected to one of the coupling ends of the connecting body to fix the coupler to the connecting body, the coupler having an upper end forming a connecting shaft inserted into the hole of the fixed frame; a directional block disposed in the hole of the fixed frame and having an outer surface forming teeth engaging with the teeth of the hole, the directional block forming at least one center hole; a heart-shaped spring which is fitted over the coupling shaft of the coupler and has inner and outer ends respectively forming male pins and a crown portion, the male pins being inserted into the center hole of the directional block to provide drive connection between the directional block and the heart-shaped spring form; and a change-over button comprising a hole insertable via the connecting shaft formed at the upper end of the coupler and fixed to the coupler by a nut engaging with an external thread formed on the connecting shaft, whereby the changeover button is rotatable about the connecting shaft, the changeover button being one lower end having at least one projection extending into the apex portion of the heart-shaped spring to connect the projection with the heart-shaped spring, so that rotation of the changeover button in opposite directions, the heart-shaped spring drives so that it is a displacement of the directional block generated in opposite circumferential directions, so that the connecting body can be selectively adjusted to a state with a resilient torque in a single direction depending on the direction in which the changeover button is rotated. A multi-functional torque tool detecting device according to claim 3, wherein a connecting member is provided for connection between the body connecting portion of the coupler and one of the coupling ends of the connecting body. The multi-functional torque tool detection device according to claim 2, wherein one of the coupling ends of the connector body includes a configuration of the coupler, the one of the coupling ends having an upper end forming a connection shaft, the direction switching device comprising: a fixed frame forming at least one hole having an inner circumferential surface forming a plurality of teeth, the hole being fitted over an outer periphery of the one of the coupling ends; a directional block disposed in the hole of the fixed frame and having an outer surface forming teeth engaging with the teeth of the hole, the directional block forming at least one center hole; a heart-shaped spring which is fitted over the connection shaft of the connection body and has inner and outer ends respectively forming insertion pins and a vertex portion, the insertion pins being inserted into the center hole of the directional block to drive connection between the directional block and the heart-shaped spring to create; a change-over button which forms a hole in its central area and is inserted over the connecting shaft formed at one of the coupling ends of the connecting body; a washer which is fitted over the connection shaft formed on one of the one of the coupling ends of the connection body and disposed on the changeover button; a backup spring plate which has a hole in its central region and which is fitted over the connecting shaft formed on a coupling end of the connecting body and disposed on the washer; and a locking nut, is attached to the connecting shaft with tightened thread. The multi-functional torque tool detection device according to claim 5, wherein the backup spring plate has a surface forming a plurality of deformed portions. A multi-functional torque tool detection device according to claim 6, wherein said deformed portions comprise corrugations. A multi-functional torque tool detecting device according to claim 1, wherein said connecting body forms a coupling hole in each of its opposite ends. The multi-functional torque tool detection apparatus according to claim 1, wherein the tool connection bar comprises: an extension having two opposite ends each forming a body connection portion and a tool connection portion, the tool connection portion comprising at the end a coupling aperture for receiving the tool insert which can be inserted therein; and an adapter having at least one coupling opening forming openings in opposite ends of the adapter for receiving respectively one of the coupling ends of the connector body and the body connecting portion formed at the end of the extension, which can be inserted therein. The multi-functional torque tool detection apparatus according to claim 9, wherein the coupling opening of the extension receives and holds at least one magnet. The multi-functional torque tool detection apparatus of claim 1, wherein the signal ring assembly comprises: a sleeve defining a central through hole having opposed openings, each connecting to one end of the connector body and one end of the tool connecting bar, the sleeve having an outer peripheral wall, the at least two axially extending support ribs and at least two axially extending mounting grooves defined, wherein each of the fastening grooves comprises a circumferentially displaced opening; the plurality of isolation rings, each made of insulating material and having an inner periphery defining at least two fitting grooves corresponding to and fitting over the retaining ribs on the outer peripheral wall of the sleeve; the plurality of conductor rings, each made of electrically conductive material and having an inner circumference forming at least two fitting grooves, each corresponding to and attachable to the retaining ribs of the sleeve, the insulation rings and the conductor rings alternately plugged onto the sleeve are so that the conductor rings are insulated from each other by the insulating rings; and a locking ring having an inner periphery defining at least two locking blocks fitted in the openings of the two mounting grooves formed on the outer peripheral wall of the sleeve, whereby rotation of the locking ring relative to the sleeve causes the locking blocks to move from the openings through circumferentially extending passages move the mounting grooves and held therein. The multi-functional torque tool detection device according to claim 1, wherein the torque detection device comprises a strain deformation-based torque sensor. The multi-functional torque tool detection device according to claim 1, wherein the torque detection device comprises a semiconductor-based torque sensor. The multi-functional torque tool detection apparatus according to claim 1, wherein the angle sensor a comprises integrated gyroscope circuitry. The multi-functional torque tool detection device of claim 1, wherein the signal receiving elements are made of conductive materials. The multi-functional torque tool detection device of claim 1, wherein each of the signal receiving elements has a surface forming at least one contact tab in contact with each of the conductor rings of the signal ring assembly. The multi-functional torque tool detection device of claim 1, wherein the presentation and processing unit comprises: at least one signal amplifier electrically connected to the signal receiving elements to receive and amplify the torque detection signal and the angle detection signal; at least one analog-to-digital conversion circuit electrically connected to the signal amplifier for converting the torque detection signal and the angle detection signal amplified by the signal amplifier into digital torque data and digital angle value data; at least one microprocessor electrically connected to the analog-to-digital conversion circuit to receive the torque value data and the angle value data provided by the analog-to-digital conversion circuit, the microprocessor providing the functions of temporarily storing the torque value data and the angle value data as well as the control and the operation of the representation takes over; at least one display interface electrically connected to the microprocessor for receiving and converting the torque value data and the angle value data into a torque value representative signal and angular value representative signal; at least one display electrically connected to the display interface for receiving, processing and displaying the torque value representative signal and the angle value presentation signal; at least one switch button set electrically connected to the microprocessor for providing instructions associated with the display operation for the microprocessor; and at least one power unit that provides a performance for the analog-to-digital conversion circuit, the microprocessor, the display interface, the display, and the button set. The multifunctional torque tool detection apparatus according to claim 17, wherein the display comprises a liquid crystal display. The multi-functional torque tool detection device according to claim 17, wherein the power unit comprises a DC battery. The multi-functional torque tool detection apparatus according to claim 17, wherein the power unit comprises an AC / DC converter. The multi-functional torque tool detection apparatus according to claim 17, wherein the power unit comprises an AC / DC converter. The multifunctional torque tool detection apparatus of claim 17, wherein the microprocessor is electrically connected to a wireless transmission module. The multi-functional torque tool detection apparatus of claim 17, wherein the microprocessor is electrically connected to a communication interface module. The multi-functional torque tool detection apparatus according to claim 1, wherein the presentation and processing unit comprises: at least one signal amplifier electrically connected to the signal receiving elements to receive and amplify the torque detection signal and the angle detection signal; at least one analog-to-digital conversion circuit electrically connected to the signal amplifier for receiving the torque detection signal and the angle detection signal amplified by the signal amplifier into digital torque data and digital angle value data; at least one microprocessor electrically connected to the analog-to-digital conversion circuit for receiving the digital torque data and the digital angle value data provided by the analog-to-digital conversion circuit, the microprocessor providing the functions of temporarily storing the torque value data and the angle value data and the control and operation of the display, the setting of reference thresholds of torque and angle, the alarm when exceeding the thresholds, and ON / OFF control of the auxiliary lighting takes over; at least one display interface that is electrically connected to the microprocessor to the Receive torque value data and the angle value data and convert it into a torque value signal and angle value representation signal; at least one display electrically connected to the display interface for receiving, processing and displaying the torque value representative signal and the angle value presentation signal; at least one switch button set electrically connected to the microprocessor for providing instructions associated with the display operation for the microprocessor; at least one power unit that provides a performance for the analog-to-digital conversion circuit, the microprocessor, the display interface, the display, and the button set; a backlight plate electrically connected to the microprocessor to serve as a backlight source for the display; at least one vibration alarm device, at least one sound alarm device, and at least one light alarm device, each connected to the microprocessor, whereby whenever the microprocessor detects the detection of a torque value and angle value exceeding the thresholds, the microprocessor outputs the vibration alarm device, the acoustic alarm device, and individually activating the light alarm device to output vibration alert signals, audible alarm signals, and light alert signals, respectively; and at least one auxiliary lighting unit electrically connected to the microprocessor and the power unit whereby, when a command is issued to the microprocessor via the button set, the microprocessor controls the ON / OFF statuses of the backlight of the auxiliary lighting unit. The multi-functional torque tool detection apparatus of claim 24, wherein the microprocessor is electrically connected to a wireless transmission module. The multi-functional torque tool detection apparatus of claim 24, wherein the microprocessor is electrically connected to a communication interface module. The multi-functional torque tool detection apparatus according to claim 24, wherein the display comprises a liquid crystal display. The multi-functional torque tool detection device according to claim 24, wherein the power unit comprises a DC battery. The multi-functional torque tool detection apparatus according to claim 24, wherein the power unit comprises an AC / DC converter. The multi-functional torque tool detection device according to claim 24, wherein the vibration alarm device comprises a vibration motor. The multi-functional torque tool detection device according to claim 24, wherein the audible alarm device comprises a buzzer. The multi-functional torque tool detection apparatus according to claim 24, wherein the light alarm device comprises a light emitting diode. The multifunctional torque tool detection apparatus according to claim 24, wherein the auxiliary lighting unit comprises a high power light emitting diode. The multi-functional torque tool detection apparatus according to claim 1, wherein the connector body, the tool connecting bar, the signal ring assembly, the torque detection device, the angle sensor, the signal receiving elements and the presentation and processing unit are housed and held in mating tool housing elements.

Images