CN118060587A - Drilling device and drilling method for flywheel production convenient for feeding - Google Patents

Abstract

The invention discloses a drilling device and a drilling method for flywheel production, which are convenient for feeding, and relates to the technical field of flywheel drilling devices. According to the invention, by installing the gear, the clamping head and the control module, the effect of more stably preventing falling when the flywheel feeding box is stopped is realized, when the meshing pressure of the gear and the toothed bar reaches a set value when the toothed bar moves and contacts with the feeding box, the control module controls the first motor to stop, at the moment, the control module controls the hydraulic rod to move, the feeding box is driven to move by the movement of the hydraulic rod, the infrared sensor controls the first motor to reversely rotate after the feeding box moves to a proper position by the control module, the clamping head is clamped into the bayonet to stably fix the feeding box, and the function of more stably preventing falling when the flywheel feeding box is stopped is realized.

Description

Drilling device and drilling method for flywheel production convenient for feeding

Technical Field

The invention relates to the technical field of flywheel drilling devices, in particular to a drilling device and a drilling method for flywheel production, which are convenient for feeding.

Background

The flywheel is a mechanical device for storing rotational kinetic energy in rotational motion, when a power source acts on a rotating shaft with a variable moment or is applied to intermittent load, the flywheel can reduce fluctuation of the rotating speed, the working principle of the electric drill is that a motor rotor of an electromagnetic rotary or electromagnetic reciprocating small-capacity motor does magnetic field cutting work operation, a working device is driven by a transmission mechanism to drive a gear to increase the power of a drill bit, so that the drill bit scrapes a better hole penetrating object on the surface of an object, a drilling device for flywheel production is an important device for flywheel production, but the existing drilling device for flywheel production is unstable and has the danger of falling when a flywheel feeding box stops.

The existing drilling device for flywheel production has the following defects:

1. Patent document US06176324B1 discloses a drilling device, "the drilling unit being rotated by a hydraulic motor associated with a drive device so that a supporting force of the drilling unit on the ground can be generated, the various actuating members passing from at least one hydraulic pump through a set of hydraulic distributors and a set of pipes (e.g. hoses), the two feed pipes of the advancing device of the drilling system being equipped with a switch for reversing the direction of fluid circulation in the advancing device. Mounted on one branch of the feed circuit of the hydraulic motor for driving the tool in rotation is a fluid measuring device which constantly provides information to the compensating device to subtract the calculated pressure difference measured between the same two points of the circuit at both sides of the motor, the result of this operation actuating the switch to reverse the direction of circulation of the advancing fluid if the value exceeds a given value, but existing flywheel production drilling devices are unstable with the risk of dropping when the flywheel loading cartridge is stopped;

2. Patent document US07909114B2 discloses a drilling device, "comprising an end cutting tool, a main housing, a motor, a transmission and a dust collecting unit. The end cutting tool processes the workpiece. The motor is disposed in the main housing to generate torque. The transmission transmits torque to rotate the end cutting tool. The dust collection device collects dust generated by the rotation of the end cutting tool. The dust collection unit includes a dust box for accumulating dust therein. The dust-proof housing is detachable from the main housing and has an inlet and an outlet. The inlet and the outlet are oriented in a single direction, but the flywheel of the existing drilling device for flywheel production cannot be compressed in the feeding process, is easy to slide out, and has low safety;

3. Patent document JP2009057784a discloses a boring device and a method of boring in a borehole, "it eliminates the treatment of the remaining soil to reduce costs and ensures concrete adhesion to the borehole wall, and provides a method of boring in a cast-in-place pile. The solution is as follows: the drilling device a has: the drive shaft 1 has a front end 1a and a rear end 1b on the same axis 1c, and has a first eccentric portion 1d and a second eccentric portion 1e arranged at intermediate positions, a rotor head 2 non-rotatably supported by the front end 1a, a plurality of tapered rotors 3 rotatably supported by the rotor head 2, a first rotor 4 rotatably arranged on the first eccentric portion 1d, and a second eccentric rotor 5 rotatably arranged on the second eccentric portion 1 e. The first eccentric portion 1d and the second eccentric portion 1e have the same size e, but they are eccentric at mutually different positions. The conical rotors 3 are arranged such that their axes 3d intersect each other at a position O on the extension of the axis 1c, and the distance from the core 1c becomes larger at a position closer to the rotor than the intersection position O, and furthermore, the first rotor 4 and the second rotor 5 are each formed with a screw groove 7″ at the peripheral surface thereof, but the existing flywheel production drilling apparatus cannot buffer the flywheel when it is put into the loading mechanism, which is liable to cause the damage of the loading box;

4. Patent document CN216028190U discloses a drilling device for flywheel production, "including rack, drill bit arm and workstation, the cabinet head is installed at the rack top, is the operation district between cabinet head and the rack, openly installs the access door on the rack, and the drill bit arm is installed on the cabinet head of operation district position, and the position of leaning on left and right sides in the cabinet head is fixed with the fixing base by the bolt respectively, has preset spacing spout on the fixing base. The utility model provides a drilling device for flywheel production, which is ingenious in structural arrangement and reasonable in arrangement, a flywheel is placed on an operation table during drilling, then a ball motor drives a drill bit arm to transversely move, a screw motor works to drive the drill bit arm to vertically move, and a two-dimensional coordinate system is formed from one transverse position to one vertical position, so that the drill bit arm can freely move to find a drilling point, the operation table is kept motionless, chips generated by drilling are accumulated at the operation table and the operation area, the drilling device is simply and conveniently cleaned, the chips are not easy to enter the machine to cause influence, and the use is safer and more reliable, but the flywheel of the existing drilling device for flywheel production needs to consume a great deal of manual labor when being taken out for processing.

Disclosure of Invention

The invention aims to provide a drilling device and a drilling method for flywheel production, which are convenient for feeding, so as to solve the technical problems of lack of a stabilizing function, lack of a compacting function, lack of a buffering structure and lack of a sliding structure in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: drilling device is used in flywheel production convenient to material loading, its characterized in that: the flywheel machining device comprises a shell, a moving table and a machining drill bit, wherein the moving table is arranged on the inner wall of the shell and used for moving during flywheel machining, the machining drill bit is arranged on the inner wall of the shell, a drilling hole is formed in the machining drill bit and used for flywheel production, a hydraulic rod is arranged on the inner wall of the shell, a feeding box is arranged at the output end of the hydraulic rod, the front face and the side face of the feeding box are open, a stabilizing component is arranged on the outer wall of the feeding box and used for stabilizing the flywheel;

The stabilizing component comprises a control module and a first sliding rod arranged on the inner wall of the shell, the control module is used for controlling the stabilizing component to work, a bayonet is formed in the outer wall of the first sliding rod, a second sliding rod is arranged on the outer wall of the feeding box, a first sliding sleeve is arranged on the outer wall of the second sliding rod, a clamping head is arranged on the outer wall of the first sliding sleeve, a toothed bar is arranged on the outer wall of the clamping head, the control module is arranged on the outer wall of each tooth of the toothed bar, one end of the clamping head extends to the inside of the bayonet, a first supporting rod is arranged on the outer wall of the feeding box, a first motor is arranged on the outer wall of the first supporting rod, a gear is arranged at the output end of the first motor and meshed with the toothed bar, the gear is in contact with a pressure sensor during rotation, a fifth sliding sleeve is arranged on the outer wall of the first sliding rod, and the outer wall of the fifth sliding sleeve is connected with the outer wall of the feeding box.

Preferably, the control module comprises a pressure sensor, a processor and an infrared sensor, wherein the pressure sensor is used for limiting the moving distance of the stabilizing component, the infrared sensor is used for detecting the moving distance of the feeding box, the processor is used for processing signals of the control module, the processor is installed in the shell and is connected with the control module through a wire, the control module is connected with the first motor through a wire, the infrared sensor is connected with the control module through a wire, the infrared sensor is located on one side of the hydraulic rod, and the hydraulic rod is connected with the control module through a control wire.

Preferably, the inner wall of material loading box is provided with compresses tightly the subassembly, compresses tightly the subassembly and is used for compressing tightly of flywheel, and the inner wall of material loading box is provided with buffer assembly, and buffer assembly is used for the protection when the flywheel was placed, and first gate is installed to the outer wall of shell, and first gate is used for making things convenient for taking of flywheel, and the second gate is installed to the outer wall of shell, and the second gate is used for making things convenient for the material loading of flywheel.

Preferably, the compacting component comprises a first supporting box arranged on the inner wall of the feeding box, the inner wall of the first supporting box is provided with a second motor, the output end of the second motor is provided with a threaded rod, the outer wall of the threaded rod is provided with a threaded sleeve, the bottom of the first supporting box is provided with a first sleeve in a penetrating mode, the inner wall of the first sleeve is provided with a second supporting rod in a penetrating mode, one end of the second supporting rod is connected with the outer wall of the threaded sleeve, one end of the second supporting rod is provided with a pressing plate, the bottom of the pressing plate is provided with a friction block in a penetrating mode, the inner wall of the pressing plate is provided with a pressure sensor, the top of the friction block is provided with a top block, the top of the friction block is provided with a first spring, one end of the first spring is connected with the inner wall of the pressing plate, and the top block is located below the pressure sensor.

Preferably, the buffer assembly is including installing the second branch box at the magazine inner wall, first extension board is installed to the inner wall of second branch box, the damping piece is installed to the outer wall of first extension board, the second extension board is installed to the outer wall of damping piece, the outer wall of second branch box runs through and installs the second sleeve, fourth branch is installed in the penetration of the telescopic inner wall of second, and the one end and the outer wall connection of second extension board of fourth branch, the fifth spring is installed to the outer wall of second branch board, and the one end and the second branch box inner wall connection of fifth spring, the blotter is installed to the one end of fourth branch, the outer wall of blotter is equipped with the opening, the opening is used for increasing the cushioning effect of blotter, the inner wall of material loading box is provided with rolling element, rolling element is used for making things convenient for the flywheel to pull out the material loading box.

Preferably, the inner wall of material loading box is provided with rolling element, and rolling element is used for making things convenient for the flywheel to pull out the material loading box, and the controller is installed to the outer wall of shell, and the controller is used for controlling flywheel production with drilling equipment's state, and the warning light is installed at the top of shell, and the warning light is used for flywheel production with drilling equipment to send out the police dispatch newspaper.

Preferably, the rolling assembly comprises a supporting plate arranged on the inner wall of the feeding box, an arc clamping groove is formed in the top of the supporting plate, a ball is installed on the inner wall of the arc clamping groove in a penetrating mode, a collecting box is installed on the inner wall of the supporting plate, a baffle is installed on the inner wall of the collecting box, a space separated by the baffle is a storage chamber, an oil pump is installed on the outer wall of the baffle, a first pipeline is installed at the output end of the oil pump, one end of the first pipeline extends to the inside of the arc clamping groove, a second pipeline is installed on the outer wall of the arc clamping groove in a penetrating mode, one end of the second pipeline extends to the inside of the storage chamber, a third pipeline is installed on the top of the storage chamber in a penetrating mode, one end of the third pipeline extends to the top of the supporting plate, and a pipe cover is installed at one end of the third pipeline.

Preferably, the working steps of the drilling device are as follows:

The method comprises the steps that S1, a control module is connected with a processor through a wire, the control module controls a first motor to rotate so as to drive a gear to rotate, the gear rotates so as to drive a toothed bar to move, the toothed bar moves so as to drive a chuck to move, the chuck moves so as to drive a first sliding sleeve to move, when the meshing pressure of the gear and the toothed bar reaches a set value when the toothed bar moves to be in contact with a feeding box, the control module controls the first motor to stop, at the moment, the control module controls a hydraulic rod to move, the hydraulic rod moves so as to drive the feeding box to move, and after the feeding box moves to a proper position, an infrared sensor controls the first motor to reversely rotate, so that the chuck is clamped into the bayonet to enable the feeding box to be stably fixed, and the function of more stably preventing dropping when the flywheel feeding box stops is realized;

S2, a second motor rotates to drive a threaded rod to rotate after the flywheel is placed in a feeding box, the threaded rod rotates to drive a threaded sleeve to move, the threaded sleeve moves to drive a second supporting rod to move, the second supporting rod moves to drive a pressing plate to move, the pressing plate moves to drive a friction block to move, the friction block moves to be in contact with the flywheel to drive a first spring to move, the first spring moves to drive a top block to move, the top block moves to be in contact with a pressure sensor, the pressure sensor senses pressure to stop the second motor, the flywheel is pressed by the friction block, and the function of preventing slipping out and improving safety in the process of feeding the flywheel is realized;

step S3, the second sleeve is used for providing movable support for the fourth supporting rod, the first supporting plate is used for providing support for the damping block, the damping block is contacted with the buffer cushion to enable the damping block to move when the flywheel is put into the feeding box and pushed inwards, the buffer cushion moves to drive the fourth supporting rod to move, the fourth supporting rod moves to drive the second supporting plate to move, the second supporting plate moves to drive the fifth spring to move, the fifth spring moves to enable the second supporting plate to drive the damping block to move, the impact force generated when the damping block moves to enable the flywheel to be placed is buffered to prevent the feeding box from being damaged, and the function of buffering the flywheel to prevent the feeding box from being damaged when the flywheel is put into the feeding mechanism is achieved;

Step S4, the flywheel is pulled out to drive the ball to rotate so as to facilitate the pulling out of the flywheel, the oil pump is started to suck out the lubricating oil in the storage chamber, the lubricating oil is discharged into the arc-shaped clamping groove through the first pipeline, friction loss is reduced by lubrication in the rolling process of the movable ball, redundant oil flows back into the storage chamber through the second pipeline, the pipe cover is opened to add the lubricating oil into the storage chamber through the third pipeline so as to facilitate the adding of the lubricating oil, and the functions of saving labor when the flywheel is pulled out and processed are realized.

Preferably, the step S1 further includes the steps of:

S11, supporting a first motor through a first supporting rod, and providing movable support through a second sliding rod by a first sliding sleeve;

The step S2 further includes the steps of:

And S21, carrying out movable support on the second support rod through the first sleeve, wherein the friction block is movably connected with the pressing plate.

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

1. The invention realizes the effect of more stably preventing falling when the flywheel feeding box is stopped by installing the gear, the clamping head and the control module, the control module is connected with the processor through the lead, the control module controls the first motor to rotate to drive the gear to rotate, the gear rotates to drive the toothed bar to move, the toothed bar moves to drive the clamping head to move, the clamping head moves to drive the first sliding sleeve to move, the first sliding sleeve moves to enable the clamping head to move out of the clamping opening, when the meshing pressure between the gear and the toothed bar reaches a set value when the toothed bar moves to be contacted with the feeding box, the control module controls the first motor to stop, at the moment, the control module controls the hydraulic bar to move, the hydraulic bar moves to drive the feeding box to move, and the infrared sensor controls the first motor to reversely rotate after the feeding box moves to a proper position, so that the clamping head is clamped into the clamping opening to enable the feeding box to be stably fixed, and the function of more stably preventing falling when the flywheel feeding box is stopped is realized;

2. According to the invention, the threaded sleeve, the pressing plate and the friction block are arranged, so that the effect of preventing slip out and improving safety is realized when the flywheel is pressed in the feeding process, the flywheel is placed in the feeding box, the second motor rotates to drive the threaded rod to rotate, the threaded rod rotates to drive the threaded sleeve to move, the threaded sleeve moves to drive the second support rod to move, the second support rod moves to drive the pressing plate to move, the pressing plate moves to drive the friction block to move, the friction block moves to contact with the flywheel to drive the first spring to move, the first spring moves to drive the friction block to move, the top block moves to contact with the pressure sensor, the pressure sensor senses pressure to stop the second motor, and the flywheel is pressed by the friction block, so that the function of preventing slip out and improving safety when the flywheel is pressed in the feeding process is realized;

3. The invention realizes the effect of buffering the flywheel to prevent the damage of the feeding box when the flywheel is put into the feeding mechanism by installing the buffer cushion, the damping block and the fifth spring, the second sleeve is used for providing a movable support for the fourth supporting rod, the first supporting plate is used for providing a support for the damping block, the damping block is contacted with the buffer cushion to move when the flywheel is put into the feeding box and pushed inwards, the buffer cushion moves to drive the fourth supporting rod to move, the fourth supporting rod moves to drive the second supporting plate to move, the second supporting plate moves to drive the fifth spring to move, the fifth spring moves to drive the second supporting plate to drive the damping block to move, the impact force of the flywheel when the damping block is moved to buffer the flywheel to prevent the damage of the feeding box, and the function of buffering the flywheel to prevent the damage of the feeding box when the flywheel is put into the feeding mechanism is realized;

4. According to the invention, the balls, the oil pump and the first pipeline are arranged, so that the effect of saving manual labor when the flywheel is taken out for processing is achieved, the balls are driven to rotate by the flywheel to facilitate the pulling out of the flywheel by pulling out, the oil pump is started to suck out lubricating oil in the storage chamber, the lubricating oil is discharged into the arc-shaped clamping groove through the first pipeline, friction loss is reduced by lubrication in the rolling process of the moving balls, the redundant oil flows back to the storage chamber through the second pipeline, the pipe cover is opened to add the lubricating oil into the storage chamber through the third pipeline to facilitate the adding of the lubricating oil, and the function of saving manual labor when the flywheel is taken out for processing is achieved.

Drawings

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

FIG. 2 is a right side schematic view of the present invention;

FIG. 3 is a schematic view of a chuck according to the present invention;

FIG. 4 is a control module workflow diagram of the present invention;

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

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

FIG. 7 is an enlarged partial schematic view of the feed box of the present invention;

FIG. 8 is a schematic flow chart of the present invention;

Fig. 9 is a schematic diagram of the structure a in fig. 7 according to the present invention.

In the figure: 1. a housing; 2. a first gate; 3. a second gate; 4. an alarm lamp; 5. a controller; 6. machining a drill bit; 7. a mobile station; 8. a processor; 9. a hydraulic rod; 10. a feeding box; 11. a fifth sliding sleeve; 12. a first slide bar; 13. a bayonet; 14. a second slide bar; 15. a first sliding sleeve; 16. a chuck; 17. a toothed bar; 19. a first strut; 20. a first motor; 21. a gear; 22. a first branch box; 23. a second motor; 24. a threaded rod; 25. a thread sleeve; 26. a first sleeve; 27. a second strut; 28. a pressing plate; 30. a top block; 31. a friction block; 32. a first spring; 33. a second branch box; 34. a first support plate; 35. a damping block; 36. a second sleeve; 37. a fourth strut; 38. a cushion pad; 39. an opening; 40. a second support plate; 41. a fifth spring; 42. a support plate; 43. an arc-shaped clamping groove; 44. a ball; 45. a collection box; 46. a baffle; 47. an oil pump; 48. a first pipe; 49. a second pipe; 50. a third conduit; 51. and a tube cover.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, 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 should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1: referring to fig. 1,2, 3 and 4, an embodiment of the present invention is provided: the drilling device for flywheel production convenient for feeding comprises a shell 1, a movable table 7 and a processing drill bit 6, wherein the shell 1 is used for protecting the drilling device for flywheel production, the movable table 7 is arranged on the inner wall of the shell 1, the movable table 7 is used for moving and fixing during flywheel processing, the processing drill bit 6 is arranged on the inner wall of the shell 1, a drilling hole for flywheel production is formed in the processing drill bit 6, a hydraulic rod 9 is arranged on the inner wall of the shell 1, a feeding box 10 is arranged at the output end of the hydraulic rod 9, the front face and the side face of the feeding box 10 are open, a stabilizing component is arranged on the outer wall of the feeding box 10 and used for stabilizing the feeding of a flywheel, a compacting component is arranged on the inner wall of the feeding box 10, the device comprises a pressing component, a buffering component, a first machine door 2, a second machine door 3, a controller 5 and an alarm lamp 4, wherein the pressing component is used for pressing a flywheel, the buffering component is arranged on the inner wall of a feeding box 10, the buffering component is used for protecting the flywheel when the flywheel is placed, the first machine door 2 is arranged on the outer wall of a shell 1, the first machine door 2 is used for facilitating taking of the flywheel, the second machine door 3 is arranged on the outer wall of the shell 1, the second machine door 3 is used for facilitating feeding of the flywheel, the rolling component is arranged on the inner wall of the feeding box 10 and is used for facilitating pulling out the feeding box 10, the controller 5 is arranged on the outer wall of the shell 1, the controller 5 is used for controlling the state of a drilling device for flywheel production, the alarm lamp 4 is arranged on the top of the shell 1, and the alarm lamp 4 is used for giving an alarm by the drilling device for flywheel production;

The stabilizing assembly comprises a control module, the control module is used for controlling the stabilizing assembly to work, the control module comprises a pressure sensor, a processor 8 and an infrared sensor, the pressure sensor is used for limiting the moving distance of the stabilizing assembly, the infrared sensor is used for detecting the moving distance of the feeding box 10, the processor 8 is used for processing signals of the control module, the processor 8 is installed inside the shell 1, the stabilizing assembly further comprises a first sliding rod 12 installed on the inner wall of the shell 1, a bayonet 13 formed on the outer wall of the first sliding rod 12, a second sliding rod 14 is installed on the outer wall of the feeding box 10, a first sliding sleeve 15 is installed on the outer wall of the second sliding rod 14, a clamping head 16 is installed on the outer wall of the first sliding sleeve 15, a toothed bar 17 is installed on the outer wall of each tooth of the toothed bar 17, one end of the clamping head 16 extends to the inside of the bayonet 13, a first supporting rod 19 is installed on the outer wall of the feeding box 10, a first motor 20 is installed on the outer wall of the first supporting rod 19, a gear 21 is installed on the output end of the first motor 20, and the gear 21 is meshed with the toothed bar 17;

The gear 21 contacts with the pressure sensor when rotating, the fifth sliding sleeve 11 is installed on the outer wall of the first sliding rod 12, the outer wall of the fifth sliding sleeve 11 is connected with the outer wall of the feeding box 10, the control module is connected with the processor 8 through a lead, the control module controls the first motor 20 to rotate to drive the gear 21 to rotate, the gear 21 rotates to drive the toothed bar 17 to move, the toothed bar 17 moves to drive the clamping head 16 to move, the clamping head 16 moves to drive the first sliding sleeve 15 to move, the clamping head 16 moves to enable the clamping head 16 to move out of the bayonet 13, when the meshing pressure of the gear 21 and the toothed bar 17 reaches a set value when the toothed bar 17 moves to contact with the feeding box 10, the control module controls the first motor 20 to stop, at the moment, the control module controls the hydraulic rod 9 to move to drive the feeding box 10 to move, the infrared sensor controls the first motor 20 to rotate reversely after the feeding box 10 moves to a proper position, the clamping head 16 is clamped into the bayonet 13 to enable the feeding box 10 to be stable and fixed, the function of preventing dropping is more stable when the feeding box 10 is achieved, and the feeding stability of the flywheel is improved.

Example 2: referring to fig. 2 and 5, an embodiment of the present invention is provided: the utility model provides a flywheel production is with drilling equipment convenient to material loading, hold-down assembly includes the first branch box 22 of installing at the inner wall of feed box 10, the second motor 23 is installed to the inner wall of first branch box 22, threaded rod 24 is installed to the output of second motor 23, threaded rod 24's outer wall is installed the screw sleeve 25, the bottom of first branch box 22 is run through and is installed first sleeve 26, the inner wall of first sleeve 26 is run through and is installed second branch 27, and the one end of second branch 27 is connected with the outer wall of screw sleeve 25, clamp plate 28 is installed to the one end of second branch 27, the bottom of clamp plate 28 is run through and is installed friction block 31, pressure sensor is installed to the inner wall of clamp plate 28, kicking block 30 is installed at the top of friction block 31, and first spring 32 is installed at the top of friction block 31, and one end of first spring 32 is connected with the inner wall of clamp plate 28, kicking block 30 is located the below pressure sensor;

The flywheel is placed at the back of last magazine 10 second motor 23 rotates and drives threaded rod 24 rotation, threaded rod 24 rotates and drives thread bush 25 to remove, thread bush 25 removes and drives second branch 27 to remove, second branch 27 removes and drives clamp plate 28 and remove, clamp plate 28 removes and drives friction disc 31 and remove, friction disc 31 removes and drives first spring 32 and remove with the flywheel contact, first spring 32 removes and makes friction disc 31 drive kicking block 30 remove, kicking block 30 removes and contacts with pressure sensor, pressure sensor makes second motor 23 stop after feeling pressure, compress tightly the flywheel by friction disc 31, further improve flywheel material loading's stability.

Example 3: referring to fig. 2 and 6, an embodiment of the present invention is provided: the utility model provides a flywheel production is with drilling equipment convenient to material loading, buffer assembly includes the second branch box 33 of installing at the inner wall of magazine 10, first extension board 34 is installed to the inner wall of second branch box 33, damping piece 35 is installed to the outer wall of first extension board 34, second extension board 40 is installed to the outer wall of damping piece 35, second sleeve 36 is installed in the outer wall of second branch box 33 in the penetration of, fourth branch 37 is installed in the inner wall of second sleeve 36 in the penetration of, and the one end of fourth branch 37 is connected with the outer wall of second extension board 40, fifth spring 41 is installed to the outer wall of second branch board 40, and the one end of fifth spring 41 is connected with the inner wall of second branch box 33, blotter 38 is installed to the one end of fourth branch 37, the outer wall of blotter 38 is equipped with opening 39, opening 39 is used for increasing the cushioning effect of blotter 38;

The second sleeve 36 is used for providing movable support for the fourth supporting rod 37, the first supporting plate 34 is used for providing support for the damping block 35, the damping block is contacted with the buffer cushion 38 to enable the damping block to move when the flywheel is put into the feeding box 10 and pushed inwards, the buffer cushion 38 moves to drive the fourth supporting rod 37 to move, the fourth supporting rod 37 moves to drive the second supporting plate 40 to move, the second supporting plate 40 moves to drive the fifth spring 41 to move, the fifth spring 41 moves to drive the second supporting plate 40 to drive the damping block 35 to move, the impact force generated when the damping block 35 moves to enable the flywheel to be placed is buffered to prevent the feeding box 10 from being damaged, the function of buffering the flywheel to prevent the feeding box 10 from being damaged when the flywheel is put into the feeding mechanism is achieved, and the safety of flywheel feeding is further improved.

Example 4: referring to fig. 2,7 and 9, an embodiment of the present invention provides: the utility model provides a drilling equipment is used in flywheel production convenient to material loading, rolling assembly includes the backup pad 42 of installing at the inner wall of magazine 10, the top of backup pad 42 is equipped with arc draw-in groove 43, the ball 44 is installed in the inner wall penetration of arc draw-in groove 43, collecting box 45 is installed to the inner wall of backup pad 42, baffle 46 is installed to the inner wall of collecting box 45, baffle 46 spaced apart's space is the storage chamber, oil pump 47 is installed to the outer wall of baffle 46, first pipeline 48 is installed to the output of oil pump 47, and the one end of first pipeline 48 extends to the inside of arc draw-in groove 43, the outer wall penetration of arc draw-in groove 43 is installed second pipeline 49, and the one end of second pipeline 49 extends to the inside of storage chamber, the top penetration of storage chamber is installed third pipeline 50, and the one end of third pipeline 50 extends to the top of backup pad 42, the tube cap 51 is installed to one end of third pipeline 50;

the flywheel pulls out and makes the drive ball 44 rotate and makes things convenient for pulling out of flywheel, and oil pump 47 starts and makes the lubrication oil suction in the storage chamber, and inside the arc draw-in groove 43 was arranged in to pipeline 48, lubricated in the rolling in-process of moving ball 44 reduces friction loss, and its unnecessary fluid flows back to the storage chamber inside through pipeline 49, opens tube cap 51 and adds the lubrication oil to the storage chamber through pipeline 50 and makes things convenient for the interpolation of lubrication oil, has realized making the flywheel laborsaving pull out when taking out the processing save manual labor's function, further reduces the manual labor of flywheel material loading.

Example 5: referring to fig. 2,6 and 7, an embodiment of the present invention is provided: the utility model provides a drilling equipment is used in flywheel production convenient to material loading, buffer module includes the second branch box 33 of installing at the inner wall of last magazine 10, first extension board 34 is installed to the inner wall of second branch box 33, damping piece 35 is installed to the outer wall of first extension board 34, second extension board 40 is installed to the outer wall of damping piece 35, the outer wall of second branch box 33 runs through and installs second sleeve 36, fourth branch 37 is installed in the inner wall of second sleeve 36 runs through, and the one end of fourth branch 37 is connected with the outer wall of second extension board 40, fifth spring 41 is installed to the outer wall of second branch board 40, and the one end of fifth spring 41 is connected with the inner wall of second branch box 33, cushion 38 is installed to the one end of fourth branch 37, the outer wall of cushion 38 is equipped with opening 39, opening 39 is used for increasing the cushioning effect of cushion 38, the inner wall of last magazine 10 is provided with the rolling subassembly, the rolling subassembly is used for making things convenient for the flywheel to pull out last magazine 10, the rolling subassembly includes the backup pad 42 of installing at the inner wall of last magazine 10, the top of backup pad 42 is equipped with arc draw-in groove 43, the inner wall of arc draw-in groove 43 runs through 44 is installed in the inner wall of arc-shaped draw-out groove 43;

Further, when the flywheel is taken out and processed, the balls 44 are driven to rotate so that the balls 44 are taken out in a labor-saving manner, when the flywheel is put into the feeding box 10, the bottoms of the balls 44 are contacted, at the moment, the flywheel is pushed so that the balls 44 are driven to rotate so as to push the flywheel into the feeding box 10 in a labor-saving manner, the flywheel is pushed into the feeding box 10 and then is contacted with the buffer cushion 38, the impact force of the flywheel drives the buffer cushion 38 to move, the buffer cushion 38 moves so as to drive the fourth support rod 37 to move, the fourth support rod 37 moves so as to drive the second support plate 40 to move, the second support plate 40 moves so as to drive the fifth spring 41 to move, and the fifth spring 41 moves so that the second support plate 40 presses the damping block 35 to move, and the impact force of the flywheel is absorbed so as to avoid the damage to the surface of the flywheel caused by the excessive impact force.

The working steps of the drilling device are as follows:

Step S1, a control module is connected with a processor 8 through a wire, the control module controls a first motor 20 to rotate so as to drive a gear 21 to rotate, the gear 21 rotates so as to drive a toothed bar 17 to move, the toothed bar 17 moves so as to drive a chuck 16 to move, the chuck 16 moves so as to drive a first sliding sleeve 15 to move, the first sliding sleeve 15 moves so as to enable the chuck 16 to move out of a bayonet 13, when the meshing pressure of the gear 21 and the toothed bar 17 reaches a set value when the toothed bar 17 moves to be in contact with a feeding box 10, the control module controls a hydraulic rod 9 to move at the moment, the hydraulic rod 9 moves so as to drive the feeding box 10 to move, and after the feeding box 10 moves to a proper position, an infrared sensor controls the first motor 20 to reversely rotate so as to clamp the chuck 16 into the bayonet 13 to enable the feeding box 10 to be stably fixed, and a function of more stably preventing dropping when a flywheel is stopped is realized;

Step S2, the flywheel is placed in the feeding box 10, the second motor 23 rotates to drive the threaded rod 24 to rotate, the threaded rod 24 rotates to drive the threaded sleeve 25 to move, the threaded sleeve 25 moves to drive the second supporting rod 27 to move, the second supporting rod 27 moves to drive the pressing plate 28 to move, the pressing plate 28 moves to drive the friction block 31 to move, the friction block 31 moves to be in contact with the flywheel to drive the first spring 32 to move, the first spring 32 moves to enable the friction block 31 to drive the jacking block 30 to move, the jacking block 30 moves to be in contact with the pressure sensor, the pressure sensor senses pressure to enable the second motor 23 to stop, and the friction block 31 compresses the flywheel, so that the function of preventing the flywheel from sliding out and improving safety in the feeding process is realized;

step S3, the second sleeve 36 is used for providing a moving support for the fourth supporting rod 37, the first supporting plate 34 is used for providing a support for the damping block 35, the damping block 38 contacts with the cushion pad 38 to move when the flywheel is put into the feeding box 10 and pushes the flywheel inwards, the cushion pad 38 moves to drive the fourth supporting rod 37 to move, the fourth supporting rod 37 moves to drive the second supporting plate 40 to move, the second supporting plate 40 moves to drive the fifth spring 41 to move, the fifth spring 41 moves to drive the second supporting plate 40 to drive the damping block 35 to move, the impact force generated when the damping block 35 moves to enable the flywheel to be placed is buffered to prevent the feeding box 10 from being damaged, and the function of buffering the flywheel to prevent the feeding box 10 from being damaged when the flywheel is put into the feeding mechanism is realized;

Step S4, the flywheel is pulled out to drive the ball 44 to rotate so as to facilitate the pulling out of the flywheel, the oil pump 47 is started to suck out the lubricating oil in the storage chamber, the lubricating oil is discharged into the arc-shaped clamping groove 43 through the first pipeline 48, friction loss is reduced by lubrication in the rolling process of the movable ball 44, redundant oil flows back into the storage chamber through the second pipeline 49, the pipe cover 51 is opened to add the lubricating oil into the storage chamber through the third pipeline 50 so as to facilitate the adding of the lubricating oil, and the functions of saving labor when the flywheel is pulled out and saving manual labor are realized.

The step S1 further includes the steps of:

step S11, a first motor 20 is supported through a first supporting rod 19, and a first sliding sleeve 15 provides moving support through a second sliding rod 14;

the step S2 further includes the steps of:

in step S21, the second supporting rod 27 is movably supported by the first sleeve 26, and the friction block 31 is movably connected with the pressing plate 28.

The working principle is that the control module is connected with the processor 8 through a wire, the control module controls the first motor 20 to rotate to drive the gear 21 to rotate, the gear 21 rotates to drive the toothed bar 17 to move, the toothed bar 17 moves to drive the chuck 16 to move, the chuck 16 moves to drive the first sliding sleeve 15 to move, the first sliding sleeve 15 moves to enable the chuck 16 to move out of the bayonet 13, when the meshing pressure between the gear 21 and the toothed bar 17 reaches a set value when the toothed bar 17 moves to be in contact with the feeding box 10, the control module controls the first motor 20 to stop, at the moment, the control module controls the hydraulic bar 9 to move, the hydraulic bar 9 moves to drive the feeding box 10 to move, the infrared sensor controls the first motor 20 to reversely rotate after the feeding box 10 moves to a proper position through the control module, the chuck 16 is clamped into the bayonet 13 to enable the feeding box 10 to be stably fixed, a functional flywheel which is more stably prevented from falling is placed after the feeding box 10 is stopped, the second motor 23 rotates to drive the threaded rod 24 to rotate, the threaded rod 24 rotates to drive the threaded sleeve 25 to move, the threaded sleeve 25 moves to drive the second supporting rod 27 to move, the second supporting rod 27 moves to drive the pressing plate 28 to move, the pressing plate 28 moves to drive the friction block 31 to move, the friction block 31 moves to contact with the flywheel to drive the first spring 32 to move, the first spring 32 moves to drive the friction block 31 to drive the top block 30 to move, the top block 30 moves to contact with the pressure sensor, the pressure sensor senses pressure to stop the second motor 23, the flywheel is pressed by the friction block 31, the function of the second sleeve 36 for preventing the flywheel from sliding out in the feeding process is realized to provide a moving support for the fourth supporting rod 37, the function of the first supporting plate 34 is to provide a support for the damping block 35, the flywheel contacts with the buffer cushion 38 to move when the flywheel is put into the feeding box 10 to push inwards, the buffer pad 38 moves to drive the fourth supporting rod 37 to move, the fourth supporting rod 37 moves to drive the second supporting plate 40 to move, the second supporting plate 40 moves to drive the fifth spring 41 to move, the fifth spring 41 moves to enable the second supporting plate 40 to drive the damping block 35 to move, impact force generated when the damping block 35 moves to enable the flywheel to be placed is buffered to prevent the feeding box 10 from being damaged, the function that the flywheel is buffered to prevent the damage of the feeding box 10 when the flywheel is placed in the feeding mechanism is achieved, the ball 44 is driven to rotate to facilitate the pulling out of the flywheel, the oil pump 47 is started to enable lubricating oil in the storage chamber to be sucked out, the lubricating oil is discharged into the arc-shaped clamping groove 43 through the first pipeline 48, the lubricating oil is lubricated in the rolling process of the ball 44 to reduce friction loss, redundant oil flows back into the storage chamber through the second pipeline 49, the pipe cover 51 is opened to enable the lubricating oil to be added into the storage chamber through the third pipeline 50 to facilitate the adding of the lubricating oil, and the labor-saving function that the flywheel is pulled out to save manual labor when the flywheel is taken out to be processed is achieved.

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 characteristics 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 (9)

1. Drilling device is used in flywheel production convenient to material loading, its characterized in that: the flywheel machining device comprises a shell (1), a moving table (7) and a machining drill bit (6), wherein the moving table (7) is arranged on the inner wall of the shell (1), the moving table (7) is used for moving during flywheel machining, the machining drill bit (6) is arranged on the inner wall of the shell (1), a drilling hole is formed in the machining drill bit (6) and used for flywheel production, a hydraulic rod (9) is arranged on the inner wall of the shell (1), a feeding box (10) is arranged at the output end of the hydraulic rod (9), the front face and the side face of the feeding box (10) are open, and a stabilizing component is arranged on the outer wall of the feeding box (10) and used for flywheel stabilizing feeding;

The utility model provides a stabilizing component includes control module and installs first slide bar (12) at shell (1) inner wall, control module is used for controlling stabilizing component's work, bayonet socket (13) are seted up to first slide bar (12) outer wall, second slide bar (14) are installed to the outer wall of material loading box (10), first sliding sleeve (15) are installed to the outer wall of second slide bar (14), chuck (16) are installed to the outer wall of first sliding sleeve (15), rack bar (17) are installed to the outer wall of chuck (16), control module is located the outer wall of each tooth of rack bar (17), the one end of chuck (16) extends to the inside of bayonet socket (13), first branch (19) are installed to the outer wall of material loading box (10), first motor (20) are installed to the outer wall of first branch (19), gear (21) are installed to the output of first motor (20), and gear (21) and rack bar (17) meshing, gear (21) contact with pressure sensor when rotating, fifth sliding sleeve (11) are installed to the outer wall of first sliding sleeve (12), and the connection of material loading box (10).

2. The flywheel production drilling device convenient to feed according to claim 1, wherein: the control module comprises a pressure sensor, a processor (8) and an infrared sensor, wherein the pressure sensor is used for limiting the moving distance of the stabilizing component, the infrared sensor is used for detecting the moving distance of the feeding box (10), the processor (8) is used for processing signals of the control module, the processor (8) is installed inside the shell (1), the processor (8) is connected with the control module through a wire, the control module is connected with the first motor (20) through a wire, the infrared sensor is connected with the control module through a wire, the infrared sensor is located on one side of the hydraulic rod (9), and the hydraulic rod (9) is connected with the control module through a control wire.

3. The flywheel production drilling device convenient to feed according to claim 1, wherein: the inner wall of material loading box (10) is provided with the hold-down subassembly, and the hold-down subassembly is used for compressing tightly of flywheel, and the inner wall of material loading box (10) is provided with buffer assembly, and buffer assembly is used for the protection when the flywheel was placed, and first gate (2) are installed to the outer wall of shell (1), and first gate (2) are used for making things convenient for taking of flywheel, and second gate (3) are installed to the outer wall of shell (1), and second gate (3) are used for making things convenient for the material loading of flywheel.

4. A flywheel production drilling device convenient to material loading according to claim 3, characterized in that: the utility model provides a compression assembly is including installing first branch box (22) at magazine (10) inner wall, second motor (23) are installed to the inner wall of first branch box (22), threaded rod (24) are installed to the output of second motor (23), screw sleeve (25) are installed to the outer wall of threaded rod (24), first sleeve (26) are installed in the bottom of first branch box (22) run through, second branch (27) are installed in the inner wall run through of first sleeve (26), and the one end and the outer wall connection of screw sleeve (25) of second branch (27), clamp plate (28) are installed to the one end of second branch (27), friction block (31) are installed in the bottom run through of clamp plate (28), pressure sensor is installed to the inner wall of clamp plate (28), kicking block (30) are installed at the top of friction block (31), and first spring (32) are installed at the top of first spring (32) one end and the inner wall connection of clamp plate (28), kicking block (30) are located pressure sensor's below.

5. A flywheel production drilling device convenient to material loading according to claim 3, characterized in that: the buffer assembly comprises a second supporting box (33) arranged on the inner wall of the feeding box (10), a first supporting plate (34) is arranged on the inner wall of the second supporting box (33), a damping block (35) is arranged on the outer wall of the first supporting plate (34), a second supporting plate (40) is arranged on the outer wall of the damping block (35), a second sleeve (36) is arranged on the outer wall of the second supporting box (33) in a penetrating mode, a fourth supporting rod (37) is arranged on the inner wall of the second sleeve (36) in a penetrating mode, one end of the fourth supporting rod (37) is connected with the outer wall of the second supporting plate (40), a fifth spring (41) is arranged on the outer wall of the second supporting plate (40), one end of the fifth spring (41) is connected with the inner wall of the second supporting box (33), a buffer pad (38) is arranged on one end of the fourth supporting rod (37), an opening (39) is formed in the outer wall of the buffer pad (38), the opening (39) is used for enlarging the buffer effect of the buffer pad (38), and the inner wall of the feeding box (10) is provided with a rolling assembly which is used for conveniently pulling out the feeding box (10).

6. The flywheel production drilling device convenient to feed according to claim 1, wherein: the controller (5) is installed to the outer wall of shell (1), and controller (5) are used for controlling flywheel production and use drilling equipment's state, and warning light (4) are installed at the top of shell (1), and warning light (4) are used for flywheel production and use drilling equipment to send out the police dispatch newspaper.

7. The drilling device for flywheel production convenient to feed according to claim 5, wherein: the rolling assembly comprises a supporting plate (42) arranged on the inner wall of the feeding box (10), an arc clamping groove (43) is formed in the top of the supporting plate (42), a ball (44) is installed in the inner wall of the arc clamping groove (43) in a penetrating mode, a collecting box (45) is installed on the inner wall of the supporting plate (42), a baffle (46) is installed on the inner wall of the collecting box (45), a space separated by the baffle (46) is a storage chamber, an oil pump (47) is installed on the outer wall of the baffle (46), a first pipeline (48) is installed at the output end of the oil pump (47), one end of the first pipeline (48) extends to the inside of the arc clamping groove (43), a second pipeline (49) is installed at the outer wall of the arc clamping groove (43) in a penetrating mode, one end of the second pipeline (49) extends to the inside of the storage chamber, a third pipeline (50) is installed at the top of the storage chamber in a penetrating mode, one end of the third pipeline (50) extends to the top of the supporting plate (42), and a pipe cover (51) is installed at one end of the third pipeline (50).

8. The method of using a drilling device for flywheel production for facilitating feeding according to any one of claims 1 to 7, wherein the working steps of the drilling device are as follows:

The method comprises the steps that S1, a control module is connected with a processor (8) through a wire, the control module controls a first motor (20) to rotate to drive a gear (21) to rotate, the gear (21) rotates to drive a toothed bar (17) to move, the toothed bar (17) moves to drive a clamping head (16) to move, the clamping head (16) moves to drive a first sliding sleeve (15) to move, the first sliding sleeve (15) moves to enable the clamping head (16) to move out of a bayonet (13), when the meshing pressure between the gear (21) and the toothed bar (17) reaches a set value when the toothed bar (17) moves to be in contact with a feeding box (10), the control module controls the first motor (20) to stop, at the moment, the control module controls a hydraulic bar (9) to move, the hydraulic bar (9) moves to drive the feeding box (10) to move, and after the feeding box (10) moves to a proper position, an infrared sensor controls the first motor (20) to reversely rotate to clamp the clamping head (16) into the bayonet (13) to enable the feeding box (10) to be stable and fixed, and the function of preventing the flywheel from falling when the feeding box (10) stops is enabled to be more stable.

S2, a second motor (23) rotates to drive a threaded rod (24) to rotate after a feeding box (10) is arranged on the flywheel, the threaded rod (24) rotates to drive a threaded sleeve (25) to move, the threaded sleeve (25) moves to drive a second supporting rod (27) to move, the second supporting rod (27) moves to drive a pressing plate (28) to move, the pressing plate (28) moves to drive a friction block (31) to move, the friction block (31) moves to contact with the flywheel to drive a first spring (32) to move, the first spring (32) moves to drive the friction block (31) to drive a top block (30) to move, the top block (30) moves to contact with a pressure sensor, the pressure sensor senses pressure to stop the second motor (23), and the flywheel is pressed by the friction block (31), so that the function of preventing the flywheel from sliding out in the feeding process is realized;

Step S3, the second sleeve (36) is used for providing a moving support for the fourth supporting rod (37), the first supporting plate (34) is used for providing a support for the damping block (35), the damping block is contacted with the buffer pad (38) to move when the flywheel is put into the feeding box (10) and pushed inwards, the buffer pad (38) moves to drive the fourth supporting rod (37) to move, the fourth supporting rod (37) moves to drive the second supporting plate (40) to move, the second supporting plate (40) moves to drive the fifth spring (41) to move, the fifth spring (41) moves to drive the second supporting plate (40) to drive the damping block (35) to move, the impact force generated when the damping block (35) moves to buffer the flywheel to prevent the feeding box (10) from being damaged, and the function of buffering the flywheel to prevent the feeding box (10) from being damaged when the flywheel is put into the feeding mechanism is realized;

Step S4, the flywheel pulls out to enable the driving ball (44) to rotate so as to facilitate the pulling out of the flywheel, the oil pump (47) starts to enable lubricating oil in the storage chamber to be sucked out, the lubricating oil is discharged into the arc-shaped clamping groove (43) through the first pipeline (48), friction loss is reduced by lubrication in the rolling process of the moving ball (44), redundant oil flows back into the storage chamber through the second pipeline (49), the pipe cover (51) is opened to enable the lubricating oil to be added into the storage chamber through the third pipeline (50) so as to facilitate the adding of the lubricating oil, and the functions of saving labor and labor when the flywheel is pulled out for processing are achieved.

9. The method of using a drilling device for flywheel production with easy loading according to claim 8, wherein the step S1 further comprises the following steps:

s11, supporting a first motor (20) through a first supporting rod (19), and providing moving support for a first sliding sleeve (15) through a second sliding rod (14);

The step S2 further includes the steps of:

and S21, carrying out movable support on the second support rod (27) through the first sleeve (26), wherein the friction block (31) is movably connected with the pressing plate (28).