CN113199050A

CN113199050A - Recoverable model processing system that gives a new lease of life

Info

Publication number: CN113199050A
Application number: CN202110520073.3A
Authority: CN
Inventors: 杨蕊; 陈莹文
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-13
Filing date: 2021-05-13
Publication date: 2021-08-03
Anticipated expiration: 2041-05-13
Also published as: CN113199050B

Abstract

The invention relates to the technical field of model processing equipment, in particular to a recyclable model processing system. The drilling machine can drill a model and comprises a rotating ring, a power source and a drill bit, wherein the rotating ring is provided with a plurality of power sources, and each power source is connected with one drill bit; the plurality of drill bits are uniformly distributed on the rotating ring and are aligned to different directions taking the rotating ring as a plane, so that the plurality of models can be simultaneously aligned to the plurality of drill bits for drilling and processing respectively, and a plurality of dies can be processed at the same time; the plurality of drill bits can be used in sequence, one drill bit can be used after the use, the other drill bit can be used, the drill bit which is just used can be cooled, the phenomenon that the loss is increased due to the temperature rise when the model is processed uninterruptedly for a long time is avoided, and the service life of the drill bit is prolonged.

Description

Recoverable model processing system that gives a new lease of life

Technical Field

The invention relates to the technical field of model processing equipment, in particular to a recyclable model processing system.

Background

The invention with publication number CN111785139A discloses an intelligent model processing system, which comprises a flat plate, a circular hole, a fixed sleeve, a transverse sliding rod and a hemisphere box. Dull and stereotyped central point puts and is provided with the circular port, and the equal fixed cover of fixedly connected with in both ends about dull and stereotyped downside is sheathe in two fixed equal lateral sliding connection that sheathes in and is connected with the horizontal sliding rod, and the equal fixedly connected with hemisphere box in the inner of two horizontal sliding rods sets up relatively two hemisphere boxes, and two hemisphere boxes all are located the below of circular port. The intelligent model processing system further comprises a hollow column, a round box, equilong rods and solid columns, wherein the hollow column is fixedly connected below the rear part of the flat plate, the solid column is fixedly connected to the rear side of the round box, the upper part of the solid column is vertically and slidably connected to the hollow column, the solid column and the hollow column are fixed in a screw compression mode, and the equilong rods are hinged to the left side and the right side of the round box; however, the invention cannot drill the model.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a recyclable model reconstruction processing system which can be used for drilling a model.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a recyclable model reconstruction processing system comprises a rotary ring, power sources and drill bits, wherein the rotary ring is provided with a plurality of power sources, and each power source is connected with one drill bit.

Furthermore, a middle shaft is arranged in the middle of the rotating ring and can rotate around the axis of the middle shaft.

The telescopic frame further comprises a telescopic frame and a guard plate, the guard plate is fixed in the middle of the telescopic frame, and the middle shaft rotates on the telescopic frame.

The guard plate is further provided with a plurality of brush heads which are arranged in two rows, and a plurality of drill bits can penetrate through the space between the two rows of brush heads.

The telescopic frame further comprises a support and vertical grooves, the telescopic frame slides on the support, and the support is provided with two vertical grooves.

The recyclable model reconstruction processing system has the beneficial effects that:

the plurality of drill bits are uniformly distributed on the rotating ring and are aligned to different directions taking the rotating ring as a plane, so that the plurality of models can be simultaneously aligned to the plurality of drill bits for drilling and processing respectively, and a plurality of dies can be processed at the same time; the plurality of drill bits can be used in sequence, one drill bit can be used after the use, the other drill bit can be used, the drill bit which is just used can be cooled, the phenomenon that the loss is increased due to the temperature rise when the model is processed uninterruptedly for a long time is avoided, and the service life of the drill bit is prolonged.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a plurality of drills uniformly distributed on a rotary ring according to the present invention;

FIG. 2 is a schematic view of a plurality of brush heads distributed on a guard plate according to the present invention;

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

FIG. 4 is a schematic structural view of a rack and a rectangular block according to the present invention;

FIG. 5 is a schematic structural diagram of a rectangular block according to the present invention;

FIG. 6 is a schematic diagram of a recyclable remanufactured modeling system of the present invention;

FIG. 7 is a schematic view of the structure of the rectangular block sliding in the cross beam according to the present invention;

FIG. 8 is a schematic view of the present invention with gears fixed to the bottom bracket;

FIG. 9 is a schematic view of the structure of the gear-rack meshing transmission of the present invention;

FIG. 10 is a schematic view of the brush head cleaning bit of the present invention;

FIG. 11 is a schematic view of the structure of the sliding sleeve fixed on the telescopic frame.

In the figure: a swivel 101; a power source 102; a drill bit 103; a central axis 104; a gear 105; a telescopic frame 201; a guard plate 202; a brush head 203; a bracket 301; a vertical slot 302; a lifting plate 303; a screw rod 304; a clamp plate 305; a cross beam 306; a sliding sleeve 401; a rack 402; and a rectangular block 403.

Detailed Description

Referring to fig. 1, an exemplary process for drilling a mold is shown in the figure:

the rotary ring 101 is fixed on a platform or a workbench, because the rotary ring 101 is provided with a plurality of power sources 102, each power source 102 is connected with one drill bit 103, and the plurality of drill bits 103 are uniformly distributed on the rotary ring 101 and are aligned to different directions taking the rotary ring 101 as a plane, a plurality of models can be simultaneously aligned to the plurality of drill bits 103 for drilling respectively, and a plurality of molds can be machined at the same time;

meanwhile, the plurality of drill bits 103 can be used in sequence, one of the drill bits 103 can be used after the use, and the other drill bit 103 can be used, so that the drill bit 103 which is just used can be cooled, the phenomenon that the loss is increased due to the temperature rise when the model is continuously processed for a long time is avoided, and the service life of the drill bit 103 is prolonged.

The drill bits 103 with different diameters can be selected, so that the diameters of holes processed by the drill bits 103 are different, the requirement of processing holes with different diameters on a model can be met, and only the drill bits 103 with corresponding diameters need to be processed in sequence;

the drilling machining efficiency to the model can be accelerated by applying the above mode, and the drilling machining efficiency is higher than that of an ordinary drilling machine, because the ordinary drilling machine only has one drill bit, the drill bit needs to be continuously replaced after the model is machined, a large amount of time is wasted, and an operator is required to operate, so that the time and the labor are wasted.

Referring to FIG. 1, one exemplary operation that may result in rapid transitions between multiple drill bits 103 is shown:

the middle part of the swivel 101 is fixedly connected to the middle part of the middle shaft 104, and the middle shaft 104 can rotate around the axis of the middle shaft, so that an operator can hold two ends of the middle shaft 104 with two hands, then one of the drill bits 103 is aligned with the model to be processed, and when the other drill bit 103 needs to be converted, the operator only needs to rotate the middle shaft 104, so that the middle shaft 104 can drive the swivel 101 to rotate, the drill bits 103 in different directions on the swivel 101 are rotated and aligned with the position of the model to be processed, the operation is simple and convenient, meanwhile, other power equipment can be used for driving the middle shaft 104 to rotate, the automatic rotation of the middle shaft 104 is realized, the manual operation is replaced, and the accuracy is improved.

Referring to fig. 2, an exemplary operation process for avoiding the damage of the operator caused by the slag generated during drilling is shown as follows:

the protective plate 202 is fixed in the middle of the telescopic frame 201, the protective plate 202 is arc-shaped and separates an operator from the plurality of drill bits 103, so when the drill bits 103 drill the model, the generated slag flying to the operator can be on the protective plate 202, the slag is prevented from directly injuring the operator, and meanwhile, the slag is prevented from flying into the mouth and nose or eyes of the operator to hurt the operator;

two ends of the middle shaft 104 are respectively rotatably connected to the left end and the right end of the inner side of the telescopic frame 201, the inner side of the telescopic frame 201 is provided with a speed reducing motor, and one end of the middle shaft 104 is fixedly connected to an output shaft of the speed reducing motor, so that the speed reducing motor can be used for driving the middle shaft 104 to automatically rotate, and the plurality of drill bits 103 can be rapidly switched.

Referring to FIG. 2, one exemplary operation that may be achieved to clean the drill bit 103 is as follows:

the protective plate 202 is provided with the plurality of brush heads 203, the plurality of brush heads 203 are arranged in two rows, the plurality of drill bits 103 can penetrate through the space between the two rows of brush heads 203, when the central shaft 104 rotates and drives the plurality of drill bits 103 to perform rapid switching, the plurality of drill bits 103 can enter the space between the two rows of brush heads 203 in sequence due to the rotation of the central shaft 104, and the material residues remained on the plurality of drill bits 103 can be cleaned between the two rows of brush heads 203 at the moment, so that the corrosion of the material residues with corrosiveness to the plurality of drill bits 103 is avoided;

meanwhile, a certain amount of cooling liquid can be injected into the brush heads 203, so that when the drill bits 103 sequentially enter the space between the two rows of brush heads 203, the cooling liquid takes away heat generated during machining of the drill bits 103, the drill bits 103 are rapidly cooled, and loss of the drill bits 103 is reduced.

Referring to fig. 3 and 6, an exemplary operation for obtaining a stable drilling process for a mold is shown in the following:

in the drilling process, the drill bit 103 needs to be kept stable and cannot shake, otherwise the drill bit 103 is easily broken, but in the invention, the telescopic frame 201 slides on the support 301, and only the support 301 needs to be fixed on a processing table, and the telescopic frame 201 slides on the support 301, so that the telescopic frame 201 can drive the drill bit 103 to stably move, the drilling process of the drill bit 103 on the model is realized, and the drill bit 103 can be prevented from shaking in the drilling process;

in the invention, an air cylinder or an oil cylinder can be fixed on the bracket 301 to drive the telescopic frame 201 to slide on the bracket 301, so that automatic processing is realized, and manual operation is replaced.

The lifting device is characterized by further comprising two racks 402, two rectangular blocks 403, two lifting plates 303, screw rods 304, clamping plates 305 and cross beams 306, the two racks 402 are arranged, the rectangular blocks 403 are arranged at the upper end and the lower end of each rack 402, the four rectangular blocks 403 slide on the four cross beams 306 respectively, the lifting plates 303 are fixed on the two cross beams 306 on the same side from top to bottom, the screw rods 304 are arranged on the two lifting plates 303 respectively, the two clamping plates 305 rotate on the two screw rods 304 respectively, and the two lifting plates 303 slide in the two vertical grooves 302 respectively.

Referring to fig. 3-7, an exemplary process for positioning a mold according to the present disclosure is:

an operator places the model on the clamping plates 305 positioned on the lower side, then respectively rotates the two screw rods 304, so that the screw rods 304 respectively drive the two clamping plates 305 to lift and approach each other, finally the model is clamped between the two clamping plates 305, and the model is positioned and clamped, so that the model is prevented from moving or rotating in the machining process.

The two gears 105 are fixed on the middle shaft 104, the two racks 402 slide in the two sliding sleeves 401 respectively, the two sliding sleeves 401 are fixed on the telescopic frame 201, and the two gears 105 are in meshing transmission with the two racks 402 respectively.

The two ends of the lifting plate 303 are both provided with rods, and the two rods slide in the two vertical grooves 302 respectively.

Referring to fig. 6-11, one exemplary process by which the mold may be drilled at intervals is shown:

after the two clamping plates 305 clamp the model, the telescopic frame 201 can be used for sliding, at the moment, four rectangular blocks 403 respectively slide in four cross beams 306, under the action of two vertical grooves 302 limiting two lifting plates 303, the two lifting plates 303 can not move, so that the drill bit 103 can approach and drill the model, after the first empty machining of the model is finished, the central shaft 104 rotates, so that the second drill bit 103 rotates and aligns with the model, in the rotating process of the central shaft 104, two gears 105 are respectively meshed to drive two racks 402 to move upwards or downwards in two sliding sleeves 401, the two racks 402 can respectively drive the four cross beams 306 to lift through the four rectangular blocks 403, so that the two clamping plates 305 clamp the model to lift, the height of the drill bit 103 can not change, the model can be freely moved relative to the drill bit 103, and the first machined hole can be moved aside, the position without drilling is moved to the corresponding position of the drill 103, then the telescopic frame 201 is made to slide again to drive the second drill 103 to drill the model, because the plurality of drills 103 are uniformly distributed on the rotary ring 101, when each drill 103 is aligned with the model, the angle of each rotation of the central shaft 104 is the same, the distance for driving the model to move is the same when each rotation, the interval drilling processing can be realized on the model by repeating the operation, and the interval drilling processing can be carried out on the model while the model is ensured to be clamped.

The cross beam 306 is provided with a slotted hole for the rectangular block 403 to slide on the cross beam 306 in the horizontal direction.

The shape of the slotted hole is rectangular.

Referring to fig. 6 and 7, an exemplary operation of maintaining the clamping pattern in a horizontal state after obtaining the clamping pattern is as follows:

the rectangular block 403 is rectangular, so that the rectangular block has an upper plane and a lower plane, and the slotted hole formed in the cross beam 306 is rectangular, so that when the rectangular block 403 slides in the slotted hole, the upper plane and the lower plane of the rectangular block 403 are in surface contact with the slotted hole, so that the cross beam 306 cannot rotate on the rectangular block 403, and the cross beam 306 is always kept in a horizontal state in the process of ascending and descending along with the rack 402, so that the model clamped by the two clamping plates 305 is always kept in a horizontal state, thereby ensuring that the drill bit 103 can drill along the direction vertical to the axis of the model, and ensuring the uniform stress when the drill bit 103 is machined.

Claims

1. A recyclable model reconstruction processing system comprises a rotary ring (101), a power source (102) and drill bits (103), wherein the rotary ring (101) is provided with a plurality of power sources (102), and each power source (102) is connected with one drill bit (103).

2. The recyclable remanufactured modeling system of claim 1, wherein: the middle part of the rotating ring (101) is provided with a middle shaft (104), and the middle shaft (104) can rotate around the axis of the middle shaft.

3. The recyclable remanufactured modeling system of claim 2, wherein: the telescopic frame is characterized by further comprising a telescopic frame (201) and a protection plate (202), wherein the protection plate (202) is fixed in the middle of the telescopic frame (201), and the middle shaft (104) rotates on the telescopic frame (201).

4. The recyclable remanufactured modeling system of claim 3, wherein: the brush head brush structure is characterized in that a plurality of brush heads (203) are arranged on the guard plate (202), the brush heads (203) are arranged in two rows, and a plurality of drill bits (103) can penetrate through the space between the two rows of brush heads (203).

5. The recyclable remanufactured modeling system of claim 4, wherein: the telescopic frame is characterized by further comprising a support (301) and vertical grooves (302), the telescopic frame (201) slides on the support (301), and the support (301) is provided with two vertical grooves (302).

6. The recyclable remanufactured modeling system of claim 5, wherein: the lifting device is characterized by further comprising two racks (402), two rectangular blocks (403), lifting plates (303), screw rods (304), clamping plates (305) and cross beams (306), the number of the racks (402) is two, the rectangular blocks (403) are arranged at the upper end and the lower end of each rack (402), the four rectangular blocks (403) slide on the four cross beams (306) respectively, the lifting plates (303) are fixed on the two cross beams (306) on the upper side and the lower side, the screw rods (304) are arranged on the two lifting plates (303) respectively, the two clamping plates (305) rotate on the two screw rods (304) respectively, and the two lifting plates (303) slide in the two vertical grooves (302) respectively.

7. The recyclable remanufactured modeling system of claim 6, wherein: the two gears (105) are fixed on the middle shaft (104), the two racks (402) slide in the two sliding sleeves (401) respectively, the two sliding sleeves (401) are fixed on the telescopic frame (201), and the two gears (105) are in meshing transmission with the two racks (402) respectively.

8. The recyclable remanufactured modeling system of claim 7, wherein: the two ends of the lifting plate (303) are provided with rods, and the two rods slide in the two vertical grooves (302) respectively.

9. The recyclable remanufactured modeling system of claim 8, wherein: the cross beam (306) is provided with a slotted hole for the rectangular block (403) to slide on the cross beam (306) in the horizontal direction.

10. The recyclable remanufactured modeling system of claim 9, wherein: the shape of the slotted hole is rectangular.