CN208579924U - Damping rotor pull-out force detector - Google Patents

Abstract

The utility model provides a kind of damping rotor pull-out force detector, comprising: pedestal；Locking member, the locking member are mounted on the pedestal；Detection part, the detection part are movably arranged on the first end on the pedestal and being located at the locking member, and the detection part is provided with connector close to one end of the locking member；Force application part, the force application part are connect to apply external force to the locking member with the locking member.During being detected using the damping rotor pull-out force detector detection in the utility model to the pulling-out force of damping rotor, it only needs to lock damping rotor by locking member, then external force is applied by force application part, it is not easy the hidden danger that damping rotor flies out occur, detection efficiency is high, and detection data is more accurate.

Description

Damping rotor pull-out force detector

Technical field

The utility model relates to detection device technology fields, detect and fill in particular to a kind of damping rotor pulling-out force It sets.

Background technique

Damping rotor in existing motor is to strike out six tooth form chips on punching machine using silicon steel sheet then to laminate Made of.But after the rotor laminates, it is to be formed by riveting point riveting, in order to guarantee product quality, needs to subtracting after riveting Rotor is shaken, the riveted power between piece and piece is detected, and product requirement is complied with.

Original detection mode are as follows: clamped one end of damping rotor, the other end on detection rotor around upper cord first It is to hang over cord on tensiometer, pulls tensiometer detection, if tensiometer show value is greater than the set value, damping rotor does not take off It opens, illustrates that damping rotor pulling-out force is qualified, it is otherwise, unqualified.

Original detection mode and instrument are excessively simple and crude, and detection efficiency is too low, and test data is unstable, inaccurate.It is surveying If cannot clamp when examination, workpiece, which can fly up, to be come, and hurts testing staff, inaccurate qualitative data can directly result in entire motor Product quality.

Utility model content

The main purpose of the utility model is to provide a kind of damping rotor pull-out force detectors, to solve the prior art In damping rotor pull-out force detector security risk is high, the problem of detection effect is not sufficiently stable.

To achieve the goals above, the utility model provides a kind of damping rotor pull-out force detector, comprising: base Seat；Locking member, the locking member are mounted on the pedestal；Detection part, the detection part are movably arranged on described First end on pedestal and positioned at the locking member, the detection part are provided with connection close to one end of the locking member Head；Force application part, the force application part are connect to apply external force to the locking member with the locking member.

Further, installation cavity is provided on the pedestal, the force application part includes initiative part and driving section, the biography Dynamic portion is mounted in the installation cavity and connect with the locking member, and the initiative part is mounted on the pedestal to drive State driving section movement.

Further, the initiative part includes: bearing, and two bearings are separately mounted to opposite two of the installation cavity Side；Shaft, the both ends of the shaft are separately mounted on two bearings, and the first end of the shaft stretches out in the pedestal Lateral wall, the driving section and the shaft are drivingly connected；Handle, the handle are fixedly connected with the shaft.

Further, the driving section includes: gear, and the gear is mounted in the installation cavity and is fixedly mounted on institute It states in shaft；Rack gear, the rack gear are mounted in the installation cavity and are fixedly connected with the locking member, the rack gear and institute State gear engagement.

Further, cover board is provided on the pedestal, the cover plate lid is located on the installation cavity, the locking member It is installed on the cover board with the detection part.

Further, slidable connecting plate is provided on the cover board, the locking member is mounted on the connecting plate On, the sliding slot of the length direction extension along the cover board is provided on the cover board, the rack gear is threaded through in the sliding slot simultaneously It is connect with the connecting plate, the length direction of the rack gear is consistent with the length direction of the sliding slot.

Further, the locking member includes: bottom plate, and the bottom plate is fixedly mounted on the connecting plate；Clamping group Part, the clamping component are mounted on the bottom plate, and the clamping component has clamped condition and opening state.

Further, the clamping component includes: the first fixture block, and first fixture block is fixedly mounted on the of the bottom plate Side；Guiding mechanism, the guiding mechanism are mounted on the bottom plate and form guide groove on the bottom plate；Second fixture block, Second fixture block is mounted in the guide groove, second fixture block be mounted slidably along the guide groove with to close or Person moves far from the direction of first fixture block.

Further, the clamping component further includes adjustment seat and regulation handle, and the adjustment seat is mounted on described second Side of the fixture block far from first fixture block, the regulation handle are mounted in the adjustment seat and drive with second fixture block Connection.

Further, recessed portion is provided on first fixture block and second fixture block.

Further, the recessed portion is V-structure.

Further, the guiding mechanism includes two pieces of guide pads, and two pieces of guiding block gaps are mounted on the bottom plate It goes up and forms the guide groove.

Further, the detection part further includes tensiometer, and the tensiometer is mounted on the cover board.

Further, the connector is screwed onto the end of the tensiometer.

Further, it is provided with connecting hole on the connector, is provided with locking structure in the connecting hole.

Further, cushion block is provided on the cover board, the tensiometer is mounted on the cushion block.

Using the technical solution of the utility model, when actual use, by locking member by the of damping rotor One end locking, and the connector in the second end and detection part of damping rotor is connected, after connecting damping rotor, lead to The effect for crossing force application part applies external force to locking member and works as force section since locking member is movably arranged on pedestal When practical to the locking member external force of part, which can be transferred to the damping being mounted between locking member and detection part and turn Son is detected by pulling-out force of the detection part to damping rotor.

As it can be seen that using the damping rotor pull-out force detector detection in the utility model to the pulling-out force of damping rotor into During row detection, it is only necessary to lock damping rotor by locking member, then apply external force by force application part, do not allow Easily there is the hidden danger that damping rotor flies out, detection efficiency is high, and detection data is more accurate.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

The damping rotor pull-out force detector that Fig. 1 diagrammatically illustrates the utility model is cut away after part-structure Perspective view；

Fig. 2 diagrammatically illustrates the perspective view of the damping rotor pull-out force detector of the utility model；

The cutting that Fig. 3 diagrammatically illustrates the damping rotor pull-out force detector of the utility model open after main view

Fig. 4 diagrammatically illustrates the top view of the damping rotor pull-out force detector of the utility model；

Perspective view when the damping rotor that Fig. 5 diagrammatically illustrates the utility model is mounted in connector；

Fig. 6 diagrammatically illustrates the side view of the damping rotor of the utility model；

Fig. 7 diagrammatically illustrates the main view of the damping rotor of the utility model.

Wherein, the above drawings include the following reference numerals:

10, pedestal；11, installation cavity；12, cover board；121, sliding slot；13, connecting plate；20, locking member；21, bottom plate；22, Clamping component；221, the first fixture block；222, the second fixture block；223, adjustment seat；224, regulation handle；225, guide pad；226, it leads To slot；227, recessed portion；30, detection part；31, connector；311, locking structure；312, connecting hole；32, tensiometer；40, it applies Power component；41, initiative part；411, bearing；412, shaft；413, handle；42, driving section；421, gear；422, rack gear；50, it pads Block；60, damping rotor.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein for example can be in addition to herein Sequence other than those of diagram or description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that Be to cover it is non-exclusive include, for example, containing the process, method, system, product or equipment of a series of steps or units not Those of be necessarily limited to be clearly listed step or unit, but may include be not clearly listed or for these processes, side The intrinsic other step or units of method, product or equipment.

For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, being described as if the device in attached drawing is squeezed " in other devices It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and " in ... lower section " two kinds of orientation.The device can also be positioned with other different modes and (is rotated by 90 ° or in other orientation), and And respective explanations are made to the opposite description in space used herein above.

Referring to shown in Fig. 1 to Fig. 7, embodiment according to the present utility model provides a kind of damping rotor pulling-out force detection Device, the detection device include pedestal 10, locking member 20, detection part 30 and force application part 40.

Wherein, locking member 20 is movably arranged on pedestal 10, can lock damping rotor 60, and detection part 30 is installed First end on pedestal 10 and positioned at locking member 20, detection part 30 are provided with connector close to one end of locking member 20 31, convenient for being connect with damping rotor 60；Force application part 40 is connect to apply external force to locking member 20 with locking member 20.

When actual use, the first end of damping rotor 60 is locked by locking member 20, and damping is turned The second end of son 60 is connect with the connector 31 on detection part 30, after connecting damping rotor 60, passes through force application part 40 Effect to locking member 20 apply external force, since locking member 20 is movably arranged on pedestal 10, when force application part 40 When to 20 practical external force of locking member, which can be transferred to the damping being mounted between locking member 20 and detection part 30 Rotor 60 is detected by pulling-out force of the detection part 30 to damping rotor 60.

As it can be seen that using the damping rotor pull-out force detector detection in the present embodiment to the pulling-out force of damping rotor 60 into During row detection, it is only necessary to lock damping rotor 60 by locking member 20, then be applied by force application part 40 outer Power, it is not easy to the hidden danger that damping rotor 60 flies out occur, detection efficiency is high, and detection data is more accurate.

For the ease of installing to force application part 40, it is provided with installation cavity 11 on the pedestal 10 in the present embodiment, exerts a force Component 40 includes initiative part 41 and driving section 42, which is mounted in installation cavity 11 and connect with locking member 20, main Dynamic portion 41 is mounted on pedestal 10 to drive driving section 42 to move.

In actual use, the external force by being driven by operator to the application external force of initiative part 41, then by driving section 42 To locking member 20, external force applied to the damping rotor 60 being locked on locking member 20, and then by detection part 30 to subtracting The pulling-out force of shake rotor 60 is detected.

It is shown in Figure 1, specifically, the initiative part 41 in the present embodiment includes bearing 411, shaft 412 and handle 413。

Wherein, two bearings 411 are separately mounted to the opposite two sides of installation cavity 11；It installs respectively at the both ends of shaft 412 On two bearings 411, the first end of shaft 412 stretches out in the lateral wall of pedestal 10, and driving section 42 and the driving of shaft 412 connect It connects, convenient for driving the rotation of shaft 412 to drive driving section 42 to move；Handle 413 is fixedly connected with shaft 412, convenient for band turn Axis 412 moves.

Driving section 42 includes gear 421 and rack gear 422.

Wherein, gear 421 is mounted in installation cavity 11 and is fixedly mounted in shaft 412；Rack gear 422 is mounted on installation cavity It is fixedly connected in 11 and with locking member 20, rack gear 422 is engaged with gear 421.

When applying the external force drive rotation of shaft 412 to handle 413, the gear 421 in shaft 412 is mounted on carry-over bar 422 movements, and then locking member 20 is driven to move, to turn to the damping being fixed between locking member 20 and detection part 30 Son 60 applies external force, and then detects to the pulling-out force of damping rotor 60.

For the ease of locking member 20 and detection part 30 are installed and supported, set on the pedestal 10 in the present embodiment It is equipped with cover board 12, on installation cavity 11, locking member 20 and detection part 30 are installed on cover board 12 cover board 12, structure letter It is single, it is easy to implement.

In order to which locking member 20 is supported and is installed, slidable connection is provided on the cover board 12 in the present embodiment Plate 13, locking member 20 are mounted on connecting plate 13, and the sliding slot of the length direction extension along cover board 12 is provided on the cover board 12 121, rack gear 422 is threaded through in sliding slot 121 and connect with connecting plate 13, the length direction of rack gear 422 and the length side of sliding slot 121 To consistent.When shaft 412 rotates, it is able to drive 421 drive rack 422 of gear, 121 movement along the chute, and then to the company of being mounted on Locking member 20 on fishplate bar 13 moves, and applies to the damping rotor 60 being fixed between locking member 20 and detection part 30 outer Power, and then the pulling-out force of damping rotor 60 is detected.

It recombines shown in Fig. 1 to Fig. 7, the locking member 20 in the present embodiment includes bottom plate 21 and clamping component 22.

Wherein, bottom plate 21 is fixedly mounted on connecting plate 13；Clamping component 22 is mounted on bottom plate 21, and clamping component 22 has There are clamped condition and opening state, damping rotor 60 is prevented convenient for locking damping rotor 60 by the effect of clamping component 22 It is fallen off during carrying out pulling-out force test.

Specifically, clamping component 22 includes the first fixture block 221, guiding mechanism and the second fixture block 222.

Wherein, the first fixture block 221 is fixedly mounted on the first side of bottom plate 21；Guiding mechanism is mounted on bottom plate 21 and the bottom of at Guide groove 226 is formed on plate 21；Second fixture block 222 is mounted in guide groove 226, the second fixture block 222 along guide groove 226 slidably Ground setting to the direction close to or far from the first fixture block 221 to move, so that clamping component 22 is in clamped condition and beats Switch between open state.

Clamping component 22 in the present embodiment further includes adjustment seat 223 and regulation handle 224, which is mounted on Side of second fixture block 222 far from the first fixture block 221, regulation handle 224 be mounted in adjustment seat 223 and with the second fixture block 222 Connection, by the effect of regulation handle 224, convenient for driving the second fixture block 222 to direction close or far from the first fixture block 221 Movement, and then clamping component 22 is driven to switch between clamped condition and opening state.

For the ease of being locked to damping rotor 60, on the first fixture block 221 and the second fixture block 222 in the present embodiment It is provided with recessed portion 227.Preferably, the recessed portion 227 in the present embodiment is V-structure, convenient for damping rotor 60 is clamped, the Two fixture blocks 222 are oriented to by guiding mechanism, and the second fixture block 222 will not be made to deviate from.Regulation handle 224 is connect with adjustment seat 223, and It is connect with the second fixture block 222, can make to move freely before and after the second fixture block 222, when work clamps damping rotor 60.

Preferably, the guiding mechanism in the present embodiment includes two pieces of guide pads 225, and two pieces of intervals of guide pad 225 are mounted on On bottom plate 21 and form guide groove 226.Certainly, in the other embodiments of the utility model, guide groove 226 can also be arranged On one piece of stop block structure, as long as other modes of texturing under the design of the utility model, in the guarantor of the utility model Within the scope of shield.

Detection part 30 in the present embodiment includes tensiometer 32, and tensiometer 32 is mounted on cover board 12,31 spiral shell of connector It connects in the end of tensiometer 32, convenient for being connect with damping rotor 60.

Preferably, connecting hole compatible with the shaft on damping rotor 60 is provided on the connector 31 in the present embodiment 312, locking structure 311 is provided in the connecting hole 312, convenient for locking damping rotor 60.

Male part is provided with by the periphery of damping rotor 60 in this present embodiment, it, can be by locking knot when actual installation Structure 311 is set as the locking step on 312 inner wall of connecting hole.Evacuation groove, locking structure are provided in the circumferential direction of connecting hole 312 311 with evacuation groove interlaced arrangement, when actual installation, so that the protrusion alignment evacuation groove on damping rotor 60 is plugged in connection In hole 312, then pivoting shock absorber rotor 60 is passing through locking so that the protrusion on damping rotor 60 is worked good with locking step Component 20 is locked, easy to operate, is easy to implement.

For the ease of guaranteeing that tensiometer 32 and locking member 20 are horizontal, it is convenient for the practical axial force of damping rotor 60, originally Cushion block 50 is provided on cover board 12 in embodiment, tensiometer 32 is mounted on cushion block 50.

The utility model is driven using gear 421 and rack gear 422, and the transmitting of power may be implemented, reach and act handle It is transmitted to the effect of locking member 20.Gear 421 is mounted in shaft 412, and shaft 412 is fixed on base by two bearings 411 On seat 10, rack gear 422 cooperates with gear 421 below, connect above with locking member 20, realizes power from handle to locking member 20 transmitting.Connector 31 is detection part core, and 312 internal diameter of connecting hole on connector 31 is matched with 60 outer diameter of damping rotor It closes, damping rotor 60 can be smoothly put into connector 31, and after 30 degree of rotation, will not drop out, it can be with quick-replaceable work Part.Cover board 12 is for keeping apart force application part 40 and detection part 30, and cushion block 50 is for controlling 32 center of tensiometer and locking 20 height of component is consistent.Tensiometer 32 is fixed on cushion block 50, is finally secured on pedestal 10.

The damping rotor pull-out force detector of the utility model has the advantages that

1, the more acurrate property of qualitative data: the decoration of the utility model can accurately detect the pulling-out force of damping rotor 60, give Quality Control personnel accurately determine that product quality provides guarantee.

2, improved efficiency: the detection of original detection mode is primary to need about 8 minutes, can be with using the detection device behind efficiency Promote 3 times or more.

3, effectively prevent safety accident: damping rotor is easy to fly up to have to injure employee by a crashing object when original detection mode detects Security risk, the device of the utility model are not easy 60 obscission of damping rotor occur.

4, Improving The Quality of Products: after damping rotor 60 is using device detection, process after can flowing into avoid defective products is made At quality accident.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:

Connector is installed in the tensiometer end of the utility model, and damping rotor can be directly placed into connector, and rotate 30 degree, replacement workpiece is convenient；The movement of whole device drives rack pinion by handle, the tight lock part above rack gear Part can be with fore-aft travel freedom；Damping rotor left end rely on regulation handle rotation, drive the second fixture block movement, the second fixture block with First fixture block uses V-structure, can be by damping rotor Quick-clamped；When rotating handle, damping rotor is drawn by axial force Dynamic damping rotor, connector, tensiometer, can measure and pull force data.Damping rotor has 6 tooth form protrusions, connector 6 protrusions are similarly designed with, it can circumferentially uniform force to measure accurate data ensure that product when detecting Quality, tensiometer, using being threadedly coupled, are conveniently replaceable connector with connector.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (16)

1. a kind of damping rotor pull-out force detector characterized by comprising

Pedestal (10)；

Locking member (20), the locking member (20) are mounted on the pedestal (10)；

Detection part (30), the detection part (30) are movably arranged on the pedestal (10) and are located at the locking member (20) first end, the detection part (30) are provided with connector (31) close to the one end of the locking member (20)；

Force application part (40), the force application part (40) are connect to apply to the locking member (20) with the locking member (20) Add external force.

2. damping rotor pull-out force detector according to claim 1, which is characterized in that be arranged on the pedestal (10) Have installation cavity (11), the force application part (40) includes initiative part (41) and driving section (42), and the driving section (42) is mounted on Connect in the installation cavity (11) and with the locking member (20), the initiative part (41) be mounted on the pedestal (10) with The driving section (42) are driven to move.

3. damping rotor pull-out force detector according to claim 2, which is characterized in that initiative part (41) packet It includes:

Bearing (411), two bearings (411) are separately mounted to the opposite two sides of the installation cavity (11)；

Shaft (412), the both ends of the shaft (412) are separately mounted on two bearings (411), the shaft (412) First end stretch out in the lateral walls of the pedestal (10), the driving section (42) and the shaft (412) are drivingly connected；

Handle (413), the handle (413) are fixedly connected with the shaft (412).

4. damping rotor pull-out force detector according to claim 3, which is characterized in that driving section (42) packet It includes:

Gear (421), the gear (421) are mounted in the installation cavity (11) and are fixedly mounted on the shaft (412)；

Rack gear (422), the rack gear (422), which is mounted in the installation cavity (11) and fixes with the locking member (20), to be connected It connects, the rack gear (422) is engaged with the gear (421).

5. damping rotor pull-out force detector according to claim 4, which is characterized in that be arranged on the pedestal (10) Have cover board (12), cover board (12) lid is located on the installation cavity (11), the locking member (20) and the detection part (30) it is installed on the cover board (12).

6. damping rotor pull-out force detector according to claim 5, which is characterized in that be arranged on the cover board (12) Have slidable connecting plate (13), the locking member (20) is mounted on the connecting plate (13), sets on the cover board (12) It is equipped with the sliding slot (121) of the length direction extension along the cover board (12), the rack gear (422) is threaded through the sliding slot (121) It is interior and connect with the connecting plate (13), the length direction of the rack gear (422) and the length direction one of the sliding slot (121) It causes.

7. damping rotor pull-out force detector according to claim 6, which is characterized in that locking member (20) packet It includes:

Bottom plate (21), the bottom plate (21) are fixedly mounted on the connecting plate (13)；

Clamping component (22), the clamping component (22) are mounted on the bottom plate (21), and the clamping component (22) has folder Tight state and opening state.

8. damping rotor pull-out force detector according to claim 7, which is characterized in that clamping component (22) packet It includes:

First fixture block (221), first fixture block (221) are fixedly mounted on the first side of the bottom plate (21)；

Guiding mechanism, the guiding mechanism are mounted on the bottom plate (21) and form guide groove on the bottom plate (21) (226)；

Second fixture block (222), second fixture block (222) are mounted in the guide groove (226), second fixture block (222) It is mounted slidably along the guide groove (226) to be moved to the direction close to or far from first fixture block (221).

9. damping rotor pull-out force detector according to claim 8, which is characterized in that the clamping component (22) is also Including adjustment seat (223) and regulation handle (224), the adjustment seat (223) is mounted on second fixture block (222) far from described The side of first fixture block (221), the regulation handle (224) be mounted on the adjustment seat (223) and with second fixture block (222) it is drivingly connected.

10. damping rotor pull-out force detector according to claim 8, which is characterized in that first fixture block (221) Recessed portion (227) are provided with on second fixture block (222).

11. damping rotor pull-out force detector according to claim 10, which is characterized in that the recessed portion (227) For V-structure.

12. damping rotor pull-out force detector according to claim 8, which is characterized in that the guiding mechanism includes Two pieces of guide pads (225), two pieces of guide pad (225) intervals are mounted on the bottom plate (21) and form the guide groove (226)。

13. damping rotor pull-out force detector according to claim 5, which is characterized in that the detection part (30) It further include tensiometer (32), the tensiometer (32) is mounted on the cover board (12).

14. damping rotor pull-out force detector according to claim 13, which is characterized in that connector (31) spiral shell Connect the end in the tensiometer (32).

15. damping rotor pull-out force detector according to claim 1, which is characterized in that on the connector (31) It is provided with connecting hole (312), is provided with locking structure (311) in the connecting hole (312).

16. damping rotor pull-out force detector according to claim 13, which is characterized in that set on the cover board (12) It is equipped with cushion block (50), the tensiometer (32) is mounted on the cushion block (50).