CN210335651U

CN210335651U - Polished body forming device

Info

Publication number: CN210335651U
Application number: CN201921356751.1U
Authority: CN
Inventors: 唐常春
Original assignee: Qingyuan Chuangyi Intelligent Technology Co ltd
Current assignee: Qingyuan Chuangyi Intelligent Technology Co ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-04-17
Anticipated expiration: 2029-08-20

Abstract

The utility model relates to a polished body forming device, the device include the fixed disk, and the quotation of fixed disk is equipped with first central hole of dish, and its top surface uses first central hole of dish to encircle as central array and is equipped with a plurality of interior blade holders and a plurality of outer blade holder, a plurality of outer blade holders be located the periphery of a plurality of interior blade holders and with a plurality of interior blade holders between mutual circumference dislocation ground set up. Each inner cutter seat is rotatably provided with an inner forming cutter which moves in a pitching manner relative to the first disc center hole, and all the inner forming cutters are connected to the first driving part. Each outer cutter holder is rotatably provided with an outer forming cutter which moves in a pitching manner relative to the first disc center hole, all the outer forming cutters are connected to the second driving part, and the first driving part and the second driving part run synchronously. The utility model discloses can press the cylindric polishing body into the cake form to once only extrude required radial pleat groove in the two sides of the cake form polishing body, have the shaping fast, efficient advantage.

Description

Polished body forming device

Technical Field

The utility model relates to a throwing aureola kludge, concretely relates to be used for pressing cylindric polishing body into cake form with polishing body on this kludge to at the device in the radial pleat groove of the two sides extrusion of cake form polishing body.

Background

In order to improve the assembling efficiency of the pleated polishing wheel, the present applicant filed a patent application entitled "pleated polishing wheel assembling machine" which is provided with a polishing body molding device for pressing a cylindrical polishing body into a disc shape and pressing the top and bottom surfaces of the polishing body out of radial pleat grooves, and a holding jaw pressing device for pressing holding jaws into a central hole of the polishing body to press the holding jaws and the polishing body into a whole.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an above-mentioned polishing body forming device's concrete structure.

The utility model adopts the following technical scheme:

a polishing body molding device comprises a fixed disc; the quotation of fixed disk is equipped with first central hole, and its top surface uses first central hole to encircle as central array and is equipped with a plurality of interior blade holders and a plurality of outer blade holder, and a plurality of outer blade holders are located the periphery of a plurality of interior blade holders and with a plurality of interior blade holders between mutual circumference dislocation ground setting.

Each inner cutter holder is rotatably provided with an inner forming cutter which moves in a pitching way relative to the first disk center hole, so that an annular inner cutter array surrounding the first disk center hole is formed on the top surface of the fixed disk.

Each outer cutter holder is rotatably provided with an outer forming cutter which moves in a pitching manner relative to the first disc center hole, so that an annular outer cutter array surrounding the first disc center hole is formed on the periphery of the annular inner cutter array.

All interior forming knives all connect in first drive division, and all outer forming knives all connect in the second drive division, and first drive division and second drive division synchronous operation to the synchronous luffing motion of all interior forming knives and outer forming knife of drive.

As the preferred scheme, the fixed disk is horizontally arranged above a base through an upright column, a vertical guide column is arranged between the fixed disk and the base, the top of the vertical guide column is fixedly arranged in a first disk center hole of the fixed disk, and the bottom of the vertical guide column is fixed on the base.

The inner forming cutter comprises a first straight cutter body and a first cutter handle arranged at the bottom of the first straight cutter body, a first cutting edge and a first cutter back are respectively arranged on two corresponding sides of the first straight cutter body, and the first cutter handle extends in an L shape towards the first cutting edge; all the inner forming cutters are arranged with the first cutter edges facing outwards and the second cutter backs facing inwards and are connected with the corresponding inner cutter seats through the inner end rotating shafts of the first cutter handles.

The outer forming cutter comprises a second straight cutter body and a second cutter handle arranged at the bottom of the second straight cutter body, a second cutting edge and a second cutter back are respectively arranged at two corresponding sides of the second straight cutter body, and the second cutter handle extends in an L shape towards the second cutter back; all outer shaping knives are arranged with the second cutting edges facing inwards and the second knife backs facing outwards and are connected to the corresponding outer knife seats through the inner end rotating shafts of the second knife handles.

The first driving part and the second driving part are arranged below the fixed disc 1.

Preferably, the first driving part includes a first lifting disc, a first connecting rod and a first oil cylinder.

The first lifting disc is horizontally arranged between the fixed disc and the base, movably sleeved on the vertical guide post through a second disc center hole arranged on the disc surface of the first lifting disc, and a plurality of first rod seats are annularly arranged on the top surface of the first lifting disc by taking the second disc center hole as a center.

The first connecting rods are provided with a plurality of first connecting rods, the bottom ends of the first connecting rods are respectively connected to the first rod seats in a one-to-one correspondence mode, and the top ends of the first connecting rods are respectively connected to the outer ends of the first tool handles of the plurality of inner forming tools in a one-to-one correspondence mode so as to be used for respectively driving the plurality of inner forming tools to rotate on the corresponding inner tool seats.

The cylinder body of the first oil cylinder is vertically and fixedly arranged on the base, and the piston rod is connected to the first lifting disc so as to drive the first lifting disc to move up and down.

Preferably, the second driving part includes a second lifting disc, a second connecting rod and a second oil cylinder.

The second lifting disc is horizontally arranged between the first lifting disc and the base, movably sleeved on the vertical guide post through a third disc center hole arranged on the disc surface of the second lifting disc, and a plurality of second rod seats are annularly arranged on the top surface of the second lifting disc in an array mode by taking the third disc center hole as a center.

The second connecting rod is provided with a plurality of second connecting rods, the bottom ends of the second connecting rods are respectively connected with the second rod seats in a one-to-one correspondence mode, and the top ends of the second connecting rods are respectively connected with the outer ends of the second tool handles of the outer forming tools in a one-to-one correspondence mode so as to be used for respectively driving the outer forming tools to rotate on the corresponding outer tool seats.

The cylinder body of the second oil cylinder is vertically and fixedly arranged on the base, and the piston rod is connected to the second lifting disc so as to drive the second lifting disc to move up and down.

Preferably, each inner forming cutter is provided with a supporting arm for supporting the polishing body and a bottom support for supporting the supporting arm.

The utility model discloses a sword battle array and annular outer sword battle array can mutually support in the annular, will put into cylindric polishing body pressfitting between the two and become the cake form to once only extrude required radial pleat groove in the two sides of the cake form polishing body, have the shaping fast, efficient advantage.

Drawings

Fig. 1 is a schematic view of an angle of the overall structure of an embodiment of the present invention;

FIG. 2 is a top view of the overall structure of an embodiment of the present invention;

fig. 3 is a schematic partial structure diagram of an embodiment of the present invention;

fig. 4 is a schematic structural view of an inner forming cutter according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of an outer forming tool according to an embodiment of the present invention;

fig. 6 is one of schematic diagrams illustrating the operation of an embodiment of the present invention;

fig. 7 is a second schematic view illustrating the operation principle of the embodiment of the present invention.

Detailed Description

The present invention will be described with reference to the accompanying drawings and specific embodiments.

Referring to FIGS. 1-5:

a polishing body molding device comprises a fixed disc 1; the quotation of fixed disk 1 is equipped with first central hole 1.1, and its top surface uses first central hole 1.1 to encircle as central array and is equipped with a plurality of interior blade holders 2 and a plurality of outer blade holder 3, and a plurality of outer blade holders 3 are located a plurality of interior blade holders 2 the periphery and with a plurality of interior blade holders 2 between mutual circumference dislocation ground setting.

Each inner cutter holder 2 is rotatably provided with an inner forming cutter 4 which moves in a pitching manner relative to the first disk center hole 1.1, so that an annular inner cutter array surrounding the first disk center hole 1.1 is formed on the top surface of the fixed disk 1, and all the inner forming cutters 4 are connected to the first driving part and driven by the first driving part to move in a pitching manner synchronously.

Each outer cutter holder 3 is rotatably provided with an outer forming cutter 5 which performs pitching motion relative to the first disk center hole 1.1, so that an annular outer cutter array surrounding the first disk center hole 1.1 is formed on the periphery of the annular inner cutter array, and all the outer forming cutters 5 are connected to the second driving part so as to be driven by the second driving part to perform synchronous pitching motion.

The fixed disk 1 is horizontally arranged above a base 7 through an upright post 6, a vertical guide post 8 is arranged between the fixed disk 1 and the base 7, and the top of the vertical guide post 8 is fixedly arranged in a first disk center hole 1.1 of the fixed disk 1 and the bottom of the vertical guide post is fixed on the base 7.

The inner forming cutter 4 comprises a first straight cutter body 4.1 and a first cutter handle 4.2 arranged at the bottom of the first straight cutter body 4.1, a first cutter edge 4.11 and a first cutter back 4.12 are respectively arranged at two corresponding sides of the first straight cutter body 4.1, and the first cutter handle 4.2 extends in an L shape towards the first cutter edge 4.11; all the inner forming cutters 4 are arranged with the first cutter edges 2.11 facing outwards and the second cutter backs 2.12 facing inwards and are connected with the corresponding inner cutter seats 2 through the inner ends of the first cutter handles 4.2 in a rotating mode.

The outer forming cutter 5 comprises a second straight cutter body 5.1 and a second cutter handle 5.2 arranged at the bottom of the second straight cutter body 5.1, a second cutting edge 5.11 and a second cutter back 5.12 are respectively arranged at two corresponding sides of the second straight cutter body 5.1, and the second cutter handle 5.2 extends in an L shape towards the second cutter back 5.12; all the outer forming cutters 5 are arranged with the second cutting edges 5.11 facing inwards and the second cutter backs 5.12 facing outwards, and are connected to the corresponding outer cutter seats 3 through the inner ends of the second cutter handles 5.2 in a rotating mode.

The first driving part includes a first lifting disk 9, a first link 10, and a first cylinder 11.

The first lifting disc 9 is horizontally arranged between the fixed disc 1 and the base 7, movably sleeved on the vertical guide post 8 through a second disc center hole 9.1 arranged on the disc surface, and a plurality of first rod seats 12 are annularly arranged on the top surface of the first lifting disc in an array mode by taking the second disc center hole 9.1 as the center.

The first connecting rods 10 are provided with a plurality of first connecting rods 10, the bottom ends of the first connecting rods 10 are respectively connected with the first rod seats 12 in a one-to-one correspondence mode, and the top ends of the first connecting rods penetrate through the fixed disc 1 and then are respectively connected with the outer ends of the first tool shanks 4.2 of the inner forming tools 4 in the plurality of pairs in a one-to-one correspondence mode so as to be used for respectively driving the inner forming tools 4 to rotate on the corresponding inner tool shanks 2.

The cylinder body of the first oil cylinder 11 is vertically and fixedly arranged on the base 7, and the piston rod is connected to the first lifting disc 9 so as to drive the first lifting disc 9 to move up and down.

The second driving part includes a second lifting disk 13, a second link 14, and a second cylinder 15.

The second lifting disc 13 is horizontally arranged between the first lifting disc 9 and the base 7, movably sleeved on the vertical guide post 8 through a third disc center hole 13.1 arranged on the disc surface of the second lifting disc, and a plurality of second rod seats 16 are annularly arranged on the top surface of the second lifting disc in an array mode by taking the third disc center hole 13.1 as the center.

The second connecting rods 14 are provided with a plurality of second connecting rods 14, the bottom ends of the second connecting rods 14 are respectively connected with the second rod seats 16 in a one-to-one correspondence mode, and the top ends of the second connecting rods are respectively connected with the outer ends of the second tool shanks 5.2 of the outer forming tools 5 in a one-to-one correspondence mode after penetrating out of the fixed disc upwards so as to be used for respectively driving the outer forming tools 5 to rotate on the corresponding outer tool seats 3.

The cylinder body of the second oil cylinder 15 is vertically and fixedly arranged on the base 7, and the piston rod is connected to the second lifting disk 13 so as to drive the second lifting disk 13 to move up and down.

Each inner forming cutter 4 is provided with a supporting arm 17 and a bottom support 18, the bottom support 18 and the supporting arm 17 are movably sleeved on a first straight cutter body 4.1 of the inner forming cutter 4 from top to bottom, the bottom support 18 is supported and fixed by a first cutter handle 4.2, and the supporting arm 17 is supported and fixed by the bottom support 18.

As shown in fig. 6, when the annular inner blade array and the annular outer blade array are both in the upright state, the cylindrical polishing body 19 is inserted from the top to the bottom between the annular inner blade array and the annular outer blade array, and the polishing body 19 is held by the arm 17 of the inner molding blade 4 to prevent the downward sliding.

As shown in fig. 1-7, the first oil cylinder 11 and the second oil cylinder 15 operate synchronously, the first oil cylinder 11 drives the first lifting disc 9 to ascend, the first lifting disc 9 drives all the inner forming knives 4 to rotate inwards synchronously through the first connecting rod 10, the second oil cylinder 15 drives the second lifting disc 13 to ascend, the second lifting disc 13 drives all the outer forming knives 5 to rotate inwards synchronously through the second connecting rod 14, the annular inner knife array and the annular outer knife array are matched with each other to press the polishing body 19 into a disc shape with a central hole 19.3 from a cylindrical shape, the inner forming knives 4 push the bottom surface of the polishing body 19 upwards to form radial upper convex pleat grooves 19.1, and the outer forming knives 5 push the top surface of the polishing body 19 downwards to form radial pleat grooves 19.2.

Claims

1. A polishing body forming device is characterized in that: comprises a fixed disc (1); the disc surface of the fixed disc (1) is provided with a first disc center hole (1.1), the top surface of the fixed disc is annularly provided with a plurality of inner tool holders (2) and a plurality of outer tool holders (3) by taking the first disc center hole (1.1) as a center, and the plurality of outer tool holders (3) are positioned on the periphery of the plurality of inner tool holders (2) and are arranged with the plurality of inner tool holders (2) in a mutual circumferential staggered manner;

each inner cutter holder (2) is rotatably provided with an inner forming cutter (4) which moves in a pitching manner relative to the first disk center hole (1.1), so that an annular inner cutter array surrounding the first disk center hole (1.1) is formed on the top surface of the fixed disk (1);

each outer cutter holder (3) is rotatably provided with an outer forming cutter (5) which moves in a pitching manner relative to the first disc center hole (1.1), so that an annular outer cutter array surrounding the first disc center hole (1.1) is formed on the periphery of the annular inner cutter array;

all the inner forming cutters (4) are connected to the first driving portion, all the outer forming cutters (5) are connected to the second driving portion, and the first driving portion and the second driving portion run synchronously to drive all the inner forming cutters (4) and the outer forming cutters (5) to synchronously pitch.

2. The polishing body molding apparatus according to claim 1, wherein: the fixed disk (1) is horizontally arranged above a base (7) through an upright post (6), a vertical guide post (8) is arranged between the fixed disk (1) and the base (7), the top of the vertical guide post (8) is fixedly arranged in a first disk center hole (1.1) of the fixed disk (1), and the bottom of the vertical guide post is fixed on the base (7);

the inner forming cutter (4) comprises a first straight cutter body (4.1) and a first cutter handle (4.2) arranged at the bottom of the first straight cutter body (4.1), a first cutting edge (4.11) and a first cutter back (4.12) are respectively arranged at two corresponding sides of the first straight cutter body (4.1), and the first cutter handle (4.2) extends in an L shape towards the first cutting edge (4.11); all the inner forming cutters (4) are provided with first cutting edges (2.11) facing outwards and second cutter backs (2.12) facing inwards and are connected to the corresponding inner cutter seats (2) through the inner end rotating shafts of the first cutter handles (4.2);

the outer forming cutter (5) comprises a second straight cutter body (5.1) and a second cutter handle (5.2) arranged at the bottom of the second straight cutter body (5.1), a second cutting edge (5.11) and a second cutter back (5.12) are respectively arranged on two corresponding sides of the second straight cutter body (5.1), and the second cutter handle (5.2) extends in an L shape towards the second cutter back (5.12); all the outer forming cutters (5) are provided with second blades (5.11) facing inwards and second cutter backs (5.12) facing outwards and are rotatably connected to the corresponding outer cutter seats (3) through the inner ends of the second cutter handles (5.2);

the first driving part and the second driving part are arranged below the fixed disc (1).

3. The polishing body molding apparatus according to claim 2, wherein: the first driving part comprises a first lifting disc (9), a first connecting rod (10) and a first oil cylinder (11);

the first lifting disc (9) is horizontally arranged between the fixed disc (1) and the base (7), movably sleeved on the vertical guide column (8) through a second disc center hole (9.1) arranged on the disc surface of the first lifting disc, and a plurality of first rod seats (12) are annularly arranged on the top surface of the first lifting disc by taking the second disc center hole (9.1) as a center array;

the first connecting rods (10) are provided with a plurality of connecting rods, the bottom ends of the first connecting rods (10) are respectively connected with the first rod seats (12) in a one-to-one corresponding mode through rotating shafts, and the top ends of the first connecting rods (10) are respectively connected with the outer ends of the first tool handles (4.2) of the inner forming tools (4) in a one-to-one corresponding mode through rotating shafts so as to be used for respectively driving the inner forming tools (4) to rotate on the corresponding inner tool seats (2);

the cylinder body of the first oil cylinder (11) is vertically and fixedly arranged on the base (7), and the piston rod is connected to the first lifting disc (9) so as to drive the first lifting disc (9) to move up and down.

4. The polishing body molding apparatus according to claim 2, wherein: the second driving part comprises a second lifting disc (13), a second connecting rod (14) and a second oil cylinder (15);

the second lifting disc (13) is horizontally arranged between the first lifting disc (9) and the base (7), is movably sleeved on the vertical guide column (8) through a third disc center hole (13.1) arranged on the disc surface of the second lifting disc, and is annularly provided with a plurality of second rod seats (16) on the top surface of the second lifting disc by taking the third disc center hole (13.1) as a center;

the bottom ends of the second connecting rods (14) are respectively connected with the second rod seats (16) in a one-to-one corresponding mode through rotating shafts, and the top ends of the second connecting rods (14) are respectively connected with the outer ends of the second knife handles (5.2) of the outer forming knives (5) in a one-to-one corresponding mode through rotating shafts, so that the outer forming knives (5) can be respectively driven to rotate on the corresponding outer knife seats (3);

the cylinder body of the second oil cylinder (15) is vertically and fixedly arranged on the base (7), and the piston rod is connected to the second lifting disc (13) so as to drive the second lifting disc (13) to move up and down.

5. The polishing body molding apparatus according to claim 1, wherein: each inner forming cutter (4) is provided with a supporting arm (17) for supporting the polishing body and a bottom support (18) for supporting the supporting arm (17).