CN107803757A - A kind of bidirectional electromagnetic bench vice - Google Patents
A kind of bidirectional electromagnetic bench vice Download PDFInfo
- Publication number
- CN107803757A CN107803757A CN201711004242.8A CN201711004242A CN107803757A CN 107803757 A CN107803757 A CN 107803757A CN 201711004242 A CN201711004242 A CN 201711004242A CN 107803757 A CN107803757 A CN 107803757A
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- CN
- China
- Prior art keywords
- rotating
- protection mechanism
- antioverloading protection
- antioverloading
- connecting mechanism
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B1/00—Vices
- B25B1/06—Arrangements for positively actuating jaws
- B25B1/10—Arrangements for positively actuating jaws using screws
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B1/00—Vices
- B25B1/06—Arrangements for positively actuating jaws
- B25B1/10—Arrangements for positively actuating jaws using screws
- B25B1/103—Arrangements for positively actuating jaws using screws with one screw perpendicular to the jaw faces, e.g. a differential or telescopic screw
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B1/00—Vices
- B25B1/24—Details, e.g. jaws of special shape, slideways
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Dental Tools And Instruments Or Auxiliary Dental Instruments (AREA)
Abstract
The invention discloses a kind of bidirectional electromagnetic bench vice, including groove housing, the groove housing upper surface is provided centrally with work groove section, the groove housing is in the main hollow housing being provided centrally with its integral structure inside the work groove section, the top of the main hollow housing is installed by one 51 single-chip microcomputers, center installation one side inside the main hollow housing is socketed with the iron core of coil, and the control signal of the coil connects the control output end of 51 single-chip microcomputer by wire.The present invention can be acted on the dynamics conflict that electromagnetic type is carried out for the threaded rod of fastening; the stress size of screw thread dental structure during so as to reduce fastening; strengthen its service life; in addition, the device has antioverloading protection mechanism, can effectively prevent from screwing up dynamics it is excessive caused by screw thread damaged phenomenon generation; in addition; the device can carry out the fixation of two group parts simultaneously, and utilization rate is higher, practical.
Description
Technical field
The present invention relates to field of mechanical technique, specially a kind of bidirectional electromagnetic bench vice.
Background technology
At present, patent No. CN201310720936.7 in China's discloses a kind of bench vice, including framework, main clamp, main spiral shell
Bar and rotating handles, driving screw one end are connected on the inside of framework, the other end sequentially pass through main clamp and to the side of body side frame and
Rotating handles is connected, the both sides that force direction is clamped in the main clamp respectively set a sub-folder to have, and pair is amplified out on sub-folder tool
Screw rod simultaneously passes through the side to body side frame, and torque nut is set on the sub-screw outside framework, in use, rotation rotation handle first
Hand, drive main clamp to clamp workpiece, then further clamp workpiece, the mobile ambilateral sub-folder tool of main folder, adjust its position
Put, last rotary torsion nut, shrink sub-screw, so as to clamp workpiece from another two point, it is evident that said apparatus is carrying out work
When making, main thread bar first plays stress effect, after main thread bar is by the pressure of maximum, recycles deputy thread bar stress, the
One, due to the stress of main thread bar first, cause its stress larger, so its ridge service life is low, it is easy to cause screw thread
Tooth deforms, and second, because multigroup deputy thread bar can not be accomplished to rotate simultaneously, while stress, so in multigroup deputy thread bar, must
Surely there can be the problem of first stress, and stress can cause ridge to deform, further, since multigroup deputy thread bar is not to revolve simultaneously
Turn, so every group of deputy thread bar will not be identical to the pressure of angle, angle will be caused to damage for a long time.
In addition, in general bench vice is only unidirectional, single fastening effect can only be carried out, when in use, utilization rate ratio
It is relatively low.
The content of the invention
It is an object of the invention to provide a kind of bidirectional electromagnetic bench vice, is asked with solve to propose in above-mentioned background technology
Topic.
To achieve the above object, the present invention provides following technical scheme:
A kind of bidirectional electromagnetic bench vice, including groove housing, the groove housing upper surface are provided centrally with work
Groove section, the groove housing is in the master being provided centrally with its integral structure inside the work groove section
One 51 single-chip microcomputers are installed at hollow housing, the top of the main hollow housing, the center installation side inside the main hollow housing
Surface cover is connected to the iron core of coil, and the control signal of the coil connects the control output end of 51 single-chip microcomputer by wire,
The inside of the main hollow housing is being respectively arranged with a main hollow structure, the two hollow knots of master positioned at the both ends of the iron core
Structure is installing one first permanent magnet and the second permanent magnet respectively positioned at one end of the iron core, and first permanent magnet and second is forever
The end face of magnet fixes a connecting plate by bolt, and the center of the two connecting plate end faces is provided with and its integral structure
Main rotating shaft, the end of two main rotating shafts is respectively mounted a connecting mechanism for rotating, the end of two connecting mechanism for rotating
A main thread bar is respectively mounted, the body of rod of the main thread bar runs through the main hollow housing, and both are provided with through position
Sealing ring, the body of rod of the main thread bar are set at the position outside the main hollow housing by helicitic texture connection one
In the inside for the nut structure that main hollow housing runs through, and end of the end of the two main thread bars with a secondary rotary shaft is consolidated
Fixed connection, the axis body of the two secondary rotary shaft ends are respectively mounted an antioverloading protection mechanism, and one end of the two secondary rotary shafts is equal
Fix a touch panel.
Preferably, the connecting mechanism for rotating includes connecting mechanism for rotating with central plate, connecting mechanism for rotating bearing
Installation groove, connecting mechanism for rotating bearing, connecting mechanism for rotating the first rotary shaft, the second rotation of connecting mechanism for rotating
Axle, connecting mechanism for rotating the first connecting shaft, the second connecting shaft of connecting mechanism for rotating, the first connection method of connecting mechanism for rotating
The second mounting flange of blue disk and connecting mechanism for rotating.
Preferably, the connecting mechanism for rotating is provided with a rotatable connection machine with the center of central plate both ends of the surface
Structure bearing installation groove, the connecting mechanism for rotating central plate are in two connecting mechanism for rotating bearing installation grooves
Inside is socketed a connecting mechanism for rotating bearing respectively, and two connecting mechanism for rotating are with being respectively fixed with rotation in the inner ring of bearing
Turn bindiny mechanism's the second rotary shaft of the first rotary shaft and connecting mechanism for rotating, the first rotary shaft of the connecting mechanism for rotating
It is respectively arranged with connecting mechanism for rotating with the end of the second rotary shaft with the connecting mechanism for rotating of its integral structure with first
The second connecting shaft of connecting shaft and connecting mechanism for rotating, the connecting mechanism for rotating are used with the first connecting shaft and connecting mechanism for rotating
The end of second connecting shaft is respectively arranged with and the connecting mechanism for rotating of its integral structure the first mounting flange and rotation
The second mounting flange of bindiny mechanism, the connecting mechanism for rotating is with the first mounting flange and connecting mechanism for rotating with second
End of the end of mounting flange respectively with main rotating shaft and threaded rod is fixedly connected.
Preferably, the connecting mechanism for rotating passes through axle with the first rotary shaft and connecting mechanism for rotating with the second rotary shaft
The method for holding connection is fixed on the inside of the connecting mechanism for rotating central plate using connecting mechanism for rotating with bearing.
Preferably, the antioverloading protection mechanism includes antioverloading protection mechanism rotation housing, antioverloading protection machine
Structure secondary rotation shaft mounting hole, antioverloading protection mechanism hexgonal structure, antioverloading protection mechanism hollow structure, antioverloading
Protection mechanism movable plate, antioverloading protection mechanism rod-like structure, the multiple antioverloadings guarantor being arranged on secondary rotary shaft axis body
Mechanism is protected with semi-circular recesses structure, antioverloading protection mechanism with helical spring and antioverloading protection mechanism semicircular structure.
Preferably, antioverloading protection mechanism rotation housing be provided centrally with put preventing for secondary rotary shaft for card
The secondary rotation shaft mounting hole of overload protecting mechanism, the antioverloading protection mechanism are that antioverloading is protected with the outer surface of rotation housing
Mechanism hexgonal structure, the antioverloading protection mechanism are rotated in the antioverloading protection mechanism with secondary in place with rotation housing
Shaft mounting hole and antioverloading protection mechanism are provided with multiple antioverloading protection mechanisms with hollow with the region between hexgonal structure
Structure, and center of multiple antioverloading protection mechanism hollow structures on the antioverloading protection mechanism with rotation housing
Set for center of circle circular array, each antioverloading protection mechanism is laid an antioverloading with the inside of hollow structure and protected
Mechanism movable plate, the antioverloading protection mechanism movable plate are installed positioned at the antioverloading protection mechanism with secondary rotary shaft
The antioverloading protection mechanism rod-like structure being provided centrally with its integral structure of hole end face, each antioverloading are protected
Mechanism is protected with rod-like structure through antioverloading protection mechanism rotation housing, and the antioverloading protection mechanism is with shaft-like
The end of structure is being provided with and its integral type positioned at the antioverloading protection mechanism with one end inside secondary rotation shaft mounting hole
The antioverloading protection mechanism semicircular structure of structure, each antioverloading protection mechanism are correspondingly inserted into semicircular structure
The inside of the antioverloading protection mechanism semi-circular recesses structure, the other end of the antioverloading protection mechanism movable plate
The one antioverloading protection mechanism helical spring is being installed with the inside of hollow structure positioned at the antioverloading protection mechanism.
Preferably, the initial length of the antioverloading protection mechanism helical spring is more than the antioverloading protection mechanism
With the scope of activities of hollow structure.
Preferably, the physical dimension and antioverloading protection mechanism of antioverloading protection mechanism semi-circular recesses structure
Corresponded to the physical dimension of semicircular structure identical.
Compared with prior art, the beneficial effects of the invention are as follows:
The present invention can be acted on the dynamics conflict that electromagnetic type is carried out for the threaded rod of fastening, spiral shell during so as to reduce fastening
The stress size of line dental structure, strengthens its service life, in addition, the device has antioverloading protection mechanism, can effectively prevent
Screw up dynamics it is excessive caused by screw thread damaged phenomenon generation, in addition, the device can carry out the fixation of two group parts simultaneously,
Utilization rate is higher, practical.
Brief description of the drawings
Fig. 1 is a kind of complete section structural representation of bidirectional electromagnetic bench vice of the present invention;
Fig. 2 is the structural representation of connecting mechanism for rotating in a kind of bidirectional electromagnetic bench vice of the present invention;
Fig. 3 is the structural representation of antioverloading protection mechanism in a kind of bidirectional electromagnetic bench vice of the present invention.
In figure:1, groove housing, 2, work groove section, 3, main hollow housing, 4, coil, 5, wire, 6,51 single-chip microcomputers,
7, main hollow structure, 8, the first permanent magnet, 9, the second permanent magnet, 10, connecting plate, 11, main rotating shaft, 12, connecting mechanism for rotating,
121, connecting mechanism for rotating central plate, 122, connecting mechanism for rotating bearing installation groove, 123, connecting mechanism for rotating axle
Hold, 124, connecting mechanism for rotating the first rotary shaft, 125, connecting mechanism for rotating the second rotary shaft, 126, connecting mechanism for rotating
With the first connecting shaft, 127, connecting mechanism for rotating the second connecting shaft, 128, connecting mechanism for rotating with the first mounting flange,
129, connecting mechanism for rotating the second mounting flange, 13, main thread bar, 14, nut structure, 15, antioverloading protection mechanism,
151, antioverloading protection mechanism rotation housing, 152, antioverloading protection mechanism secondary rotation shaft mounting hole, 153, antioverloading is protected
Shield mechanism hexgonal structure, 154, antioverloading protection mechanism hollow structure, 155, antioverloading protection mechanism movable plate,
156, antioverloading protection mechanism rod-like structure, 157, antioverloading protection mechanism semi-circular recesses structure, 158, antioverloading guarantor
Protect mechanism helical spring, 159, antioverloading protection mechanism semicircular structure, 16, secondary rotary shaft, 17, touch panel, 18, sealing
Circle, 19, iron core.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made
Embodiment, belong to the scope of protection of the invention.
A kind of referring to Fig. 1, embodiment provided by the invention:A kind of bidirectional electromagnetic bench vice, including groove housing 1,
The upper surface of groove housing 1 is provided centrally with work groove section 2, and the groove housing 1 is positioned at the work groove
The main hollow housing 3 being provided centrally with its integral structure inside section 2, the top installation one of the main hollow housing 3
51 single-chip microcomputers 6, the center installation one side inside the main hollow housing 3 are socketed with the iron core 19 of coil 4, the coil 4
Control signal connects the control output end of 51 single-chip microcomputer 6 by wire 5, the inside of the main hollow housing 3 positioned at
The both ends of the iron core 19 are respectively arranged with a main hollow structure 7, and the two main hollow structures 7 are positioned at the one of the iron core 19
End installs one first permanent magnet 8 respectively and the second permanent magnet 9, the end face of the permanent magnet 9 of the first permanent magnet 8 and second pass through spiral shell
Bolt fixes a connecting plate 10, and the center of two end faces of connecting plate 10 is provided with the main rotating shaft with its integral structure
11, the end of two main rotating shafts 11 is respectively mounted a connecting mechanism for rotating 12, and the end of two connecting mechanism for rotating 12 is equal
One main thread bar 13 is installed, the body of rod of the main thread bar 13 runs through the main hollow housing 3, and both install through position
There is sealing ring 18, the body of rod of the main thread bar 13 is connected at the position outside the main hollow housing 3 by helicitic texture
The inside for being arranged on the nut structure 14 that main hollow housing 3 runs through is connect, and the end of the two main thread bars 13 is secondary with one
The end of rotary shaft 16 is fixedly connected, and the axis bodies of the two secondary ends of rotary shaft 16 is respectively mounted an antioverloading protection mechanism 15, and two
A touch panel 17 is fixed in one end of the secondary rotary shaft 16, and it is mainly carried out the offer of dynamics using electromagnetic principle and acted on so that
Dynamics caused by electromagnetism and screw thread dental structure in Impact direction on the contrary, so as to offset the pressure of part, its specific workflow
For:The part that two needs are fastened, the longitudinal surface of two touch panels 17 is placed individually into, then passes through spanner and rotate antioverloading protection
Mechanism 15, in the presence of helicitic texture so that touch panel 17 can effectively be fastened two secure components, then pass through 51
Single-chip microcomputer 6 injects quantitative and orientation electric current to the inside of coil 4, it should be noted that is produced by the change that is sized to for changing electric current
The size of magnetisation field, then by changing sense of current, the direction in magnetic field can be changed, with it, so that the first permanent magnetism
The permanent magnet 9 of body 8 and second realizes reverse repulsion effect, so as to reduce the stressing conditions of ridge.
Referring to Fig. 2, the connecting mechanism for rotating 12 includes connecting mechanism for rotating central plate 121, connecting mechanism for rotating
With bearing installation groove 122, connecting mechanism for rotating bearing 123, the first rotary shaft 124 of connecting mechanism for rotating, rotatable connection
Mechanism with the second rotary shaft 125, the first connecting shaft 126 of connecting mechanism for rotating, the second connecting shaft 127 of connecting mechanism for rotating,
Connecting mechanism for rotating the second mounting flange 129 of the first mounting flange 128 and connecting mechanism for rotating;The rotatable connection
Mechanism is provided with a connecting mechanism for rotating bearing installation groove 122, the rotation with the center of the both ends of the surface of central plate 121
Turn bindiny mechanism and be socketed a rotation respectively with the inside of bearing installation groove 122 in two connecting mechanism for rotating with central plate 121
Turn bindiny mechanism's bearing 123, two connecting mechanism for rotating are respectively fixed with connecting mechanism for rotating with the inner ring of bearing 123
With the second rotary shaft 125 of the first rotary shaft 124 and connecting mechanism for rotating, the first rotary shaft 124 of the connecting mechanism for rotating
It is respectively arranged with connecting mechanism for rotating with the end of the second rotary shaft 125 with the connecting mechanism for rotating of its integral structure with
The second connecting shaft 127 of one connecting shaft 126 and connecting mechanism for rotating, the connecting mechanism for rotating the first connecting shaft 126 and rotation
Turn bindiny mechanism to be respectively arranged with and the first company of the connecting mechanism for rotating of its integral structure with the end of the second connecting shaft 127
The second mounting flange 129 of acting flange disk 128 and connecting mechanism for rotating, the first mounting flange of the connecting mechanism for rotating
128 and connecting mechanism for rotating consolidated with end of the end of the second mounting flange 129 respectively with main rotating shaft 11 and threaded rod 13
Fixed connection;The connecting mechanism for rotating is connected with the first rotary shaft 124 and connecting mechanism for rotating with the second rotary shaft 125 by bearing
The method connect is fixed on the inside of the connecting mechanism for rotating central plate 121 using connecting mechanism for rotating bearing 123, can
Realize revolving connection function so that the thrust from main thread bar 13 can be normally carried out, and rotate dynamics reduction, so as to
Reduce influences caused by friction.
Referring to Fig. 3, the antioverloading protection mechanism 15 includes antioverloading protection mechanism rotation housing 151, antioverloading
During protection mechanism is used with secondary rotation shaft mounting hole 152, antioverloading protection mechanism hexgonal structure 153, antioverloading protection mechanism
Hollow structure 154, antioverloading protection mechanism movable plate 155, antioverloading protection mechanism rod-like structure 156, it is arranged on secondary rotation
Multiple antioverloading protection mechanism semi-circular recesses structures 157 on the axis body of axle 16, antioverloading protection mechanism helical spring 158
With antioverloading protection mechanism semicircular structure 159;The antioverloading protection mechanism is centrally disposed useful with rotation housing 151
The secondary rotation shaft mounting hole 152 of antioverloading protection mechanism of secondary rotary shaft 16, the antioverloading protection mechanism rotation are put in card
The outer surface of housing 151 is antioverloading protection mechanism hexgonal structure 153, antioverloading protection mechanism rotation housing
151 positioned at the antioverloading protection mechanism secondary rotation shaft mounting hole 152 and antioverloading protection mechanism hexgonal structure 153
Between region be provided with multiple antioverloading protection mechanism hollow structures 154, and during multiple antioverloading protection mechanisms are used
Hollow structure 154 is that center of circle circular array is set with the center of rotation housing 151 on the antioverloading protection mechanism, Mei Gesuo
State antioverloading protection mechanism and lay an antioverloading protection mechanism movable plate 155, the anti-mistake with the inside of hollow structure 154
Protection mechanism is carried with movable plate 155 at the center positioned at the antioverloading protection mechanism with the secondary rotation end face of shaft mounting hole 152
The antioverloading protection mechanism rod-like structure 156 with its integral structure is provided with, each antioverloading protection mechanism bar
Shape structure 156 is used through the antioverloading protection mechanism rotates housing 151, and the antioverloading protection mechanism rod-like structure
156 end is being provided with and its one positioned at the antioverloading protection mechanism with one end inside secondary rotation shaft mounting hole 152
The antioverloading protection mechanism semicircular structure 159 of formula structure, each antioverloading protection mechanism are right with semicircular structure 159
The inside of the antioverloading protection mechanism semi-circular recesses structure 157, the antioverloading protection mechanism movement should be inserted into
The other end of plate 155 is being protected positioned at the antioverloading protection mechanism with one antioverloading of inside installation of hollow structure 154
Protect mechanism helical spring 158;The antioverloading protection mechanism is protected with the initial length of helical spring 158 more than the antioverloading
Protect the scope of activities of mechanism hollow structure 154;The physical dimension of the antioverloading protection mechanism semi-circular recesses structure 157
Corresponded to antioverloading protection mechanism with the physical dimension of semicircular structure 159 identical, dynamics when, upon rotating is protected more than antioverloading
When protecting mechanism with the elastic force of helical spring 158, the device will rotate against with secondary rotary shaft 16, so as to prevent due to revolving
Turn screw up dynamics it is excessive caused by ridge structural damage phenomenon generation.
Specifically used mode:In present invention work, in use, the part that two needs are fastened, is placed individually into two and touches
The longitudinal surface of plate 17, antioverloading protection mechanism 15. is then rotated by spanner, in the presence of helicitic texture so that touch panel 17
Two secure components can effectively be fastened, when antioverloading protection mechanism 15 rotates against, you can stop the rotation,
Then quantitative and orientation electric current is injected to the inside of coil 4 by 51 single-chip microcomputers 6, it should be noted that by the size for changing electric current
The size for producing magnetic field can be changed, then by changing sense of current, the direction in magnetic field can be changed, with it, making
Obtain the first permanent magnet 8 and the second permanent magnet 9 realizes reverse repulsion effect, so as to reduce the stressing conditions of ridge.
It is obvious to a person skilled in the art that the invention is not restricted to the details of above-mentioned one exemplary embodiment, Er Qie
In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, embodiment all should be regarded as exemplary, and be nonrestrictive, the scope of the present invention is by appended power
Profit requires rather than described above limits, it is intended that all in the implication and scope of the equivalency of claim by falling
Change is included in the present invention.Any reference in claim should not be considered as to the involved claim of limitation.
Claims (8)
1. a kind of bidirectional electromagnetic bench vice, including groove housing (1), it is characterised in that:Groove housing (1) upper surface
Work groove section (2) is provided centrally with, the groove housing (1) is positioned at the internal center of the work groove section (2)
It is provided with and one 51 single-chip microcomputers (6) is installed with the main hollow housing of its integral structure (3), the top of the main hollow housing (3),
The internal center installation one side of the main hollow housing (3) is socketed with the iron core (19) of coil (4), the control of the coil (4)
Input processed connects the control output end of 51 single-chip microcomputer (6) by wire (5), and the inside of the main hollow housing (3) exists
Main hollow structure (7) is respectively arranged with positioned at the both ends of the iron core (19), the two main hollow structures (7) are positioned at the iron
One first permanent magnet (8) and the second permanent magnet (9) are installed in one end of core (19) respectively, and first permanent magnet (8) and second is forever
The end face of magnet (9) fixes a connecting plate (10) by bolt, the centers of two connecting plate (10) end faces be provided with
The main rotating shaft (11) of its integral structure, the end of two main rotating shafts (11) are respectively mounted a connecting mechanism for rotating (12),
The end of two connecting mechanism for rotating (12) is respectively mounted a main thread bar (13), and the body of rod of the main thread bar (13) runs through institute
State main hollow housing (3), and both are being provided with sealing ring (18) through position, the body of rod of the main thread bar (13) positioned at
The outside position of the main hollow housing (3) connects a nut knot for being arranged on main hollow housing (3) and running through by helicitic texture
The inside of structure (14), and end of the end of the two main thread bars (13) with a secondary rotary shaft (16) is fixedly connected, two institutes
The axis body for stating secondary rotary shaft (16) end is respectively mounted an antioverloading protection mechanism (15), and one end of the two secondary rotary shafts (16) is equal
Fix a touch panel (17).
A kind of 2. bidirectional electromagnetic bench vice according to claim 1, it is characterised in that:The connecting mechanism for rotating (12)
Used including connecting mechanism for rotating central plate (121), connecting mechanism for rotating bearing installation groove (122), connecting mechanism for rotating
Bearing (123), connecting mechanism for rotating the first rotary shaft (124), connecting mechanism for rotating the second rotary shaft (125), rotation connect
Connection mechanism the first connecting shaft (126), connecting mechanism for rotating the second connecting shaft (127), the first connection of connecting mechanism for rotating
Ring flange (128) and connecting mechanism for rotating are with the second mounting flange (129).
A kind of 3. bidirectional electromagnetic bench vice according to claim 2, it is characterised in that:During the connecting mechanism for rotating is used
The center of core (121) both ends of the surface is provided with a connecting mechanism for rotating bearing installation groove (122), the rotation connects
Connection mechanism is socketed a rotation respectively in two connecting mechanism for rotating with central plate (121) with the inside of bearing installation groove (122)
Turn bindiny mechanism with bearing (123), two connecting mechanism for rotating are with being respectively fixed with rotatable connection in the inner ring of bearing (123)
Mechanism the first rotary shaft (124) and the second rotary shaft of connecting mechanism for rotating (125), the first rotation of the connecting mechanism for rotating
Rotating shaft (124) and connecting mechanism for rotating are respectively arranged with the rotation with its integral structure with the end of the second rotary shaft (125)
Bindiny mechanism the first connecting shaft (126) and the second connecting shaft of connecting mechanism for rotating (127), the connecting mechanism for rotating is with
One connecting shaft (126) and connecting mechanism for rotating are respectively arranged with and its integral structure with the end of the second connecting shaft (127)
Connecting mechanism for rotating the first mounting flange (128) and the second mounting flange of connecting mechanism for rotating (129), the rotation
Bindiny mechanism with the end of the first mounting flange (128) and the second mounting flange of connecting mechanism for rotating (129) respectively with
Main rotating shaft (11) is fixedly connected with the end of threaded rod (13).
A kind of 4. bidirectional electromagnetic bench vice according to claim 3, it is characterised in that:The connecting mechanism for rotating is with
One rotary shaft (124) utilizes the machine that is rotatably connected with the method that connecting mechanism for rotating is connected with the second rotary shaft (125) by bearing
Structure is fixed on the inside of the connecting mechanism for rotating central plate (121) with bearing (123).
A kind of 5. bidirectional electromagnetic bench vice according to claim 1, it is characterised in that:The antioverloading protection mechanism
(15) antioverloading protection mechanism rotation housing (151) is included, antioverloading protection mechanism uses secondary rotation shaft mounting hole (152), anti-
Overload protecting mechanism hexgonal structure (153), antioverloading protection mechanism hollow structure (154), antioverloading protection mechanism are used
Movable plate (155), antioverloading protection mechanism rod-like structure (156), the multiple anti-mistakes being arranged on secondary rotary shaft (16) axis body
Carry protection mechanism semi-circular recesses structure (157), antioverloading protection mechanism helical spring (158) and antioverloading protection mechanism
With semicircular structure (159).
A kind of 6. bidirectional electromagnetic bench vice according to claim 5, it is characterised in that:The antioverloading protection mechanism is used
The secondary rotation shaft mounting hole of antioverloading protection mechanism for being provided centrally with being used for card and putting secondary rotary shaft (16) of rotation housing (151)
(152), the antioverloading protection mechanism is antioverloading protection mechanism hexgonal structure with the outer surface of rotation housing (151)
(153), the antioverloading protection mechanism is installed with rotation housing (151) positioned at the antioverloading protection mechanism with secondary rotary shaft
Hole (152) and antioverloading protection mechanism are provided with multiple antioverloading protection mechanisms with the region between hexgonal structure (153) and used
Hollow structure (154), and multiple antioverloading protection mechanisms are used with hollow structure (154) on the antioverloading protection mechanism
The center for rotating housing (151) is set for center of circle circular array, and each the antioverloading protection mechanism is with hollow structure (154)
Inside lay an antioverloading protection mechanism movable plate (155), the antioverloading protection mechanism is in place with movable plate (155)
In being provided centrally with for secondary rotation shaft mounting hole (152) end face of the antioverloading protection mechanism and preventing for its integral structure
Overload protecting mechanism is prevented with rod-like structure (156), each antioverloading protection mechanism with rod-like structure (156) through described
Overload protecting mechanism with rotation housing (151), and the antioverloading protection mechanism with the end of rod-like structure (156) positioned at institute
Antioverloading protection mechanism is stated to be provided with and the antioverloading of its integral structure guarantor with the internal one end of secondary rotation shaft mounting hole (152)
Protect mechanism and be correspondingly inserted into described with semicircular structure (159), each antioverloading protection mechanism semicircular structure (159)
The inside of antioverloading protection mechanism semi-circular recesses structure (157), the antioverloading protection mechanism are another with movable plate (155)
End face is being used positioned at the antioverloading protection mechanism with the one antioverloading protection mechanism of inside installation of hollow structure (154)
Helical spring (158).
A kind of 7. bidirectional electromagnetic bench vice according to claim 6, it is characterised in that:The antioverloading protection mechanism is used
The initial length of helical spring (158) is more than the scope of activities of antioverloading protection mechanism hollow structure (154).
A kind of 8. bidirectional electromagnetic bench vice according to claim 7, it is characterised in that:The antioverloading protection mechanism is used
The physical dimension and antioverloading protection mechanism of semi-circular recesses structure (157) are corresponding with the physical dimension of semicircular structure (159)
It is identical.
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CN201711004242.8A CN107803757A (en) | 2017-10-24 | 2017-10-24 | A kind of bidirectional electromagnetic bench vice |
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CN201711004242.8A CN107803757A (en) | 2017-10-24 | 2017-10-24 | A kind of bidirectional electromagnetic bench vice |
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Citations (5)
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---|---|---|---|---|
GB611873A (en) * | 1946-05-11 | 1948-11-04 | Harold Jackson | Improvements relating to electro-magnetic clamps, vices and the like |
US5338045A (en) * | 1992-10-16 | 1994-08-16 | Yang Tai Her | Device for application of mechanical and magnetic forces to a fixture |
CN106625306A (en) * | 2017-03-02 | 2017-05-10 | 瑞安市智造科技有限公司 | Bidirectional electromagnetic type bench vice |
CN107433526A (en) * | 2017-09-15 | 2017-12-05 | 钱丽芳 | A kind of bidirectional electromagnetic bench vice |
CN207387475U (en) * | 2017-09-15 | 2018-05-22 | 陈建毅 | A kind of bidirectional electromagnetic bench vice |
-
2017
- 2017-10-24 CN CN201711004242.8A patent/CN107803757A/en active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB611873A (en) * | 1946-05-11 | 1948-11-04 | Harold Jackson | Improvements relating to electro-magnetic clamps, vices and the like |
US5338045A (en) * | 1992-10-16 | 1994-08-16 | Yang Tai Her | Device for application of mechanical and magnetic forces to a fixture |
CN1103019A (en) * | 1992-10-16 | 1995-05-31 | 杨泰和 | Clamp with mechanical and magnetic holding structure |
CN106625306A (en) * | 2017-03-02 | 2017-05-10 | 瑞安市智造科技有限公司 | Bidirectional electromagnetic type bench vice |
CN107433526A (en) * | 2017-09-15 | 2017-12-05 | 钱丽芳 | A kind of bidirectional electromagnetic bench vice |
CN207387475U (en) * | 2017-09-15 | 2018-05-22 | 陈建毅 | A kind of bidirectional electromagnetic bench vice |
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