CN112078022A

CN112078022A - Former stone processing apparatus for magnetotherapy mattress

Info

Publication number: CN112078022A
Application number: CN202010877346.5A
Authority: CN
Inventors: 程彦周
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2020-12-15

Abstract

The invention relates to the field of magnetic therapy mattresses, in particular to a raw stone processing device for a magnetic therapy mattress. The technical problems of the invention are as follows: provides a raw stone processing device for a magnetic therapy mattress. The technical implementation scheme of the invention is as follows: a raw stone processing device for a magnetic therapy mattress comprises an operation control screen, a punching and cutting mechanism, an ash wiping mechanism, a heating maintenance mechanism and the like; the lower part of the bed plate of the working machine is welded with the supporting bottom feet. The invention realizes punching and cutting of large cylindrical tourmaline residues, obtains cylindrical tourmaline with smaller diameter for the production of magnetic therapy mattresses, performs cooling and dust removal operation on the tourmaline part outside the punching and cutting, maintains the temperature of the cut cylindrical tourmaline with smaller diameter unchanged by means of isolation and frictional heat generation, avoids the influence on the electrical property of the cylindrical tourmaline caused by water showering and cooling, ensures that the temperature of the cylindrical tourmaline cannot drop suddenly, and has good magnetic therapy effect.

Description

Former stone processing apparatus for magnetotherapy mattress

Technical Field

The invention relates to the field of magnetic therapy mattresses, in particular to a raw stone processing device for a magnetic therapy mattress.

Background

Tourmaline is a general term of minerals of tourmaline family, has complex chemical components, and is a silicate mineral with an annular structure of aluminum, sodium, iron, magnesium and lithium characterized by containing boron. The hardness of tourmaline is usually 7-7.5, and the density is slightly different according to different types. Tourmaline is also known as tourmaline, etc. The tourmaline has unique properties of piezoelectricity, pyroelectric property, conductivity, far infrared radiation, anion release and the like, can be compounded with other materials by a physical or chemical method to prepare a plurality of functional materials, and is applied to the fields of environmental protection, electronics, medicines, chemical industry, light industry, building materials and the like.

At present, tourmaline is used as a magnetic therapy mattress due to good electrical property, in the prior art, when tourmaline is used for manufacturing large electrical elements, tourmaline excess materials can not be utilized frequently, the excess materials can not be continuously applied to the production of the large electrical elements due to small volume, and can only be used for producing and processing small-sized stone sheets used for the magnetic therapy mattress, so that the excess materials are still larger relative to the small-sized stone sheets used for the magnetic therapy mattress and need to be processed, if a grinding and slicing mode is adopted, a large amount of tourmaline can be wasted, a punching and cutting mode is used for cutting to obtain cylindrical raw stones with small diameters, the excess materials can be subjected to subsequent cutting for manufacturing tourmaline ornaments, the tourmaline carries electric charge to display electricity due to friction and temperature rise in the punching and cutting processes, and the cut excess materials are used for manufacturing ornaments, the electric charges need to be reduced and eliminated to avoid continuously attracting charged dust in the air, so that the surface of the ornament is kept bright, the tourmaline used for manufacturing the stone sheets for the magnetic therapy mattress in the drill bit needs to keep the temperature to maintain the electric property of the tourmaline and maintain the magnetic therapy effect of the tourmaline.

Aiming at the problems, the original stone processing device for the magnetic therapy mattress is provided.

Disclosure of Invention

In order to overcome the defects that the tourmaline excess material can not be utilized frequently when tourmaline is used for manufacturing large-scale electrical elements in the prior art, the excess material can not be continuously applied to the production of the large-scale electrical elements due to small volume, and only can be used for producing and processing small-scale stone sheets used for a magnetic therapy mattress, so that the excess material is still larger than the small-scale stone sheets used for the magnetic therapy mattress and needs to be processed, if a polishing and slicing mode is adopted, a large amount of tourmaline is wasted, a punching and cutting mode is used for cutting to obtain cylindrical raw stones with small diameters, the excess material can be subsequently cut for manufacturing tourmaline ornaments, the tourmaline has electric charges and shows electric properties due to friction and temperature rise in the punching and cutting processes, the cut excess material is used for manufacturing the ornaments, the temperature needs to be reduced to eliminate the electric charges so as to avoid continuously attracting the charged dust in the air, and the surfaces of, the tourmaline used for manufacturing the stone sheets for the magnetic therapy mattress in the drill bit must keep the temperature to maintain the electrical property thereof and maintain the magnetic therapy effect thereof, because the space distance between the two is short, and the metal of the drill bit conducts heat faster, the direct water spraying and cooling of the tourmaline for the ornaments without any protection and treatment can inevitably affect the tourmaline for manufacturing the stone sheets for the magnetic therapy mattress, the electrical property thereof is also weakened, and the defect of weakening the magnetic therapy effect is caused, the technical problem of the invention is that: provides a raw stone processing device for a magnetic therapy mattress.

The technical implementation scheme of the invention is as follows: a raw stone processing device for a magnetic therapy mattress comprises a working machine bed plate, supporting bottom feet, an operation control screen, a punching and cutting mechanism, an ash wiping mechanism and a heating maintenance mechanism; the lower part of the bed plate of the working machine is welded with the supporting bottom feet; an operation control screen is arranged above the working machine tool plate; the upper part of the working machine tool plate is sequentially connected with a punching and cutting mechanism, an ash wiping mechanism and a heating maintenance mechanism; the punching and cutting mechanism is connected with the ash wiping mechanism; the ash wiping mechanism is connected with the heating maintenance mechanism.

Further, the punching and cutting mechanism comprises a power motor, a first telescopic rotating shaft, a first transmission gear, a first connecting sleeve plate, a first electric push rod, a first bearing frame plate, a second transmission gear, a first transmission wheel, a second bearing frame plate, a first integrated base table, a third bearing frame plate, a first lead screw, a first internal thread sliding block, a water drill punching machine, a first limiting sliding sleeve, a first limiting sliding column, a second limiting sliding sleeve, a second limiting sliding column, a first fixed arc-shaped clamping plate, a first electric sliding rail, a first fixed frame high column, a second fixed arc-shaped clamping plate and a screwing bolt; an output shaft of the power motor is rotationally connected with the first telescopic rotating shaft; the outer surface of the first telescopic rotating shaft is sleeved with the first bearing frame plate; the outer surface of the first telescopic rotating shaft is inserted into the first transmission gear; the outer surface of the first telescopic rotating shaft is sleeved with the first connecting sleeve plate; the first connecting sleeve plate is inserted with the first electric push rod; the first electric push rod is connected with the first bearing frame plate; the first transmission gear is meshed with the second transmission gear; the axle center of the second transmission gear is rotationally connected with the first transmission wheel; the axle center of the first transmission wheel is inserted with the first bearing frame plate; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the outer surface of the second driving wheel is sleeved with a second bearing frame plate; the axle center of the second driving wheel is rotationally connected with the first screw rod; the lower part of the second bearing frame plate is connected with a first integrated base table; the upper part of the first set base platform is connected with a third bearing frame plate; the first screw rod is inserted with the third bearing frame plate; the outer surface of the first screw rod is in sliding connection with the first internal thread sliding block; the upper part of the first internal thread sliding block is connected with a water drill punching machine through a bolt; one side of the water drilling machine is connected with the first limiting sliding sleeve, and the other side of the water drilling machine is connected with the second limiting sliding sleeve; a first fixed arc-shaped clamping plate is arranged above one side of the rhinestone perforating machine close to the third bearing frame plate; the inner side of the first limiting sliding sleeve is in sliding connection with the first limiting sliding column; one side of the first limiting sliding column is spliced with the second bearing frame plate, and the other side of the first limiting sliding column is spliced with the third bearing frame plate; the inner side of the second limiting sliding sleeve is in sliding connection with the second limiting sliding column; one side of the second limiting sliding column is spliced with the second bearing frame plate, and the other side of the second limiting sliding column is spliced with the third bearing frame plate; the first fixed arc-shaped clamping plate is connected with the first electric sliding rail in a sliding manner; the lower part of the first electric slide rail is connected with a first fixed frame elevated column; the first fixed frame high column is inserted with the second fixed arc-shaped clamping plate; the outer surface of the screwing bolt is sequentially connected with the first fixed arc-shaped clamping plate and the second fixed arc-shaped clamping plate; the lower part of the first fixed frame elevated column is connected with a working machine tool plate; the lower part of the first integrated base table is connected with a working machine tool plate; the lower part of the power motor is connected with a working machine tool plate; the first telescopic rotating shaft is connected with the ash wiping mechanism; the first fixed frame high column is connected with the ash wiping mechanism; the lower part of the first bearing frame plate is connected with the working machine tool plate.

Further, the ash wiping mechanism comprises a second set base platform, a first chute plate, a first slider column, a first arc-shaped fitting block, a second slider column, a second arc-shaped fitting block, a first bidirectional spring rod, a first connecting plate, a first linkage rod, a first rounded diamond disk, a second linkage rod, a second connecting plate, a second chute plate, a cleaning spray head, a third slider column, a third arc-shaped fitting block, a second bidirectional spring rod, a fourth slider column, a fourth arc-shaped fitting block, a third bidirectional spring rod, a first fixing plate, a first slider seat, a second electric push rod, a first isolating semicircular ring, a second slider seat, a third electric push rod, a second isolating semicircular ring, a fourth bidirectional spring rod, a second fixing plate, a shifting convex column, a second rounded diamond disk and a first rotating shaft rod; one side above the second set base platform is connected with the first slider seat in a sliding manner, and the other side above the second set base platform is connected with the second slider seat in a sliding manner; one side above the first sliding chute plate is connected with the first sliding block column in a sliding mode, and the other side above the first sliding chute plate is connected with the second sliding block column in a sliding mode; the upper part of the first sliding block column is rotationally connected with the first arc-shaped fitting block; the first sliding block column is inserted with the first bidirectional spring rod; the first bidirectional spring rod is inserted into the second sliding block column; the upper part of the second sliding block column is rotationally connected with the second arc-shaped fitting block; the first sliding groove plate is connected with the first connecting plate through bolts; one side above the first connecting plate is rotatably connected with the first linkage rod, and the other side above the first connecting plate is spliced with the fourth bidirectional spring rod; the upper part of the first linkage rod is rotationally connected with the first rounded rhombic disc; the first round-corner diamond disc is inserted with the shifting convex column; the upper part of the first rounded rhombic disc is rotationally connected with the second linkage rod; the upper part of the second linkage rod is in sliding connection with the second connecting plate; the lower part of the second connecting plate is spliced with a fourth bidirectional spring rod; the second connecting plate is connected with the second sliding groove plate through bolts; a cleaning spray head is arranged above the second chute plate; one side below the second chute plate is connected with the third slider column in a sliding manner, and the other side below the second chute plate is connected with the fourth slider column in a sliding manner; the lower part of the third sliding block column is rotationally connected with the third arc-shaped fitting block; the third sliding block column is inserted with the second bidirectional spring rod; the second bidirectional spring rod is inserted into the fourth sliding block column; the lower part of the fourth sliding block column is rotationally connected with the fourth arc-shaped fitting block; the second sliding groove plate is connected with a third bidirectional spring rod; the lower part of the third bidirectional spring rod is connected with the first chute plate; the middle part of the outer surface of the fourth bidirectional spring rod is sleeved with the second fixing plate; the middle part of the outer surface of the third bidirectional spring rod is sleeved with the first fixing plate; the upper part of the first sliding block seat is inserted into the first isolating semicircular ring; the first sliding block seat is inserted with the second electric push rod; splicing and connecting with a second set base platform; the second sliding block seat is inserted with a third electric push rod; the upper part of the second sliding block seat is inserted into the second isolating semicircular ring; the stirring convex column is in transmission connection with the second round-corner rhombic disc; the axle center of the second round-corner diamond disc is rotationally connected with the first rotating shaft rod; the lower part of the second integrated base table is connected with a working machine tool plate; the second fixing plate is connected with the first fixing frame high column; the lower part of the first fixing plate is connected with a working machine tool plate; the axle center of the first round-corner diamond disc is connected with the first fixed frame elevated column; the second round-corner diamond disc is connected with the first telescopic rotating shaft; the first rotating shaft rod is connected with the heating maintenance mechanism.

Furthermore, the heating maintenance mechanism comprises a first linear slide rail, a first gathering plate, a second linear slide rail, a circular slide rail disc, a central gear, a circumferential gear, a friction disc, a third transmission gear, a fourth transmission gear, a third transmission wheel, a fourth bearing frame plate, a fourth transmission wheel, a second rotating shaft rod, a fifth bearing frame plate and an internal gear; the upper part of the first linear slide rail is in sliding connection with the first gathering plate; the lower part of the first gathering plate is in sliding connection with a second linear slide rail; the upper part of the first gathering plate is connected with a circular sliding rail disc; the axis of the circular sliding rail disc is inserted into the central gear; the circular ring sliding rail disc is sleeved with the inner gear; the central gear is meshed with the circumferential gear; the axis of the circumferential gear is in sliding connection with the circular sliding rail disc; the circumferential gear is meshed with the internal gear; the axis of the circumferential gear is inserted with the friction disc; the axle center of the central gear is rotationally connected with the third transmission gear; a fourth bearing frame plate is arranged on one side, close to the first linear sliding rail, of the third transmission gear; the fourth bearing frame plate is inserted with the third driving wheel; the axle center of the third driving wheel is rotationally connected with the fourth transmission gear; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the fourth driving wheel is rotationally connected with the second rotating shaft rod; the outer surface of the second rotating shaft rod is sleeved with a fifth bearing frame plate; the lower part of the first linear slide rail is connected with a working machine tool plate; the lower part of the second linear slide rail is connected with the working machine tool plate; the lower part of the fifth bearing frame plate is connected with the working machine tool plate; the second rotating shaft rod is connected with the first rotating shaft rod; the lower part of the fourth bearing frame plate is connected with the working machine tool plate.

Furthermore, the inner sides of the first isolating semicircular ring and the second isolating semicircular ring are provided with heating plates.

Furthermore, cotton patches are arranged on the inner side cambered surfaces of the first arc-shaped attaching block, the second arc-shaped attaching block, the third arc-shaped attaching block and the fourth arc-shaped attaching block.

Furthermore, the outer ring surface of the friction disc is sleeved with rubber.

Furthermore, torsion spring shafts are adopted at the joints of the first arc-shaped attaching block, the second arc-shaped attaching block, the third arc-shaped attaching block and the fourth arc-shaped attaching block with the first sliding block column, the second sliding block column, the third sliding block column and the fourth sliding block column respectively.

The beneficial effects are that: 1. in order to solve the problems that in the prior art, when tourmaline is used for manufacturing large-scale electrical elements, tourmaline excess materials can not be utilized frequently, the excess materials can not be continuously applied to the production of the large-scale electrical elements due to small volume, and can only be used for producing and processing small-scale stone sheets used for a magnetic therapy mattress, so that the excess materials are still larger than the small-scale stone sheets used for the magnetic therapy mattress and need to be processed, if a polishing and slicing mode is adopted, a large amount of tourmaline is wasted, a punching and cutting mode is used for cutting to obtain cylindrical raw stones with small diameters, the excess materials can be subsequently cut for manufacturing tourmaline ornaments, the tourmaline has electric charge and electric property due to friction and temperature rise in the punching and cutting processes, the cut excess materials are used for manufacturing the ornaments, the temperature needs to be reduced to eliminate the electric charge so as to avoid continuously attracting charged dust in the, therefore, the surface of the ornament is kept bright, and the tourmaline used for manufacturing the stone sheets for the magnetic therapy mattress in the drill bit must keep the temperature so as to maintain the electrical property and the magnetic therapy effect of the tourmaline, because the space distance between the tourmaline and the drill bit is short and the metal of the drill bit conducts heat quickly, the tourmaline used for manufacturing the stone sheets for the magnetic therapy mattress can not be influenced by directly carrying out water spraying and cooling on the tourmaline without any protection and treatment, the electrical property of the tourmaline is weakened, and the problem of weakening the magnetic therapy effect is caused;

2. when the electric tourmaline grinding and polishing device is used, firstly, the punching and cutting mechanism cuts out a cylindrical tourmaline with a smaller diameter in the middle of a large cylindrical tourmaline in a punching and cutting mode, then, the punching and cutting mechanism drives the cylindrical tourmaline with the smaller diameter cut out by the punching and cutting mechanism to move to be close to the inside of the heating and maintaining mechanism, then, the dust wiping mechanism carries out water spraying cooling on the tourmaline at the outer side left after cutting, dust on the surface of the tourmaline is wiped off, and the heating and maintaining mechanism carries out friction heating on a drill bit and is isolated and waterproof;

3. the punching and cutting of the large cylindrical tourmaline residues are realized, the cylindrical tourmaline with smaller diameter is obtained and used for the production of the magnetic therapy mattress, the tourmaline part outside the punching and cutting is cooled and dedusted, the electric property of the tourmaline is eliminated, the surface of the tourmaline is bright, the ornament manufacturing is convenient, the temperature of the cut cylindrical tourmaline with smaller diameter is kept unchanged through the isolation and friction heating mode, the electric property of the tourmaline is prevented from being influenced by water spraying and cooling, the temperature of the tourmaline is ensured not to drop suddenly, and the tourmaline has good magnetic therapy effect.

Drawings

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

FIG. 2 is a schematic diagram of a first three-dimensional structure of the punching and cutting mechanism of the present invention;

FIG. 3 is a schematic diagram of a second three-dimensional structure of the punching and cutting mechanism of the present invention;

FIG. 4 is a schematic perspective view of a first ash wiping mechanism according to the present invention;

FIG. 5 is a schematic perspective view of a second exemplary embodiment of an ash wiping mechanism according to the present invention;

FIG. 6 is a schematic view of a first three-dimensional structure of the warming maintenance mechanism according to the present invention;

fig. 7 is a schematic perspective view of a second temperature-rising maintenance mechanism according to the present invention.

Description of reference numerals: 1_ working machine bed plate, 2_ support foot, 3_ operation control screen, 4_ punching and cutting mechanism, 5_ ash wiping mechanism, 6_ heating maintenance mechanism, 401_ power motor, 402_ first telescopic rotating shaft, 403_ first transmission gear, 404_ first connecting sleeve plate, 405_ first electric push rod, 406_ first bearing frame plate, 407_ second transmission gear, 408_ first transmission wheel, 409_ second transmission wheel, 4010_ second bearing frame plate, 4011_ first gathering base table, 4012_ third bearing frame plate, 4013_ first lead screw, 4014_ first internal thread slide block, 4015_ water drilling punching machine, 4016_ first limit slide sleeve, 4017_ first limit slide column, 4018_ second limit slide sleeve, 4019_ second limit slide column, 4020_ first fixed arc splint, 4021_ first electric slide rail, 4022_ first fixed frame high column, 4023_ second fixed arc splint, 4024_ bolt, 501_ second collective base stage, 502_ first runner plate, 503_ first slider column, 504_ first arc fitting, 505_ second slider column, 506_ second arc fitting, 507_ first bidirectional spring bar, 508_ first linkage plate, 509_ first linkage bar, 5010_ first rounded diamond disk, 5011_ second linkage bar, 5012_ second linkage plate, 5013_ second runner plate, 5014_ cleaning nozzle, 5015_ third slider column, 5016_ third arc fitting, 5017_ second bidirectional spring bar, 5018_ fourth slider column, 5019_ fourth arc fitting, 5020_ third bidirectional spring bar, 5021_ first fixed plate, 5022_ first slider seat, 5023_ second electric push rod, 5024_ first isolating semicircular ring, 5025_ second seat, 5026_ third electric push rod, 5027_ second isolating semicircular ring, 5028_ second semicircular ring, 5029_ second isolating spring bar, 5029_ second bidirectional spring bar, 5029_ second isolating spring bar, 5023_ second semicircular ring, 5029_ second arc fitting, 5023_ second interlocking spring bar, 5029_ second interlocking ring, 5029_ second interlocking spring bar, 5029_, 5031_ second rounded rhomboid disc, 5032_ first spindle rod, 601_ first linear slide rail, 602_ first gathering plate, 603_ second linear slide rail, 604_ circular slide rail disc, 605_ central gear, 606_ circumferential gear, 607_ friction disc, 608_ third transmission gear, 609_ fourth transmission gear, 6010_ third transmission gear, 6011_ fourth bearing frame plate, 6012_ fourth transmission gear, 6013_ second spindle rod, 6014_ fifth bearing frame plate, 6015_ internal gear.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

A raw stone processing device for a magnetic therapy mattress is shown in figures 1-7 and comprises a working machine bed plate 1, supporting bottom feet 2, an operation control screen 3, a punching and cutting mechanism 4, an ash wiping mechanism 5 and a heating maintenance mechanism 6; the lower part of the bed plate 1 of the working machine is welded with the supporting footing 2; an operation control screen 3 is arranged above the working machine bed plate 1; the upper part of the working machine bed plate 1 is sequentially connected with a punching and cutting mechanism 4, an ash wiping mechanism 5 and a heating maintenance mechanism 6; the punching and cutting mechanism 4 is connected with the ash wiping mechanism 5; the ash wiping mechanism 5 is connected with the heating maintenance mechanism 6.

When the raw stone processing device for the magnetic therapy mattress is used, the device is firstly stably fixed, then collected tourmaline remnants for manufacturing large-scale electric appliances are prepared, then an external power supply is connected, the operation control screen 3 is manually opened, the cylindrical tourmaline is fixed to the inside of the punching and cutting mechanism 4 and the dust wiping mechanism 5, then the punching and cutting mechanism 4 firstly cuts out a cylindrical tourmaline with a smaller diameter in the middle of the large cylindrical tourmaline in a punching and cutting mode, then the punching and cutting mechanism 4 drives the cylindrical tourmaline with the smaller diameter which is cut out to move to the inside close to the temperature rise maintenance mechanism 6, then the dust wiping mechanism 5 carries out water spraying and cooling on the tourmaline at the outer side which is remained after cutting, dust on the surface of the tourmaline is wiped off, and the temperature rise maintenance mechanism 6 carries out frictional heat generation on a drill bit and is isolated and waterproof, thereby realizing punching and cutting on the large cylindrical tourmaline rem, the obtained cylindrical tourmaline with smaller diameter is used for the production of the magnetic therapy mattress, the tourmaline part outside the punched and cut is cooled and dedusted to eliminate the electrical property, so that the surface of the tourmaline is bright and the ornament is convenient to manufacture, the temperature of the cut cylindrical tourmaline with smaller diameter is kept unchanged by the modes of isolation and frictional heating, the influence of water spraying on the electrical property is avoided, the temperature is ensured not to drop suddenly, and the cylindrical tourmaline with smaller diameter has good magnetic therapy effect.

The punching and cutting mechanism 4 comprises a power motor 401, a first telescopic rotating shaft 402, a first transmission gear 403, a first connecting sleeve plate 404, a first electric push rod 405, a first bearing frame plate 406, a second transmission gear 407, a first transmission gear 408, a second transmission gear 409, a second bearing frame plate 4010, a first set base table 4011, a third bearing frame plate 4012, a first screw 4013, a first internal thread slide block 4014, a rhinestone punching machine 4015, a first limit slide sleeve 4016, a first limit slide column 4017, a second limit slide column 4018, a second limit slide column 4019, a first fixed arc-shaped clamp plate 4020, a first electric slide rail 4021, a first fixed frame high column 4022, a second fixed arc-shaped clamp plate 4023 and a tightening bolt 4024; an output shaft of the power motor 401 is rotatably connected with the first telescopic rotating shaft 402; the outer surface of the first telescopic rotating shaft 402 is sleeved with the first bearing frame plate 406; the outer surface of the first telescopic rotating shaft 402 is inserted into the first transmission gear 403; the outer surface of the first telescopic rotating shaft 402 is sleeved with a first connecting sleeve plate 404; the first connecting sleeve plate 404 is inserted into the first electric push rod 405; the first electric push rod 405 is connected with the first bearing frame plate 406; the first transmission gear 403 is meshed with the second transmission gear 407; the axle center of the second transmission gear 407 is rotatably connected with the first transmission gear 408; the axle center of the first transmission wheel 408 is inserted into the first bearing frame plate 406; the outer ring surface of the first driving wheel 408 is in driving connection with a second driving wheel 409 through a belt; the outer surface of the second driving wheel 409 is sleeved with a second bearing frame plate 4010; the axle center of the second driving wheel 409 is rotationally connected with the first screw rod 4013; the lower part of the second bearing frame plate 4010 is connected with a first aggregate base table 4011; the upper part of the first collection base table 4011 is connected with a third bearing frame plate 4012; the first screw 4013 is inserted into the third bearing frame plate 4012; the outer surface of the first screw rod 4013 is in sliding connection with a first internal thread sliding block 4014; the upper part of the first internal thread sliding block 4014 is connected with a water drill punching machine 4015 through a bolt; one side of the rhinestone perforating machine 4015 is connected with the first limit sliding sleeve 4016, and the other side of the rhinestone perforating machine 4015 is connected with the second limit sliding sleeve 4018; a first fixed arc-shaped clamping plate 4020 is arranged above one side, close to the third bearing frame plate 4012, of the rhinestone punching machine 4015; the inner side of the first limiting sliding sleeve 4016 is in sliding connection with a first limiting sliding column 4017; one side of the first limiting sliding column 4017 is inserted into the second bearing frame plate 4010, and the other side of the first limiting sliding column 4017 is inserted into the third bearing frame plate 4012; the inner side of the second limiting sliding sleeve 4018 is in sliding connection with a second limiting sliding column 4019; one side of the second limiting sliding column 4019 is inserted into the second bearing frame plate 4010, and the other side of the second limiting sliding column 4019 is inserted into the third bearing frame plate 4012; the first fixed arc splint 4020 is in sliding connection with the first electric slide rail 4021; the lower part of the first electric slide rail 4021 is connected with a first fixed frame elevated column 4022; the first fixed frame high column 4022 is inserted into the second fixed arc splint 4023; the outer surface of the screwing bolt 4024 is connected with a first fixed arc splint 4020 and a second fixed arc splint 4023 in sequence; the lower part of the first fixed frame high column 4022 is connected with a working machine bed plate 1; the lower part of the first collection base table 4011 is connected with a working machine bed plate 1; the lower part of the power motor 401 is connected with a working machine bed plate 1; the first telescopic rotating shaft 402 is connected with the ash wiping mechanism 5; the first fixed frame elevated column 4022 is connected with the ash wiping mechanism 5; the lower part of the first bearing frame plate 406 is connected with the machine tool bedplate 1.

Firstly, a large cylindrical tourmaline to be processed is fixed between a first fixed arc splint 4020 and a second fixed arc splint 4023, then a first electric slide rail 4021 is controlled to drive the first fixed arc splint 4020 to move downwards, then the first fixed arc splint 4020 and the second fixed arc splint 4023 approach each other to clamp the cylindrical tourmaline, then a power supply of a power motor 401 is switched on through an operation control screen 3, a power supply of a rhinestone perforating machine 4015 is switched on, then the power motor 401 drives a first telescopic rotating shaft 402 to rotate, then the first telescopic rotating shaft 402 drives a first transmission gear 403 to rotate, then the first transmission gear 403 drives a second transmission gear 407 to rotate, then the second transmission gear 407 drives a first transmission wheel 408 to rotate, further the first transmission wheel 408 drives a second transmission wheel 409 to rotate, then the second transmission wheel drives a first lead screw 4013 to rotate, then the first screw 4013 rotates to drive the first internal thread sliding block 4014 to move towards the direction close to the first fixed arc-shaped clamping plate 4020, then the first internal thread sliding block 4014 drives the rhinestone perforating machine 4015 to move close to the cylindrical tourmaline between the first fixed arc-shaped clamping plate 4020 and the second fixed arc-shaped clamping plate 4023, then the rhinestone perforating machine 4015 rotates to perforate and cut the tourmaline, after the tourmaline is perforated and cut, at the moment, the rhinestone perforating machine 4015 moves to the position close to the warming maintenance mechanism 6, then the first electric push rod 405 is controlled by the operation control screen 3 to push out and drive the first telescopic rotating shaft 402 to extend, namely, the first telescopic rotating shaft 402 drives the first transmission gear 403 to be disengaged from the second transmission gear 407, then the rhinestone perforating machine 4015 stops moving, and meanwhile, the rhinestone perforating machine 4015 stops autorotation, and the tourmaline perforating and.

The ash wiping mechanism 5 comprises a second aggregate base platform 501, a first chute plate 502, a first sliding block column 503, a first arc-shaped joint block 504, a second sliding block column 505, a second arc-shaped joint block 506, a first bidirectional spring rod 507, a first connecting plate 508, a first linkage rod 509, a first rounded diamond disc 5010, a second linkage rod 5011, a second connecting plate 5012, a second chute plate 5013, a cleaning nozzle 5014, a third sliding block column 5015 and a third arc-shaped joint block 5016, a second bidirectional spring rod 5017, a fourth slider column 5018, a fourth arc-shaped fitting block 5019, a third bidirectional spring rod 5020, a first fixing plate 5021, a first slider seat 5022, a second electric push rod 5023, a first isolating semicircular ring 5024, a second slider seat 5025, a third electric push rod 5026, a second isolating semicircular ring 5027, a fourth bidirectional spring rod 5028, a second fixing plate 5029, a toggle convex column 5030, a second rounded-angle diamond-shaped disc 5031 and a first rotating shaft rod 5032; one side above the second collective base stage 501 is slidably connected to the first slider holder 5022, and the other side above the second collective base stage 501 is slidably connected to the second slider holder 5025; one side above the first chute plate 502 is connected with the first slider column 503 in a sliding manner, and the other side above the first chute plate 502 is connected with the second slider column 505 in a sliding manner; the upper part of the first sliding block column 503 is rotatably connected with the first arc-shaped fitting block 504; the first sliding block column 503 is inserted into the first bidirectional spring rod 507; the first bidirectional spring rod 507 is inserted into the second slider column 505; the upper part of the second slider column 505 is rotationally connected with a second arc-shaped fitting block 506; the first runner plate 502 is bolted to the first connector plate 508; one side above the first connecting plate 508 is rotatably connected with a first linkage rod 509, and the other side above the first connecting plate 508 is spliced with a fourth bidirectional spring rod 5028; the upper part of the first linkage rod 509 is rotationally connected with a first rounded rhombic disc 5010; the first rounded rhombic disc 5010 is spliced with the shifting convex column 5030; the upper part of the first rounded rhombic disc 5010 is rotationally connected with the second linkage rod 5011; the upper part of the second linkage rod 5011 is in sliding connection with the second connecting plate 5012; the lower part of the second connecting plate 5012 is spliced with a fourth bidirectional spring rod 5028; the second engaging plate 5012 is bolted to the second chute plate 5013; a cleaning nozzle 5014 is arranged above the second chute plate 5013; one side below the second chute plate 5013 is slidably connected with the third slider column 5015, and the other side below the second chute plate 5013 is slidably connected with the fourth slider column 5018; the lower part of the third sliding block column 5015 is rotatably connected with a third arc-shaped fitting block 5016; the third slider column 5015 is inserted into the second bidirectional spring rod 5017; the second bidirectional spring rod 5017 is inserted into the fourth slider column 5018; the lower part of the fourth sliding block column 5018 is rotatably connected with a fourth arc-shaped fitting block 5019; the second chute plate 5013 is connected with a third bidirectional spring rod 5020; the lower part of the third bidirectional spring rod 5020 is connected with the first chute plate 502; the middle part of the outer surface of the fourth bidirectional spring rod 5028 is sleeved with a second fixing plate 5029; the middle part of the outer surface of the third bidirectional spring rod 5020 is sleeved with the first fixing plate 5021; the upper part of the first slider seat 5022 is inserted into the first isolating semicircular ring 5024; the first slider seat 5022 is inserted into the second electric push rod 5023; splicing and connecting with a second set base platform 501; the second slider seat 5025 is inserted into the third electric push rod 5026; the upper part of the second slider seat 5025 is inserted into the second isolating semicircular ring 5027; the convex column 5030 is in transmission connection with a second rounded diamond 5031; the axis of the second rounded diamond 5031 is rotatably connected with the first rotating shaft rod 5032; the lower part of the second integrated base platform 501 is connected with a working machine bed plate 1; second fixing plate 5029 is connected to first fixing bracket column 4022; the lower part of the first fixing plate 5021 is connected with a working machine bed plate 1; the axle center of the first rounded rhombic disc 5010 is connected with a first fixed frame elevated column 4022; the second rounded diamond 5031 is connected with the first telescopic rotating shaft 402; the first spindle rod 5032 is connected to the temperature rise maintenance mechanism 6.

Firstly, the operation control panel 3 is used for controlling and driving the second electric push rod 5023 and the third electric push rod 5026 to push out, namely the second electric push rod 5023 and the third electric push rod 5026 respectively drive the first slider seat 5022 and the second slider seat 5025 to approach each other, so as to clamp and fix the surface of the rhinestone punch 4015, further separate the two sides of the surface of the rhinestone punch 4015, simultaneously, the first arc-shaped fitting block 504, the second arc-shaped fitting block 506, the third arc-shaped fitting block 5016 and the fourth arc-shaped fitting block 5019 are fitted to the outer surface of the cylindrical large tourmaline for fitting and fixing, at the moment, the first telescopic rotating shaft 402 drives the second rounded diamond disc 5031 to rotate, then the second rounded diamond disc 5031 rotates to cause impact on the shifting convex column 5030, further the second rounded diamond disc 5011 drives the first rounded diamond disc 5010 to rotate by shifting the convex column 5030, further the first rounded diamond disc 5010 rotates to drive the first linkage rod 509 and the second linkage rod 5011 to rotate, then the first linkage rod 509 drives the first chute plate 502 to move upwards through the first connecting plate 508, the second linkage rod 5011 drives the second chute plate 5013 to move downwards through the second connecting plate 5012, and further drives the third two-way spring rod 5020 and the fourth two-way spring rod 5028 to contract, meanwhile, the second chute plate 5013 drives the third arc-shaped fitting block 5016 and the fourth arc-shaped fitting block 5019 to fit with the outer surface of the cylindrical large tourmaline up and down through the third slider column 5015 and the fourth slider column 5018, and simultaneously the second two-way spring rod 5017 contracts or pushes out, so that the third arc-shaped fitting block 5016 and the fourth arc-shaped fitting block 5019 can keep close fit with the outer surface of the cylindrical large tourmaline in the process of position change in the horizontal direction, and similarly, the first chute plate 502 drives the first arc-shaped fitting block 504 and the second arc-shaped fitting block 506 to fit with the outer surface of the cylindrical large tourmaline up and down through the first slider column 503 and the second slider column 505, the first bidirectional spring rod 507 ensures that the first arc-shaped fitting block 504 and the second arc-shaped fitting block 506 can be tightly fitted to the outer surface of the cylindrical large tourmaline in the process of position change in the horizontal direction, and simultaneously, the cleaning spray head 5014 sprays high-speed water flow for cleaning, and the first isolating semicircular ring 5024 and the second isolating semicircular ring 5027 ensure that the water flow cannot be sprayed to the rhinestone perforating machine 4015, so that the cleaning of the outer surface of the cylindrical large tourmaline is completed.

According to the invention, the warming maintenance mechanism 6 comprises a first linear slide rail 601, a first collecting plate 602, a second linear slide rail 603, a circular slide rail disc 604, a central gear 605, a circumferential gear 606, a friction disc 607, a third transmission gear 608, a fourth transmission gear 609, a third transmission wheel 6010, a fourth bearing frame plate 6011, a fourth transmission wheel 6012, a second rotating shaft rod 6013, a fifth bearing frame plate 6014 and an internal gear 6015; the upper part of the first linear slide rail 601 is connected with the first collecting plate 602 in a sliding manner; the lower part of the first collecting plate 602 is connected with a second linear slide rail 603 in a sliding manner; the upper part of the first gathering plate 602 is connected with a circular sliding rail disc 604; the axis of the circular sliding rail disc 604 is inserted into the central gear 605; the circular ring sliding rail disc 604 is sleeved with the inner gear 6015; the sun gear 605 meshes with the circumferential gear 606; the axis of the circumferential gear 606 is in sliding connection with the circular sliding rail disc 604; the peripheral gear 606 is engaged with the internal gear 6015; the axis of the circumferential gear 606 is inserted into the friction disc 607; the axle center of the central gear 605 is rotationally connected with the third transmission gear 608; a fourth bearing frame plate 6011 is arranged on one side, close to the first linear sliding rail 601, of the third transmission gear 608; a fourth bearing frame plate 6011 is inserted into a third driving wheel 6010; the axle center of the third driving wheel 6010 is rotationally connected with a fourth transmission gear 609; the outer ring surface of the third driving wheel 6010 is in transmission connection with a fourth driving wheel 6012 through a belt; the axle center of the fourth driving wheel 6012 is rotatably connected with the second rotating shaft 6013; the outer surface of the second rotating shaft rod 6013 is sleeved with a fifth bearing frame plate 6014; the lower part of the first linear slide rail 601 is connected with a working machine bed plate 1; the lower part of the second linear slide rail 603 is connected with a working machine bed plate 1; the lower part of a fifth bearing frame plate 6014 is connected with a working machine bed plate 1; the second spindle rod 6013 is connected to the first spindle rod 5032; the lower part of the fourth bearing frame plate 6011 is connected with a working machine bed plate 1.

Firstly, the first linear slide rail 601 and the second linear slide rail 603 are controlled by the operation control panel 3 to drive the first gathering plate 602 to move to a position close to the rhinestone perforating machine 4015, at this time, the third transmission gear 608 moves to a position meshed with the fourth transmission gear 609, and moves to a position where the circumferential gear 606 is attached to the outer surface of the rhinestone perforating machine 4015, then the first rotating shaft rod 5032 drives the second rotating shaft rod 6013 to rotate, then the second rotating shaft rod 6013 drives the fourth transmission gear 6012 to rotate, further the fourth transmission gear 6012 drives the third transmission gear 6010 to rotate, then the third transmission gear 6010 rotates to drive the fourth transmission gear 609 to rotate, further the fourth transmission gear 609 drives the third transmission gear 608 to rotate, further the third transmission gear 608 drives the center gear 605 to rotate, further the center gear 605 rotates to drive the circumferential gear 606 to rotate, and then the circumferential gear 606 drives the friction disc 607 to rotate, meanwhile, due to the meshing motion of the circumferential gear 606 and the inner gear 6015, the circumferential gear 606 rolls on the toothed part of the inner surface of the inner gear 6015, the circumferential gear 606 makes a circular motion at the periphery of the central gear 605, that is, the circumferential gear 606 drives the friction disc 607 to adhere to the surface of the rhinestone punching machine 4015 and makes a circular motion, the friction disc 607 rotates to polish the surface of the rhinestone punching machine 4015, the temperature of the rhinestone punching machine 4015 is increased, the rhinestone punching machine 4015 transmits heat to the tourmaline which is punched and cut out on the inner side of the rhinestone punching machine 4015, and the temperature of the tourmaline which is punched and cut out is.

In the invention, the inner sides of the first isolating semicircular ring 5024 and the second isolating semicircular ring 5027 are both provided with heating plates.

So as to reduce the influence of flushing the external cylindrical large tourmaline on the magnetic treatment tourmaline.

In the invention, cotton patches are arranged on the inner arc surfaces of the first arc-shaped attaching block 504, the second arc-shaped attaching block 506, the third arc-shaped attaching block 5016 and the fourth arc-shaped attaching block 5019.

So as to improve the dust wiping effect and simultaneously assist in reducing the electrical property of the ornament tourmaline.

In the invention, the outer ring surface of the friction disc 607 is covered with rubber.

So as to improve the temperature of the drill bit and further maintain the temperature of the internal magnetic therapy tourmaline, prevent the electromagnetic weakening caused by the temperature reduction of the drill bit and maintain the magnetic therapy effect.

In the invention, torsion spring shafts are adopted at the joints of the first arc-shaped attaching block 504, the second arc-shaped attaching block 506, the third arc-shaped attaching block 5016 and the fourth arc-shaped attaching block 5019 with the first sliding block column 503, the second sliding block column 505, the third sliding block column 5015 and the fourth sliding block column 5018 respectively.

So that the inner side surfaces of the first arc-shaped fitting block 504, the second arc-shaped fitting block 506, the third arc-shaped fitting block 5016 and the fourth arc-shaped fitting block 5019 can be fitted to the surface of the external cylindrical large tourmaline at any time.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides a magnetotherapy is former stone processing apparatus for mattress, including work machine bed board (1), support footing (2) and operation control screen (3), characterized by: the device also comprises a punching and cutting mechanism (4), an ash wiping mechanism (5) and a heating maintenance mechanism (6); the lower part of the working machine bed plate (1) is welded with the supporting footing (2); an operation control screen (3) is arranged above the working machine bed plate (1); the upper part of the working machine bed plate (1) is sequentially connected with a punching and cutting mechanism (4), an ash wiping mechanism (5) and a heating maintenance mechanism (6); the punching and cutting mechanism (4) is connected with the ash wiping mechanism (5); the ash wiping mechanism (5) is connected with the heating maintenance mechanism (6).

2. The raw stone processing device for the magnetic therapy mattress as claimed in claim 1, wherein the perforating and cutting mechanism (4) comprises a power motor (401), a first telescopic rotating shaft (402), a first transmission gear (403), a first connecting sleeve plate (404), a first electric push rod (405), a first bearing frame plate (406), a second transmission gear (407), a first transmission wheel (408), a second transmission wheel (409), a second bearing frame plate (4010), a first set base table (4011), a third bearing frame plate (4012), a first lead screw (4013), a first internal thread slide block (4014), a rhinestone perforating machine (4015), a first limit sliding sleeve (4016), a first limit sliding column (4017), a second limit sliding sleeve (4018), a second limit sliding column (4019), a first fixed arc-shaped splint (4020), a first electric slide rail (4021), a first fixed frame elevated column (4022), A second fixed arc splint (4023) and a tightening bolt (4024); an output shaft of the power motor (401) is rotationally connected with the first telescopic rotating shaft (402); the outer surface of the first telescopic rotating shaft (402) is sleeved with a first bearing frame plate (406); the outer surface of the first telescopic rotating shaft (402) is spliced with the first transmission gear (403); the outer surface of the first telescopic rotating shaft (402) is sleeved with a first connecting sleeve plate (404); the first connecting sleeve plate (404) is spliced with the first electric push rod (405); the first electric push rod (405) is connected with the first bearing frame plate (406); the first transmission gear (403) is meshed with the second transmission gear (407); the axle center of the second transmission gear (407) is rotationally connected with the first transmission wheel (408); the axle center of the first transmission wheel (408) is inserted into the first bearing frame plate (406); the outer ring surface of the first driving wheel (408) is in transmission connection with a second driving wheel (409) through a belt; the outer surface of the second driving wheel (409) is sleeved with a second bearing frame plate (4010); the axle center of the second transmission wheel (409) is rotationally connected with the first screw rod (4013); the lower part of the second bearing frame plate (4010) is connected with a first aggregate base table (4011); the upper part of the first collection base table (4011) is connected with a third bearing frame plate (4012); the first screw rod (4013) is inserted into the third bearing frame plate (4012); the outer surface of the first screw rod (4013) is in sliding connection with a first internal thread sliding block (4014); the upper part of the first internal thread sliding block (4014) is connected with a rhinestone punching machine (4015) through a bolt; one side of the rhinestone perforating machine (4015) is connected with the first limit sliding sleeve (4016), and the other side of the rhinestone perforating machine (4015) is connected with the second limit sliding sleeve (4018); a first fixed arc-shaped clamping plate (4020) is arranged above one side, close to the third bearing frame plate (4012), of the rhinestone punching machine (4015); the inner side of the first limiting sliding sleeve (4016) is in sliding connection with a first limiting sliding column (4017); one side of the first limiting sliding column (4017) is inserted into the second bearing frame plate (4010), and the other side of the first limiting sliding column (4017) is inserted into the third bearing frame plate (4012); the inner side of the second limiting sliding sleeve (4018) is in sliding connection with a second limiting sliding column (4019); one side of a second limiting sliding column (4019) is inserted into a second bearing frame plate (4010), and the other side of the second limiting sliding column (4019) is inserted into a third bearing frame plate (4012); the first fixed arc-shaped splint (4020) is in sliding connection with the first electric sliding rail (4021); the lower part of the first electric sliding rail (4021) is connected with a first fixed frame elevated column (4022); the first fixed frame high column (4022) is spliced with the second fixed arc splint (4023); the outer surface of the screwing bolt (4024) is sequentially connected with a first fixed arc-shaped splint (4020) and a second fixed arc-shaped splint (4023); the lower part of the first fixed frame high column (4022) is connected with a working machine bed plate (1); the lower part of the first collection base table (4011) is connected with a working machine bed plate (1); the lower part of the power motor (401) is connected with a working machine bedplate (1); the first telescopic rotating shaft (402) is connected with the ash wiping mechanism (5); the first fixed frame high column (4022) is connected with the ash wiping mechanism (5); the lower part of the first bearing frame plate (406) is connected with a working machine bed plate (1).

3. The raw stone processing device for the magnetic therapy mattress as claimed in claim 2, wherein the dust wiping mechanism (5) comprises a second set base platform (501), a first sliding groove plate (502), a first sliding block column (503), a first arc-shaped joint block (504), a second sliding block column (505), a second arc-shaped joint block (506), a first bidirectional spring rod (507), a first connecting plate (508), a first linkage rod (509), a first rounded diamond disk (5010), a second linkage rod (5011), a second connecting plate (5012), a second sliding groove plate (5013), a cleaning nozzle (5014), a third sliding block column (5015), a third arc-shaped joint block (5016), a second bidirectional spring rod (5017), a fourth sliding block column (5018), a fourth arc-shaped joint block (5019), a third bidirectional spring rod (5020), a first fixing plate (5021), a first sliding block seat (5012), a second electric push rod (3), a second sliding block seat (5022), a second electric push rod (5023), The first isolating semicircular ring (5024), the second slider seat (5025), the third electric push rod (5026), the second isolating semicircular ring (5027), the fourth bidirectional spring rod (5028), the second fixing plate (5029), the toggle convex column (5030), the second round-corner diamond-shaped disc (5031) and the first rotating shaft rod (5032); one side above the second set base platform (501) is connected with the first slider seat (5022) in a sliding mode, and the other side above the second set base platform (501) is connected with the second slider seat (5025) in a sliding mode; one side above the first chute plate (502) is connected with the first slider column (503) in a sliding manner, and the other side above the first chute plate (502) is connected with the second slider column (505) in a sliding manner; the upper part of the first sliding block column (503) is rotationally connected with the first arc-shaped fitting block (504); the first sliding block column (503) is spliced with a first bidirectional spring rod (507); the first bidirectional spring rod (507) is inserted into the second slider column (505); the upper part of the second slider column (505) is rotationally connected with a second arc-shaped fitting block (506); the first chute plate (502) is in bolted connection with the first connector plate (508); one side above the first connecting plate (508) is rotatably connected with a first linkage rod (509), and the other side above the first connecting plate (508) is spliced with a fourth bidirectional spring rod (5028); the upper part of the first linkage rod (509) is rotationally connected with a first rounded rhombic disc (5010); the first round-corner diamond disc (5010) is spliced with the shifting convex column (5030); the upper part of the first rounded rhombic disc (5010) is rotationally connected with the second linkage rod (5011); the upper part of the second linkage rod (5011) is in sliding connection with a second connecting plate (5012); the lower part of the second connecting plate (5012) is spliced with a fourth bidirectional spring rod (5028); the second connecting plate (5012) is connected with the second sliding groove plate (5013) through bolts; a cleaning nozzle (5014) is arranged above the second chute plate (5013); one side below the second sliding groove plate (5013) is in sliding connection with the third sliding block column (5015), and the other side below the second sliding groove plate (5013) is in sliding connection with the fourth sliding block column (5018); the lower part of the third sliding block column (5015) is rotationally connected with a third arc-shaped fitting block (5016); the third sliding block column (5015) is spliced with a second bidirectional spring rod (5017); the second bidirectional spring rod (5017) is spliced with the fourth sliding block column (5018); the lower part of the fourth sliding block column (5018) is rotationally connected with a fourth arc-shaped fitting block (5019); the second sliding groove plate (5013) is connected with a third bidirectional spring rod (5020); the lower part of the third bidirectional spring rod (5020) is connected with the first chute plate (502); the middle part of the outer surface of the fourth bidirectional spring rod (5028) is sleeved with a second fixing plate (5029); the middle part of the outer surface of the third bidirectional spring rod (5020) is sleeved with the first fixing plate (5021); the upper part of the first slider seat (5022) is spliced with the first isolating semicircular ring (5024); the first slider seat (5022) is spliced with the second electric push rod (5023); splicing and connecting with a second set base table (501); the second slider seat (5025) is spliced with a third electric push rod (5026); the upper part of the second slider seat (5025) is spliced with the second isolating semicircular ring (5027); the convex column (5030) is in transmission connection with a second rounded rhombic disc (5031); the axis of the second rounded rhombic disc (5031) is rotationally connected with the first rotating shaft rod (5032); the lower part of the second integrated base table (501) is connected with a working machine bed plate (1); the second fixing plate (5029) is connected with the first fixing frame high column (4022); the lower part of the first fixing plate (5021) is connected with a working machine bed plate (1); the axle center of the first round-corner diamond disc (5010) is connected with a first fixed frame elevated column (4022); the second round-corner diamond disc (5031) is connected with the first telescopic rotating shaft (402); the first rotating shaft rod (5032) is connected with a heating maintenance mechanism (6).

4. The stone processing device for the magnetic therapy mattress as claimed in claim 3, wherein the warming maintenance mechanism (6) comprises a first linear slide rail (601), a first gathering plate (602), a second linear slide rail (603), a circular slide rail disc (604), a central gear (605), a circumferential gear (606), a friction disc (607), a third transmission gear (608), a fourth transmission gear (609), a third transmission wheel (6010), a fourth bearing frame plate (6011), a fourth transmission wheel (6012), a second rotating shaft rod (6013), a fifth bearing frame plate (6014) and an internal gear (6015); the upper part of the first linear slide rail (601) is in sliding connection with the first gathering plate (602); the lower part of the first gathering plate (602) is connected with a second linear slide rail (603) in a sliding way; the upper part of the first gathering plate (602) is connected with a circular sliding rail disc (604); the axis of the circular ring sliding rail disc (604) is inserted into the central gear (605); the circular ring sliding rail plate (604) is sleeved with an inner gear (6015); the central gear (605) is meshed with the circumferential gear (606); the axis of the circumferential gear (606) is in sliding connection with the circular sliding rail disc (604); the circumferential gear (606) is meshed with an internal gear (6015); the axis of the circumferential gear (606) is inserted into the friction disc (607); the axle center of the central gear (605) is rotationally connected with the third transmission gear (608); a fourth bearing frame plate (6011) is arranged on one side, close to the first linear sliding rail (601), of the third transmission gear (608); the fourth bearing frame plate (6011) is spliced with a third driving wheel (6010); the axle center of the third driving wheel (6010) is rotationally connected with the fourth transmission gear (609); the outer ring surface of the third driving wheel (6010) is in transmission connection with a fourth driving wheel (6012) through a belt; the axle center of a fourth transmission wheel (6012) is rotationally connected with a second rotating shaft rod (6013); the outer surface of the second rotating shaft rod (6013) is sleeved with a fifth bearing frame plate (6014); the lower part of the first linear slide rail (601) is connected with a working machine bed plate (1); the lower part of the second linear slide rail (603) is connected with a working machine bed plate (1); the lower part of the fifth bearing frame plate (6014) is connected with a working machine bed plate (1); the second rotating shaft rod (6013) is connected with the first rotating shaft rod (5032); the lower part of the fourth bearing frame plate (6011) is connected with a working machine bed plate (1).

5. The raw stone processing device for the magnetic therapy mattress as claimed in claim 4, wherein the inner sides of the first isolating semicircular ring (5024) and the second isolating semicircular ring (5027) are provided with heating sheets.

6. The apparatus for treating raw stones for magnetic therapy mattress according to claim 5, wherein the inner arc surfaces of the first arc-shaped fitting block (504), the second arc-shaped fitting block (506), the third arc-shaped fitting block (5016) and the fourth arc-shaped fitting block (5019) are all provided with cotton patches.

7. The stone processing unit as claimed in claim 6, wherein the friction disk (607) is coated with rubber on its outer circumferential surface.

8. The apparatus as claimed in claim 7, wherein the first arc-shaped fitting block (504), the second arc-shaped fitting block (506), the third arc-shaped fitting block (5016) and the fourth arc-shaped fitting block (5019) are respectively connected with the first sliding block column (503), the second sliding block column (505), the third sliding block column (5015) and the fourth sliding block column (5018) by torsion spring shafts.