CN111716555A - Drilling equipment for mica sheet production and using method thereof - Google Patents

Abstract

The invention discloses drilling equipment for mica sheet production, which comprises a box body, wherein a mounting seat is arranged on the box body, the mounting seat is fan-shaped, a material flow groove is formed in the mounting seat, a first baffle and a second baffle are respectively arranged on the inner walls of two opposite sides of the material flow groove, the radius of the first baffle is larger than that of the second baffle, a first supporting column is arranged on the mounting seat, the upper side of the first supporting column is fixedly connected with a first mounting plate, a first hydraulic cylinder is arranged on the first mounting plate, a piston rod of the first hydraulic cylinder is vertically arranged downwards, and a drilling machine is fixed on the piston rod of the first hydraulic cylinder. According to the drilling equipment for producing the mica sheets, the contact area of the cooling liquid in the water-cooling plate and air can be increased, the heat dissipation effect is improved, the service life of the drilling machine is prolonged, the relevant work of die replacement can be performed through the reciprocating operation between the second hydraulic cylinder and the third hydraulic cylinder, a large amount of manpower and material resources are saved, and the safety of operators is improved.

Description

Drilling equipment for mica sheet production and using method thereof

Technical Field

The invention belongs to the technical field of mica sheet production, and particularly relates to drilling equipment for mica sheet production and a using method thereof.

Background

Mica is a general name of minerals in the mica group, and is aluminosilicate of metals such as potassium, aluminum, magnesium, iron, lithium, etc., all of which have a layered structure and are monoclinic system. The crystal is in a pseudo-hexagonal sheet shape or a plate shape and is occasionally columnar. The lamellar cleavage is very complete, with a glass luster and the flakes are elastic. The refractive index of mica increases with increasing iron content, and may range from low to medium positive elevations. The iron-free variety is colorless in the flake, and darker in color with increased pleochroic and absorptive properties at higher iron content.

The mica mineral mainly comprises biotite, phlogopite, muscovite, lepidolite, sericite, biotite, lepidolite and the like, and the placer is a mixed mineral of mica and quartz. The most widely used in industry are muscovite and phlogopite, lepidolite is an important mineral raw material for lithium extraction, and the mica group minerals are divided into three subfamilies according to chemical composition and optical characteristics, including the muscovite subfamily, the biotite-phlogopite subfamily and the lepidolite subfamily, and the mica minerals are widely present in asia, africa and america, but are rarely found in europe, and until the 19 th century, the value of mica is very high in europe, and the price rapidly drops as the breeders mine mica in africa and south america.

At present, when the mica sheet is drilled, a drilling machine or manual drilling is often adopted, the yield of the drilling machine is low, the production efficiency of the manual drilling is low, and the mica sheet drilling machine is only suitable for parts of workpieces with higher requirements.

And generally all cut apart into circular slice and use when using, but current drilling equipment is when driling, often the motor can be because frequent rotation produces a large amount of heats, causes permanent damage to drill bit and rig, and because the particularity of mica material when carrying out the operation in different diameter holes, often need use different moulds, and in actual production, the manual work is changed the mould and need be closed the rig and change again, wastes time and energy.

Disclosure of Invention

The invention aims to provide drilling equipment for mica sheet production and a using method thereof, and mainly solves the problems that when the existing drilling equipment is used for drilling, a motor usually generates a large amount of heat due to frequent rotation to permanently damage a drill bit and a drilling machine, and different dies are usually needed to be used when the drilling equipment is used for drilling holes with different diameters due to the particularity of a mica material, and in the actual production, the drilling machine needs to be closed and replaced after the dies are manually replaced, so that time and labor are wasted.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a drilling equipment for mica sheet production, the power distribution box comprises a box body, be equipped with the mount pad on the box, the mount pad is fan-shaped, be equipped with the material flow groove on the mount pad, be equipped with first baffle and second baffle on the relative both sides inner wall in material flow groove respectively, the radius of first baffle is greater than the radius of second baffle, be equipped with first support column on the mount pad, the first mounting panel of upside fixedly connected with of first support column, install first pneumatic cylinder on first mounting panel, the vertical downward setting of piston rod of first pneumatic cylinder, be fixed with the rig on the piston rod of first pneumatic cylinder, install the drill bit on the rig.

Furthermore, a second supporting column is fixed on the mounting seat, a second mounting plate is arranged on the second supporting column, a water cooling bar is arranged on the second mounting plate, a heat absorbing plate is fixedly connected to one side of the second mounting plate, and the heat absorbing plate is matched and connected with the water cooling bar.

Further, be equipped with the die hole in the material flow inslot, run through mount pad and box setting at the die hole, be equipped with four relative second pneumatic cylinders that set up in the box, every second pneumatic cylinder all drives and is connected with corresponding conical plate, be equipped with the third mounting panel of two relative settings in the box, all be equipped with the through-hole on every third mounting panel, sliding connection has the mould to place the board in the through-hole, be equipped with the third pneumatic cylinder in the box, third pneumatic cylinder control connection mould places the board, it is equipped with a set of mounting hole on the board to place at the mould, set up at a distance of 10cm between every two adjacent mounting holes, all be equipped with corresponding mould in every mounting hole, all be equipped with the spacing groove on every mould, be equipped with the spacing ring in the mounting hole, the spacing ring sets up with the spacing groove cooperation, the mould.

Furthermore, a positioning groove is formed in the first baffle, two opposite swing motors are arranged in the positioning groove, the two swing motors are respectively connected with the first cam and the second cam in a driving mode, a stepping motor is embedded in the first cam, the first cam is connected with a driving wheel in a matching mode, the stepping motor is connected with the driving wheel in a driving mode, and a driven wheel is arranged on the second cam.

Furthermore, the heat absorbing plate comprises a red copper plate, a heat insulating layer is sleeved outside the red copper plate, a group of sliding rails are arranged on the red copper plate, corresponding sliding grooves are formed in the drilling machine, each sliding rail is arranged in the corresponding sliding groove, the sliding rails are made of red copper, a heat absorbing channel is arranged in the red copper plate, and the heat absorbing channel is arranged in a snake shape.

Further, the water-cooling row includes the water-cooling board, install the heating panel on the water-cooling board, install a set of cooling fan on the heating panel, be equipped with a set of ventilative hole on the water-cooling board, all be equipped with the cooling spiral pipe in every ventilative hole, practical heat-conducting glue is fixed between cooling spiral pipe and the ventilative hole, be equipped with a plurality of water-cooling passageways in the water-cooling board, the water-cooling passageway is used for connecting two corresponding cooling spiral pipes, be equipped with the exchange water pump on one side of the water-cooling board, the exchange water pump is used for carrying on the exchange of coolant liquid between absorber plate and the water-cooling row.

Furthermore, be equipped with driving motor on the mount pad, driving motor control is connected with the axis of rotation, all is equipped with the pulley at the both ends of second baffle, has cup jointed corresponding drive belt on axis of rotation and pulley, and a set of ground connection foot is installed to the box downside, installs operating panel in box one side, and it has the chamber door to articulate in one side of box.

The invention also provides a use method of the drilling equipment for producing the mica sheets, and the drilling equipment comprises the following specific operation steps:

the method comprises the following steps: placing the disc-shaped mica sheet at one end corresponding to the second baffle, and turning on a driving motor to control the rotating shaft to rotate, so that the driving belt runs, the driving belt is in contact with the disc-shaped mica sheet, and the driving belt controls the disc-shaped mica sheet to rotate towards the square movement of the drilling machine;

step two: when the disc-shaped mica sheets reach the position right below the drilling machine, the driving belt stops rotating, the two swing motors respectively drive and connect the first cam and the second cam to rotate, the disc-shaped mica sheets are clamped between the first cam and the second cam, and the stepping motor on the first cam moves when the disc-shaped mica sheets are clamped, so that the driving wheel rotates, and the disc-shaped mica sheets are clamped and a limiting effect is achieved;

step three: the first hydraulic cylinder controls the drilling machine to move downwards, the drill bit is used for completing drilling operation on the mica sheet, after drilling is finished, the two swing motors are respectively connected with the first cam and the second cam in a driving mode to rotate, the first cam and the second cam are located at positions to be located in the positioning grooves, when the drilling is finished, the water pump is exchanged to operate, exchange of liquid in the heat absorption channel and liquid in the water cooling channel is completed, and then cooling of the drilling machine is completed.

The invention has the beneficial effects that:

1. the cooling of the drilling machine can be completed through the arranged water cooling row and the heat absorption plate, firstly, heat accumulated by long-time work of the drilling machine can enter the heat absorption plate, then, the cooling liquid stored in the heat absorption channel on the heat absorption plate is introduced into the water cooling channel, the water cooling channel is connected with a cooling spiral pipe, the cooling spiral pipe is arranged in the ventilation hole, and when a cooling fan operates, the contact area of the cooling liquid in the water cooling plate and air can be increased, the heat dissipation effect is increased, and the service life of the drilling machine is prolonged;

2. place board and corresponding second pneumatic cylinder and third pneumatic cylinder through the mould that sets up in the box, can accomplish the function of automatic more smooth mould, the mould is generally changed according to the diameter that will punch, when changing, the control third pneumatic cylinder places the required mould of board with the mould and removes the position in mould hole, stretching through the second pneumatic cylinder, jack up the mould through the taper plate, only through the reciprocal function between second pneumatic cylinder and the third pneumatic cylinder, alright in order to carry out the relevant work that the mould was changed, a large amount of manpower and materials have been saved, operator's security has been promoted.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the drilling equipment for producing mica sheets.

FIG. 2 is a schematic diagram of the position relationship between the first baffle and the second baffle of the drilling device for mica sheet production according to the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 2 of a drilling device for mica sheet production according to the present invention.

Fig. 4 is a partial view of a front view of a drilling apparatus for mica sheet production of the present invention.

FIG. 5 is a schematic view of the connection relationship between the drilling machine and the heat absorbing plate of the drilling equipment for mica sheet production.

FIG. 6 is a schematic diagram of the basic structure of a water cooling row of the drilling equipment for mica sheet production according to the present invention.

FIG. 7 is a schematic view of the connection relationship between the heat absorbing plate and the water cooling row of the drilling equipment for mica sheet production.

Fig. 8 is a basic structure diagram of the mold placing plate of the drilling equipment for mica sheet production in the box body.

Fig. 9 is a bottom view of fig. 8 of a drilling apparatus for mica sheet production of the present invention.

FIG. 10 is a schematic diagram of the position relationship between the limiting groove and the limiting ring of the drilling equipment for mica sheet production.

In the figure, 1, a box body; 2. a mounting seat; 3. a material flow channel; 4. a first baffle plate; 5. a second baffle; 6. a first support column; 7. a first mounting plate; 8. a first hydraulic cylinder; 9. a drilling machine; 10. a drill bit; 11. a second support column; 12. a second mounting plate; 13. water cooling and draining; 131. a water-cooling plate; 132. a heat dissipation plate; 133. a cooling fan; 134. a ventilation hole; 135. a water-cooling channel; 136. exchanging a water pump; 137. cooling the spiral pipe; 14. a heat absorbing plate; 141. a red copper plate; 142. a slide rail; 143. a chute; 144. a heat absorption channel; 145. a thermal insulation layer; 15. a die hole; 16. a second hydraulic cylinder; 17. a tapered plate; 18. a third mounting plate; 19. a through hole; 20. a mold placing plate; 21. mounting holes; 22. a mold; 23. a limiting groove; 24. a limiting ring; 25. positioning a groove; 26. a swing motor; 27. a first cam; 28. a second cam; 29. a drive wheel; 30. a driven wheel; 31. a stepping motor; 32. a rotating shaft; 33. a pulley; 34. a drive belt; 35. a drive motor; 36. a third hydraulic cylinder; 37. a ground pin; 38. an operation panel; 39. and (4) a box door.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-10, a drilling device for mica sheet production, which comprises a box body 1, wherein a mounting seat 2 is arranged on the box body 1, the mounting seat 2 is fan-shaped, a material flow groove 3 is arranged on the mounting seat 2, a first baffle 4 and a second baffle 5 are respectively arranged on the inner walls of two opposite sides of the material flow groove 3, the radius of the first baffle 4 is larger than that of the second baffle 5, a first supporting column 6 is arranged on the mounting seat 2, a first mounting plate 7 is fixedly connected to the upper side of the first supporting column 6, a first hydraulic cylinder 8 is arranged on the first mounting plate 7, the piston rod of the first hydraulic cylinder 8 is vertically arranged downwards, a drilling machine 9 is fixed on the piston rod of the first hydraulic cylinder 8, and a drill bit 10 is arranged on the drilling machine 9.

A second supporting column 11 is fixed on the mounting base 2, a second mounting plate 12 is arranged on the second supporting column 11, a water cooling bar 13 is arranged on the second mounting plate 12, a heat absorbing plate 14 is fixedly connected to one side of the second mounting plate 12, and the heat absorbing plate 14 is connected with the water cooling bar 13 in a matched mode.

A die hole 15 is arranged in the material flowing groove 3, the die hole 15 penetrates through the mounting seat 2 and the box body 1, four oppositely arranged second hydraulic cylinders 16 are arranged in the box body 1, each second hydraulic cylinder 16 is in driving connection with a corresponding conical plate 17, two oppositely arranged third mounting plates 18 are arranged in the box body 1, each third mounting plate 18 is provided with a through hole 19, a die placing plate 20 is connected in the through hole 19 in a sliding way, a third hydraulic cylinder 36 is arranged in the box body 1, the third hydraulic cylinder 36 is connected with the die placing plate 20 in a control way, a group of mounting holes 21 are arranged on the die placing plate 20, every two adjacent mounting holes 21 are arranged at a distance of 10cm, a corresponding die 22 is arranged in each mounting hole 21, a limiting groove 23 is arranged on each die 22, a limiting ring 24 is arranged in the mounting hole 21, the limiting ring 24 is matched with the limiting groove 23, and the lower side of the die 22 is an arc surface.

Be equipped with constant head tank 25 on the first baffle 4, be equipped with two relative swing motor 26 that set up in the constant head tank 25, first cam 27 and second cam 28 are connected in the drive respectively to two swing motor 26, and it has step motor 31 to inlay on first cam 27, is connected with drive wheel 29 at first cam 27 cooperation, and step motor 31 drive connection drive wheel 29 is equipped with on the second cam 28 from driving wheel 30.

The heat absorbing plate 14 comprises a copper plate 141, a heat insulating layer 145 is sleeved outside the copper plate 141, a group of sliding rails 142 are arranged on the copper plate 141, corresponding sliding grooves 143 are formed in the drilling machine 9, each sliding rail 142 is arranged in the corresponding sliding groove 143, the sliding rails 142 are made of red copper, a heat absorbing channel 144 is arranged in the copper plate 141, and the heat absorbing channel 144 is arranged in a snake shape.

The water cooling row 13 comprises a water cooling plate 131, a heat dissipation plate 132 is installed on the water cooling plate 131, a set of cooling fans 133 are installed on the heat dissipation plate 132, a set of ventilation holes 134 are formed in the water cooling plate 131, a cooling spiral pipe 137 is arranged in each ventilation hole 134, the cooling spiral pipe 137 and the ventilation holes 134 are fixed through practical heat-conducting glue, a plurality of water cooling channels 135 are arranged in the water cooling plate 131, the water cooling channels 135 are used for connecting the two corresponding cooling spiral pipes 137, an exchange water pump 136 is arranged on one side of the water cooling plate 131, and the exchange water pump 136 is used for exchanging cooling liquid between the heat absorption plate 14 and the water cooling row 13.

Be equipped with driving motor 35 on the mount pad 2, driving motor 35 control connection has axis of rotation 32, all is equipped with pulley 33 at the both ends of second baffle 5, has cup jointed corresponding driving belt 34 on axis of rotation 32 and pulley 33, and a set of ground connection foot 37 is installed to box 1 downside, installs operating panel 38 in box 1 one side, and it has chamber door 39 to articulate in one side of box 1.

A use method of drilling equipment for mica sheet production comprises the following specific operation steps:

the method comprises the following steps: placing the disc-shaped mica sheet at the corresponding end of the second baffle 5, turning on the driving motor 35 to control the rotating shaft 32 to rotate, so that the driving belt 34 runs, the driving belt 34 is in contact with the disc-shaped mica sheet, and the driving belt 34 controls the disc-shaped mica sheet to rotate towards the square of the drilling machine 9;

step two: when the disc-shaped mica sheets reach the position right below the drilling machine 9, the driving belt 34 stops rotating, the two swing motors 26 are respectively connected with the first cam 27 and the second cam 28 in a driving mode to rotate, the disc-shaped mica sheets are clamped between the first cam 27 and the second cam 28, and the stepping motor 31 on the first cam 27 moves when the disc-shaped mica sheets are clamped, so that the driving wheel 29 rotates, the disc-shaped mica sheets are clamped, and a limiting effect is achieved;

step three: the first hydraulic cylinder 8 controls the drilling machine 9 to move downwards, the drilling operation is completed on the mica sheet by using the drill bit 10, after the drilling operation is finished, the two swing motors 26 are respectively connected with the first cam 27 and the second cam 28 in a driving mode to rotate, so that the first cam 27 and the second cam 28 are located at positions to be positioned in the positioning grooves 25, the exchange water pump 136 operates when the drilling operation is finished, the exchange of liquid in the heat absorption channel 144 and liquid in the water cooling channel 135 is completed, and the drilling machine 9 is further cooled.

According to the working principle of the invention, firstly, the disc-shaped mica sheet is placed at one end corresponding to the second baffle 5, the disc-shaped mica sheet can complete basic moving operation under the rotation of the driving belt 34, and as the material flowing groove 3 is in the shape of an arc, the disc-shaped mica sheet can be controlled to move along the arc of the first baffle 4 by using the method, the driving motor 35 is started to control the rotating shaft 32 to rotate, so that the driving belt 34 runs, the driving belt 34 is in contact with the disc-shaped mica sheet, and the driving belt 34 controls the disc-shaped mica sheet to rotate towards the direction of the drilling machine 9; when the disc-shaped mica sheets reach the position right below the drilling machine 9, the driving belt 34 stops rotating, the two swing motors 26 are respectively connected with the first cam 27 and the second cam 28 in a driving mode to rotate, the disc-shaped mica sheets are clamped between the first cam 27 and the second cam 28, the stepping motor 31 on the first cam 27 moves when the disc-shaped mica sheets are clamped, the driving wheel 29 is made to rotate, the disc-shaped mica sheets are further clamped and limited, the positioning groove 25 is 3mm away from the material flow groove 3, the thickness of each disc-shaped mica sheet is 5mm, the thickness of each disc-shaped mica sheet is larger than the distance between the positioning groove 25 and the material flow groove 3, the first cam 27 and the second cam 28 can be guaranteed to be in contact with the disc-shaped mica sheets, and the swing motors 26 are limited to have a rotation angle of +/-90 degrees; the first hydraulic cylinder 8 controls the drilling machine 9 to move downwards, the drilling operation is completed on the mica sheet by using the drill bit 10, after the drilling is finished, the two swing motors 26 are respectively connected with the first cam 27 and the second cam 28 in a driving mode to enable the first cam 27 and the second cam 28 to be positioned in the positioning groove 25, when the drilling is finished, heat accumulated by long-time work of the drilling machine 9 enters the heat absorbing plate 14, the water exchange pump 136 is switched to operate, the exchange between liquid in the heat absorbing channel 144 and liquid in the water cooling channel 135 is completed, the cooling of the drilling machine 9 is further completed, the water cooling channel 135 is connected with the cooling spiral pipe 137, the cooling spiral pipe 137 is arranged in the ventilation hole 134, when the cooling fan 133 operates, the contact area between the cooling liquid in the water cooling plate 131 and air can be increased, the heat dissipation effect is increased, the service life of the drilling machine 9 is prolonged, and when the mold needs to be replaced, the third hydraulic cylinder 36 is controlled to move the die 22 required for the die-placing plate 20 to a position just below the die hole 15, and the die 22 is pushed up by the tapered plate 17 due to the spherical shape below the die 22 by the extension of the second hydraulic cylinder 16.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (9)

1. A drilling device for mica sheet production is characterized by comprising a box body (1), the box body (1) is provided with a mounting seat (2), the mounting seat (2) is fan-shaped, a material flowing groove (3) is arranged on the mounting seat (2), a first baffle plate (4) and a second baffle plate (5) are respectively arranged on the inner walls of two opposite sides of the material flowing groove (3), the radius of the first baffle plate (4) is larger than that of the second baffle plate (5), a first supporting column (6) is arranged on the mounting seat (2), a first mounting plate (7) is fixedly connected with the upper side of the first supporting column (6), install first pneumatic cylinder (8) on first mounting panel (7), the vertical downward setting of piston rod of first pneumatic cylinder (8), be fixed with rig (9) on the piston rod of first pneumatic cylinder (8), install drill bit (10) on rig (9).

2. Drilling equipment for mica sheet production according to claim 1, wherein the second supporting column (11) is fixed on the mounting seat (2), a second mounting plate (12) is arranged on the second supporting column (11), a water cooling row (13) is arranged on the second mounting plate (12), a heat absorbing plate (14) is fixedly connected to one side of the second mounting plate (12), and the heat absorbing plate (14) is in fit connection with the water cooling row (13).

3. The drilling equipment for producing mica sheets as claimed in claim 1, wherein the material flow groove (3) is internally provided with a mold hole (15), the mold hole (15) penetrates through the mounting seat (2) and is arranged in the box body (1), the box body (1) is internally provided with four second hydraulic cylinders (16) which are oppositely arranged, each second hydraulic cylinder (16) is connected with a corresponding conical plate (17) in a driving manner, the box body (1) is internally provided with two third mounting plates (18) which are oppositely arranged, each third mounting plate (18) is provided with a through hole (19), the through hole (19) is connected with a mold placing plate (20) in a sliding manner, the box body (1) is internally provided with a third hydraulic cylinder (36), the third hydraulic cylinder (36) is connected with the mold placing plate (20) in a control manner, the mold placing plate (20) is provided with a group of mounting holes (21), and every two adjacent mounting holes (21) are arranged at a distance of 10cm, all be equipped with corresponding mould (22) in every mounting hole (21), all be equipped with spacing groove (23) on every mould (22), be equipped with spacing ring (24) in mounting hole (21), spacing ring (24) and spacing groove (23) cooperation set up, mould (22) downside is the arc surface.

4. The drilling equipment for producing mica sheets as claimed in claim 1, wherein the first baffle (4) is provided with a positioning groove (25), the positioning groove (25) is internally provided with two oppositely arranged swing motors (26), the two swing motors (26) are respectively connected with a first cam (27) and a second cam (28) in a driving manner, the first cam (27) is embedded and fixed with a stepping motor (31), the first cam (27) is connected with a driving wheel (29) in a matching manner, the stepping motor (31) is connected with the driving wheel (29) in a driving manner, and the second cam (28) is provided with a driven wheel (30).

5. The drilling equipment for producing mica sheets as claimed in claim 2, wherein the heat absorbing plate (14) comprises a copper plate (141), a heat insulating layer (145) is sleeved outside the copper plate (141), a set of sliding rails (142) is arranged on the copper plate (141), a corresponding sliding groove (143) is arranged on the drilling machine (9), each sliding rail (142) is arranged in the corresponding sliding groove (143), the sliding rails (142) are also made of copper, a heat absorbing channel (144) is arranged in the copper plate (141), and the heat absorbing channel (144) is arranged in a serpentine shape.

6. The drilling equipment for producing mica sheets as claimed in claim 5, wherein the water cooling row (13) comprises a water cooling plate (131), a heat dissipation plate (132) is installed on the water cooling plate (131), a set of cooling fans (133) is installed on the heat dissipation plate (132), a set of ventilation holes (134) is formed in the water cooling plate (131), a cooling spiral pipe (137) is arranged in each ventilation hole (134), the cooling spiral pipe (137) and the ventilation holes (134) are fixed by heat-conducting glue, a plurality of water cooling channels (135) are arranged in the water cooling plate (131), the water cooling channels (135) are used for connecting two corresponding cooling spiral pipes (137), a switching water pump (136) is arranged on one side of the water cooling plate (131), and the switching water pump (136) is used for exchanging cooling liquid between the heat absorption plate (14) and the water cooling row (13).

7. The drilling equipment for producing mica sheets as claimed in claim 1, wherein the mounting seat (2) is provided with a driving motor (35), the driving motor (35) is in control connection with a rotating shaft (32), pulleys (33) are arranged at two ends of the second baffle (5), and corresponding driving belts (34) are sleeved on the rotating shaft (32) and the pulleys (33).

8. Drilling equipment for the production of mica sheets according to claim 1, characterized in that a set of grounding feet (37) is installed on the lower side of the box body (1), an operation panel (38) is installed on one side of the box body (1), and a box door (39) is hinged on one side of the box body (1).

9. The use method of the drilling equipment for producing the mica sheets is characterized in that the drilling equipment comprises the following specific operation steps:

the method comprises the following steps: placing the disc-shaped mica sheet at one corresponding end of the second baffle (5), turning on a driving motor (35) to control the rotating shaft (32) to rotate, so that a driving belt (34) runs, the driving belt (34) is in contact with the disc-shaped mica sheet, and the driving belt (34) controls the disc-shaped mica sheet to rotate towards the square movement of the drilling machine (9);

step two: when the disc-shaped mica sheets reach the position right below a drilling machine (9), a driving belt (34) stops rotating, two swing motors (26) are respectively connected with a first cam (27) and a second cam (28) in a driving mode to rotate, the disc-shaped mica sheets are clamped between the first cam (27) and the second cam (28), and a stepping motor (31) on the first cam (27) moves when the disc-shaped mica sheets are clamped, so that a driving wheel (29) rotates, the disc-shaped mica sheets are clamped, and a limiting effect is achieved;

step three: the first hydraulic cylinder (8) controls the drilling machine (9) to move downwards, a drill bit (10) is used for completing drilling operation on the mica sheet, after drilling is finished, the two swing motors (26) are respectively connected with the first cam (27) and the second cam (28) in a driving mode to rotate, the first cam (27) and the second cam (28) are located at positions to be located in the positioning grooves (25), the water pump (136) is switched to operate when drilling is finished, liquid in the heat absorption channel (144) and liquid in the water cooling channel (135) are switched, and then cooling of the drilling machine (9) is finished.

Images