CN221018844U - Quick tool setting device for CNC milling pulp mould - Google Patents

Abstract

The utility model relates to the technical field of milling machines, in particular to a rapid tool setting device for CNC milling pulp molds. The paper pulp mould processing device comprises a processing table, a hydraulic pump and a photoelectric sensor are arranged on one side of the processing table, the hydraulic pump and the photoelectric sensor are corresponding to the hydraulic pump and the photoelectric sensor which are supported by an inclined plate right above the processing table, a moving component is arranged on a supporting rod on one side of the processing table and used for controlling the position of an end milling cutter, a fixing component is arranged on a sliding rod arranged on the upper surface of the processing table, after the paper pulp mould is placed in the fixing component and clamped, the hydraulic pump pushes the photoelectric sensor to move, the upper side and the lower side of the photoelectric sensor are corresponding to each other, the moving component drives the milling cutter to move left and right, when the photoelectric sensor is completely shielded by the end of a sliding plate, the position is the position for processing, so that the paper pulp mould can be processed at different positions left and right through the back and forth movement of the photoelectric sensor, and the practicability of the device is improved.

Description

Quick tool setting device for CNC milling pulp mould

Technical Field

The utility model relates to the technical field of milling machines, in particular to a rapid tool setting device for CNC milling pulp molds.

Background

Milling machines mainly refer to machine tools for machining various surfaces of a workpiece by using milling cutters. The milling machine is a machine tool for milling the workpiece by using the milling cutter, the milling machine can mill the plane, the groove, the gear teeth, the threads and the spline shaft, the milling machine can also process complex molded surfaces, the efficiency is higher than that of a planing machine, the milling machine is widely applied to mechanical manufacturing and repair departments, and a tool setting device is usually required to be used for completing the positioning of the milling cutter before the milling machine performs the processing.

For rapid tool setting devices for milling machines, there are many prior art techniques, such as:

Chinese patent publication No. CN219234079U discloses a quick tool setting device of milling machine, concretely relates to milling machine technical field, including the chassis, the top fixedly connected with controller of chassis, one side of controller is provided with the fixed plate, and one side fixedly connected with slide rail of fixed plate, the outer wall sliding connection of slide rail has the adjusting ring, and the spout has been seted up to the inner wall of adjusting ring, the outer wall fixedly connected with connecting rod of spout, and the top fixedly connected with bracing piece of connecting rod, tool setting mechanism subassembly is installed in the front of adjusting ring, and this quick tool setting device of milling machine has made things convenient for the user to the center department of work piece to obtain fast through the tool setting mechanism subassembly that sets up, has simplified the user and has carried out measuring flow to work piece center department, has improved the user and has carried out the efficiency of tool setting to the milling cutter, has increased the user simultaneously to the work piece of different specifications and has carried out the precision of tool setting to the work piece, has improved the follow-up precision of processing the work piece, has guaranteed the quality of processing the work piece.

However, the existing milling machine needs to move the cutter to the end part of the workpiece during tool setting, measures the center of machining through a manual work and a measuring ruler, measures the positions of the milling cutter and the center, and then completes the measurement of the workpiece, but the tool setting mode is relatively low in tool setting efficiency, needs to take more time to complete the measurement of the machining position of the workpiece, and the machining position is fixed.

In view of the above, the utility model provides a rapid tool setting device for CNC milling pulp molds.

Disclosure of utility model

The utility model aims to solve the defects and provide the rapid tool setting device for CNC milling pulp mould capable of processing in multiple directions.

Through hydraulic pump and the photoelectric sensor that both ends set up about processing platform one side, place the pulp mould and be held the back in fixed subassembly, the hydraulic pump promotes the photoelectric sensor and removes, and upper and lower both sides photoelectric sensor is corresponding, then, removes the subassembly and drives milling cutter and control and remove, when the slide tip shelter from photoelectric sensor completely, this moment, this position is the position of processing promptly to through photoelectric sensor round trip movement, realize processing the pulp mould about different positions, improved the practicality of device.

The utility model provides a rapid tool setting device for CNC milling pulp mould, which comprises a processing table, wherein a hydraulic pump and a photoelectric sensor are arranged on one side of the processing table and correspond to the hydraulic pump and the photoelectric sensor which are supported by an inclined plate right above the processing table, a moving component is arranged on a supporting rod on one side of the processing table and used for controlling the position of an end milling cutter, and a fixing component is arranged on a sliding rod arranged on the upper surface of the processing table.

As a further improvement of the technical scheme, the fixing assembly comprises clamping plates, first bolts and nuts, wherein the first bolts penetrate through the clamping plates on two sides, and the first bolts are in threaded connection with the nuts.

As a further improvement of the technical scheme, springs are arranged on two sides of the clamping plate, the springs are sleeved on the sliding rod, and the sliding rod is connected with the clamping plate in a sliding mode.

As a further improvement of the technical scheme, the moving assembly consists of a motor, a gear and a rack, wherein the motor is fixed on a sliding plate sleeved on the outer ring of the supporting rod, and the gear and the rack which are coaxially connected with the motor are meshed.

As a further improvement of the technical scheme, the rack is embedded in the supporting rod, the fixing rings arranged at the symmetrical two ends of the rack are in threaded connection with the second bolts, and the second bolts are in threaded connection with the supporting rod.

Compared with the prior art, the utility model has the beneficial effects that:

In this CNC mills swift tool setting device of processing pulp mould, through hydraulic pump and the photoelectric sensor that both ends set up about processing platform one side, place the pulp mould and be held the back in fixed subassembly, hydraulic pump promotes photoelectric sensor and removes, and upper and lower both sides photoelectric sensor is corresponding, then, remove the subassembly and drive milling cutter and control the removal, when the slide tip shelter from photoelectric sensor completely, this moment, this position is the position of processing promptly to through photoelectric sensor round trip movement, realize processing pulp mould control different positions, improved the practicality of device.

Drawings

The utility model is described in more detail below, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a fixing assembly according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the present utility model at A;

FIG. 4 is a schematic diagram of a moving assembly according to the present utility model;

fig. 5 is a schematic view of the explosion structure of the rack and the second bolt of the present utility model.

The meaning of each reference sign in the figure is:

100. A processing table; 101. A support rod; 102. A spring;

200. a hydraulic pump; 201. A photoelectric sensor;

300. A fixing assembly; 301. a clamping plate; 302. a first bolt; 303. a nut;

400. A moving assembly; 401. a motor; 402. a gear; 403. a rack; 404. a fixing ring; 405. and a second bolt.

Detailed Description

However, the existing milling machine needs to move the cutter to the end part of the workpiece during tool setting, measures the center of machining through a manual work and a measuring ruler, measures the positions of the milling cutter and the center, and then completes the measurement of the workpiece, but the tool setting mode is relatively low in tool setting efficiency, needs to take more time to complete the measurement of the machining position of the workpiece, and the machining position is fixed.

As shown in fig. 1 to 5, the apparatus includes a processing table 100, wherein a hydraulic pump 200 and a photoelectric sensor 201 are provided at one side of the processing table 100, corresponding to the hydraulic pump 200 and the photoelectric sensor 201 supported by a sloping plate right above, a moving assembly 400 is provided on a supporting rod 101 at one side of the processing table 100, the moving assembly 400 is used for controlling the position of an end mill, a fixing assembly 300 is provided on a sliding rod provided on the upper surface of the processing table 100, after a pulp mould is placed in the fixing assembly 300 and clamped by the hydraulic pump 200 and the photoelectric sensor 201 provided at the upper and lower ends of one side of the processing table 100, the hydraulic pump 200 pushes the photoelectric sensor 201 to move, the upper and lower side of the photoelectric sensor 201 correspond to each other, then, the moving assembly 400 drives the mill to move left and right, when the photoelectric sensor 201 is completely blocked at the end of the sliding plate, at this time, the position is the position of processing by the photoelectric sensor 201, thereby realizing processing of different left and right positions of the pulp mould by the back and forth movement of the photoelectric sensor 201, and the practicability of the apparatus is improved.

Specifically, the fixing assembly 300 includes a clamping plate 301, a first bolt 302 and a nut 303, the first bolt 302 penetrates through the clamping plate 301 on both sides, and the first bolt 302 and the nut 303 are in threaded connection, the springs 102 are arranged on both sides of the clamping plate 301, the springs 102 are sleeved on the sliding rods, the sliding rods are in sliding connection with the clamping plate 301, firstly, the clamping plates 301 on both sides of the sliding rods are pulled to separate the clamping plates 301 on both sides so as to adapt to the width of the pulp mould, along with pushing of the clamping plates 301, the springs 102 on the sliding rods are compressed, elastic potential energy is increased, after the pulp mould is placed on the clamping plates 301 on both sides, the clamping plates 301 are released, under the elastic action of the springs 102 on both sides, the springs 102 push the clamping plates 301 to clamp and fix the pulp mould, meanwhile, due to the fact that the clamping plates 301 on both sides are in sliding connection with the sliding rods, the springs 102 on both sides abut against the clamping plates 301, then the first bolt 302 penetrates through the clamping plates 301, and the nut 303 is screwed into the first bolt 302, so that the pulp mould is clamped firmly by the clamping plates 301, and the pulp mould is prevented from falling off from the clamping plates 301 on both sides.

Secondly, the moving assembly 400 is composed of a motor 401, a gear 402 and a rack 403, the motor 401 is fixed on a sliding plate sleeved on the outer ring of the supporting rod 101, the gear 402 and the rack 403 which are coaxially connected with each other are meshed, the rack 403 is embedded in the supporting rod 101, a fixing ring 404 which is arranged at two symmetrical ends of the rack 403 is in threaded connection with a second bolt 405, the second bolt 405 is in threaded connection with the supporting rod 101, when a pulp mould is fixed well, according to the position required to be processed, a hydraulic pump 200 on the processing table 100 and a hydraulic pump 200 on a sloping plate respectively push the photoelectric sensor 201 to be processed, so that the photoelectric sensors 201 at the upper end and the lower end are kept on the same vertical line, then, the motor 401 is started, the motor 401 drives the gear 402 to rotate, and as tooth grooves of the outer ring of the gear 402 are abutted against the joint of the rack 403 and the supporting rod 101, when the gear 402 moves along the rack 403, then, when the sliding plate completely shields the upper side sensor 201 and the lower side sensor 201, the motor 401 stops moving, and a cylinder at the end pushes a cylinder to process the pulp mould, and the pulp mould is processed, and the position of the photoelectric sensor 201 is moved by the hydraulic pump 200, and the position of the left side sensor 201 is moved, and the pulp mould is different, so that rapid processing is realized.

To sum up, the working principle of the scheme is as follows: firstly, the clamping plates 301 on the two sides of the slide bar are pulled to separate the clamping plates 301 on the two sides so as to adapt to the width of a pulp mould, the springs 102 on the slide bar are compressed along with the pushing of the clamping plates 301, the elastic potential energy is increased, after the pulp mould is placed on the clamping plates 301 on the two sides, the clamping plates 301 are released, under the elastic action of the springs 102 on the two sides, the springs 102 push the clamping plates 301 to clamp and fix the pulp mould, simultaneously, as the clamping plates 301 on the two sides are in sliding connection with the slide bar, the springs 102 on the two sides push the clamping plates 301 against each other, then, a first bolt 302 passes through the clamping plates 301, a nut 303 is screwed into the first bolt 302, so that the pulp mould is clamped by the clamping plates 301 more firmly, when the pulp mould is fixed, according to the position required to be processed, the hydraulic pump 200 on the processing table 100 and the hydraulic pump 200 on the slide plate respectively push the photoelectric sensor 201 to the position required to be processed, so that the photoelectric sensor 201 on the upper end and the lower end are kept on the same vertical line, then, a motor 401 is started, and the motor 401 drives a gear 402 to rotate, as the outer ring of the gear 402 is abutted against the rack 403 and the supporting rod 101, thus when the gear 402 moves along the rack 403, the first bolt 302 passes through the rack, the first bolt 302 is prevented from rotating, the position of the motor is completely, and the end of the position of the electric sensor is completely rotates, and the end of the piston is completely and the end of the pulp mould is completely processed.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a swift tool setting device of CNC milling pulp mould which characterized in that: the automatic end milling cutter machining device comprises a machining table (100), wherein a hydraulic pump (200) and a photoelectric sensor (201) are arranged on one side of the machining table (100), the hydraulic pump (200) and the photoelectric sensor (201) are corresponding to the hydraulic pump (200) and the photoelectric sensor (201) which are supported by an inclined plate right above, a moving assembly (400) is arranged on a supporting rod (101) on one side of the machining table (100), the moving assembly (400) is used for controlling the position of an end milling cutter, and a fixing assembly (300) is arranged on the sliding rod arranged on the upper surface of the machining table (100).

2. The CNC milling pulp mold quick tool setting device of claim 1, wherein: the fixing assembly (300) comprises clamping plates (301), first bolts (302) and nuts (303), wherein the first bolts (302) penetrate through the clamping plates (301) on two sides, and the first bolts (302) are in threaded connection with the nuts (303).

3. The CNC milling pulp mold quick tool setting device of claim 2, wherein: springs (102) are arranged on two sides of the clamping plate (301), the springs (102) are sleeved on a sliding rod, and the sliding rod is connected with the clamping plate (301) in a sliding mode.

4. The CNC milling pulp mold quick tool setting device of claim 1, wherein: the movable assembly (400) is composed of a motor (401), a gear (402) and a rack (403), the motor (401) is fixed on a sliding plate sleeved on the outer ring of the supporting rod (101), and the gear (402) and the rack (403) which are coaxially connected with the motor (401) are meshed.

5. The CNC milling pulp mold quick tool setting device of claim 4, wherein: the rack (403) is embedded in the supporting rod (101), fixing rings (404) arranged at two symmetrical ends of the rack (403) are connected with a second bolt (405) in a threaded mode, and the second bolt (405) is connected with the supporting rod (101) in a threaded mode.