CN115443000A

CN115443000A - Electric permanent magnetic chuck controller with good anti-seismic effect

Info

Publication number: CN115443000A
Application number: CN202211075345.4A
Authority: CN
Inventors: 王国荣
Original assignee: Nantong Maoye Electronic Technology Co ltd
Current assignee: Nantong Maoye Electronic Technology Co ltd
Priority date: 2022-09-04
Filing date: 2022-09-04
Publication date: 2022-12-06

Abstract

The invention discloses an electric permanent magnet chuck controller with a good anti-seismic effect, which comprises a controller body, a damping batten, a positioner, a radiator and a storage box, wherein a bearing plate is installed at the bottom of the controller body, the positioner is installed on the front surface of the controller body, the radiator is installed at the top of the inner wall of the controller body, and the storage box is installed on the inner wall of the controller body. The shock resistance of the electric permanent magnet chuck controller can be improved by installing the shock-absorbing lath and the buffer spring, when the controller body is vibrated and moved, the limiting rod slides in the cylinder to enable the bearing plate to move vertically, when the bearing plate moves, the buffer spring buffers the impact force applied by the bearing plate, so that the damage to internal components and parts caused by overlarge impact force of the controller body can be prevented, the shock absorption purpose of the controller body can be achieved, the shock resistance effect of the device can be improved, and the miniature damper can prevent the buffer spring from continuously pushing the bearing plate to shake.

Description

Electric permanent magnetic chuck controller with good anti-seismic effect

Technical Field

The invention relates to the technical field of electric permanent magnetic chuck controllers, in particular to an electric permanent magnetic chuck controller with a good anti-seismic effect.

Background

Electric permanent magnetism sucking disc controller, realize the intelligent controller of the quick operation of magnetizing and demagnetizing of electric permanent magnetism sucking disc, electric permanent magnetism sucking disc controller is to the theory of operation design of electric permanent magnetism sucking disc, use the singlechip as the intelligent controller of control core, current electric permanent magnetism sucking disc controller is when using, the antidetonation effect is most not very ideal, when receiving great impact, make electric permanent magnetism sucking disc controller cause the damage easily, consequently, need the structure to improve the antidetonation of electric permanent magnetism sucking disc controller, and then protect the inside electrical components of electric permanent magnetism sucking disc controller.

The existing electric permanent magnetic chuck controller has the following defects:

1. patent document CN213152568U discloses a novel permanent magnetic field electric permanent magnetic chuck controller, "including the main part, one side surface of main part is provided with the control button, the top of control button is provided with the control key, one side of control key is provided with the display screen, the bottom of main part is provided with the bolt seat, the surface of bolt seat is inserted and is equipped with the plug, one side surface lock of main part has the curb plate lid. In the utility model, when the plug-in connector needs to be installed and inserted through the plug pin seat through the first connecting body, the installation block, the inserting rod and the buckling block, the plug-in connector can be inserted into the inner surface of the second connecting body through the inserting rod, and the buckling block is buckled with the outer surface of the inserting rod, so that the stability of the first connecting body is stronger after the first connecting body is inserted into the second connecting body, and the problem that the connector is loosened and information transmission is wrong due to poor stability after the plug-in connector is inserted is prevented;

2. patent document CN213324676U discloses a traditional electric permanent magnetic chuck controller convenient to deposit, "including fixture, fixture includes lead screw and bearing, the outside of lead screw is cup jointed through the screw and is installed the lantern ring, the both ends of the lantern ring are all fixed mounting have the head rod, every group two the one end of head rod is all fixed mounting have the grip block. The utility model discloses a be provided with the lead screw, the lantern ring, head rod and grip block, when electric permanent magnet suction disc controller main part is deposited in the inside of case, the staff is through rotating the lead screw, thereby make the lantern ring move to the case, make the head rod drive two grip blocks and be close to each other, with electric permanent magnet suction disc controller main part centre gripping fixed in the inside of case, avoided the protective housing to rock when moving or receiving the collision and make electric permanent magnet suction disc controller main part cause the damage, the structural practicality of device has been increased, the protectiveness of device has been promoted, however, the electric permanent magnet suction disc controller of above-mentioned publication mainly considers protecting the main part, do not consider the problem of fixing a position the connecting wire, therefore, it is necessary to study out a structure that can fix a position the wire, and then can prevent the connecting wire accident and equipment separation;

3. patent document CN213150662U discloses a cabinet dress formula electricity permanent magnet sucking disc controller with protective structure, "including the organism, the organism includes the casing, the surface of casing is provided with protection machanism, protection machanism includes the protecting box, the fixed surface of casing is connected with the protecting box, the inboard fixedly connected with of protecting box supports the board, the surface swing joint of protecting box has the regulation pole, the adjustment tank has been cup jointed on the surface of regulation pole, the bottom swing joint of adjusting the pole has the fixed plate, the sliding surface of protecting box is connected with the telescopic link, the fixed surface of protecting box is connected with the flexible cover. The utility model discloses be provided with protection mechanism to the controller surface, be convenient for protect its surface, and the controller is connected fixedly in the protection box, be convenient for operate the controller, the firm in connection of wire and controller can not cause the connection between wire and the connector to become flexible because of rocking ", however the electric permanent magnet of above-mentioned publication attracts the disk controller and mainly considers to prevent the connection between wire and the connector to become flexible, does not consider the problem that improves the radiating efficiency, therefore, it is necessary to study a structure that improves the radiating efficiency, and then can prolong the life of equipment;

4. patent document CN216212691U discloses an electric permanent magnetic chuck controller with an anti-collision structure, "comprising: the box body, the upper end surface of the box body is hinged with a box cover, a gap between the box cover and the box body is filled with a sealing gasket, the sealing gasket is annularly arranged on the outer wall of the box cover, the middle part of the box cover is embedded with an observation window, the lower end of the box body is provided with a storage bin, the upper end in the box body is provided with a controller, the upper end of the controller is provided with a console, and the interior of the box body is fixed with a middle-arranged plate; and a motor mounted on an upper surface of one end of the middle plate. This electric permanent magnet sucking disc controller with anticollision structure is provided with the sawtooth pole, drive gear meshing sawtooth pole up-and-down motion through the motor, and make the controller can carry out the up-and-down motion in the inside upper end of box, thereby reach and accomodate the effect of protection to the controller, when the controller is accomodate in the box, do not produce direct contact with the collision source, it is better to prevent collision effect, however the electric permanent magnet sucking disc controller of above-mentioned publication mainly considers anticollision, do not consider the problem of accomodating the wire, consequently, it is necessary to study out a structure that can accomodate the wire, and then can prevent that the wire is in disorder.

Disclosure of Invention

The invention aims to provide an electromagnetic permanent magnetic chuck controller with a good anti-seismic effect, and aims to solve the problems of shock absorption, wire positioning, heat dissipation efficiency improvement and wire storage in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an electric permanent magnetic chuck controller with a good anti-seismic effect comprises a controller body, a damping batten, a positioner, a radiator and a storage box, wherein a display screen is installed on the front side of the controller body, a bearing plate is installed at the bottom of the controller body, and a plurality of groups of cylinders are arranged on the inner wall of the bearing plate;

the damping plate is characterized in that a plurality of groups of connecting plates are mounted on the outer walls of two sides of the damping plate strip, a limiting rod is mounted at the top of the connecting plates, the top end of the limiting rod extends into the cylinder, a micro damper is mounted on the inner wall of the damping plate strip, the top end of the micro damper extends to the bottom of the bearing plate, a plurality of groups of buffer springs are mounted at the top of the damping plate strip, and the top ends of the buffer springs are fixedly connected with the bottom of the bearing plate;

the bottom of shock attenuation lath is installed multiunit location sucking disc, the locator is installed in the front of controller body, the radiator is installed at the inner wall top of controller body, the containing box is installed to the inner wall of controller body.

Preferably, the front surface of the controller body is provided with a connector.

Preferably, the threaded sleeve is installed to the inner wall of locator, and threaded rod is installed in the through-going of threaded sleeve's inner wall, and the disc is installed to the one end of threaded rod, and the locating lever is installed to the other end of threaded rod.

Preferably, the both sides outer wall of controller body all is equipped with the air channel, and two sets of radiator fan are installed to the inner wall of controller body.

Preferably, six groups of connecting plates are installed on two sides of the damping batten and are symmetrically installed, the connecting heads are in a long cylindrical shape and are symmetrically installed, two groups of connecting plates are installed, one end of the positioning rod is in an arc shape, and the cooling fan is located on one side of the ventilation groove.

Preferably, two sets of runners are installed to the inner wall of radiator, and the outer wall of runner is encircleed and is installed the conveyer belt, and the outer wall fixed mounting of conveyer belt has the connecting block, and the slide bar is installed to the inner wall of radiator, and the slide bar is located the below of runner, and the frame is installed to the bottom of connecting block, and the one end of slide bar runs through the inside of frame, and the fan is installed to the inner wall of frame.

Preferably, a micro motor is mounted on the inner wall of the heat sink, and the output end of the micro motor extends to the bottom of one set of rotating wheels.

Preferably, the bottom of the inner wall of the controller body is provided with a control element, and the control element is positioned below the radiator.

Preferably, sealing door is installed to the inner wall of containing box, and the support frame is located one side of sealing door, and multiunit rolling axle is installed to the inner wall of support frame, and the buckle is installed to the outer wall of rolling axle, and micro motor is all installed to the top and the bottom of support frame, and micro motor's output and the one end fixed connection of rolling axle.

Preferably, the working steps of the electric permanent magnetic chuck controller are as follows:

s1, after a controller body is placed on a desktop, the position of a shock-absorbing lath is positioned through a positioning sucker, so that the shock-absorbing lath is fixed on the desktop, after the shock-absorbing lath is fixed, the position of the controller body is positioned through a bearing plate, when the controller body moves due to vibration, a limiting rod is in the inner sliding position of a cylinder, so that the bearing plate moves vertically, when the bearing plate moves, impact force applied by the bearing plate is buffered through a buffer spring, damage to internal components due to overlarge impact force of the controller body can be prevented, the aim of damping the controller body is fulfilled, the anti-seismic effect of equipment can be improved, and the miniature damper can prevent the buffer spring from continuously pushing the bearing plate to shake the position;

s2, after the position of the controller body is placed, a lead is connected with a connector, after the lead is connected with the connector, a rotating disc drives a threaded rod to rotate inside a threaded sleeve, the threaded sleeve enables the threaded rod to move, the threaded rod drives a positioning rod to move when moving, and after one end of the positioning rod moves to the outer wall of the connecting lead, the position of the lead is positioned, so that the lead can be prevented from being loosened and falling accidentally, and the purpose of positioning the position of the lead is achieved;

s3, when the interior of the controller body is radiated, the heat radiation fan works to enable air in the controller body to flow to the outside through the ventilation groove, the interior of the controller body is radiated, when the temperature of the interior of the controller body is overhigh for a long time, the fan works to generate wind power, the wind power blows the outer wall of the control element to radiate heat, meanwhile, the output end of the micro motor rotates to drive the rotating wheel to rotate, the rotating wheel rotates to drive the conveying belt to move, the connecting block moves when the conveying belt moves to move, the frame is driven to horizontally slide on the outer wall of the sliding rod when the connecting block moves, the fan moves when the frame moves, the wind power generated by the fan can radiate heat at different positions in the controller body, the heat accumulation in the controller body can be prevented, the purpose of improving the heat radiation efficiency is achieved, and the service life of equipment can be prolonged;

s4, when not using the controller body, when accomodating the wire of connecting, the position of removal sealing door makes the inside of containing box no longer be encapsulated situation, passes through the buckle with the one end of wire and fixes the outside at the rolling axle, fixes the back with the one end of wire, makes micro motor' S output rotate and drives the inside rotation of rolling axle at the support frame, rolls the wire when rolling axle rotates, reaches the purpose of accomodating the wire, can prevent that the wire from scattering.

Preferably, the step S1 further includes the steps of:

s11, after the impact force applied to the controller body by the buffer spring is counteracted, the miniature damper resets to push the bearing plate to reset, and further the position of the controller body is reset;

in step S2, the method further includes the steps of:

s21, when the lead and the connector need to be separated, the threaded rod is rotated reversely, so that one end of the positioning rod is not contacted with the lead, the position of the lead is not positioned, and the lead and the connector can be separated;

in step S4, the method further includes the steps of:

s41, when the wire needs to be taken out, the output end of the micro motor rotates reversely to drive the winding shaft to rotate, and the wound wire can be separated when the winding shaft rotates reversely.

Compared with the prior art, the invention has the beneficial effects that:

1. the shock resistance of the electro-permanent-magnet chuck controller can be improved by installing the shock-absorbing lath and the buffer spring, the position of the shock-absorbing lath is positioned by the positioning sucker, so that the shock-absorbing lath is fixed on a table top, the position of the controller body is positioned by the bearing plate after the shock-absorbing lath is fixed, when the controller body is vibrated and moved, the bearing plate is vertically moved by the limiting rod at the inner sliding position of the cylinder, when the bearing plate is moved, the impact force exerted by the buffer spring on the bearing plate is buffered by the buffer spring, the damage to internal components and parts due to overlarge impact force of the controller body can be prevented, the aim of damping the controller body is fulfilled, the shock resistance effect of equipment can be improved, and the miniature damper can prevent the buffer spring from continuously pushing the bearing plate to shake the position;

2. according to the invention, the positioner is arranged to prevent the connecting wire from being accidentally separated from the connector of the electro-permanent magnetic chuck controller, the wire is connected with the connector, after the wire is connected with the connector, the rotating disc drives the threaded rod to rotate in the threaded sleeve, the threaded sleeve enables the threaded rod to move, the threaded rod drives the positioning rod to move when moving, one end of the positioning rod moves to the outer wall of the connecting wire to position the wire, so that the wire can be prevented from being accidentally loosened and falling off, and the purpose of positioning the wire position is achieved;

3. the invention can improve the heat dissipation efficiency of the interior of the electric permanent magnet chuck controller by installing the radiator, when the temperature of the interior of the controller body is overhigh for a long time, the fan works to generate wind power which blows to the outer wall of the control element for heat dissipation, simultaneously, the output end of the micro motor rotates to drive the rotating wheel to rotate, the conveying belt moves when the rotating wheel rotates, the connecting block is driven to move when the conveying belt moves, the frame is driven to horizontally slide at the outer wall of the sliding rod when the connecting block moves, the fan moves when the frame moves, the wind power generated by the fan can dissipate heat of different positions in the controller body, the heat accumulation in the controller body can be prevented, the purpose of improving the heat dissipation efficiency can be achieved, and the service life of the equipment can be prolonged;

4. according to the invention, the storage box can be used for storing scattered wires, when the wires are stored, the position of the sealing door is moved, so that the inside of the storage box is no longer in a sealing state, one end of the wire is fixed outside the winding shaft through the buckle, after one end of the wire is fixed, the output end of the micro motor rotates to drive the winding shaft to rotate inside the support frame, and the winding shaft winds the wires when rotating, so that the purpose of storing the wires is achieved, and the wires can be prevented from scattering.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the construction of the shock absorbing slat of the present invention;

FIG. 4 is a schematic diagram of a connecting plate structure according to the present invention;

FIG. 5 is a schematic view of a positioner according to the present invention;

FIG. 6 is a schematic view of a heat sink structure according to the present invention;

FIG. 7 is a schematic view of a micro motor according to the present invention;

FIG. 8 is a schematic view of the storage box of the present invention;

fig. 9 is a flow chart of the operation of the present invention.

In the figure: 1. a controller body; 2. a display screen; 3. a bearing plate; 4. a cylinder; 5. a limiting rod; 6. a connecting plate; 7. a shock absorbing panel; 8. positioning a sucker; 9. a buffer spring; 10. a micro damper; 11. a connector; 12. a positioner; 13. a threaded sleeve; 14. a threaded rod; 15. a disc; 16. positioning a rod; 17. a ventilation slot; 18. a heat radiation fan; 19. a heat sink; 20. a rotating wheel; 21. a conveyor belt; 22. a slide bar; 23. connecting blocks; 24. a frame; 25. a fan; 26. a control element; 27. a micro motor; 28. a storage box; 29. a sealing door; 30. a support frame; 31. a winding shaft; 32. buckling; 33. a micro motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2 and fig. 9, an embodiment of the present invention: an electric permanent magnet chuck controller with good anti-seismic effect comprises a controller body 1, a damping lath 7, a positioner 12, a radiator 19 and a storage box 28, wherein a display screen 2 is installed on the front side of the controller body 1, the controller body 1 is an intelligent controller for realizing the quick magnetizing and demagnetizing operation of an electric permanent magnet chuck, the display screen 2 displays operation parameters of equipment, a bearing plate 3 is installed at the bottom of the controller body 1, the bearing plate 3 has a supporting effect on the controller body 1, a plurality of groups of cylinders 4 are arranged on the inner wall of the bearing plate 3, the bearing plate 3 provides an installation space for the cylinders 4, the cylinders 4 enable the bearing plate 3 to vertically move through a limiting rod 5, a plurality of groups of positioning suckers 8 are installed at the bottom of the damping lath 7, the damping lath 7 can be fixed on a plane through the positioning suckers 8, the positioner 12 is installed on the front side of the controller body 1, and the positioner 12 positions of wires are positioned, the top of the inner wall of the controller body 1 is provided with a radiator 19, the radiator 19 can improve the heat dissipation efficiency of the interior of the controller body 1, the inner wall of the controller body 1 is provided with a containing box 28, the containing box 28 is used for containing a lead, the front surface of the controller body 1 is provided with a connector 11, the connector 11 enables the lead to be connected with the controller body 1, the outer walls of two sides of the controller body 1 are respectively provided with a ventilating groove 17, air in the controller body 1 flows when the ventilating grooves 17 are used for ventilating air, the inner wall of the controller body 1 is provided with two groups of heat dissipation fans 18, two sides of the shock absorption lath 7 are respectively provided with six groups of connecting plates 6, the connecting plates 6 are symmetrically arranged, the connectors 11 are in a long cylindrical shape, two groups of connecting plates are symmetrically arranged, one end of the positioning rod 16 is in an arc shape, the heat dissipation fans 18 are positioned at one side of the ventilating grooves 17, and the bottom of the inner wall of the controller body 1 is provided with a control element 26, and the control element 26 is located below the heat sink 19.

Referring to fig. 2, 3 and 4, a plurality of sets of connection plates 6 are mounted on outer walls of two sides of a shock-absorbing lath 7, a limiting rod 5 is mounted on the top of each connection plate 6, the top end of each limiting rod 5 extends into the corresponding cylinder 4, a micro damper 10 is mounted on the inner wall of the shock-absorbing lath 7, the top end of each micro damper 10 extends to the bottom of the corresponding bearing plate 3, a plurality of sets of buffer springs 9 are mounted on the top of each shock-absorbing lath 7, the top ends of the buffer springs 9 are fixedly connected with the bottom of the corresponding bearing plate 3, when the controller body 1 moves under shock, the bearing plates 3 are vertically moved by the limiting rods 5 at the inner sliding positions of the cylinders 4, and when the bearing plates 3 move, the buffer springs 9 buffer impact force applied by the bearing plates 3, so that damage to inner components due to excessive impact force of the controller body 1 can be prevented, shock absorption of the controller body 1 can be achieved, the shock absorption effect of the device can be improved, and the micro damper 10 can prevent the buffer springs 9 from constantly pushing the bearing plates 3 to shake at the rocking positions

Referring to fig. 1 and 5, a threaded sleeve 13 is installed on the inner wall of the locator 12, a threaded rod 14 is installed on the inner wall of the threaded sleeve 13 in a penetrating mode, a disc 15 is installed at one end of the threaded rod 14, a locating rod 16 is installed at the other end of the threaded rod 14, after a wire is connected with the connector 11, the threaded rod 14 is driven to rotate inside the threaded sleeve 13 by rotating the disc 15, the threaded rod 14 is made to move, the locating rod 16 is driven to move when the threaded rod 14 moves, after one end of the locating rod 16 moves to the outer wall of the connecting wire, the position of the wire is located, the wire can be prevented from accidentally loosening and falling, and the purpose of locating the position of the wire is achieved.

Referring to fig. 2, 6 and 7, two sets of rotating wheels 20 are installed on the inner wall of the heat sink 19, a conveyor belt 21 is installed around the outer wall of each rotating wheel 20, a connecting block 23 is fixedly installed on the outer wall of each conveyor belt 21, a sliding rod 22 is installed on the inner wall of the heat sink 19, the sliding rod 22 is located below the rotating wheels 20, a frame 24 is installed at the bottom of the connecting block 23, one end of the sliding rod 22 penetrates through the inside of the frame 24, a fan 25 is installed on the inner wall of the frame 24, a micro motor 27 is installed on the inner wall of the heat sink 19, the output end of the micro motor 27 extends to the bottom of one set of rotating wheels 20, when the controller body 1 is over-high in temperature for a long time, the fan 25 is operated to generate wind power, the wind power blows to the outer wall of the control element 26 to dissipate heat, the output end of the micro motor 27 rotates to drive the rotating wheels 20 to move the conveyor belt 21, when the conveyor belt 21 moves, when the connecting block 23 moves, the frame 24 moves at the outer wall of the sliding rod 22, when the frame 24 moves, the fan 25 moves, the wind power generated by the fan can drive different positions inside of the controller body 1 to achieve the purpose of preventing heat from being accumulated in the heat dissipation, and prolonging the heat dissipation efficiency of the heat dissipation device.

Referring to fig. 8, a sealing door 29 is installed on an inner wall of the storage box 28, a support frame 30 is installed on the inner wall of the storage box 28, the support frame 30 is located on one side of the sealing door 29, a plurality of winding shafts 31 are installed on the inner wall of the support frame 30, a buckle 32 is installed on an outer wall of each winding shaft 31, a micro motor 33 is installed at the top and the bottom of the support frame 30, an output end of the micro motor 33 is fixedly connected with one end of each winding shaft 31, when a connected wire is stored, the position of the sealing door 29 is moved so that the inside of the storage box 28 is no longer in a sealing state, one end of the wire is fixed outside the winding shaft 31 through the buckle 32, after one end of the wire is fixed, the output end of the micro motor 33 rotates to drive the winding shaft 31 to rotate inside the support frame 30, and the winding shaft 31 winds the wire when rotating, so as to achieve the purpose of storing the wire, and prevent the wire from scattering.

The working steps of the electric permanent magnetic chuck controller are as follows:

s1, after a controller body 1 is placed on a desktop, the position of a shock absorption plate strip 7 is positioned through a positioning sucker 8, the shock absorption plate strip 7 is fixed on the desktop, the position of the controller body 1 is positioned through a bearing plate 3 after the shock absorption plate strip 7 is fixed, when the controller body 1 moves due to vibration, a limiting rod 5 slides in a cylinder 4 to enable the bearing plate 3 to move vertically, when the bearing plate 3 moves, impact force applied to the bearing plate 3 by a buffer spring 9 is buffered, damage to internal components due to overlarge impact force of the controller body 1 can be prevented, the purpose of shock absorption of the controller body 1 is achieved, the shock resistance effect of equipment can be improved, and the miniature damper 10 can prevent the buffer spring 9 from constantly pushing the bearing plate 3 to shake;

s2, after the position of the controller body 1 is placed, a lead is connected with the connector 11, after the lead is connected with the connector 11, the rotary disc 15 drives the threaded rod 14 to rotate inside the threaded sleeve 13, the threaded sleeve 13 enables the threaded rod 14 to move, the threaded rod 14 drives the positioning rod 16 to move when moving, one end of the positioning rod 16 moves to the outer wall of the connecting lead, the position of the lead is positioned, the lead can be prevented from accidentally loosening and falling, and the purpose of positioning the position of the lead is achieved;

s3, when the interior of the controller body 1 is cooled, the cooling fan 18 works to enable air in the controller body 1 to flow to the outside through the ventilation groove 17, the interior of the controller body 1 is cooled, when the temperature in the controller body 1 is too high for a long time, the fan 25 works to generate wind power, the wind power blows the outer wall of the control element 26 to cool, meanwhile, the output end of the micro motor 27 rotates to drive the rotating wheel 20 to rotate, the rotating wheel 20 rotates to drive the conveying belt 21 to move, the conveying belt 21 moves when moving, the connecting block 23 moves, the connecting block 23 drives the frame 24 to horizontally slide on the outer wall of the sliding rod 22 when moving, the fan 25 moves when moving, the wind power generated by the fan 25 can dissipate heat of different positions in the controller body 1, heat accumulation in the controller body 1 can be prevented, the purpose of improving the cooling efficiency is achieved, and the service life of the equipment can be prolonged;

s4, when the controller body 1 is not used and connected wires are stored, the position of the sealing door 29 is moved, the inside of the storage box 28 is no longer in a sealing state, one end of each wire is fixed to the outside of the winding shaft 31 through the buckle 32, one end of each wire is fixed, the output end of the micro motor 33 rotates to drive the winding shaft 31 to rotate inside the support frame 30, the wires are wound when the winding shaft 31 rotates, the purpose of storing the wires is achieved, and the wires can be prevented from scattering.

In step S1, the method further includes the steps of:

s11, after the impact force applied to the controller body 1 is counteracted by the buffer spring 9, the miniature damper 10 resets to push the bearing plate 3 to reset, and further the position of the controller body 1 is reset;

in step S2, the method further includes the steps of:

s21, when the lead and the connector 11 need to be separated, the threaded rod 14 is rotated reversely to enable one end of the positioning rod 16 to be not in contact with the lead any more, the position of the lead is not positioned any more, and the lead and the connector 11 can be separated;

in step S4, the method further includes the steps of:

s41, when the lead needs to be taken out, the output end of the micro motor 33 rotates reversely to drive the winding shaft 31 to rotate, and the wound lead can be separated when the winding shaft 31 rotates reversely.

The working principle is that after the controller body 1 is placed on a desktop, the position of the shock absorption lath 7 is positioned through the positioning sucker 8, so that the shock absorption lath 7 is fixed on the desktop, the position of the controller body 1 is positioned through the bearing plate 3 after the shock absorption lath 7 is fixed, when the controller body 1 is vibrated and moved, the bearing plate 3 is vertically moved through the sliding position of the limiting rod 5 in the cylinder 4, when the bearing plate 3 is moved, the impact force applied to the bearing plate 3 by the buffer spring 9 can be buffered, the damage to internal components and parts due to the overlarge impact force of the controller body 1 can be prevented, the shock absorption of the controller body 1 can be realized, the shock absorption effect of the equipment can be improved, the miniature damper 10 can prevent the buffer spring 9 from continuously pushing the bearing plate 3 to shake the position, after the controller body 1 is placed, a lead is connected with the connector 11, after the lead is connected with the connector 11, the rotating disc 15 drives the threaded rod 14 to rotate in the threaded sleeve 13, the threaded sleeve 13 enables the threaded rod 14 to move, the threaded rod 14 drives the positioning rod 16 to move when moving, one end of the positioning rod 16 moves to the outer wall of the connecting lead and then positions the lead, the lead can be prevented from accidentally loosening and falling, and the purpose of positioning the lead position is achieved, when the inside of the controller body 1 is cooled, the cooling fan 18 works to enable the air in the controller body 1 to flow to the outside through the ventilation groove 17, the inside of the controller body 1 is cooled, when the temperature of the inside of the controller body 1 is overhigh for a long time, the fan 25 works to generate wind force, the wind force blows to the outer wall of the control element 26 to cool, and meanwhile, the output end of the micro motor 27 rotates to drive the rotating wheel 20 to rotate, make conveyer belt 21 shift position when runner 20 rotates, drive connecting block 23 when conveyer belt 21 shift position and remove, drive frame 24 at the outer wall horizontal sliding position of slide bar 22 when connecting block 23 removes, drive fan 25 shift position when frame 24 removes, can make the wind-force that fan 25 produced dispel the heat to the inside different positions of controller body 1, can prevent that the inside heat of controller body 1 from piling up, reach the purpose that improves radiating efficiency, can prolong the life of equipment, when accomodating the wire of connecting, the position of removal sealing door 29 makes the inside of containing box 28 no longer be the encapsulated situation, fix the outside at rolling axle 31 through buckle 32 with the one end of wire, after fixing the one end of wire, make the output rotation of micro motor 33 drive rolling axle 31 rotate at the inside of support frame 30, rolling axle 31 rotates the wire, reach the purpose of accomodating the wire, can prevent that the wire from scattering.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an effectual electric permanent magnetism sucking disc controller of antidetonation, includes controller body (1), shock attenuation lath (7), locator (12), radiator (19) and containing box (28), its characterized in that: the front surface of the controller body (1) is provided with a display screen (2), the bottom of the controller body (1) is provided with a bearing plate (3), and the inner wall of the bearing plate (3) is provided with a plurality of groups of cylinders (4);

the damping device is characterized in that a plurality of groups of connecting plates (6) are mounted on the outer walls of two sides of each damping batten (7), limiting rods (5) are mounted at the tops of the connecting plates (6), the top ends of the limiting rods (5) extend into the cylinders (4), miniature dampers (10) are mounted on the inner walls of the damping battens (7), the top ends of the miniature dampers (10) extend to the bottom of the bearing plate (3), a plurality of groups of buffer springs (9) are mounted at the tops of the damping battens (7), and the top ends of the buffer springs (9) are fixedly connected with the bottom of the bearing plate (3);

multiunit location sucking disc (8) are installed to the bottom of shock attenuation lath (7), locator (12) are installed in the front of controller body (1), radiator (19) are installed at the inner wall top of controller body (1), containing box (28) are installed to the inner wall of controller body (1).

2. The electromagnetic permanent magnetic chuck controller according to claim 1, characterized in that: the front surface of the controller body (1) is provided with a connector (11).

3. The electric permanent magnet chuck controller with good anti-seismic effect according to claim 1, characterized in that: threaded sleeve (13) are installed to the inner wall of locator (12), and threaded rod (14) are installed in the inner wall through-going of threaded sleeve (13), and disc (15) are installed to the one end of threaded rod (14), and locating lever (16) are installed to the other end of threaded rod (14).

4. The electric permanent magnet chuck controller with good anti-seismic effect according to claim 1, characterized in that: the outer wall of the two sides of the controller body (1) is provided with ventilation grooves (17), and the inner wall of the controller body (1) is provided with two groups of cooling fans (18).

5. The electric permanent magnet chuck controller according to any one of claims 1 to 4, wherein: six groups of connecting plates (6) are arranged on two sides of the damping batten (7) in total, the connecting plates (6) are symmetrically arranged, the connectors (11) are long cylindrical, two groups of connecting plates are symmetrically arranged, one end of the positioning rod (16) is arc-shaped, and the cooling fan (18) is located on one side of the ventilation groove (17).

6. The electromagnetic permanent magnetic chuck controller according to claim 1, characterized in that: two sets of runners (20) are installed to the inner wall of radiator (19), and the outer wall of runner (20) encircles installs conveyer belt (21), and the outer wall fixed mounting of conveyer belt (21) has connecting block (23), and slide bar (22) are installed to the inner wall of radiator (19), and slide bar (22) are located the below of runner (20), and frame (24) are installed to the bottom of connecting block (23), and the one end of slide bar (22) runs through the inside of frame (24), and fan (25) are installed to the inner wall of frame (24).

7. The electromagnetic permanent magnetic chuck controller according to claim 1, characterized in that: the inner wall of the radiator (19) is provided with a micro motor (27), and the output end of the micro motor (27) extends to the bottom of one group of rotating wheels (20).

8. The electromagnetic permanent magnetic chuck controller according to claim 1, characterized in that: the bottom of the inner wall of the controller body (1) is provided with a control element (26), and the control element (26) is positioned below the radiator (19).

9. The electric permanent magnet chuck controller with good anti-seismic effect according to claim 1, characterized in that: sealing door (29) are installed to the inner wall of containing box (28), and support frame (30) are located one side of sealing door (29), and multiunit rolling axle (31) are installed to the inner wall of support frame (30), and buckle (32) are installed to the outer wall of rolling axle (31), and micro motor (33) are all installed to the top and the bottom of support frame (30), and the output of micro motor (33) and the one end fixed connection of rolling axle (31).

10. The method for using an electrically permanent magnetic chuck controller with good anti-seismic effect according to any one of claims 1 to 9, wherein the electrically permanent magnetic chuck controller is operated by the following steps:

s1, after a controller body (1) is placed on a desktop, the position of a shock absorption batten (7) is positioned through a positioning sucker (8), the shock absorption batten (7) is fixed on the desktop, the position of the controller body (1) is positioned through a bearing plate (3) after the shock absorption batten (7) is fixed, when the controller body (1) is vibrated and moved, a limiting rod (5) slides in the cylinder (4) to enable the bearing plate (3) to move vertically, and when the bearing plate (3) moves, impact force applied by the bearing plate (3) is buffered through a buffer spring (9), so that damage to internal components due to overlarge impact force of the controller body (1) can be prevented, the aim of damping the controller body (1) is fulfilled, the anti-seismic effect of equipment can be improved, and the buffer spring (10) can prevent the buffer spring (9) from continuously pushing the bearing plate (3) to shake;

s2, after the position of the controller body (1) is placed, a lead is connected with the connector (11), after the lead is connected with the connector (11), the rotary disc (15) drives the threaded rod (14) to rotate inside the threaded sleeve (13), the threaded sleeve (13) enables the threaded rod (14) to move, the threaded rod (14) drives the positioning rod (16) to move when moving, after one end of the positioning rod (16) moves to the outer wall of the connecting lead, the position of the lead is positioned, the lead can be prevented from being loosened and falling accidentally, and the purpose of positioning the position of the lead is achieved;

s3, when the interior of the controller body (1) is cooled, the cooling fan (18) works to enable air in the controller body (1) to flow to the outside through the ventilation groove (17), the interior of the controller body (1) is cooled, when the temperature of the interior of the controller body (1) is too high for a long time, the fan (25) works to generate wind power, the wind power blows to the outer wall of the control element (26) to cool, meanwhile, the output end of the micro motor (27) rotates to drive the rotating wheel (20) to rotate, the rotating wheel (20) rotates to drive the conveying belt (21) to move, the conveying belt (21) moves when moving, the connecting block (23) moves to drive the frame (24) to horizontally slide on the outer wall of the sliding rod (22) when moving, the frame (24) moves to drive the fan (25) to move, the wind power generated by the fan (25) can be used for cooling different positions in the interior of the controller body (1), the heat accumulation in the controller body (1) can be prevented, the purpose of improving the cooling efficiency and prolonging the service life of the equipment;

s4, when not using controller body (1), when accomodating the wire of connecting, move the position of sealing door (29), make the inside of containing box (28) no longer be encapsulated situation, pass through buckle (32) with the one end of wire and fix the outside at rolling axle (31), after fixing the one end of wire, make the output rotation of micro motor (33) drive rolling axle (31) and rotate in the inside of support frame (30), roll up axle (31) and carry out the rolling to the wire when rotating, reach the purpose of accomodating the wire, can prevent that the wire from scattering.

11. The method of claim 10, wherein in step S1, the method further comprises the following steps:

s11, after the impact force applied to the controller body (1) is counteracted by the buffer spring (9), the miniature damper (10) resets to push the bearing plate (3) to reset, and then the position of the controller body (1) resets;

in step S2, the method further includes the steps of:

s21, when the lead and the connector (11) need to be separated, the threaded rod (14) is rotated reversely to enable one end of the positioning rod (16) to be not in contact with the lead, the position of the lead is not positioned any more, and the lead and the connector (11) can be separated;

in step S4, the method further includes the steps of:

s41, when the wires need to be taken out, the output end of the micro motor (33) rotates reversely to drive the winding shaft (31) to rotate, and the wound wires can be separated when the winding shaft (31) rotates reversely.