CN113695927A

CN113695927A - Intelligent machining device based on mathematical model

Info

Publication number: CN113695927A
Application number: CN202110921218.0A
Authority: CN
Inventors: 陈纲
Original assignee: Ningxia University
Current assignee: Ningxia University
Priority date: 2021-08-11
Filing date: 2021-08-11
Publication date: 2021-11-26

Abstract

The invention provides an intelligent machining device based on a mathematical model, relates to the technical field of mathematical model machining devices, and solves the problems that the positions of machining workers cannot be effectively managed when the mathematical model is machined at present, the machining workers cannot be far away from a machining workbench during machining, and potential safety hazards exist. The utility model provides an intelligence processingequipment based on mathematical model, includes T type groove workstation and reciprocal sliding block, T type groove workstation is whole to be square block structure. The disassembly and assembly auxiliary mechanism is carried by a manager, and before the disassembly and assembly auxiliary mechanism is opened every day, the manager can adjust the position of the reciprocating sliding block in advance, so that the part of the finger hole is far away from the T-shaped groove workbench by one meter, the machining operator is guaranteed to be far away from the T-shaped groove workbench during machining, the machining operator is prevented from being injured by spattering of scraps in the machining process, and the forced management of the position of the machining operator is realized.

Description

Intelligent machining device based on mathematical model

Technical Field

The invention belongs to the technical field of mathematical model processing devices, and particularly relates to an intelligent processing device based on a mathematical model.

Background

The mathematical model is mostly a cube, a cylinder, a triangular body and the like, the lower end face is a planar solid geometric model, and when the mathematical model is processed, processing parameters are generally set in advance by a programmable control box, and automatic processing is realized on a mathematical model blank by driving a processing part.

The equipment discovery in the prior art is combined, and the following defects exist when the mathematical model is processed at present:

the mathematical model is mainly made of hard plastic, iron and other materials in order to ensure long-term application and have enough service life, so that scraps are very easy to splash during processing, and if processing workers are too close to a processing workbench, the processing workers are very easy to be injured, and potential safety hazards exist;

however, when a mathematical model is processed at present, the positions of processing workers cannot be effectively managed, and the processing workers cannot be kept away from a processing workbench during processing, so that potential safety hazards exist.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent machining device based on a mathematical model, which aims to solve the problems that the positions of machining workers cannot be effectively managed when the mathematical model is machined at present, the machining workers cannot be far away from a machining workbench during machining, and potential safety hazards exist.

The invention relates to an intelligent processing device based on a mathematical model, which is achieved by the following specific technical means:

an intelligent processing device based on a mathematical model comprises a T-shaped groove workbench and a reciprocating sliding block, wherein the whole T-shaped groove workbench is of a square block structure, a supporting frame is fixedly arranged on the bottom end face of the T-shaped groove workbench, and the whole supporting frame is of a square frame structure; an XY-axis cross sliding table is mounted on the top end face of the T-shaped groove working table, and a programmable control box electrically connected with the XY-axis cross sliding table is fixedly mounted on the left side of the front end face of the supporting frame; the center part of the top end face of the limiting block is provided with a receiving groove which is in a circular groove structure, the axis part of the bottom surface at the inner end of the receiving groove is provided with a through jack, the through jack is a circular hole, and the diameter of the through jack is smaller than that of the receiving groove; a bearing block is fixedly arranged on the lower side of the left end face of the supporting frame, the bearing block is of a square bar block structure as a whole, a sliding block is arranged on the top end face of the bearing block, and the sliding block is of an isosceles trapezoid bar block structure as a whole; the whole reciprocating sliding block is of a square bar structure, and is connected with the bearing block in a sliding manner through the matching of the sliding chute and the sliding block; a stopper is fixedly mounted on the front side of the left end face of the supporting frame, the stopper is integrally of a square structure and located above the bearing block, and the stopper is fixedly connected with the reciprocating sliding block through a locking piece.

Further, the reciprocating slider comprises: the sliding auxiliary block is integrally in a rectangular strip block structure and is fixedly arranged on the bottom end face of the reciprocating sliding block; the sliding groove is of an isosceles trapezoid groove structure, is formed in the bottom end face of the sliding auxiliary block and penetrates through the front end face and the rear end face of the sliding auxiliary block; the sliding auxiliary pieces are balls, and the top surfaces of the inner ends of the sliding chutes and the two inclined end surfaces are uniformly distributed and are respectively embedded with a row of sliding auxiliary pieces in a rotating manner; the sliding block is positioned in the sliding groove, the sliding block is not contacted with the sliding groove, and the sliding auxiliary part is in sliding contact with the sliding block; the reciprocating sliding block comprises: a row of threaded hole sites are arranged on the top surface of the reciprocating sliding block in a uniformly distributed manner; the length of the reciprocating sliding block is consistent with that of the side edge of the supporting frame, the total length of the reciprocating sliding block is two meters, and the distance between every two threaded hole positions is twenty centimeters; the reciprocating sliding block comprises: the containing cavity is of a square cavity structure and is arranged at the front side part inside the reciprocating sliding block; accomodate intracavity end top surface left side and install the switch that dabs, dabs the switch and be connected with programmable control box electrical property through equipment control connecting wire, and equipment control connecting wire is the spiral and accomodates the column structure, and equipment control connecting wire total length is three times of reciprocating sliding block length.

Further, the reciprocating slider comprises: the finger extending hole is of a square hole structure, is formed in the top end face of the reciprocating sliding block and is vertically communicated with the right side of the inner end of the containing cavity; the side length of the finger hole is two points and five centimeters; soft rubber piece, soft rubber piece wholly is square block structure, soft rubber piece is arranged in and is accomodate intracavity inner bottom, soft rubber piece top face is five millimeters to dabbing the interval between the switch, setting through soft rubber piece, when processing operating personnel finger insert indicate stretch hole and crooked contact dabs the switch time, to pressing down the finger elasticity extrusion that dabs the switch through soft rubber piece, make processing staff need not to lift the finger always, can realize supporting to the finger through soft rubber piece, avoid pointing tired.

Furthermore, a group of locking pieces are inserted into the through insertion holes and jointly formed by the round blocks B, the studs and the slots B; the size of the round block B is consistent with that of the accommodating groove, a stud is fixedly arranged at the axis part of the bottom end surface of the round block B, and the stud penetrates through the through insertion hole and is in threaded connection with the threaded hole; one slot B has been seted up at circle piece B top terminal surface axle center position, slot B is the elliptical trough structure, design through the elliptical trough structure, make processing staff under the cooperation of no dismouting complementary unit, can't rotate the retaining member through instrument commonly used, and circle piece B size in the retaining member is unanimous with the groove size of accomodating, so in the retaining member under double-screw bolt and the complete screw thread state of screw hole site, circle piece B is located the accomodating inslot completely, thereby guarantee that can't realize the dismantlement to the retaining member through instrument clamp circle piece B.

The assembling and disassembling auxiliary mechanism is composed of a round block A, a slot A, a round ring and an inserting block; the axle center part of the top end surface of the round block A is provided with a slot A which is of a hexagonal groove structure; the axis part of the bottom end surface of the round block A is provided with an inserting block, and the size of the inserting block is consistent with that of the slot B; a circular ring is fixedly arranged on the outer peripheral surface of the round block A; the added size of the diameter of the round block B and the diameter of the circular ring is smaller than the side length of the top end face of the limiting block, so that when the locking part is rotated and disassembled through the matching of the inner hexagonal wrench and the disassembly and assembly auxiliary mechanism, the circular ring can not contact with the supporting frame, the blockage of the circular ring can not be guaranteed, and the disassembly and assembly of the locking part can be guaranteed.

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

the disassembly and assembly auxiliary mechanism of the invention is carried by a manager, and before the disassembly and assembly auxiliary mechanism is started every day, the manager can adjust the position of the reciprocating sliding block in advance, the part of the finger extension hole is far away from the T-shaped groove working table by one meter, and because the tact switch is arranged on the top surface of the inner end of the containing cavity, when the processing operation is needed, the processing staff needs to move to the front side part of the reciprocating sliding block, and the starting of the processing component can be realized only by inserting fingers into the finger extension holes and bending and pressing the tact switch, and the manager adjusts the position of the reciprocating sliding block in advance to ensure that the part of the finger extension holes is far away from the T-shaped groove workbench by more than one meter, and the light touch switch needs to be continuously pressed, so that the machining operation personnel are far away from the T-shaped groove workbench during machining, the machining operation personnel are prevented from being injured by splashing of scraps in the machining process, and the forcible management of the positions of the machining operation personnel is realized.

The side length of the finger-extending hole is two points and five centimeters, so that enough width is ensured for a processing operator to insert a finger into the finger-extending hole, the tact switch is arranged on the left side of the top surface of the inner end of the containing cavity, and the tact switch can be contacted only by inserting the finger into the finger-extending hole and bending the finger through the arrangement of the installation position of the tact switch, so that the processing operator can be forcibly managed at the position.

According to the invention, the soft rubber block is arranged at the bottom end of the inner end of the containing cavity, the distance between the top end surface of the soft rubber block and the light touch switch is five millimeters, and through the arrangement of the soft rubber block, when the fingers of a processing operator are inserted into the finger extension holes and are bent to contact the light touch switch, the fingers pressing the light touch switch are elastically extruded through the soft rubber block, so that the processing operator does not need to lift the fingers all the time, the fingers can be supported through the soft rubber block, and the fatigue of the fingers is avoided.

The slot B is of an elliptical groove structure, and through the design of the elliptical groove structure, a machining worker cannot rotate the locking piece through a common tool without the cooperation of a dismounting auxiliary mechanism, and the size of the round block B in the locking piece is consistent with that of the accommodating groove, so that the round block B is completely positioned in the accommodating groove when a stud in the locking piece is in a complete threaded state with a threaded hole position, and the locking piece cannot be dismounted by clamping the round block B through the tool.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic view of the present invention at a part enlarged in fig. 1.

Fig. 3 is a schematic axial view of the T-groove table of the present invention.

Fig. 4 is a schematic view of the present invention at a part B in fig. 3.

FIG. 5 is a schematic axial view of the top end of the reciprocating slider of the present invention.

FIG. 6 is a schematic axial view of the bottom end of the reciprocating slider of the present invention.

Fig. 7 is a schematic top view of the auxiliary mechanism for disassembly and assembly of the present invention.

Fig. 8 is a schematic bottom view of the auxiliary mechanism for disassembly and assembly of the present invention.

FIG. 9 is a schematic view of the auxiliary mechanism, the locking member and the reciprocating slider in an enlarged partial sectional view.

Fig. 10 is a schematic view of the retaining member of the present invention.

FIG. 11 is a partially sectional enlarged schematic view of the housing chamber of the present invention.

FIG. 12 is a schematic view of the present invention in the extended state of the reciprocating slider of FIG. 1.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a T-shaped groove workbench; 101. a support frame; 102. an XY-axis cross sliding table; 103. a programmable control box; 104. a limiting block; 105. a bearing block; 106. a slider; 107. a receiving groove; 108. a through jack;

2. a reciprocating slider; 201. a threaded hole position; 202. a finger-extending hole; 203. a sliding auxiliary block; 204. a chute; 205. a sliding aid; 206. a receiving cavity; 207. a soft rubber block; 208. a tact switch;

3. a disassembly and assembly auxiliary mechanism; 301. a round block A; 302. a slot A; 303. a circular ring; 304. an insertion block;

4. a locking member; 401. a round block B; 402. a stud; 403. a slot B;

01. the device controls the connecting wires.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 12:

the invention provides an intelligent processing device based on a mathematical model, which comprises: the T-shaped groove working table comprises a T-shaped groove working table 1 and a reciprocating sliding block 2, wherein the whole T-shaped groove working table 1 is of a square block structure, a supporting frame 101 is fixedly installed on the bottom end face of the T-shaped groove working table 1, and the whole supporting frame 101 is of a square frame structure; an XY-axis cross sliding table 102 is installed on the top end face of the T-shaped groove workbench 1, and a programmable control box 103 electrically connected with the XY-axis cross sliding table 102 is fixedly installed on the left side of the front end face of the supporting frame 101; the central part of the top end surface of the limiting block 104 is provided with a receiving groove 107, the receiving groove 107 is in a circular groove structure, the bottom surface axis part of the inner end of the receiving groove 107 is provided with a through jack 108, the through jack 108 is a circular hole, and the diameter of the through jack 108 is smaller than that of the receiving groove 107; a bearing block 105 is fixedly installed on the lower side of the left end face of the supporting frame 101, the bearing block 105 is of a square bar block structure as a whole, a sliding block 106 is arranged on the top end face of the bearing block 105, and the sliding block 106 is of an isosceles trapezoid bar block structure as a whole; the whole reciprocating sliding block 2 is in a square bar structure, and the reciprocating sliding block 2 is connected with the bearing block 105 in a sliding way through the matching of the sliding chute 204 and the sliding block 106; a limiting block 104 is fixedly installed on the front side of the left end face of the supporting frame 101, the limiting block 104 is integrally of a square block structure, the limiting block 104 is located above the bearing block 105, and the limiting block 104 is fixedly connected with the reciprocating sliding block 2 through a locking piece 4; the reciprocating slider 2 includes: the sliding auxiliary block 203, the sliding auxiliary block 203 is a rectangular bar block structure as a whole, and the sliding auxiliary block 203 is fixedly arranged on the bottom end face of the reciprocating sliding block 2; the sliding groove 204 is of an isosceles trapezoid groove structure, the sliding groove 204 is formed in the bottom end face of the sliding auxiliary block 203, and the sliding groove 204 penetrates through the front end face and the rear end face of the sliding auxiliary block 203; the sliding auxiliary pieces 205 are balls, the top surfaces of the inner ends of the sliding grooves 204 and two inclined end surfaces are uniformly distributed, and a row of sliding auxiliary pieces 205 are respectively embedded and rotatably installed; the sliding block 106 is positioned inside the sliding groove 204, the sliding block 106 is not in contact with the sliding groove 204, and the sliding auxiliary piece 205 is in sliding contact with the sliding block 106; the reciprocating slider 2 includes: a row of threaded hole sites 201 are arranged on the top surface of the reciprocating sliding block 2 in a uniformly distributed manner; the length of the reciprocating sliding block 2 is consistent with that of the side edge of the supporting frame 101, the total length of the reciprocating sliding block 2 is two meters, and the distance between every two threaded hole positions 201 is twenty centimeters.

As shown in fig. 11, the reciprocating slider 2 includes: the containing cavity 206, the containing cavity 206 is a square cavity structure, and the containing cavity 206 is arranged at the front side part inside the reciprocating sliding block 2; accomodate chamber 206 inner top surface left side and install the switch 208 that dabs, dabs switch 208 and programmable control box 103 electric connection through equipment control connecting wire 01, equipment control connecting wire 01 is the spiral and accomodates the column structure, and equipment control connecting wire 01 total length is three times of reciprocating sliding block 2 length, so guarantee that equipment control connecting wire 01 has sufficient length can follow reciprocating sliding block 2's position control and extend thereupon, satisfy reciprocating sliding block 2's position control needs.

As shown in fig. 11, the reciprocating slider 2 includes: the finger extending hole 202 is formed, the finger extending hole 202 is of a square hole structure, and the finger extending hole 202 is formed in the top end face of the reciprocating sliding block 2 and is vertically communicated with the right side of the inner end of the containing cavity 206; the side length of the finger-extending hole 202 is two points and five centimeters, so that the finger-extending hole has enough width for a processing operator to insert the finger into the finger-extending hole 202, the tact switch 208 is arranged on the left side of the top surface of the inner end of the accommodating cavity 206, and the tact switch 208 can be contacted only by inserting the finger into the finger-extending hole 202 and bending the finger through the arrangement of the mounting position of the tact switch 208, so that the processing operator can be forcibly managed at the position; soft rubber block 207, soft rubber block 207 is whole to be square block structure, soft rubber block 207 arranges in and accomodates chamber 206 inner bottom, soft rubber block 207 top terminal surface is five millimeters to dabbing the interval between the switch 208, setting through soft rubber block 207, when processing operating personnel finger insert indicate stretch hole 202 in and crooked contact dabs switch 208, the finger elasticity extrusion of dabbing switch 208 is dabbed down through soft rubber block 207, make processing staff need not to lift the finger always, can realize the support to the finger through soft rubber block 207, avoid pointing tired.

As shown in fig. 9, a group of locking members 4 are inserted into the through-holes 108, and the locking members 4 are formed by a round block B401, a stud 402 and a slot B403; the size of the round block B401 is consistent with that of the accommodating groove 107, a stud 402 is fixedly installed at the axis part of the bottom end face of the round block B401, and the stud 402 penetrates through the through insertion hole 108 and is in threaded connection with the threaded hole 201; according to the invention, through the design of the elliptical groove structure, a machining worker cannot rotate the locking piece 4 by a common tool without the cooperation of the disassembly and assembly auxiliary mechanism 3, and the size of the circular block B401 in the locking piece 4 is consistent with that of the accommodating groove 107, so that when the stud 402 in the locking piece 4 is in a completely threaded state with the threaded hole position 201, the circular block B401 is completely positioned in the accommodating groove 107, and the locking piece 4 cannot be disassembled by clamping the circular block B401 by the tool.

As shown in fig. 7, 8 and 9, the device further comprises an auxiliary dismounting mechanism 3, wherein the auxiliary dismounting mechanism 3 is formed by a round block a301, a slot a302, a round ring 303 and an insertion block 304; the axle center part of the top end surface of the round block A301 is provided with a slot A302, and the slot A302 is in a hexagonal groove structure; the axis part of the bottom end surface of the round block A301 is provided with an inserting block 304, and the size of the inserting block 304 is consistent with that of the slot B403; the outer peripheral surface of the round block A301 is fixedly provided with a round ring 303, and through the arrangement of the round ring 303 in the auxiliary dismounting mechanism 3, a manager can hang the auxiliary dismounting mechanism 3 on a portable object, such as a key ring, through the round ring 303, so that the portable object is realized; the diameter of round block B401 and the diameter of ring 303 add the size and be less than stopper 104 top end face length of a side, so when guaranteeing that dismouting retaining member 4 is rotated in cooperation through allen key and dismouting complementary unit 3, ring 303 can not contact braced frame 101, guarantees that it can not cause the hindrance to guarantee the dismouting of realization to retaining member 4.

When in use:

according to the invention, the auxiliary dismounting mechanism 3 is carried by a manager, and through the arrangement of the circular ring 303 in the auxiliary dismounting mechanism 3, the manager can hang the auxiliary dismounting mechanism 3 on a portable object, such as a key ring, through the circular ring 303, so that the portable object is realized;

before work is started every day, a manager can adjust the position of the reciprocating sliding block 2 in advance to realize the mandatory management of the position of a processing operator, and the method comprises the following specific steps:

firstly, a manager inserts the splicing block 304 in the disassembly and assembly auxiliary mechanism 3 into the slot B403 in the locking piece 4, then inserts an inner hexagonal wrench into the slot A302 in the disassembly and assembly auxiliary mechanism 3, rotates the disassembly and assembly auxiliary mechanism 3, so that the stud 402 in the locking piece 4 is separated from the threaded hole 201, and then pulls out the locking piece 4 from the through insertion hole 108, so that the locking piece 4 does not block the reciprocating sliding block 2 in a limiting way any more;

the manager can smoothly and unimpededly slide the reciprocating sliding block 2 forwards along the bearing block 105 through the matching of the sliding groove 204 and the sliding auxiliary part 205 with the sliding block 106, the total length of the reciprocating sliding block 2 is two meters, the manager only needs to ensure that the part of the finger extending hole 202 is far away from the T-shaped groove workbench by more than 1 meter, after the position of the reciprocating sliding block 2 is adjusted, one threaded hole position 201 closest to the through hole 108 is selected to be coaxially corresponding to the through hole 108, and then the stud 402 in the locking part 4 is in threaded connection with the threaded hole position 201 through the matching of the dismounting auxiliary mechanism 3 and the locking part 4, so that the limitation of the reciprocating sliding block 2 after the current position is adjusted is realized;

when the mathematical model blank fixedly installed on the T-shaped groove worktable 1 needs to be machined, the machining operator needs to start the machining component by pressing the tact switch 208, because the tact switch 208 is installed on the top surface of the inner end of the receiving cavity 206, the current machining operator needs to move to the front side part of the reciprocating slide block 2, insert the finger into the finger-extending hole 202 and bend the finger to contact the tact switch 208, thereby realizing the start of the processing part, and as the manager regulates the position of the reciprocating slide block 2 in advance, the finger extending hole 202 is far away from the T-shaped groove workbench by 1 meter, and the tact switch 208 needs to be continuously pressed, so that the position of the processing operator is forcibly managed, and the condition that during processing, processing operating personnel keeps away from T type groove workstation 1, avoids the sweeps to splash in the course of working and injures processing operating personnel.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an intelligence processingequipment based on mathematical model which characterized in that: comprises a T-shaped groove workbench and a reciprocating sliding block,

the whole T-shaped groove workbench is of a square block structure, a support frame is fixedly arranged on the bottom end face of the T-shaped groove workbench, and the whole support frame is of a square frame structure; a bearing block is fixedly arranged on the lower side of the left end face of the supporting frame, the bearing block is of a square bar block structure as a whole, a sliding block is arranged on the top end face of the bearing block, and the sliding block is of an isosceles trapezoid bar block structure as a whole;

the whole reciprocating sliding block is of a square bar structure, and is connected with the bearing block in a sliding manner through the matching of the sliding chute and the sliding block; a stopper is fixedly mounted on the front side of the left end face of the supporting frame, the stopper is integrally of a square structure and located above the bearing block, and the stopper is fixedly connected with the reciprocating sliding block through a locking piece.

2. The intelligent processing device based on mathematical model as claimed in claim 1, wherein: an XY-axis cross sliding table is mounted on the top end face of the T-shaped groove working table, and a programmable control box electrically connected with the XY-axis cross sliding table is fixedly mounted on the left side of the front end face of the supporting frame;

the center part of the top end face of the limiting block is provided with a containing groove which is of a circular groove structure, the axis part of the bottom face at the inner end of the containing groove is provided with a through jack, the through jack is a circular hole, and the diameter of the through jack is smaller than that of the containing groove.

3. The intelligent processing device based on mathematical model as claimed in claim 1, wherein: the reciprocating sliding block comprises:

the sliding auxiliary block is integrally in a rectangular strip block structure and is fixedly arranged on the bottom end face of the reciprocating sliding block;

the sliding groove is of an isosceles trapezoid groove structure, is formed in the bottom end face of the sliding auxiliary block and penetrates through the front end face and the rear end face of the sliding auxiliary block;

the sliding auxiliary pieces are balls, and the top surfaces of the inner ends of the sliding chutes and the two inclined end surfaces are uniformly distributed and are respectively embedded with a row of sliding auxiliary pieces in a rotating manner;

the slider is located inside the spout, and the slider does not contact with the spout, and the slip auxiliary member slides with the slider and contacts.

4. The intelligent processing device based on mathematical model as claimed in claim 1, wherein: the reciprocating sliding block comprises:

a row of threaded hole sites are arranged on the top surface of the reciprocating sliding block in a uniformly distributed manner;

the length of the reciprocating sliding block is consistent with that of the side edge of the supporting frame, the total length of the reciprocating sliding block is two meters, and the distance between every two threaded hole positions is twenty centimeters.

5. The intelligent processing device based on mathematical model as claimed in claim 1, wherein: the reciprocating sliding block comprises:

the containing cavity is of a square cavity structure and is arranged at the front side part inside the reciprocating sliding block;

accomodate intracavity end top surface left side and install the switch that dabs, dabs the switch and be connected with programmable control box electrical property through equipment control connecting wire, and equipment control connecting wire is the spiral and accomodates the column structure, and equipment control connecting wire total length is three times of reciprocating sliding block length.

6. The intelligent processing device based on mathematical model as claimed in claim 5, wherein: the reciprocating sliding block comprises:

the finger extending hole is of a square hole structure, is formed in the top end face of the reciprocating sliding block and is vertically communicated with the right side of the inner end of the containing cavity;

the side length of the finger hole is two points and five centimeters;

soft rubber piece, soft rubber piece wholly are square block structure, and the inner bottom in accomodating the chamber is arranged in to soft rubber piece, and the interval between soft rubber piece top face to the light touch switch is five millimeters.

7. The intelligent processing device based on mathematical model as claimed in claim 2, wherein: a group of locking pieces are inserted into the through insertion holes and jointly formed by the round blocks B, the studs and the slots B;

the size of the round block B is consistent with that of the accommodating groove, a stud is fixedly arranged at the axis part of the bottom end surface of the round block B, and the stud penetrates through the through insertion hole and is in threaded connection with the threaded hole;

the axle center part of the top end surface of the round block B is provided with a slot B which is of an elliptical slot structure.

8. The intelligent processing device based on mathematical model as claimed in claim 1, wherein: the disassembly and assembly auxiliary mechanism is composed of a round block A, a slot A, a round ring and an insertion block;

the axle center part of the top end surface of the round block A is provided with a slot A which is of a hexagonal groove structure;

the axis part of the bottom end surface of the round block A is provided with an inserting block, and the size of the inserting block is consistent with that of the slot B;

a circular ring is fixedly arranged on the outer peripheral surface of the round block A.

9. The intelligent processing device based on mathematical model as claimed in claim 7, wherein: the sum of the diameter of the round block B and the diameter of the circular ring is smaller than the side length of the top end face of the limiting block.