CN108705874A - A kind of electric stapler based on microelectric technique - Google Patents

Abstract

The invention discloses a kind of electric staplers based on microelectric technique,Including operation block,The stapler space of upper end wall connection free surrounding space is provided in the operation block,It is provided with the stapler slot that a upper end wall is connected to stapler space on rear side of the lower end wall of the stapler space,The spring compartment that lower end wall connection free surrounding space is symmetrically set with from motion block front end,A promotion slot that spring compartment is connected to close to the end wall of rotary shaft is provided in the spring block,The storage space for being symmetrically set with lower end wall connection free surrounding space centered on rotary shaft from motion block,The storage space is provided with a sliding cavity in the end wall far from rotating shaft center,The sliding cavity lower end wall is provided with an electromagnetic space being connected to storage space close to the end wall of rotating shaft center,This device has simple in structure,It is easy to operate,Increase the storage capacity of staple block,And have the effect of adding automatically,Realize the automation for adding new staple block,It improves work efficiency,It can be stored with both ends,Greatly improve the stability of wheel arrangement,With very high adaptability.

Description

A kind of electric stapler based on microelectric technique

Technical field

The present invention relates to stapling devices manufacture field, specially a kind of electric stapler based on microelectric technique.

Background technology

Currently, with the development of science and technology the development of society, people are increasing to books and paper document demand, to ordering The use of book machine is more and more frequent, and existing stapler storage capacity is smaller, it is difficult to realize the effect largely bound, need often to add Add new staple block, can not achieve the effect added automatically, seriously affects working efficiency, easy tod produce in a large amount of forwardings Various failures, stability is not high and has significant limitation.

Invention content

The purpose of the present invention is to provide a kind of electric staplers based on microelectric technique, to solve above-mentioned background technology The problem of middle proposition.

To achieve the above object, the present invention provides the following technical solutions：A kind of electric stapler based on microelectric technique, Including operation block, the stapler space of upper end wall connection free surrounding space, stapler space lower end are provided in the operation block The stapler slot that a upper end wall is connected to stapler space is provided on rear side of wall, the stapler slot lower end wall is connected to free surrounding space, institute It states stapler space front bulkhead and is fixedly connected with the first stapling block, slided in the stapler space being located at the first stapling block upper end It is connected with a sliding shoe, the sliding shoe front end face is fixedly connected with a sliding bar, and the sliding bar front end face is fixedly connected with One compressed spring, the compressed spring front end are fixedly connected with stapler space front bulkhead, right in the left hand end wall of the stapler space Claim the pushing space for being provided with upper end wall connection free surrounding space, the end wall and stapler for pushing space close to stapler space empty Between be connected to, the sliding bar right end through stapler space right end wall and positioned at right side push space in, the sliding bar left end passes through It wears stapler space left end wall and is pushed in space positioned at left side, a lower lock block, the cunning are slidably connected in the pushing space Lever left and right ends are fixedly connected with lower lock block close to stapler space end face respectively, and the operation block upper surface is embedded in center One electric rotating machine, electric rotating machine upper surface be connected by power have a rotary shaft, the rotary shaft upper end to be fixedly connected with one certainly Motion block, the spring compartment that lower end wall connection free surrounding space is symmetrically set with from motion block front end, the spring are empty Interior to slidably connect a spring block, the spring block lower end is described through spring compartment lower end wall and in free surrounding space Spring block upper surface is fixedly connected with pressing spring, and the pushing spring upper end is fixedly connected with spring compartment upper end wall, institute It states and is provided with a promotion slot for being connected to spring compartment close to the end wall of rotary shaft in spring block, slidably connected in the promotion slot One pushing block, the pushing block close to the end wall of rotary shaft and are located at spring compartment close to one end of rotary shaft through promotion slot Interior, end face of the pushing block far from rotating shaft center is fixedly connected with a push the spring, and the push the spring is far from rotary shaft The one end at center is fixedly connected with end wall of the slot far from rotating shaft center is pushed, described to be controlled centered on rotary shaft from motion block It is symmetrically arranged with the storage space of lower end wall connection free surrounding space, it is solid close to the end wall of rotating shaft center in the storage space Surely it is connected with the second stapler block, a translational block is slidably connected in the storage space being located on the upside of the second stapler block, it is described Translational block is fixedly connected with an extension spring close to the end face of rotating shaft center, the extension spring close to rotating shaft center one Hold end wall with storage space close to rotating shaft center to be fixedly connected, be provided in the storage space front bulkhead lower end wall and Object space is put in storage space connection, and described to put object space upper end wall connection free surrounding space, the translational block upper surface, which is fixed, to be connected It is connected to a pulling block, through putting object space and being located in free surrounding space, the storage space upper end wall is remote for the pulling block upper end Chamber is translated from being provided with a lower end wall at rotation axial end wall and being connected to storage space, the translation intracavitary slidably connects a spiral shell Line block is embedded with a driving motor in the translation chamber upper end wall, and driving motor lower face be connected by power has a thread spindle, The thread spindle lower end is located in threaded block and is threadedly coupled with threaded block, end wall of the storage space far from rotating shaft center It is inside provided with a sliding cavity, the sliding cavity is connected to close to the end wall of rotating shaft center with storage space, the sliding cavity lower end Wall is provided with an electromagnetic space being connected to storage space close to the end wall of rotating shaft center, and the electromagnetic space is far from rotary shaft The end wall at center is fixedly connected with an electromagnet, and the electromagnet is fixedly connected with an elastic force bullet close to the end face of rotating shaft center Spring, the elastic spring are fixedly connected with a magnetic block close to one end of rotating shaft center, are provided on one in the magnetic block End face is connected to the power cavity of electromagnetic space, and the power cavity lower end wall is fixedly connected with a power spring, on the power spring End is fixedly connected with a power rail, and the power rail upper end is through power cavity upper end wall and in sliding cavity, the power rail It is fixedly connected with a supporting block on the left of the end face of rotating shaft center, the supporting block runs through close to one end of rotating shaft center Sliding cavity close to rotating shaft center end wall and in the storage space, on the left of the operation block upper end in be provided with a sound and carry Wake up mechanism.

Preferably, the translation chamber is rectangular, the threaded block moves to behind bottom also in translation intracavitary sliding, institute Frictional force of the electromagnet to the attraction of magnetic block much larger than the elastic force and magnetic block sliding of elastic spring is stated, before the supporting block End face is concordant with the second stapler block front end face.

Preferably, having the inclined-plane of a taper at the close rotating shaft center side of the spring compartment lower end wall, under described Pressing on front side of end wall of the space far from stapler space has a tapered slope.

Preferably, the elastic force of the push the spring is much larger than the elastic force of compressed spring.

Preferably, the sound prompting mechanism includes loudspeaker, a sound source, institute are provided in the operation block upper end left side It states and is connected by electric wire between loudspeaker and sound source.

Compared with prior art, the beneficial effects of the invention are as follows：In present invention work, pushed away toward close to rotating shaft center direction It is dynamic to pull block, it pulls block that translational block is driven to be moved to rotating shaft center direction, staple block is put into from putting object space upper end wall, Staple block enters be located at the second stapler block upper end surface in storage space under gravity, by pushing and unclamping repeatedly Pushing block allows the multiple staple blocks of the second stapler block upper end surface proper alignment, when the staple block in stapler space is finished Afterwards, electric rotating machine is opened, and electric rotating machine be connected by power drives rotary shaft to rotate counterclockwise, and is turned counterclockwise from motion block to drive Dynamic, when spring block moves to right over the pushing space on right side, electric rotating machine is closed, and spring block is downward under the action of elastic force It is moved into and pushes in space, to make the pushing block in spring block travel forward under the action of elastic force, under pushing block drives Briquetting travels forward, and lower lock block drives sliding bar to move forward, and to drive sliding shoe to travel forward, the storage on right side is empty at this time Between be located at right over stapler space, the driving motor on right side is opened, and driving motor be connected by power drives thread spindle rotation, to make Threaded block moves downward, threaded block drive staple block move downward, at the same time, threaded block can block other staple blocks to It is moved far from rotary axis direction, staple block drives supporting block to move downward, and supporting block drives power rail to move downward and enter In electromagnetic space, the electromagnet on right side is powered, and to generate attraction to magnetic block, magnetic block is transported to far from rotary axis direction Dynamic, magnetic block drives power rail to be moved to far from rotating shaft center direction with supporting block, to make the staple block moved downward Support force is lost, enters in stapler space and be located at the first stapling block upper end under gravity, driving motor is closed, rotation Motor is opened, and electric rotating machine reversion, electric rotating machine be connected by power drives rotary shaft to rotate clockwise, to drive from the motion block inverse time Needle rotates, and spring block travels upward and out in the case where pushing end wall ramp of the space far from rotating shaft center and squeezing and pushes space, The inclined-plane at end wall of the spring compartment close to rotating shaft center of the pushing block in spring block enters under squeezing in spring compartment at this time, Until setting back, the electromagnet on right side stops being powered, and magnetic block moves under the action of elastic force to close to rotary axis direction, from And so that supporting block is first moved to the direction of close rotating shaft center under the action of elastic force and move then up, the driving electricity on right side Machine is opened, and driving motor be connected by power drives thread spindle to rotate backward, and to make threaded block move upwards, threaded block drives stapler Nail block moves upwards, to make supporting block move upwards until set back, then next staple block pushing away in translational block Dynamic lower positioned at supporting block upper surface, the driving motor closing on right side, after returning to original position from motion block, electric rotating machine is closed, left side Staple block addition manner it is similar with aforesaid operations, this device have it is simple in structure, it is easy to operate, increase staple block Storage capacity, and have the effect of adding automatically, the automation for adding new staple block is realized, is improved work efficiency, it can It is stored with both ends, greatly improves the stability of wheel arrangement, there is very high adaptability.

Description of the drawings

Fig. 1 is a kind of main structure diagram of the electric stapler entirety complete section based on microelectric technique of the present invention；

Fig. 2 is a kind of overlooking structure diagram of the electric stapler entirety complete section based on microelectric technique of the present invention；

Fig. 3 is the main structure diagram of complete section at a kind of electric stapler spring compartment based on microelectric technique of the present invention；

Fig. 4 is the left view enlarged structure signal of spring compartment on the right side of a kind of electric stapler based on microelectric technique of the present invention Figure.

Fig. 5 is that the left view enlarged structure in pushing space on the right side of a kind of electric stapler based on microelectric technique of the present invention is shown It is intended to.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

- 5 are please referred to Fig.1, a kind of embodiment provided by the invention：A kind of electric stapler based on microelectric technique, packet Operation block 1 is included, the stapler space 8 of upper end wall connection free surrounding space is provided in the operation block 1, under the stapler space 8 The stapler slot 4 that a upper end wall is connected to stapler space 8 is provided on rear side of end wall, the connection of 4 lower end wall of the stapler slot is extraneous empty Between, 8 front bulkhead of stapler space is fixedly connected with the first stapling block 7, and the stapler being located at 7 upper end of the first stapling block is empty Between slidably connect a sliding shoe 5 in 8,5 front end face of the sliding shoe is fixedly connected with a sliding bar 6,6 front end of the sliding bar Face is fixedly connected with a compressed spring 9, and 9 front end of the compressed spring is fixedly connected with 8 front bulkhead of stapler space, and the stapler is empty Between the pushing space 3 of upper end wall connection free surrounding space is symmetrically arranged in 8 left hand end walls, the pushing space 3 is close to stapler The end wall in space 8 is connected to stapler space 8, and 6 right end of the sliding bar pushes empty through 8 right end wall of stapler space and positioned at right side Between in 3,6 left end of the sliding bar is pushed through 8 left end wall of stapler space and positioned at left side in space 3, in the pushing space 3 A lower lock block 2 is slidably connected, 6 left and right ends of the sliding bar are fixed with lower lock block 2 close to 8 end face of stapler space respectively to be connected It connects, an electric rotating machine 26 is embedded in 1 upper surface center of the operation block, 26 upper surface be connected by power of the electric rotating machine has one Rotary shaft 24,24 upper end of the rotary shaft are fixedly connected with one from motion block 10, described to be symmetrical set from 10 front end of motion block There is the spring compartment 20 of lower end wall connection free surrounding space, a spring block 18 is slidably connected in the spring compartment 20, it is described Through 20 lower end wall of spring compartment and in free surrounding space, 18 upper surface of the spring block is fixedly connected with 18 lower end of spring block Pressing spring 25 once, 25 upper end of lower pressing spring are fixedly connected with 20 upper end wall of spring compartment, setting in the spring block 18 There is a promotion slot 19 for being connected to spring compartment 20 close to the end wall of rotary shaft 24, a promotion is slidably connected in the promotion slot 19 Block 16, the pushing block 16 are close to the end wall of rotary shaft 24 and empty positioned at spring through promotion slot 19 close to one end of rotary shaft 24 Between in 20, end face of the pushing block 16 far from 24 center of rotary shaft is fixedly connected with a push the spring 17, the push the spring 17 one end far from 24 center of rotary shaft is fixedly connected with end wall of the slot 19 far from 24 center of rotary shaft is pushed, described from motion block 10 The interior storage space 27 that lower end wall connection free surrounding space is symmetrically set with centered on rotary shaft 24, the storage space In 27 the second stapler block 23, the storage for being located at 23 upside of the second stapler block are fixedly connected with close to the end wall at 24 center of rotary shaft It deposits and slidably connects a translational block 15 in space, the translational block 15 is fixedly connected with a drawing close to the end face at 24 center of rotary shaft Stretch spring 13, the extension spring 13 close to 24 center of rotary shaft one end with storage space 27 close to the end at 24 center of rotary shaft Wall is fixedly connected, and be provided with that a lower end wall is connected to storage space 27 in 27 front bulkhead of the storage space puts object space 39, Described to put 39 upper end wall of object space connection free surrounding space, 15 upper surface of the translational block is fixedly connected with a pulling block 14, described Pull 14 upper end of block through putting object space 39 and being located in free surrounding space, 27 upper end wall of the storage space is far from 24 end of rotary shaft It is provided with a lower end wall at wall and is connected to translation chamber 35 with storage space 27, a threaded block is slidably connected in the translation chamber 35 38, a driving motor 36 is embedded in 35 upper end wall of translation chamber, and 36 lower face be connected by power of the driving motor has a spiral shell Line axis 37,37 lower end of the thread spindle are located in threaded block 38 and are threadedly coupled with threaded block 38, and the storage space 27 is separate A sliding cavity 40, end wall and storage of the sliding cavity 40 close to 24 center of rotary shaft are provided in the end wall at 24 center of rotary shaft Space 27 is connected to, and 40 lower end wall of the sliding cavity is provided with what an end wall close to 24 center of rotary shaft was connected to storage space 27 Electromagnetic space 30, end wall of the electromagnetic space 30 far from 24 center of rotary shaft are fixedly connected with an electromagnet 32, the electromagnetism Iron 32 is fixedly connected with an elastic spring 31 close to the end face at 24 center of rotary shaft, and the elastic spring 31 is in rotary shaft 24 One end of the heart is fixedly connected with a magnetic block 29, and the power of upper surface connection electromagnetic space 30 is provided in the magnetic block 29 Chamber 33,33 lower end wall of the power cavity are fixedly connected with a power spring 28, and 28 upper end of the power spring is fixedly connected with one Power rail 34,33 upper end of the power rail is through 33 upper end wall of power cavity and in sliding cavity 40, and the power rail 3 is close to rotation It is fixedly connected with a supporting block 21 on the left of the end face at 24 center of shaft, the supporting block 21 is passed through close to the one end at 24 center of rotary shaft Sliding cavity 40 is worn close to the end wall at 24 center of rotary shaft and in storage space 27, interior setting on the left of 1 upper end of the operation block There is a sound prompting mechanism 41.

Valuably, the translation chamber 35 is rectangular, and the threaded block 38 moves to also sliding in translation chamber 35 behind bottom Dynamic, the electromagnet 32 is to the attraction of magnetic block 29 much larger than the friction that the elastic force of elastic spring 31 is slided with magnetic block 29 Power, 21 front end face of the supporting block is concordant with 23 front end face of the second stapler block, and effect is to ensure that staple can normally be fallen into order In book space 8.

Valuably, there is the inclined-plane of a taper at 24 central side of close rotary shaft of 20 lower end wall of the spring compartment, it is described Pushing has a tapered slope on front side of end wall of the space 3 far from stapler space 8, effect is to allow spring block 18 out of pushing space 3 It skids off and pushing block 16 is allowed to enter in spring compartment 20, automatically reset to realize.

Valuably, the elastic force of the push the spring 19 is much larger than the elastic force of compressed spring 9, and effect is to allow 16 energy of pushing block Enough sliding bar 6 is pushed to move forward, to which new staple block be added.

Valuably, the sound prompting mechanism 41 includes loudspeaker 42, and 1 upper end of the operation block is provided with a sound source in left side 44, it is connected by electric wire 43 between the loudspeaker 42 and sound source 44, effect is to prompt the surplus of staple.

Specifically used method：In present invention work, block 14 is pulled toward being pushed close to 24 center position of rotary shaft, pulls block 14 It drives translational block 15 to be moved to 24 center position of rotary shaft, staple block, staple block is put into from putting 29 upper end wall of object space Enter under gravity and be located at 23 upper end surface of the second stapler block in storage space 39, is pushed by pushing and unclamping repeatedly Block 14 allows the multiple staple blocks of 23 upper end surface proper alignment of the second stapler block, when the staple block in stapler space 8 is finished Afterwards, electric rotating machine 26 is opened, and 26 be connected by power of electric rotating machine drives rotary shaft 24 to rotate counterclockwise, inverse from motion block 10 to drive Hour hands rotate, and when spring block 18 moves to 3 surface of pushing space on right side, electric rotating machine 26 is closed, and spring block 18 is in bullet Moved downwardly under the action of power push space 3 in, to make the pushing block 16 in spring block 8 under the action of elastic force forward Movement, pushing block 16 drive lower lock block 2 travel forward, lower lock block 2 drive sliding bar 6 move forward, to drive sliding shoe 5 to Preceding movement, at this time the storage space 27 on right side be located at right over stapler space 8, the unlatching of driving motor 36 on right side, driving motor 36 be connected by powers drive thread spindle 37 to rotate, and to make threaded block 38 move downward, threaded block 38 drives staple block to transport downwards Dynamic, at the same time, threaded block 38 can block other staple blocks and be moved to far from 24 direction of rotary shaft, and staple block drives support Block 21 moves downward, and supporting block 21 drives power rail 34 to move downward and enter in electromagnetic space 30, and the electromagnet 32 on right side is logical Electricity, to generate attraction to magnetic block 29, magnetic block 29 is moved to far from rotary axis direction, and magnetic block 29 drives power rail 34 It is moved to far from 24 center position of rotary shaft with supporting block 21, to make the staple block moved downward lose support force, in weight Entering in stapler space 8 and be located at 7 upper end of the first stapling block under the action of power, driving motor 36 is closed, and electric rotating machine 26 is opened, Electric rotating machine inverts, and 26 be connected by power of electric rotating machine drives rotary shaft 24 to rotate clockwise, counterclockwise from motion block 10 to drive Rotation, it is empty that spring block 18 travels upward and out pushing in the case where pushing end wall ramp of the space 3 far from 24 center of rotary shaft and squeezing Between 2, at this time the pushing block 16 in spring block 8 spring compartment 20 close at the end wall at 24 center of rotary shaft inclined-plane squeeze under enter In spring compartment 20, until setting back, the electromagnet 32 on right side stops being powered, and magnetic block 29 is under the action of elastic force to close Rotary axis direction moves, to make supporting block 21 first be moved then to the direction close to 24 center of rotary shaft under the action of elastic force It moves upwards, the driving motor 36 on right side is opened, and 36 be connected by power of driving motor drives thread spindle 37 to rotate backward, to make spiral shell Line block 38 moves upwards, and threaded block 38 drives staple block to move upwards, to make supporting block 21 move upwards until restoring former , then next staple block is located at 21 upper surface of supporting block under the promotion of translational block 15, and the driving motor 36 on right side closes It closes, after returning to original position from motion block 10, electric rotating machine 26 is closed, and the staple block addition manner in left side is similar with aforesaid operations, This device have it is simple in structure, it is easy to operate, increase the storage capacity of staple block, and have the effect of adding automatically, realization The automation of the new staple block of addition, is improved work efficiency, can be stored with both ends, and the steady of wheel arrangement is greatly improved It is qualitative, there is very high adaptability.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, 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, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Profit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent requirements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

Claims (5)

1. a kind of electric stapler based on microelectric technique, including operation block, it is characterised in that：It is provided in the operation block One upper end wall is connected to the stapler space of free surrounding space, and it is empty with stapler that a upper end wall is provided in stapler space lower end wall rear side Between the stapler slot that is connected to, the stapler slot lower end wall is connected to free surrounding space, and stapler space front bulkhead is fixedly connected with first Stapling block slidably connects a sliding shoe, the sliding shoe front end in the stapler space being located at the first stapling block upper end Face is fixedly connected with a sliding bar, and the sliding bar front end face is fixedly connected with a compressed spring, the compressed spring front end with Stapler space front bulkhead is fixedly connected, and upper end wall connection free surrounding space is symmetrically arranged in the left hand end wall of the stapler space Space is pushed, the end wall for pushing space close to stapler space is connected to stapler space, and the sliding bar right end runs through stapler Space right end wall and positioned at right side push space in, the sliding bar left end through stapler space left end wall and positioned at left side push In space, a lower lock block is slidably connected in the pushing space, the sliding bar left and right ends are respectively with lower lock block close to ordering Book space end face is fixedly connected, and an electric rotating machine, the electric rotating machine upper surface are embedded in the center of the operation block upper surface Be connected by power has a rotary shaft, and the rotary shaft upper end is fixedly connected with one from motion block, described symmetrical from motion block front end It is provided with the spring compartment of lower end wall connection free surrounding space, a spring block, the bullet are slidably connected in the spring compartment Through spring compartment lower end wall and in free surrounding space, the spring block upper surface is fixedly connected with a pushing bullet for spring block lower end Spring, the pushing spring upper end are fixedly connected with spring compartment upper end wall, and one is provided in the spring block close to rotary shaft End wall is connected to the promotion slot of spring compartment, slidably connects a pushing block in the promotion slot, the pushing block is close to rotary shaft One end through push slot close to the end wall of rotary shaft and in the spring compartment, end of the pushing block far from rotating shaft center Face is fixedly connected with a push the spring, and the one end of the push the spring far from rotating shaft center is with promotion slot far from rotating shaft center End wall be fixedly connected, the lower end wall connection free surrounding space of being symmetrically set with centered on rotary shaft from motion block Storage space, the end wall in the storage space close to rotating shaft center is fixedly connected with the second stapler block, described to be located at second A translational block is slidably connected in storage space on the upside of stapler block, the translational block is fixed close to the end face of rotating shaft center to be connected It is connected to an extension spring, the extension spring is close to one end of rotating shaft center with storage space close to the end wall of rotating shaft center It is fixedly connected, the object space of putting that a lower end wall is connected to storage space is provided in the storage space front bulkhead, it is described to put object Space upper end wall is connected to free surrounding space, and the translational block upper surface is fixedly connected with a pulling block, and the pulling block upper end is run through Put object space and in the free surrounding space, the storage space upper end wall far from be provided at rotation axial end wall a lower end wall with Storage space connection translation chamber, the translation intracavitary slidably connect a threaded block, one are embedded in the translation chamber upper end wall Driving motor, driving motor lower face be connected by power have a thread spindle, the thread spindle lower end be located in threaded block and with Threaded block is threadedly coupled, and the storage space is provided with a sliding cavity in the end wall far from rotating shaft center, the sliding cavity leans on The end wall of nearly rotating shaft center is connected to storage space, and the sliding cavity lower end wall is provided with an end wall close to rotating shaft center The electromagnetic space being connected to storage space, end wall of the electromagnetic space far from rotating shaft center are fixedly connected with an electromagnet, The electromagnet is fixedly connected with an elastic spring close to the end face of rotating shaft center, and the elastic spring is close to rotating shaft center One end be fixedly connected with a magnetic block, be provided in the magnetic block upper surface connection electromagnetic space power cavity, it is described Power cavity lower end wall is fixedly connected with a power spring, and the power spring upper end is fixedly connected with a power rail, the power Through power cavity upper end wall and in sliding cavity, the power rail is fixed on the left of the end face of rotating shaft center to be connected for bar upper end It is connected to a supporting block, the supporting block runs through end wall and position of the sliding cavity close to rotating shaft center close to one end of rotating shaft center In in storage space, a sound prompting mechanism is provided in the operation block upper end left side.

2. a kind of electric stapler based on microelectric technique according to claim 1, it is characterised in that：The translation chamber To be rectangular, the threaded block moves to also in translation intracavitary sliding behind bottom, and the electromagnet is remote to the attraction of magnetic block More than the frictional force of the elastic force and magnetic block sliding of elastic spring, the supporting block front end face and the second stapler block front end face are flat Together.

3. a kind of electric stapler based on microelectric technique according to claim 1, it is characterised in that：The spring is empty Between lower end wall close rotating shaft center side at have the inclined-plane of a taper, it is described to push on front side of end wall of the space far from stapler space There is a tapered slope.

4. a kind of electric stapler based on microelectric technique according to claim 1, it is characterised in that：The promotion bullet The elastic force of spring is much larger than the elastic force of compressed spring.

5. a kind of electric stapler based on microelectric technique according to claim 1, it is characterised in that：The sound carries Awake mechanism includes loudspeaker, is provided with a sound source in the operation block upper end left side, is connected by electric wire between the loudspeaker and sound source It connects.