CN113879758B - Transfer device is used in cutter production with collision protection - Google Patents

Abstract

The invention relates to a transfer device with collision protection for cutter production, which belongs to the technical field of cutter processing and comprises a shell, a spindle motor and a spindle; the inner part of the shell is provided with a built-in cavity, the main shaft is arranged in the built-in cavity, two ends of the main shaft are connected with the shell in a screwed mode through bearings, one end of the main shaft is connected with an output shaft of the main shaft motor, and the main shaft motor is fixed on the outer wall of the shell through a motor bracket. The cutter transporting device has the advantages that a certain protection effect can be achieved in the cutter processing transporting process, collision between cutters is avoided, accidental injury of workers by the cutters is avoided, and the safety of cutter transporting is greatly improved.

Description

Transfer device is used in cutter production with collision protection

Technical Field

The invention relates to the technical field of cutter machining, in particular to a transfer device with collision protection for cutter production.

Background

The machining of the tool involves forging, cutting, sharpening, grinding, polishing, etc. processes, which are not generally all completed in the same production equipment, and therefore a transfer device is required to transfer the tool from the previous process to the next. Because the cutter after sharpening has a certain danger, when the cutter is not transported, the collision of the cutter is easy to cause personnel injury, the prior transportation device has no protective measures, and the damage caused by the collision of the cutter can not be avoided.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings of the prior art, and provides a transfer device for cutter production with collision protection, which can play a certain role in protecting cutters in the cutter processing and transferring process, avoid collision between the cutters, avoid the accidental injury of the cutters to staff, and greatly improve the safety of cutter transfer.

In order to achieve the above purpose, the present invention adopts the following technical scheme: it comprises a shell, a spindle motor and a spindle; the inside of the shell is provided with a built-in cavity, the main shaft is arranged in the built-in cavity, two ends of the main shaft are connected with the shell in a rotating way by utilizing a bearing, one end of the main shaft is connected with an output shaft of a main shaft motor, and the main shaft motor is fixed on the outer wall of the shell by utilizing a motor bracket; it also comprises:

the two T-shaped plates are symmetrically sleeved and fixed on the main shaft;

the cover plate is connected with left and right symmetrically arranged T-shaped plates and is fixed on the lateral plate side wall of the T-shaped plates;

the three roller mounting plates are respectively fixed on two ends of the transverse plate and the longitudinal plate of one T-shaped plate;

the motor mounting plates are three and are respectively fixed on two ends of a transverse plate and a longitudinal plate of the other T-shaped plate; the motor mounting plate and the roller mounting plate are symmetrically arranged left and right;

the rotating motor is fixed in the motor mounting plate;

one end shaft of the driving roller is fixed on an output shaft of the rotating motor, and the other end shaft of the driving roller is screwed on the side wall of the motor mounting plate by a bearing;

the driven roller is screwed in the roller mounting plate by utilizing bearings on shafts at two ends of the driven roller;

the two ends of the conveying belt are respectively sleeved on the driving roller and the driven roller;

the two adsorption magnet layers are opposite in polarity and are relatively fixed on the inner wall of the belt groove formed in the belt surface of the conveyor belt.

Preferably, the bottom wall of the housing is provided with a yielding groove, a moving mechanism is movably arranged in the yielding groove, and the moving mechanism comprises:

the lifting push rod is fixed on the shell below the built-in cavity;

the roller mounting bottom plate is fixed at the output end of the lifting push rod, and two sides of the roller mounting bottom plate are movably guided up and down and are arranged in guide groove bodies arranged at two sides of the abdication groove;

the rollers are fixed at the bottom of the roller mounting bottom plate at equal intervals.

Preferably, the attracting magnet layer is replaced with a cutter holder, the cutter holder is fixed in the belt slot, and the cutter holder comprises:

the cutter clamp comprises a cutter clamp body, wherein one end of the cutter clamp body, which is connected with a belt groove, is of an arc-shaped structure, and the cutter clamp groove is formed in the other end of the cutter clamp body;

the positioning column is movably inserted into the cutter clamp body positioned at one side of the cutter clamp groove;

the spring is sleeved on the positioning column, and two ends of the spring are respectively propped against the outer end cap of the positioning column and the side wall of the cutter clamp body;

the movable adsorption magnetic block is fixed on the positioning column;

the fixed adsorption magnetic block is embedded and fixed in the inner wall of the cutter clamping groove and has opposite polarity with the movable adsorption magnetic block.

Preferably, a cleaning mechanism is fixed on the rotating shaft 11, and the cleaning mechanism is arranged between the left and right T-shaped plates; the cleaning mechanism comprises:

one end of the connecting column is clamped and fixed in an inserting hole formed in the annular wall of the rotating shaft 11 by using a clamping bead embedded in the connecting column;

the brush mounting plate is fixed at the other end of the connecting column;

the hairbrush is fixed on the hairbrush mounting plate.

Preferably, the bottom wall of the built-in cavity is vertically penetrated and provided with a plurality of chip removal holes, and a pull-out tray is movably inserted into the shell below the chip removal holes.

The working principle of the invention is as follows: after the cutter is machined in the previous working procedure, the cutter is manually inserted into a belt groove in the conveying belt one by one, the cutter is adsorbed and fixed on the conveying belt by an adsorption magnet layer which is oppositely arranged, meanwhile, a rotating motor works to drive a driving roller to rotate, the driving roller drives a driven roller to rotate by using the conveying belt, the cutter rotates downwards under the rotation of the conveying belt, after the cutter is fully filled on one conveying belt, a spindle motor is started to work, so that a T-shaped plate is driven to rotate, the conveying belt without the cutter is enabled to be fully filled above a built-in cavity, the spindle motor is stopped, the cutter placing work is repeated until the conveying belt is fully filled with the cutter, the spindle motor is started again to work, the rotation of the T-shaped plate and the cutter placing work are repeated, after all the conveying belts are fully placed with the cutter, the spindle motor is started to rotate, the T-shaped plate is driven, a cover plate connected to the side wall of the T-shaped plate is horizontally arranged on the built-in cavity, and the cutter on the conveying belt is covered by the cover plate;

when the next working procedure is needed, the spindle motor is only required to be started to drive the T-shaped plate to rotate, the conveying belt rotates to the upper part of the built-in cavity, at the moment, the cutter is manually pulled out of the belt groove, and under the working of the rotating motor, the cutter on the conveying belt is sequentially taken out to carry out the next working procedure.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a transfer device with collision protection for cutter production, which can play a certain role in protecting the cutter during the cutter processing and transferring process, avoid collision between cutters, avoid the cutter from injuring staff accidentally, and greatly improve the safety of cutter transferring.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A in fig. 2.

Fig. 4 is a schematic view of the structure of the T-shaped plate, the conveyor belt, the driving roller, the driven shaft, the motor mounting plate and the roller mounting plate in the invention.

Fig. 5 is a left side view of fig. 4.

Fig. 6 is a top view of fig. 4.

Fig. 7 is a schematic view of the position of the attracting magnet layer in the present invention.

Fig. 8 is a schematic view of the position of the tool holder of the present invention.

Fig. 9 is a schematic view of the structure of the tool holder of the present invention.

FIG. 10 is a schematic view of the cleaning mechanism of the present invention.

Fig. 11 is a state diagram of the present invention in which the full-charged tool is built in the built-in cavity.

Reference numerals illustrate:

the device comprises a shell 1, an inner cavity 1-1, a yielding groove 1-2, a chip removal hole 1-3, a roller mounting plate 2, a driven roller 3, a cover plate 4, a conveying belt 5, a belt groove 5-1, a driving roller 6, a motor mounting plate 7, a 'T' -shaped plate 8, a longitudinal plate 8-1, a transverse plate 8-2, a spindle motor 9, a rotating motor 10, a spindle 11, an adsorption magnet layer 12, a cutter clamp 13, a cutter clamp body 13-1, a fixed adsorption magnet 13-2, a cutter clamp groove 13-3, a movable adsorption magnet 13-4, a positioning column 13-5, a spring 13-6, a cleaning mechanism 14, a brush mounting plate 14-1, a connecting column 14-2, a brush 14-3, a clamping bead 14-4, a moving mechanism 15, a lifting push rod 15-1, a roller mounting bottom plate 15-2, a roller 15-3 and a drawing type tray 16.

The specific embodiment is as follows:

the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, in which preferred embodiments in the description are given by way of example only, and all other embodiments obtained by those skilled in the art without making any inventive effort are within the scope of protection of the present invention.

The first embodiment is as follows:

as shown in fig. 1-7 and fig. 10-11, the following technical scheme is adopted in the specific embodiment: it comprises a shell 1, a spindle motor 9 and a spindle 11; the inside of the shell 1 is provided with a built-in cavity 1-1, a main shaft 11 is arranged in the built-in cavity 1-1, two ends of the main shaft 11 are in screwed connection with the shell 1 by using a bearing, one end of the main shaft 11 is connected with an output shaft of a main shaft motor 9, and the main shaft motor 9 is fixed on the outer wall of the shell 1 by using a motor bracket; it also comprises:

the two T-shaped plates 8 are symmetrically sleeved and fixed on the main shaft 11 by bolts in a riveting way;

the cover plate 4 is connected with left and right symmetrically arranged T-shaped plates 8, and is welded and fixed on the side wall of a transverse plate 8-2 of the T-shaped plates 8;

the three roller mounting plates 2 are used for mounting the driven rollers 3 and are respectively riveted and fixed on two ends of the transverse plate 8-2 and the longitudinal plate 8-1 of one T-shaped plate 8 by bolts;

the motor mounting plates 7 are three, provide mounting support for the rotating motor 10, and are respectively riveted and fixed on two ends of the transverse plate 8-2 and the longitudinal plate 8-1 of the other T-shaped plate 8 by using screws; the motor mounting plate 7 and the roller mounting plate 2 are symmetrically arranged left and right;

a rotary electric machine 10 as a power transmission driving mechanism of the conveyor belt 5, which is fixed in the motor mounting plate 7 by bolt caulking;

a drive roller 6 as a drive member for mounting and supporting the conveyor belt 5, one end shaft of which is fixed to an output shaft of the rotary motor 10 by a coupling, and the other end shaft of the drive roller 6 is screwed to a side wall of the motor mounting plate 7 by a bearing;

a driven roller 3 as a driven member for mounting and supporting the conveyor belt 5, which is screwed into the roller mounting plate 2 by bearings on shafts at both ends thereof;

a conveyor belt 5, which is used as a main body part for placing the cutter, two ends of which are respectively sleeved on the driving roller 6 and the driven roller 3 to provide a placing position for the cutter;

the attracting magnet layers 12 are two structural members for positioning the cutter, have opposite polarities, and are relatively fixed on the inner wall of the belt groove 5-1 formed on the belt surface of the conveyor belt 5 by using screws.

As a preferred solution, the bottom wall of the housing 1 is provided with a yielding groove 1-2, a moving mechanism 15 is movably disposed in the yielding groove 1-2, and the moving mechanism 15 includes:

the lifting push rod 15-1, wherein the lifting push rod 15-1 is an electric push rod which is embedded and riveted and fixed on the shell 1 positioned below the built-in cavity 1-1 by bolts;

the roller mounting bottom plate 15-2, wherein the roller mounting bottom plate 15-2 is fixed on the output end of the lifting push rod 15-1, and two sides of the roller mounting bottom plate 15-2 are movably guided up and down to be arranged in guide groove bodies arranged at two sides of the abdication groove 1-2;

the rollers 15-3, wherein the rollers 15-3 are a plurality of universal wheels with wheel locks, and the rollers 15-3 are fixed at the bottom of the roller mounting bottom plate 15-2 at equal intervals.

As a preferable scheme, a cleaning mechanism 14 is fixed on the rotating shaft 11, and the cleaning mechanism 14 is arranged between the left and right T-shaped plates 8; the cleaning mechanism 14 includes:

the connecting column 14-2, wherein one end of the connecting column 14-2 is clamped and fixed in an inserting hole formed on the annular wall of the rotating shaft 11 by using a clamping bead 14-4 embedded in the connecting column, and the connecting column can be assembled and disassembled with only a little force;

the brush mounting plate 14-1, wherein the brush mounting plate 14-1 is welded and fixed at the other end of the connecting column 14-2;

the brush 14-3, the said brush 14-3 is glued and fixed on brush mounting plate 14-1;

the bottom wall of the built-in cavity 1-1 is vertically penetrated and provided with a plurality of chip removal holes 1-3, and a pull type tray 16 is movably inserted into the shell 1 positioned below the chip removal holes 1-3.

The working principle of the specific embodiment is as follows: all electric control elements in the whole equipment are electrically connected with a mobile power supply (not shown in the figure) arranged in the built-in cavity 1-1, after the cutter is machined in the previous working procedure, the cutter is manually inserted into the belt grooves 5-1 in the conveyor belt 5 one by one, the cutter is adsorbed and fixed on the conveyor belt 5 by the opposite adsorption magnet layers 12, meanwhile, the rotary motor 10 works to drive the driving roller 6 to rotate, the driving roller 6 drives the driven roller 3 to rotate by utilizing the conveyor belt 5, the cutter rotates downwards under the rotation of the conveyor belt 5, after one conveyor belt 5 is filled with the cutter, the spindle motor 9 is started to work, so that the T-shaped plate 8 is driven to rotate, the conveyor belt 5 without the cutter is driven to be arranged above the built-in cavity 1-1, the spindle motor 9 is stopped, the cutter is repeatedly placed on the conveyor belt 5 until the cutter is fully loaded, the spindle motor 9 is started to work again, and the T-shaped plate 8 is repeatedly rotated and placed in the conveyor belt 5, after all the cutters are placed in the conveyor belt 5, the T-shaped plate 8 is driven to rotate, so that the T-shaped plate 8 is connected to the T-shaped plate 8 is arranged on the side wall of the built-in cavity 1-in the cover plate 1-1, and the built-in the cover plate 4 can be arranged on the side plate 1-1; in the whole cutter placing process, the cutters placed on the conveyor belt 5 are contacted with the cleaning mechanism 14 fixed on the main shaft 11, at the moment, the cutters brush away the scraps of the previous procedure remained on the cutters through the hairbrushes 14-3, and the scraps fall into the drawing type tray 16 from the scraps discharging holes 1-3, so that the drawing type tray 16 can be drawn out at any time to intensively clean the scraps;

when the machine is required to move to the next station and process, the moving mechanism 15 is started at this moment, the lifting push rod 15-1 works, the roller mounting bottom plate 15-2 is pushed out of the yielding groove 1-2, the plurality of rollers 15-3 are exposed at this moment, the whole machine can be moved, when the machine is moved to the required station, the spindle motor 9 is started, the T-shaped plate 8 is driven to rotate, the conveyor belt 5 is enabled to rotate to the position above the built-in cavity 1-1, at this moment, the cutter is manually pulled out of the belt groove 5-1, and under the working of the rotating motor 10, the cutter on the conveyor belt 5 is sequentially taken out, and the next procedure is performed.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. under the action of the rotating motor, the cutter is driven to be placed in the built-in cavity, and the safety problem caused by exposure of the cutter is solved;

2. the cutters are inserted into the belt grooves one by one, the cutters are limited, collision between the cutters is avoided, and the cutters are effectively protected;

3. the moving mechanism is arranged, so that the whole body is convenient to carry;

4. the cleaning mechanism is arranged to effectively clean the cutter processed in the previous working procedure, so that the cutter processing efficiency is improved;

5. the cover plate is arranged, so that external objects are effectively prevented from falling into the built-in cavity, cutters in the built-in cavity are effectively protected, and meanwhile injuries caused by mistaken touching of the cutters by personnel can be avoided.

The specific implementation is as follows:

referring to fig. 8 and 9, this embodiment differs from the first embodiment in that:

the attracting magnet layer 12 is replaced by a cutter holder 13, the cutter holder 13 is fixed in the belt slot 5-1, and the cutter holder 13 comprises:

the cutter clamp comprises a cutter clamp body 13-1, wherein one end of the cutter clamp body 13-1, which is riveted with a belt groove 5-1 through a bolt, is of an arc-shaped structure, and a cutter clamp groove 13-3 is formed in the other end of the cutter clamp body 13-1;

the positioning column 13-5 is movably inserted into the cutter clamp body 13-1 positioned at one side of the cutter clamp groove 13-3;

the spring 13-6 is sleeved on the positioning column 13-5, and two ends of the spring 13-6 are respectively propped against the outer end cap of the positioning column 13-5 and the side wall of the cutter clamp body 13-1;

the movable adsorption magnetic block 13-4, wherein the movable adsorption magnetic block 13-4 is fixed on the positioning column 13-5;

the fixed adsorption magnetic block 13-2, wherein the fixed adsorption magnetic block 13-2 is embedded and fixed in the inner wall of the cutter clamping groove 13-3, and the polarity of the fixed adsorption magnetic block is opposite to that of the movable adsorption magnetic block 13-4, and when a cutter is not installed, the movable adsorption magnetic block 13-4 and the fixed adsorption magnetic block 13-2 are in an adsorption state;

the positioning column 13-5 is pulled out, a cutter is placed in the cutter clamping groove 13-3 between the movable adsorption magnetic block 13-4 and the fixed adsorption magnetic block 13-2, then the positioning column 13-5 is loosened, and the positioning column 13-5 classifies the cutter under the action of the spring 13-6 and clamps the cutter under the adsorption action of the movable adsorption magnetic block 13-4 and the fixed adsorption magnetic block 13-2.

It should be understood that those skilled in the art can make modifications to the technical solutions described in the foregoing embodiments and equivalent substitutions of some technical features, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. A transfer device for producing cutters with collision protection comprises a shell (1), a spindle motor (9) and a spindle (11); a built-in cavity (1-1) is formed in the shell (1), a main shaft (11) is arranged in the built-in cavity (1-1), a plurality of chip removal holes (1-3) are vertically formed in the bottom wall of the built-in cavity (1-1) in a penetrating mode, and a drawing type tray (16) is movably inserted into the shell (1) below the chip removal holes (1-3); the two ends of the main shaft (11) are in screwed connection with the shell (1) by using bearings, one end of the main shaft is connected with an output shaft of the main shaft motor (9), and the main shaft motor (9) is fixed on the outer wall of the shell (1) by using a motor bracket;

characterized in that it further comprises:

the two T-shaped plates (8) are symmetrically sleeved and fixed on the main shaft (11);

the cover plate (4) is connected with left and right symmetrically arranged T-shaped plates (8) and is fixed on the side wall of a transverse plate (8-2) of the T-shaped plates (8);

the three roller mounting plates (2) are respectively fixed on two ends of a transverse plate (8-2) and a longitudinal plate (8-1) of one T-shaped plate (8);

the motor mounting plates (7) are three, and are respectively fixed on two ends of a transverse plate (8-2) and a longitudinal plate (8-1) of the other T-shaped plate (8); the motor mounting plate (7) and the roller mounting plate (2) are symmetrically arranged left and right;

a rotating electrical machine (10), the rotating electrical machine (10) being fixed within a motor mounting plate (7);

the driving roller (6), one end shaft of the driving roller (6) is fixed on the output shaft of the rotating motor (10), and the other end shaft of the driving roller (6) is connected on the side wall of the motor mounting plate (7) in a rotating way by utilizing a bearing;

the driven roller (3) is screwed in the roller mounting plate (2) by utilizing bearings on shafts at two ends of the driven roller (3);

the two ends of the conveying belt (5) are respectively sleeved on the driving roller (6) and the driven roller (3);

the two adsorption magnet layers (12) are opposite in polarity and are relatively fixed on the inner wall of a belt groove (5-1) formed in the belt surface of the conveyor belt (5);

the utility model discloses a shell, including shell (1), wherein the shell is provided with groove (1-2) of stepping down in the diapire, and this groove (1-2) of stepping down is interior activity to be provided with moving mechanism (15), and this moving mechanism (15) contains:

the lifting push rod (15-1), the lifting push rod (15-1) is fixed on the shell (1) below the built-in cavity (1-1);

the roller mounting base plate (15-2), the roller mounting base plate (15-2) is fixed on the output end of the lifting push rod (15-1), and two sides of the roller mounting base plate (15-2) are movably guided up and down to be arranged in guide groove bodies arranged at two sides of the abdication groove (1-2);

the plurality of rollers (15-3) are fixed at equal intervals at the bottom of the roller mounting bottom plate (15-2);

a cleaning mechanism (14) is fixed on the main shaft (11), and the cleaning mechanism (14) is arranged between the left T-shaped plate (8) and the right T-shaped plate (8); the cleaning mechanism (14) comprises:

the connecting column (14-2), one end of the connecting column (14-2) is clamped and fixed in an inserting hole formed in the annular wall of the main shaft (11) by using a clamping bead (14-4) embedded in the connecting column;

the brush mounting plate (14-1), the said brush mounting plate (14-1) is fixed on another end of the connecting column (14-2);

and the hairbrush (14-3), wherein the hairbrush (14-3) is fixed on the hairbrush mounting plate (14-1).

2. The transfer device for tool production with collision protection according to claim 1, wherein: the magnet-attracting layer (12) is replaced by a cutter clamp (13), the cutter clamp (13) is fixed in the belt groove (5-1), and the cutter clamp (13) comprises:

the belt clamp comprises a cutter clamp body (13-1), wherein one end of the cutter clamp body (13-1) connected with a belt groove (5-1) is of an arc-shaped structure, and the cutter clamp groove (13-3) is formed in the other end of the cutter clamp body (13-1);

the positioning column (13-5) is movably inserted into the cutter clamp body (13-1) positioned at one side of the cutter clamp groove (13-3);

the spring (13-6) is sleeved on the positioning column (13-5), and two ends of the spring are respectively propped against the outer end cap of the positioning column (13-5) and the side wall of the cutter clamp body (13-1);

the movable adsorption magnetic block (13-4), wherein the movable adsorption magnetic block (13-4) is fixed on the positioning column (13-5);

the fixed adsorption magnetic block (13-2), the fixed adsorption magnetic block (13-2) is embedded and fixed in the inner wall of the cutter clamping groove (13-3), and the polarity of the fixed adsorption magnetic block is opposite to that of the movable adsorption magnetic block (13-4).

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