CN208765955U - A kind of torque detecting apparatus of electromagnetic clutch - Google Patents
A kind of torque detecting apparatus of electromagnetic clutch Download PDFInfo
- Publication number
- CN208765955U CN208765955U CN201821035603.5U CN201821035603U CN208765955U CN 208765955 U CN208765955 U CN 208765955U CN 201821035603 U CN201821035603 U CN 201821035603U CN 208765955 U CN208765955 U CN 208765955U
- Authority
- CN
- China
- Prior art keywords
- support frame
- retarder
- electromagnetic clutch
- far
- secondary bar
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Testing Of Devices, Machine Parts, Or Other Structures Thereof (AREA)
Abstract
The utility model relates to torque detecting apparatus fields, disclose a kind of torque detecting apparatus of electromagnetic clutch, including workbench, placement mechanism that workbench one end is set, workbench is set it is located remote from the driving mechanism of mechanism one end, connects the sensing mechanism of placement mechanism and driving mechanism, driving mechanism includes retarder, motor, connecting rod, handle, retarder is arranged on the table, and the output shaft of retarder is connect with one end that sensing mechanism is located remote from mechanism;Motor is arranged on retarder, and the output shaft of motor and the input terminal of retarder connect;The one end of motor far from retarder is arranged in connecting rod, and connecting rod is connected with the rotor of motor;Handle and connecting rod are detachably connected far from one end of retarder.The utility model has the following advantages that and effect: this programme utilize new mechanical structure, an equipment can more than detect electromagnetic clutch dynamic torque and static torque, get higher detection efficiency without separate detection.
Description
Technical field
The utility model relates to torque detecting apparatus fields, more specifically, it relates to a kind of torque of electromagnetic clutch
Detection device.
Background technique
Electromagnetic clutch refers to the slip clutch that pressing force is generated by electromagnetic force.Due to being able to achieve remote operation,
It is small to control energy, is easy to implement Machinery Tool Automation, simultaneously operation is fast, and structure is simple, also obtains and is widely applied.
Currently, Authorization Notice No. is CN202547834U, authorized announcement date is that the China on November 21st, 2011 is practical new
Type discloses a kind of clutch driven plate torque detection device, including output shaft, splicing sleeve, working plate, splined shaft, lower tooling
Plate and upper working plate further include wide range static torque sensor, connecting plate, star-like shaft coupling, small-range static torque sensing
Device, adjusts screw, bearing cap, bearing, spring return function seat and oscillating rod, the wide range static torque sensor at connection flange
Screw is used to connect with output shaft and connecting plate respectively by the flange at its both ends, the star-like shaft coupling includes lower connector and upper
Connector, connecting plate screw are connect with star-like shaft coupling, are adopted between the lower end and connecting plate of small-range static torque sensor
It is connected with flat key, using key connection, spring return function seat screw between the upper end and oscillating rod of small-range static torque sensor
It being fixed on connector, connection flange is connect by screw with upper connector, bearing is housed between connection flange and splicing sleeve,
Bearing cap is screwed on splicing sleeve, and splined shaft and connection flange use feather joint, adjusts screw loaded under splined shaft
End, can be used to the upright position for adjusting splined shaft;The output shaft, splined shaft, wide range static torque sensor and small-range
Static torque sensor vertical axis is overlapped.The clutch that will be detected is placed on lower working plate, passes through screw tooling
Plate fixes clutch, by output shaft outputting torsion, carries out torsional test to clutch driven plate with regard to realizing.
But the detection device of above-mentioned clutch is only able to detect the dynamic torque of clutch, and in plant produced, from
Clutch static torque is also a critically important reference standard, and above-mentioned detection device cannot detect the static torque of clutch, is needed
It to be detected again with another equipment, detection efficiency is made to be lower.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of inspections of the torque of electromagnetic clutch
Device is surveyed, the dynamic torque that can detect electromagnetic clutch can detect the static torque of electromagnetic clutch again, in this way in detection electricity
It can be carried out on one device when the dynamic torque and static torque of magnet clutch, get higher detection efficiency.
To achieve the above object, the utility model provides following technical solution:
Including workbench, the placement machine of described workbench one end is arranged in a kind of torque detecting apparatus of electromagnetic clutch
Driving mechanism, the connection placement mechanism and the driving of the workbench far from described placement mechanism one end is arranged in structure
The sensing mechanism of mechanism, the driving mechanism include retarder, motor, connecting rod and handle, and the retarder is arranged described
On workbench, the output shaft of the retarder is connect with the sensing mechanism far from one end of the placement mechanism;The motor
It is arranged on the retarder, the output shaft of the motor is connect with the input terminal of the retarder;The connecting rod setting exists
The one end of the motor far from the retarder, the connecting rod are connect with the rotor of the motor;The handle and the company
Extension bar is detachably connected far from one end of the retarder.
By using above-mentioned technical proposal, the frictional disk of electromagnetic clutch is rotatably arranged on placement mechanism, fixed disk
It is fixed on placement mechanism, driving motor rotation, motor output shaft will drive sensing mechanism rotation, and placement mechanism is then arranged in
On frictional disk just can rotate, such sensing mechanism measures the dynamic torque of electromagnetic clutch.Rotational handle drives connecting rod to turn
It is dynamic, the output shaft of motor is rotated, sensing mechanism just can rotate, and the frictional disk being then arranged on placement mechanism just can rotate,
The sensing mechanism static torque of measuring electromagnetic clutch in this way.The defeated of the connecting rod driving motor being connected on rotor is set
Shaft rotation, sensor detect frictional disk from static to the case where rotation, so that it may measure the static torque of clutch.Thus
The dynamic torque and static torque that electromagnetic clutch can be detected in a setting, do not have to separate detection, become detection efficiency
It is high.
The utility model is further arranged to: one end that the handle connects the connecting rod offers and the connecting rod
The first groove to match, the one end of the connecting rod far from the retarder and first groove are clamped.
By using above-mentioned technical proposal, make in the static torque of detection electromagnetic clutch, by the first groove on handle
It is clamped with connecting rod, rotational handle, drives connecting rod rotation, rotate the output shaft of motor, sensing mechanism just can rotate, then
The frictional disk being arranged on placement mechanism just can rotate.The static torque of electromagnetic clutch can be measured.Detection electromagnetism from
It will be removed with the handle that connecting rod is clamped when the dynamic torque of clutch, when preventing motor from rotating, handle, which flies out, to be hurt
Operator.
The utility model is further arranged to: the sensing mechanism includes the first coupling piece, torque sensor and second
Shaft member, the output shaft of the retarder are connect with the first coupling piece, the one end of first coupling piece far from the retarder with
The torque sensor connection;The connection of second coupling piece described in the one end of the torque sensor far from first coupling piece;
The one end of second coupling piece far from the torque sensor is connect with the placement mechanism.
By using above-mentioned technical proposal, motor drives the output shaft rotation of retarder, drives the rotation of the first coupling piece, turns round
Square sensor rotation, the second coupling piece and then rotate, and the frictional disk being finally placed on placement mechanism just can rotate.Torque sensing
Device just detects to need torque when frictional disk rotation.
The utility model is further arranged to: the placement mechanism includes the first support frame, clamping portion, transmission shaft and second
The workbench is arranged in close to one end of the sensing mechanism in support frame, second support frame;First support is set up
It sets in the one end of the workbench far from the sensing mechanism;One end of the transmission shaft is connect with the sensing mechanism, and another
Outer one end passes through first support frame and second support frame;Clamping portion setting passes through described the in the transmission shaft
One end of one support frame.
By using above-mentioned technical proposal, the first support frame and the second support frame form the frame for needing to install electromagnetic clutch
Frame keeps the body of the frame and installation electromagnetic clutch of installing electromagnetic clutch equal in magnitude.By the fixed disk of electromagnetic clutch
It is fixed on the first support frame, frictional disk is connected on clamping portion, and then the rotation of motor drives sensor mechanism rotation, then band
Dynamic connecting shaft rotation, such frictional disk will fix relatively disk and rotate, so that it may detect that the dynamic of electromagnetic clutch is turned round
Square and static torque.
The utility model is further arranged to: the workbench along its length on offer multiple first threaded holes,
The first screw rod is provided on first support frame, first screw rod is threadedly coupled with first threaded hole.
By using above-mentioned technical proposal because the organism frame size of electromagnetic clutch installation be it is unfixed,
By the first screw rod and the threaded connection of the first different threaded holes can change the first support frame and the second support frame away from
From to be applicable in different size of organism frame.
The utility model is further arranged to: being threaded with spiral shell between first support frame and second support frame
Bolt.
By using above-mentioned technical proposal, the bolt of setting changes in the distance of the first support frame and the second support frame
Afterwards, the threaded connection degree of adjustable bolt and the first support frame and the second support frame.The threaded connection of bolt improves first
The stability of the frame of support frame and the second support frame composition, reduces the vibration frequency of the first support frame and the second support frame, mentions
The accuracy of the Supreme People's Procuratorate's measured data.
The utility model is further arranged to: being provided with flexible group between first support frame and second support frame
Part, the telescopic component include telescopic rod, the adjusting component being arranged on the telescopic rod, and the both ends of the telescopic rod connect respectively
It connects on first support frame and second support frame.
By using above-mentioned technical proposal, when the first support frame changes at a distance from the second support frame, telescopic rod is adjusted
Length, then adjust component and fix the length of telescopic bar after adjusting, improve what the first support frame and the second support frame formed
The stability of frame reduces the vibration frequency of the first support frame and the second support frame, improves the accuracy of detection data.
The utility model is further arranged to: the telescopic rod includes mobile jib, the first secondary bar and the second secondary bar, the mobile jib
Through-hole is offered along its axis direction;One end sliding of first secondary bar is connected in one end of the through-hole, and in addition
One end is connect with first support frame, and first secondary bar and the mobile jib are adjusted by the adjusting component;Described second
One end sliding of secondary bar is connected in the one end of the through-hole far from first support frame, and other end and described second
Support connection, second secondary bar and the mobile jib are adjusted by the adjusting component.
By using above-mentioned technical proposal, after the first secondary bar is flexible in one end of mobile jib, then it is secondary by first with component is adjusted
Bar is fixed on mobile jib;First secondary bar is flexible in the other end of mobile jib, while the second secondary bar is fixed on master with component is adjusted
On bar.The degree that the degree and the second secondary bar that the first secondary bar after adjusting is stretched in mobile jib are stretched in mobile jib, so that it may so that
Telescopic rod changes with change of first support frame at a distance from the second support frame.
The utility model is further arranged to: the adjusting component includes third threaded hole and third screw rod, the third
Threaded hole is provided on the mobile jib, and the third threaded hole is arranged in along the vertical direction of the mobile jib axis;Described
The setting of third screw rod described in three screw rods is threadedly coupled on the mobile jib, and with the third threaded hole, and the third screw rod supports
Touch first secondary bar or second secondary bar.
By using above-mentioned technical proposal, when telescopic rod needs to adjust, first by third screw rod and third threaded hole
Separation, enables the first secondary bar and the second secondary bar to move in mobile jib, after the completion of mobile, then by third screw rod and third threaded hole spiral shell
Line connection can fix the length of telescopic rod.
The utility model is further arranged to: the second groove is offered in the through-hole, first secondary bar is far from described
One end of first support frame is provided with the first convex block slid in second groove, and second secondary bar is far from described second
One end of support frame is provided with the second convex block slid in second groove.
By using above-mentioned technical proposal, sliding can in the second groove respectively for the first convex block and the second convex block of setting
To change the position of the first secondary bar and the second secondary bar in mobile jib, meanwhile, it is capable to prevent the first secondary bar and the second secondary bar in mobile jib
First secondary bar and the second secondary bar occur the phenomenon that mobile jib is detached from when interior mobile.
Compared with prior art, the utility model has the advantages that:
1 motor driven placement mechanism is able to detect that the dynamic torque of electromagnetic clutch when rotation;Handle drives are put
Set the static torque that electromagnetic clutch is able to detect that when mechanism rotation;An equipment can more than detect electromagnetic clutch
Dynamic torque and static torque, do not have to separate detection, get higher detection efficiency;
The bolt of 2 settings improves the stability of the frame of the first support frame and the second support frame composition, reduces by the first support
The vibration frequency of frame and the second support frame improves the accuracy of detection data.
Detailed description of the invention
Fig. 1 is the torque detecting apparatus structural schematic diagram of electromagnetic clutch in embodiment 1;
Fig. 2 is the torque detecting apparatus of electromagnetic clutch in embodiment 1, embodies the structural schematic diagram of placement mechanism;
Fig. 3 is the torque detecting apparatus of electromagnetic clutch in embodiment 2, embodies the structural schematic diagram of placement mechanism;
Fig. 4 is the structural schematic diagram that telescopic component is embodied in embodiment 2;
Fig. 5 is the cross-sectional view of A-A in embodiment 2.
Appended drawing reference: 1, workbench;11, the first threaded hole;12, the first screw rod;13, fixed block;14, the second screw rod;2,
Placement mechanism;21, the first support frame;22, clamping portion;23, transmission shaft;231, the first spline;24, the second support frame;25, spiral shell
Bolt;3, sensing mechanism;31, the first coupling piece;32, torque sensor;33, the second coupling piece;4, driving mechanism;41, retarder;
42, motor;43, connecting rod;44, handle;5, display;6, telescopic component;7, telescopic rod;71, mobile jib;72, the first secondary bar;
721, the first convex block;73, the second secondary bar;731, the second convex block;74, through-hole;75, the second groove;8, component is adjusted;81, third
Threaded hole;82, third screw rod.
Specific embodiment
With reference to the accompanying drawings and examples, the utility model is described in detail.
Embodiment 1: as shown in Figure 1, a kind of torque detecting apparatus of electromagnetic clutch, including workbench 1, placement mechanism 2,
Sensing mechanism 3 and driving mechanism 4.Driving mechanism 4 is fixed on one end of workbench 1, and driving mechanism 4 is connected with sensing mechanism 3.It passes
The sense one end of mechanism 3 far from driving mechanism 4 is connected with placement mechanism 2.Placement mechanism 2 is arranged in workbench 1 far from driving mechanism 4
One end.
Driving mechanism 4 includes retarder 41, motor 42, connecting rod 43 and handle 44.Retarder 41 is fixed on workbench 1
On, retarder 41 is cycloidal-pin gear speed reducer.Motor 42 is fixed on retarder 41, output shaft and the retarder 41 of motor 42
Input terminal connects, and is connected with connecting rod 43 in the rotor of motor 42.Connecting rod 43 is located in the casing of motor 42, and connecting rod 43 is remote
One end from retarder 41 is connected with handle 44.Handle 44 offers the to match with connecting rod 43 close to one end of connecting rod 43
One groove, handle 44 are clamped by the first groove and connecting rod 43.
As shown in Fig. 2, sensing mechanism 3 includes the first coupling piece 31, torque sensor 32 and the second coupling piece 33.First
Shaft member 31 is keyed close to one end of retarder 41 and the output shaft of retarder 41.The model JN-DN- of torque sensor 32
2000NM, one end of torque sensor 32 and the first coupling piece 31 are keyed far from one end of retarder 41.Second coupling piece 33
It is keyed close to one end of torque sensor 32 and torque sensor 32 far from one end of the first coupling piece 31, the second coupling piece 33
One end far from torque sensor 32 offers spline.The axis of the axis of first coupling piece 31 and the second coupling piece 33 with
The axis of torque sensor 32 is overlapped.
Workbench 1 along its length on offer multiple first threaded holes 11, multiple first threaded holes 11 are symmetrical
On two straight lines.
Placement mechanism 2 includes the first support frame 21, clamping portion 22, transmission shaft 23, the second support frame 24 and bolt 25.
Transmission shaft 23 is provided with the first spline 231 to match with spline close to one end of the second coupling piece 33.Second
Shaft member 33 is clamped by spline and the first spline 231.
The first screw rod 12 is provided on second support frame 24, the first screw rod 12 is threadedly coupled with the first threaded hole 11 by second
Supporting support 24 is fixed on workbench 1 close to one end of the second coupling piece 33.Second support frame 24 is close to the second coupling piece 33
One end is provided with fixed block 13, and one end of fixed block 13 is fixedly connected on workbench 1, and other end contradicts the second support frame
24;The second screw rod 14 is provided on fixed block 13.Offer the second threaded hole on workbench 1, the second screw rod 14 be provided with work
The second threaded hole made on platform 1 is threadedly coupled.
First support frame 21 is located at the one end of workbench 1 far from the second support frame 24.Is provided on first support frame 21
One screw rod 12, when the first screw rod 12 is threadedly coupled with the first threaded hole 11, the first support frame 21 is fixed on workbench 1.First
Screw rod 12 is separated with 11 hole of the first threaded hole, and mobile first support frame 21 makes the second support frame 24 and first to suitable position
The frame that support 21 is formed is equal with the installation frame size of electromagnetic clutch mechanism.Make the first screw rod 12 and relevant work platform again
The first threaded hole 11 on 1 is threadedly coupled, and the first support frame 21 is fixed on workbench 1.
The 4th threaded hole, the second support frame 24 and the first support are provided on second support frame 24 and the first support frame 21
Frame 21 is provided with bolt 25, and bolt 25 passes through the 4th threaded hole on the second support frame 24 and the first support frame 21, then with
The nut that bolt 25 matches is fixed by bolt 25.
Transmission shaft 23 passes through the second support frame 24 and the first support frame 21 far from one end of the second coupling piece 33.
Clamping portion 22 is the second spline, and is fixed on one end that transmission shaft 23 passes through the first support frame 21.
The torque detecting apparatus of electromagnetic clutch further includes display 5, and display 5 is fixed on workbench 1, display 5
It is electrically connected with torque sensor 32.
Specific implementation process: the first frame size of installation electromagnetic clutch as needed, mobile first support frame 21, then
First screw rod 12 is threaded on corresponding first threaded hole 11 of workbench 1, the first support frame 21 is fixed on workbench 1
On.Then with bolt 25 that first support frame 21 and the second support frame 24 is fixed again.The frictional disk of electromagnetic clutch is clamped again
On the second spline, the fixed disk contradicted with frictional disk is fixed on the first support frame 21.
First the first groove on handle 44 is clamped with connecting rod 43.Rotational handle 44 rotates the output shaft of motor 42,
The rotation of 41 output shaft of retarder is driven, the first coupling piece 31 can rotate, and torque sensor 32 just can rotate, 33 meeting of the second coupling piece
And then it rotates, then transmission shaft 23 rotates, and finally drives the second spline to rotate, the frictional disk being connected on the second spline will phase
It rotates to fixed disk.
It can show that torque sensor 32 detects the static state of electromagnetic clutch when rotational handle 44, on display 5
Torque value gets off records of values.
The first groove being connected together is separated with connecting rod 43, handle 44 is made to leave motor 42.Then start motor
42, so that motor 42 is driven the rotation of 41 output shaft of retarder, the first coupling piece 31 can rotate, and torque sensor 32 just can rotate, the
Two coupling pieces 33 can be rotated and then, and then transmission shaft 23 rotates, and finally driven the second spline to rotate, be connected on the second spline
Frictional disk will fix relatively disk and rotate.
It can show that torque sensor 32 detects electromagnetic clutch when the stabilization of speed of motor 42, on display 5
Dynamic torque value, records of values is got off.
After the completion of detection, fixed disk is removed on the first support frame 21, then the frictional disk on the second spline will be connected to
It takes down.
Motor 42 is able to detect that electromagnetic clutch when driving the frictional disk being placed on the first support frame 21 rotation
Dynamic torque;Handle 44 is able to detect that electromagnetic clutch when driving the frictional disk being placed on the first support frame 21 rotation
The static torque of device;An equipment can more than detect electromagnetic clutch dynamic torque and static torque, do not have to separate detection
Get higher detection efficiency.
Embodiment 2: as shown in figure 3, difference from Example 1 is, placement mechanism 2 includes the first support frame 21, card
Socket part 22, transmission shaft 23, the second support frame 24 and telescopic component 6.
First support frame 21, clamping portion 22, transmission shaft 23 and the second support frame 24 structure and installation site with implementation
It is identical in example 1.
As shown in figure 4, telescopic component 6 includes telescopic rod 7 and adjusting component 8.
As shown in figure 5, telescopic rod 7 includes mobile jib 71, the first secondary bar 72 and the second secondary bar 73.Mobile jib 71 is along its axis direction
On offer through-hole 74, through-hole 74 along its length on offer the second groove 75.One end of first secondary bar 72 is fixed with
One convex block 721, the sliding of the first convex block 721 are connected in the second groove 75;The one end of first secondary bar 72 far from through-hole 74 is fixed to be connected
It connects on the first support frame 21.One end of second secondary bar 73 is fixed with the second convex block 731, and the sliding of the second convex block 731 is connected to the
In two grooves 75;Second secondary bar 73 is fixedly connected on the second support frame 24 far from one end of through-hole 74.
As shown in figure 4, adjusting component 8 has two groups.Adjust 8 bound edge third threaded hole 81 of component and third screw rod 82.Two groups
Third threaded hole 81 be provided with the both ends of the same side wall of mobile jib 71, and the axis of the axis of third threaded hole 81 and mobile jib 71 respectively
Line is vertical.When two third screw rods 82 are threadedly coupled with third threaded hole 81, two third screw rods 82 push against the first secondary bar respectively
First secondary bar 72 and the second secondary bar 73 are fixed on mobile jib 71 by the side wall of 72 side wall and the second secondary bar 73.
Specific implementation process: first the third screw rod 82 being threaded togather and third threaded hole 81 are separated, make first
Secondary bar 72 and the second secondary bar 73 can slide in mobile jib 71.Then the frame size of electromagnetic clutch is installed as needed, it is mobile
Then first screw rod 12 is threaded on corresponding first threaded hole 11 of workbench 1 by the first support frame 21, by the first support
Frame 21 is fixed on workbench 1.Third screw rod 82 is rotated, the is contradicted after being threadedly coupled third screw rod 82 with third threaded hole 81
One secondary bar 72 and the second secondary bar 73.
The frictional disk of electromagnetic clutch is connected on the second spline again, the fixed disk contradicted with frictional disk is fixed on first
On support frame 21.Then third screw rod 82 is threadedly coupled with third threaded hole 81, two third screw rods 82 is made to push against respectively
On the side wall of one secondary bar 72 and the second secondary bar 73, the first secondary bar 72 and the second secondary bar 73 are fixed on mobile jib 71.
First the first groove on handle 44 is clamped with connecting rod 43.Rotational handle 44 rotates the output shaft of motor 42,
The rotation of 41 output shaft of retarder is driven, the first coupling piece 31 can rotate, and torque sensor 32 just can rotate, 33 meeting of the second coupling piece
And then it rotates, then transmission shaft 23 rotates, and finally drives the second spline to rotate, the frictional disk being connected on the second spline will phase
It rotates to fixed disk.
It can show that torque sensor 32 detects the static state of electromagnetic clutch when rotational handle 44, on display 5
Torque value gets off records of values.
The first groove being connected together is separated with connecting rod 43, handle 44 is made to leave motor 42.Then start motor
42, so that motor 42 is driven the rotation of 41 output shaft of retarder, the first coupling piece 31 can rotate, and torque sensor 32 just can rotate, the
Two coupling pieces 33 can be rotated and then, and then transmission shaft 23 rotates, and finally driven the second spline to rotate, be connected on the second spline
Frictional disk will fix relatively disk and rotate.
It can show that torque sensor 32 detects electromagnetic clutch when the stabilization of speed of motor 42, on display 5
Dynamic torque value, records of values is got off.
After the completion of detection, fixed disk is removed on the first support frame 21, then the frictional disk on the second spline will be connected to
It takes down.
Motor 42 is able to detect that electromagnetic clutch when driving the frictional disk being placed on the first support frame 21 rotation
Dynamic torque;Handle 44 is able to detect that electromagnetic clutch when driving the frictional disk being placed on the first support frame 21 rotation
The static torque of device;An equipment can more than detect electromagnetic clutch dynamic torque and static torque, do not have to separate detection,
Get higher detection efficiency.
The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to
Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to
Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and
Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.
Claims (10)
1. a kind of torque detecting apparatus of electromagnetic clutch, including workbench (1), setting putting in the workbench (1) one end
Set mechanism (2), setting the workbench (1) far from the placement mechanism (2) one end driving mechanism (4), connection described in put
Set the sensing mechanism (3) of mechanism (2) Yu the driving mechanism (4), which is characterized in that the driving mechanism (4) includes retarder
(41), motor (42), connecting rod (43) and handle (44), the retarder (41) is arranged on the workbench (1), described to subtract
The output shaft of fast device (41) is connect with the sensing mechanism (3) far from the one end of the placement mechanism (2);The motor (42) sets
It sets on the retarder (41), the output shaft of the motor (42) is connect with the input terminal of the retarder (41);The company
Extension bar (43) setting is in the one end of the motor (42) far from the retarder (41), the connecting rod (43) and the motor
(42) rotor connection;The handle (44) detachably connects with the connecting rod (43) far from the one end of the retarder (41)
It connects.
2. a kind of torque detecting apparatus of electromagnetic clutch according to claim 1, which is characterized in that the handle (44)
The one end for connecting the connecting rod (43) offers the first groove to match with the connecting rod (43), and the connecting rod (43) is remote
The first groove on one end and the connecting rod (43) from the retarder (41) is clamped.
3. a kind of torque detecting apparatus of electromagnetic clutch according to claim 1, which is characterized in that the sensing mechanism
(3) include the first coupling piece (31), torque sensor (32) and the second coupling piece (33), the output shaft of the retarder (41) and
First coupling piece (31) connection, first coupling piece (31) one end and the torque sensor far from the retarder (41)
(32) it connects;Second coupling piece (33) described in the one end of the torque sensor (32) far from first coupling piece (31) is even
It connects;Second coupling piece (33) connect far from the one end of the torque sensor (32) with the placement mechanism (2).
4. a kind of torque detecting apparatus of electromagnetic clutch according to claim 1, which is characterized in that the placement mechanism
It (2) include the first support frame (21), clamping portion (22), transmission shaft (23) and the second support frame (24), second support frame
(24) one end in the workbench (1) close to the sensing mechanism (3) is set;First support frame (21) is arranged described
The one end of workbench (1) far from the sensing mechanism (3);One end of the transmission shaft (23) is connect with the sensing mechanism (3),
And other end passes through first support frame (21) and second support frame (24);The clamping portion (22) is arranged described
Transmission shaft (23) passes through one end of first support frame (21).
5. a kind of torque detecting apparatus of electromagnetic clutch according to claim 4, which is characterized in that the workbench
(1) along its length on offer multiple first threaded holes (11), be provided with the first screw rod on first support frame (21)
(12), first screw rod (12) is threadedly coupled with first threaded hole (11).
6. a kind of torque detecting apparatus of electromagnetic clutch according to claim 5, which is characterized in that first support
Bolt (25) are threaded between frame (21) and second support frame (24).
7. a kind of torque detecting apparatus of electromagnetic clutch according to claim 5, which is characterized in that first support
Be provided between frame (21) and second support frame (24) telescopic component (6), the telescopic component (6) include telescopic rod (7),
The adjusting component (8) being arranged on the telescopic rod (7), the both ends of the telescopic rod (7) are connected to first support
On frame (21) and second support frame (24).
8. a kind of torque detecting apparatus of electromagnetic clutch according to claim 7, which is characterized in that the telescopic rod
It (7) include mobile jib (71), the first secondary bar (72) and the second secondary bar (73), the mobile jib (71) offers logical along its axis direction
Hole (74);First secondary bar (72) one end sliding be connected in one end of the through-hole (74), and other end with it is described
First support frame (21) connection, first secondary bar (72) and the mobile jib (71) are adjusted by the adjusting component (8);It is described
One end sliding of second secondary bar (73) is connected in one end of the through-hole (74) separate first support frame (21), and in addition
One end is connect with second support frame (24), and second secondary bar (73) and the mobile jib (71) pass through the adjusting component
(8) it adjusts.
9. a kind of torque detecting apparatus of electromagnetic clutch according to claim 8, which is characterized in that the adjusting component
It (8) include third threaded hole (81) and third screw rod (82), the third threaded hole (81) is provided on the mobile jib (71), institute
Third threaded hole (81) are stated to be arranged along the vertical direction of the mobile jib (71) axis;The third screw rod (82) is arranged in institute
It states on mobile jib (71), and is threadedly coupled with the third threaded hole (81), the third screw rod (82) contradicts first secondary bar
(72) or second secondary bar (73).
10. a kind of torque detecting apparatus of electromagnetic clutch according to claim 8, which is characterized in that the through-hole
(74) it is offered the second groove (75) in, first secondary bar (72) is provided with far from one end of first support frame (21)
The first convex block (721) slid in second groove (75), second secondary bar (73) is far from second support frame (24)
One end be provided with the second convex block (731) slid in second groove (75).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821035603.5U CN208765955U (en) | 2018-07-02 | 2018-07-02 | A kind of torque detecting apparatus of electromagnetic clutch |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821035603.5U CN208765955U (en) | 2018-07-02 | 2018-07-02 | A kind of torque detecting apparatus of electromagnetic clutch |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208765955U true CN208765955U (en) | 2019-04-19 |
Family
ID=66128652
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821035603.5U Active CN208765955U (en) | 2018-07-02 | 2018-07-02 | A kind of torque detecting apparatus of electromagnetic clutch |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208765955U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112496709A (en) * | 2020-12-11 | 2021-03-16 | 芜湖大捷离合器有限公司 | Formula erection equipment is adjusted to clutch case assembly release lever duplex position |
CN113984380A (en) * | 2021-10-28 | 2022-01-28 | 西安电子科技大学 | Electromagnetic clutch torque test bench, control method and application |
CN114623965A (en) * | 2022-03-09 | 2022-06-14 | 三锐科技(金华)有限公司 | Torque testing device of direct current brushless motor |
-
2018
- 2018-07-02 CN CN201821035603.5U patent/CN208765955U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112496709A (en) * | 2020-12-11 | 2021-03-16 | 芜湖大捷离合器有限公司 | Formula erection equipment is adjusted to clutch case assembly release lever duplex position |
CN112496709B (en) * | 2020-12-11 | 2022-03-11 | 芜湖大捷离合器有限公司 | Formula erection equipment is adjusted to clutch case assembly release lever duplex position |
CN113984380A (en) * | 2021-10-28 | 2022-01-28 | 西安电子科技大学 | Electromagnetic clutch torque test bench, control method and application |
CN113984380B (en) * | 2021-10-28 | 2022-08-23 | 西安电子科技大学 | Electromagnetic clutch torque test bench, control method and application |
CN114623965A (en) * | 2022-03-09 | 2022-06-14 | 三锐科技(金华)有限公司 | Torque testing device of direct current brushless motor |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208765955U (en) | A kind of torque detecting apparatus of electromagnetic clutch | |
CN105548880A (en) | Multifunctional general motor test stand | |
CN107024246B (en) | Automatic detection device for electric spindle performance | |
CN102680332B (en) | Instrument for testing torsion resistance of superfine steels wires | |
CN102980751B (en) | Be applicable to the torque force test fixture of adjusting bolt assembly | |
CN107843503A (en) | A kind of fiber optic cable twist test device | |
CN104155038B (en) | Non-contact electric saw power method for rapidly testing | |
CN206740180U (en) | A kind of electro spindle performance automatic detection device | |
CN203551191U (en) | Calibrating device for torque multiplier | |
CN103913262B (en) | A kind of gear division motor torsional moment proving installation | |
CN106482882A (en) | A kind of rotary shaft destructive testing method and its device under given moment of torsion | |
CN217687677U (en) | Dynamic balance measuring device for coupler | |
CN207326326U (en) | Piston positions grasping mechanism | |
CN109655270A (en) | A kind of installation of cantilever can high tachometric survey torque device | |
CN204679275U (en) | A kind of recliner corner performance test stand | |
CN216284092U (en) | Calibration device for pressure sensor | |
CN210487130U (en) | Torque detection equipment for electromagnetic clutch | |
CN104181718A (en) | Manually adjustable mechanism for testing flicker values of liquid crystal display panels | |
CN205748216U (en) | Coiling machine worm and gear assembly cubing | |
CN103792099A (en) | Comprehensive detection device of building shading product | |
CN211347344U (en) | Simple torsion tester | |
CN204286948U (en) | For detecting the electronic universal tester of the driving-belt of circular ring structure under high temperature | |
CN209624047U (en) | A kind of adapter for precision speed reduction device high-precision combination property detector device | |
CN205898339U (en) | Worm torque testing device | |
CN203848789U (en) | Three-jaw chuck planar screw thread turning angle measuring mechanism |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |