CN108326437A - A kind of digitlization mold production equipment - Google Patents

Abstract

The invention discloses a kind of digitlization mold production equipments,Transmission case A including being fixedly installed on ground,It is provided with drive cavity A in the transmission case A,On the left of the drive cavity A motor A is installed in lower end inner wall,The upper surfaces motor A be connected by power is provided with to be rotatably assorted the thread spindle A connecting with upper end inner wall on the left of the drive cavity A,The polished rod A being installed between drive cavity A or more the inner walls on the right side of the thread spindle A,The outer surfaces the polished rod A are slidably provided with the sliding block A being connect with the thread spindle A screw-thread fits,The right sides the sliding block A are installed with block,Run through before and after being installed in the block and is open towards right fixed plate,The driving pulley for stretching into the fixed plate and being contacted with inner wall above and below the fixed plate is provided in the fixed plate,Apparatus of the present invention are simple in structure,It is easy to use,This equipment uses Digital Control,It is processed using laser,Effectively increase the precision and reliability of equipment.

Description

A kind of digitlization mold production equipment

Technical field

The present invention relates to mould manufacturing fields, and in particular to a kind of digitlization mold production equipment.

Background technology

With the development of science and technology, social progress, country promotes always high-tech development, is led in traditional mold manufacturing Domain is assembled after being generally processed to the part of mold using center lathe milling machine and simple machining center, in process, Process equipment determines the quality of mold, and common machine tool precision is low, and without high-end and digitized characteristic, this sets It is standby to use Digital Control, it is processed using laser, effectively increases the precision and reliability of equipment.

Invention content

The purpose of the present invention is to provide a kind of digitlization mold production equipments, and the above-mentioned of the prior art can be overcome to lack It falls into.

According to the present invention, a kind of digitlization mold production equipment of apparatus of the present invention, including it is fixedly installed on the biography on ground It is provided in dynamic case A, the transmission case A on the left of drive cavity A, the drive cavity A and is installed with motor A, the electricity in lower end inner wall The upper surfaces machine A be connected by power is provided with to be rotatably assorted the thread spindle A connecting with upper end inner wall on the left of the drive cavity A, the biography The outer surfaces polished rod A, the polished rod A being installed on the right side of the thread spindle A between dynamic chamber A or more inner walls are slidably arranged There are the right sides sliding block A, the sliding block A being connect with the thread spindle A screw-thread fits to be installed with block, is installed in the block It is front and back to run through and be open towards right fixed plate, be provided in the fixed plate stretch into the fixed plate and with above and below the fixed plate The driving pulley of inner wall contact is installed with motor B, the electricity in the drive cavity A lower end inner walls below the driving pulley The output shaft of machine B rotatably run through the drive cavity A and with the driving pulley be connected by power, on the right sides the drive cavity A The transmission shaft A for upwardly extending through the transmission case A and stretching into exterior space, the biography are rotatably provided between lower inner wall The outer surfaces moving axis A are installed with the conical pulley in the drive cavity A, and the conical pulley passes through skin with the driving pulley Drive connects, the rotating cylinder mechanism being provided between the driving pulley and conical pulley in the drive cavity A, described turn Cylinder mechanism includes the strainer symmetrical above and below for being set to the drive cavity A upper and lower sides inboard wall outer surfaces, the strainer it Between be rotatably provided with fixed link, the fixed rod outer surface is installed with to offset roller with the belt, on the transmission shaft A End face is installed with fixed plate, is provided with the perforative cavity A in left and right in the fixed plate, symmetrical in the cavity A to be installed with Through the cavity A and the screw that upwardly extends, the screw run through the mold for being fixedly arranged on the dead plate upper end face and with it is solid Nut thread set on the mould upper surface is connected, and the transmission case A left end faces are installed with the side plate upwardly extended, Upper surface, which is installed in transmission case B, the transmission case B, on the right side of the side plate is installed with front and back run through and downward opening drive cavity B is installed with the right sides motor C, motor C be connected by power in the drive cavity B inner left walls and is provided through the transmission Chamber B and the thread spindle B connecting that is rotatably assorted with inner wall on the right side of the drive cavity B, the thread spindle B outer surface threads mating connection It is provided with sliding B, the perforative cavity B in left and right, the cavity B lower end inner walls outer surface setting are provided in the sliding downsides B There are the track with cavity B lower end inner walls outer surface sliding connection connection, the track to be fixedly arranged under the transmission case B End face, the sliding lower faces B are installed with gripping block, the perforative installation cavity in left and right, the installation are installed in the gripping block It is installed in chamber lower end inner wall through the installation cavity lower end inner wall and the fixing axle that extends downwardly, the fixing axle lower face is solid Equipped with the laser head above the mold；The side plate right side is installed with the fixation above the mold Seat, the fixed seat right side is installed with mounting rod and lower mounting rod, the upper mounting rod and lower mounting rod right side It is tiltedly installed with the upper protective cover and low protection cover for being directed toward the mold respectively, pacifies respectively in the upper protective cover and low protection cover Equipped with headlamp and camera, the headlamp is to process the mold offer illumination, and the camera can be conveniently remote Journey observes process.

Further technical solution, the strainer include being connect with the drive cavity A inboard wall outer surface secure fits Pedestal, the spring cavity of opening backwards is provided in the pedestal, is provided with and the spring cavity left and right sides in the spring cavity The sliding block C of inner wall sliding connection, the sliding block C front end faces are installed with through the spring cavity front inner wall and stretch into described Telescopic shaft in drive cavity A, the telescopic shaft outer surface in the spring cavity is provided with to be connect with the sliding block C resilient engagements Spring, the sliding block C is connect with the fixed link secure fit, before making the roller can be according to the tightness of belt After slide, improve transmission stabilization and efficiently.

Further technical solution, the upper ends cavity A inner wall are installed with the cavity being connected to exterior space, the screw End portion is fixedly arranged in the inner wall of the upper ends the cavity A, and the screw upper part is across the cavity and the mold and admittedly Nut thread set on the mould upper surface is connected, to using notch, screw bolt and nut by the mold and fixation Plate is fixed, and the installation convenience of mold is improved.

Further technical solution, the transmission case A, side plate and transmission case B use integral structure, the transmission case A Left end face is connect with lower face secure fit on the right side of the side plate, upper surface and the left sides the transmission case B on the right side of the side plate End face secure fit connection, to improve the structural stability of equipment.

Further technical solution is rotatably provided with several spherical balls, institute in the fixed plate upper and lower sides inner wall It states ball to be slidably connected with the driving pulley upper and lower end face, to make the block that can carry out the driving pulley Lower height adjusts and does not interfere with the rotation of the driving pulley, effectively increases the convenience of equipment.

The beneficial effects of the invention are as follows：

In the initial state due to present device, the sliding B is located at right side position in the drive cavity B, the sliding block A, Block, driving pulley are located at centre in the drive cavity A, and the belt bypasses the roller and conical pulley centre Outer surface, the sliding block C are located at centre in the spring cavity, and the spring is in compressive state, to make above structure It is located at initial position in the initial state, can be adjusted in follow-up work, effectively improve the working regularity of equipment.

When equipment is run, the motor B work drives the driving pulley to rotate, the driving pulley passes through described Belt and the roller and conical pulley be connected by power, the then roller and conical pulley rotation, with the conical pulley power The transmission shaft A of connection then generates rotation, is fixed on the fixed plate of the upper surfaces the transmission shaft A and is fixedly arranged on the dead plate upper end The mold in face generates rotation, and the motor C work prepares by the sliding B drivings to the coordinate origin of drawing hole position to described Mold is processed according to drawing, and after processing carries out, according to the technique processing modelling of drawing, the motor A controls the cunning Block A is moved up and down, and so that the driving pulley upper and lower position is changed, is driven the belt outside the roller and conical pulley Surface upper and lower position changes, then the rotating speed of the transmission shaft A is made to change, and the velocity of rotation for realizing the mold becomes Change, the motor C drives the sliding B to be moved to corresponding position according to the technique processing modelling of drawing, with turning for the mold Dynamic mutually to coordinate, the laser head carries out laser burns processing to the mould upper surface, uses plyability to move to realize, It realizes and the laser head is controlled according to the technique processing modelling of drawing to the high-precision processing of mold progress by program, have Effect improves the digitized degree of equipment.

When needing to improve the rotating speed of the mold, the motor B is in running order, and the motor A drives the spiral shell Line axis A reversion, then the sliding block A drive the driving pulley to move down, the belt then it is synchronous with the driving pulley to Lower movement, then the belt be wound into conical pulley lower end outer surface, due to the conical pulley and the belt contacts Radius become smaller, the belt is in diastole state, then is in the upward diastole of the spring compressed, and the belt is made to be in flat Weighing apparatus state, then the rotating speed of the conical pulley improves, and then the mold rotating speed is made to improve, to which the transmission for improving equipment is steady It is qualitative.

When needing to reduce the rotating speed of the mold, the motor B is in running order, and the motor A drives the spiral shell Line axis A is rotated forward, then the sliding block A drives the driving pulley to move up, the belt then it is synchronous with the driving pulley to Upper movement, then the belt be wound into conical pulley upper end outer surface, due to the conical pulley and the belt contacts Radius become larger, the belt is in tensioning state, then be in compress the spring continue to compress downwards, make at the belt In equilibrium state, then the rotating speed of the conical pulley reduces, and then the mold rotating speed is made to reduce, to improve the biography of equipment Dynamic stability.

Apparatus of the present invention are simple in structure, easy to use, this equipment uses Digital Control, is processed, is had using laser Effect improves the precision and reliability of equipment.

The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention It should be determined by the scope of protection defined in the claims.

Description of the drawings

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of digitlization mold production equipment of the present invention；

Fig. 2 is the schematic diagram in the directions A-A in Fig. 1；

Fig. 3 is the schematic diagram in the directions B-B in Fig. 1；

Fig. 4 be in Fig. 1 C to partial structural diagram.

Specific implementation mode

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

This specification（Including any accessory claim, abstract and attached drawing）Disclosed in any feature, except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

As shown in Figs 1-4, a kind of digitlization mold production equipment of the invention, including it is fixedly installed on the transmission case on ground It is provided in A100, the transmission case A100 on the left of drive cavity A103, the drive cavity A103 and is installed with motor in lower end inner wall The upper surface A101, motor A101 be connected by power is provided with to be rotatably assorted with upper end inner wall on the left of the drive cavity A103 and connect Thread spindle A104, the polished rod being installed between drive cavity A103 or more the inner walls on the right side of the thread spindle A104 The outer surface A106, the polished rod A106 is slidably provided with the sliding block A107 being connect with the thread spindle A104 screw-thread fits, The right sides the sliding block A107 are installed with block 108, run through before and after being installed in the block 108 and are open towards right fixed plate 115, the active stretched into the fixed plate 115 and contacted with about 115 inner wall of the fixed plate is provided in the fixed plate 115 Belt wheel 111 is installed with motor B102, the motor in the drive cavity A103 lower end inner walls of the lower section of the driving pulley 111 The output shaft of B102 rotatably run through the drive cavity A103 and with 111 be connected by power of the driving pulley, the drive cavity It is rotatably provided between inner wall above and below on the right side of A103 and upwardly extends through the transmission case A100 and stretch into exterior space The outer surfaces transmission shaft A110, the transmission shaft A110 are installed with the conical pulley 114 in the drive cavity A103, the cone Shape belt wheel 114 and the driving pulley 111 by 113 be connected by power of belt, the driving pulley 111 and conical pulley 114 it Between be provided with the rotating cylinder mechanism in the drive cavity A103, the rotating cylinder mechanism includes symmetrical above and below being set to the transmission The strainer 109 of chamber A103 upper and lower sides inboard wall outer surfaces is rotatably provided with fixed link between the strainer 109 124,124 outer surface of the fixed link is installed with to offset roller 112 with the belt 113, and the upper surfaces the transmission shaft A110 are solid Equipped with fixed plate 115, it is provided with the perforative cavity A116 in left and right in the fixed plate 115, it is symmetrical in the cavity A116 It is installed with the screw 117 for running through the cavity A116 and upwardly extending, the screw 117, which runs through, is fixedly arranged on the fixed plate 115 The mold 119 of upper surface is simultaneously connect, the transmission case with 118 screw-thread fit of nut for being fixedly arranged on 119 upper surface of the mold A100 left end faces are installed with the side plate 105 upwardly extended, and 105 right side upper surface of the side plate is installed with transmission case B120, institute State be installed in transmission case B120 it is front and back run through and downward opening drive cavity B121, it is solid in the drive cavity B121 inner left walls Equipped with motor C122, the right sides motor C122 be connected by power be provided through the drive cavity B121 and with the drive cavity Inner wall is rotatably assorted the thread spindle B123 of connection on the right side of B121, and the thread spindle B123 outer surface threads mating connection is provided with cunning B125 is met, the perforative cavity B127 in left and right, the cavity B127 lower end inner walls outer surface are provided in the sliding downsides B125 It is provided with the track 126 with cavity B127 lower end inner walls outer surface sliding connection connection, the track 126 is fixedly arranged on The lower faces the transmission case B120, the sliding lower faces B125 are installed with gripping block 128, are installed in the gripping block 128 The perforative installation cavity 129 in left and right is installed with through 129 lower end inner wall of the installation cavity simultaneously in 129 lower end inner wall of the installation cavity The fixing axle 130 extended downwardly, 130 lower face of the fixing axle are installed with the laser head 131 above the mold 119； 105 right side of the side plate is installed with the fixed seat 81 above the mold 119, and 81 right side of the fixed seat is solid Dingan County is equipped with upper mounting rod 82 and lower mounting rod 86, and the upper mounting rod 82 and lower 86 right side of mounting rod are tiltedly installed with respectively It is directed toward the upper protective cover 83 and low protection cover 85 of the mold 119, is installed respectively in the upper protective cover 83 and low protection cover 85 There are a headlamp 84 and camera 87, the headlamp 84 is to provide illumination processing the mold 119, and the camera 87 Remote observation process can be facilitated.

Valuably, wherein the strainer 109 includes being connect with the drive cavity A103 inboard wall outer surface secure fits Pedestal 201, the spring cavity 200 of opening backwards is provided in the pedestal 201, be provided in the spring cavity 200 with it is described The sliding block C204 of 200 left and right sides inner wall of spring cavity sliding connection, the sliding block C204 front end faces are installed with through the bullet 200 front inner wall of spring chamber and the telescopic shaft 202 in the drive cavity A103 is stretched into, the telescopic shaft in the spring cavity 200 202 outer surfaces are provided with the spring 203 being connect with the sliding block C204 resilient engagements, the sliding block C204 and the fixed link 124 secure fits connect, and to make the roller 112 that can be slid back and forth according to the tightness of belt, improve the steady of transmission It is fixed and efficient.

Valuably, wherein the upper ends cavity A116 inner wall is installed with the cavity being connected to exterior space, the screw 117 end portions are fixedly arranged in the inner wall of the upper ends the cavity A116, and 117 upper part of the screw passes through the cavity and described Mold 119 is connect with 118 screw-thread fit of nut for being fixedly arranged on 119 upper surface of the mold, to using notch, screw bolt and nut The mold 119 and fixed plate 115 are fixed, the installation convenience of mold is improved.

Valuably, wherein the transmission case A100, side plate 105 and transmission case B120 use integral structure, the transmission Case A100 left end faces are connect with 105 right side lower face secure fit of the side plate, 105 right side upper surface of the side plate with it is described Transmission case B120 left end face secure fits connect, to improve the structural stability of equipment.

Valuably, wherein several spherical balls are rotatably provided in 115 upper and lower sides inner wall of the fixed plate, it is described Ball is slidably connected with 111 upper and lower end face of the driving pulley, to make the block 108 can be to the driving pulley 111 progress upper-lower height adjustings and the rotation for not interfering with the driving pulley 111, effectively increase the convenience of equipment.

In the initial state, the sliding B125 is located at right side position in the drive cavity B121 to present device, described Sliding block A107, block 108, driving pulley 111 are located at centre in the drive cavity A103, and the belt 113 is around described 114 centre outer surface of roller 112 and conical pulley, the sliding block C204 are located at centre in the spring cavity 200, institute It states spring 203 and is in compressive state.

When equipment is run, the motor B102 work drives the driving pulley 111 to rotate, the driving pulley 111 By the belt 113 and 114 be connected by power of the roller 112 and conical pulley, then the roller 112 and conical pulley 114 Rotation, then generates rotation with the transmission shaft A110 of 114 be connected by power of the conical pulley, is fixed on the upper ends the transmission shaft A110 The fixed plate 115 in face and the mold 119 for being fixedly arranged on 115 upper surface of the fixed plate generate rotation, and the motor C122 work will The sliding B125 drivings prepare to be processed the mold 119 according to drawing, process to the coordinate origin of drawing hole position After progress, according to the technique processing modelling of drawing, the motor A101 controls the sliding block A107 and moves up and down, and makes the active 111 upper and lower position of belt wheel changes, and drives the belt 113 the next on 114 outer surface of the roller 112 and conical pulley It sets and changes, then the rotating speed of the transmission shaft A110 is made to change, realize the velocity of rotation variation of the mold 119, The motor C122 drives the sliding B125 to be moved to corresponding position according to the technique processing modelling of drawing, with the mold 119 rotation is mutually coordinated, and the laser head 131 carries out laser burns processing to 119 upper surface of the mold.

When needing to improve the rotating speed of the mold 119, the motor B102 is in running order, and the motor A101 drives The dynamic thread spindle A104 is inverted, then the sliding block A107 drives the driving pulley 111 to move down, and the belt 113 is then It being moved downward simultaneously with the driving pulley 111, then the belt 113 is wound into 114 lower end outer surface of the conical pulley, by Become smaller in the radius that the conical pulley 114 is contacted with the belt 113, the belt 113 is in diastole state, then is in pressure Tight 203 upward diastole of the spring, makes the belt 113 be in equilibrium state, then the rotating speed of the conical pulley 114 carries Height, and then 119 rotating speed of the mold is made to improve.

When needing to reduce the rotating speed of the mold 119, the motor B102 is in running order, and the motor A101 drives The dynamic thread spindle A104 is rotated forward, then the sliding block A107 drives the driving pulley 111 to move up, and the belt 113 is then With the driving pulley 111 synchronize move up, then the belt 113 is wound into 114 upper end outer surface of the conical pulley, by Become larger in the radius that the conical pulley 114 is contacted with the belt 113, the belt 113 is in tensioning state, then is in pressure The tight spring 203 continues to compress downwards, so that the belt 113 is in equilibrium state, then the rotating speed of the conical pulley 114 It reduces, and then makes the reduction of 119 rotating speed of the mold.

The beneficial effects of the invention are as follows：In the initial state due to present device, the sliding B is located at the drive cavity Right side position in B, the sliding block A, block, driving pulley are located at centre in the drive cavity A, and the belt is around described Roller and conical pulley centre outer surface, the sliding block C are located at centre in the spring cavity, and the spring is in pressure Contracting state can be adjusted in follow-up work, effectively carry to make above structure be located at initial position in the initial state The working regularity of high equipment.

When equipment is run, the motor B work drives the driving pulley to rotate, the driving pulley passes through described Belt and the roller and conical pulley be connected by power, the then roller and conical pulley rotation, with the conical pulley power The transmission shaft A of connection then generates rotation, is fixed on the fixed plate of the upper surfaces the transmission shaft A and is fixedly arranged on the dead plate upper end The mold in face generates rotation, and the motor C work prepares by the sliding B drivings to the coordinate origin of drawing hole position to described Mold is processed according to drawing, and after processing carries out, according to the technique processing modelling of drawing, the motor A controls the cunning Block A is moved up and down, and so that the driving pulley upper and lower position is changed, is driven the belt outside the roller and conical pulley Surface upper and lower position changes, then the rotating speed of the transmission shaft A is made to change, and the velocity of rotation for realizing the mold becomes Change, the motor C drives the sliding B to be moved to corresponding position according to the technique processing modelling of drawing, with turning for the mold Dynamic mutually to coordinate, the laser head carries out laser burns processing to the mould upper surface, uses plyability to move to realize, It realizes and the laser head is controlled according to the technique processing modelling of drawing to the high-precision processing of mold progress by program, have Effect improves the digitized degree of equipment.

When needing to improve the rotating speed of the mold, the motor B is in running order, and the motor A drives the spiral shell Line axis A reversion, then the sliding block A drive the driving pulley to move down, the belt then it is synchronous with the driving pulley to Lower movement, then the belt be wound into conical pulley lower end outer surface, due to the conical pulley and the belt contacts Radius become smaller, the belt is in diastole state, then is in the upward diastole of the spring compressed, and the belt is made to be in flat Weighing apparatus state, then the rotating speed of the conical pulley improves, and then the mold rotating speed is made to improve, to which the transmission for improving equipment is steady It is qualitative.

When needing to reduce the rotating speed of the mold, the motor B is in running order, and the motor A drives the spiral shell Line axis A is rotated forward, then the sliding block A drives the driving pulley to move up, the belt then it is synchronous with the driving pulley to Upper movement, then the belt be wound into conical pulley upper end outer surface, due to the conical pulley and the belt contacts Radius become larger, the belt is in tensioning state, then be in compress the spring continue to compress downwards, make at the belt In equilibrium state, then the rotating speed of the conical pulley reduces, and then the mold rotating speed is made to reduce, to improve the biography of equipment Dynamic stability.

Apparatus of the present invention are simple in structure, easy to use, this equipment uses Digital Control, is processed, is had using laser Effect improves the precision and reliability of equipment.

The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention It should be determined by the scope of protection defined in the claims.

Claims (5)

1. a kind of digitlization mold production equipment, including be fixedly installed in the transmission case A, the transmission case A on ground and be provided with Be installed in lower end inner wall on the left of drive cavity A, the drive cavity A upper surfaces motor A, motor A be connected by power be provided with Upper end inner wall is rotatably assorted the thread spindle A of connection on the left of the drive cavity A, and position is installed between drive cavity A or more the inner walls The outer surfaces polished rod A, the polished rod A on the right side of the thread spindle A are slidably provided with to be connected with the thread spindle A screw-thread fits The right sides sliding block A, the sliding block A connect are installed with block, run through before and after being installed in the block and are open towards right fixation Plate is provided with the driving pulley for stretching into the fixed plate and being contacted with inner wall above and below the fixed plate in the fixed plate, described Motor B is installed in the drive cavity A lower end inner walls below driving pulley, the output shaft of the motor B rotatably runs through The drive cavity A and with the driving pulley be connected by power, be rotatably provided between inner wall up and down on the right side of the drive cavity A It upwardly extends through the transmission case A and stretches into the outer surfaces transmission shaft A, the transmission shaft A of exterior space and be installed with positioned at institute The conical pulley in drive cavity A is stated, the conical pulley passes through belt be connected by power, the driving pulley with the driving pulley The rotating cylinder mechanism being provided between conical pulley in the drive cavity A, the rotating cylinder mechanism include setting symmetrical above and below It is rotatably provided with fixed link between the strainer of the drive cavity A upper and lower sides inboard wall outer surfaces, the strainer, The fixed rod outer surface is installed with to offset roller with the belt, and the upper surfaces the transmission shaft A are installed with fixed plate, described solid It is provided with the perforative cavity A in left and right in fixed board, it is symmetrical in the cavity A to be installed with through the cavity A and upwardly extend Screw, the screw run through the mold for being fixedly arranged on the dead plate upper end face and with the nut that is fixedly arranged on the mould upper surface Screw-thread fit connects, and the transmission case A left end faces are installed with the side plate upwardly extended, and upper surface is installed on the right side of the side plate Be installed in transmission case B, the transmission case B it is front and back run through and downward opening drive cavity B, in the drive cavity B inner left walls Be installed with the right sides motor C, motor C be connected by power be provided through the drive cavity B and with the drive cavity B on the right side of in Wall is rotatably assorted the thread spindle B of connection, and the thread spindle B outer surface threads mating connection is provided with sliding B, under the sliding B Be provided with the perforative cavity B in left and right in side, the cavity B lower end inner walls outer surface be provided with outside the cavity B lower end inner walls The track of surface sliding connection connection, the track are fixedly arranged on the lower faces the transmission case B, and the sliding lower faces B are solid Equipped with gripping block, it is installed with the perforative installation cavity in left and right in the gripping block, is installed with and runs through in the installation cavity lower end inner wall The installation cavity lower end inner wall and the fixing axle extended downwardly, the fixing axle lower face are installed with above the mold Laser head；The side plate right side is installed with the fixed seat above the mold, and the fixed seat right side is fixed Mounting rod and lower mounting rod are installed, the upper mounting rod and lower mounting rod right side are tiltedly installed with respectively is directed toward the mould The upper protective cover and low protection cover of tool are separately installed with headlamp and camera in the upper protective cover and low protection cover, described Headlamp is to process the mold offer illumination, and the camera can facilitate remote observation process.

2. a kind of digitlization mold production equipment as described in claim 1, it is characterised in that：The strainer includes and institute The pedestal of drive cavity A inboard wall outer surface secure fits connection is stated, the spring cavity of opening backwards, the bullet are provided in the pedestal Spring intracavitary is provided with the sliding block C being slidably connected with the spring cavity left and right sides inner wall, and the sliding block C front end faces, which are installed with, to be passed through It wears the spring cavity front inner wall and stretches into the telescopic shaft in the drive cavity A, the telescopic shaft appearance in the spring cavity Face is provided with the spring being connect with the sliding block C resilient engagements, and the sliding block C is connect with the fixed link secure fit.

3. a kind of digitlization mold production equipment as described in claim 1, it is characterised in that：, the upper ends cavity A inner wall is solid Equipped with the cavity being connected to exterior space, the screw end portion is fixedly arranged in the inner wall of the upper ends the cavity A, on the screw End part passes through the cavity and the mold and the nut thread mating connection for being fixedly arranged on the mould upper surface.

4. a kind of digitlization mold production equipment as described in claim 1, it is characterised in that：The transmission case A, side plate and biography Dynamic case B uses integral structure, and the transmission case A left end faces are connect with lower face secure fit on the right side of the side plate, described Upper surface is connect with the transmission case B left end face secure fits on the right side of side plate.

5. a kind of digitlization mold production equipment as described in claim 1, it is characterised in that：The fixed plate upper and lower sides inner wall Several spherical balls are inside rotatably provided with, the ball is slidably connected with the driving pulley upper and lower end face.