CN205009046U - Peripheral milling double tops point clamping frock - Google Patents

Abstract

The utility model discloses a peripheral milling double tops point clamping frock, frock two bases about including are two top, top actuating mechanism, compact heap, closing device about, and two top, and coaxial and the top is relative, and a left side is top is fixed in left base, and it has the guide way to open on the right base or in the compact heap, the top guide way that is located in the right side, and it is top that the compact heap can contact the right side, and top actuating mechanism drives that the right side is top removes along the guide way, closing device drive compact heap jam -packed or to loosen the right side top, preferred top actuating mechanism pushes up tight cylinder and has air pressure adjusting valve for the tight cylinder in top, preferred closing device is including compressing tightly cylinder, rocking arm, and compress tightly the cylinder and drive the actuating cylinder connecting rod, one end hinge in the cylinder connecting rod of rocking arm, the other end has the cam and hinge in right base, and the cylinder connecting rod reciprocates that to drive the cam rotatory, extrusion or loosen the compact heap of below when rotatory. Be used for ceramic lock pin to add man -hour this frock, reduce top rocking, guarantee the axiality of ceramic lock pin.

Description

Peripheral milling Double Tops point clamping tooling

Technical field

The utility model relates to ceramic insertion core processing unit (plant), particularly relates to the frock adding and ensure ceramic insertion core axiality man-hour.

Background technology

The Finial device of the coaxial processing of current optical fiber ceramic lock pin generally adopts on miniature line slideway and fills planker to realize top movement, and the top distance from guide rail is generally in 50 millimeter (this comprises the thickness of planker and the height of dead head), because line slideway exists gap, can produce in planker slipping and rock, and top on planker will amplify gap because of distance guide rail 50 millimeters, thus make toply to rock increasing, cause the product axiality of processing to become large.Therefore be necessary to design and a kind ofly reduce the top device rocked, thus improve the axiality of optical fiber ceramic lock pin.

Summary of the invention

Technical problem to be solved in the utility model be overcome prior art above-mentioned deficiency and a kind of peripheral milling Double Tops point clamping tooling is provided, when this frock is used for ceramic insertion core cylindrical lapping, reduce top rocking, ensure the axiality of ceramic insertion core.

The technical scheme in the invention for solving the above technical problem is: peripheral milling Double Tops point clamping tooling comprises left and right two bases, top, the top driving mechanism in two, left and right, compact heap, hold down gags, two top coaxial and top is relative, a left side is top is fixed on left base, gathering sill is had on right base or in compact heap, the right side is top is positioned at gathering sill, compact heap can contact right top, the top driving mechanism drive right side is top moves along gathering sill, and hold down gag drives compact heap jam-packed or unclamps right top.

Preferred top driving mechanism is for holding out against cylinder, and the ejecting rod of cylinder holding out against cylinder connects right top afterbody.

Further improvement hold out against cylinder with air pressure regulator.

Preferred hold down gag comprises compression cylinder, rocking arm, compression cylinder drive air cylinder connecting rod, one end hinge of rocking arm in air cylinder connecting rod, the other end with cam and hinge in right base, air cylinder connecting rod moves up and down band moving cam and rotates, and extrudes or unclamp the compact heap of below during rotation.

The wherein design of a kind of gathering sill, compact heap: fixed guide block on right base, guide pad has gathering sill, gathering sill and a left side top equidirectional, the right side is top is positioned at gathering sill, right top top fastens compact heap, the bottom surface of compact heap has deep-slotted chip breaker, after fastening, there is gap between the bottom surface of compact heap and guide pad.

The design of another kind of gathering sill, compact heap: having in the middle of compact heap holds right top circular hole, and as gathering sill bottom circular hole, circular hole side has breach, and the right side in the stressed rear locking circular hole of compact heap is top.

Compared with prior art, the utility model has the advantage of: 1, adopt top driving mechanism to drive one of them top movement, moving direction relies on gathering sill to protect, and is namely convenient to the ceramic insertion core on load/unload stations, decreases and rock gap; Adopt hold down gag top by the compact heap jam-packed right side, top by compact heap, gathering sill position right, in process, ensure ceramic insertion core axiality.2, all adopt cylinder in top driving mechanism, hold down gag, the driving force produced due to cylinder is relatively soft, avoids damaging because overexerting top.3, cylinder is with air pressure regulator, can according to the driving force of environment for use condition cylinder.4, adopt the structures such as the rocking arm of strap cam squeezes, compact heap, gathering sill simple, low cost of manufacture.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the utility model embodiment.

Fig. 2 is the structure sectional view of the utility model embodiment.

Fig. 3 is the structural representation of compact heap and guide pad.

Fig. 4 is the another kind of structural representation of compact heap

In figure: 1, left base, 2, left top, 3, right base, 4, right top, 5, compact heap, 6, hold out against cylinder, 61, ejecting rod of cylinder, 7, air pressure regulator, 8, rocking arm, 81, cam, 9, compression cylinder, 91, air cylinder connecting rod, 10, guide pad.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment, the utility model is further illustrated.

Peripheral milling Double Tops point clamping tooling as shown in Figure 1, comprises left base 1, left top 2, right base 3, right top 4, compact heap 5, holds out against cylinder 6, air pressure regulator 7, rocking arm 8, compression cylinder 9, guide pad 10.

Left base 1 position is fixed, a fixing left side top 2 on left base 1.The position of right base 3 is fixed, device right top 4 on left base 3, and top top, two, left and right relatively and coaxial.

The device mode of right top 4 is as shown in Figure 1 and Figure 2: fixed guide block 10 on right base 3, guide pad 10 has gathering sill, gathering sill and a left side top equidirectional, right top 4 are positioned at gathering sill, fasten compact heap 5 above in the of right top 4, the bottom surface of compact heap 5 has deep-slotted chip breaker, after fastening, gap is there is, as shown in Figure 3 between the bottom surface of compact heap 5 and guide pad 10.Right base 3 fixedly holds out against cylinder 6, and the ejecting rod of cylinder 61 holding out against cylinder 6 is fixedly connected with the afterbody of right top 4, like this, holds out against cylinder 6 and drives right top 4 to move left and right along gathering sill by ejecting rod of cylinder 61.Right base 3 is also fixed and clamped cylinder 9, and compression cylinder 9 can drive air cylinder connecting rod 91 to move up and down, one end hinge of rocking arm 8 in air cylinder connecting rod 91, the other end of rocking arm 8 with cam 81 and hinge in right base 3, cam 81 is positioned at the top of compact heap 5.Air cylinder connecting rod 91 moves up and down band moving cam 81 and rotates, extruding or unclamp the compact heap 5 of below in cam 81 rotary course, and during jam-packed, compact heap 5 compresses right top 4 and makes it fix.

In order to regulate the thrust holding out against cylinder 6, hold out against device air pressure regulator 7 on cylinder 6.

Equally, in order to regulate the thrust of compression cylinder 9, also can device air pressure regulator in compression cylinder 9.

Also can adopt compact heap 5 as shown in Figure 4, having in the middle of compact heap 5 holds right top circular hole, and as gathering sill bottom circular hole, circular hole side has breach, and after compact heap 5 is stressed, the right side in locking circular hole is top.

The use procedure of this frock: start compression cylinder 9, make cam 81 unclamp compact heap 5 by air cylinder connecting rod 91, rocking arm 8, unclamps right top 4; Start and hold out against cylinder 6, drive right top 4 to retract along gathering sill by ejecting rod of cylinder 61; By manipulator or artificial ceramic insertion core sent into left and right top between; Restart and hold out against cylinder 6, make right top 4 to stretch out along gathering sill, the top clamping ceramic insertion core in left and right; Restart compression cylinder 9, make cam 81 extrude compact heap 5, make compact heap 5 jam-packed right top 4, right top 4 positions are fixed; Start other processing unit (plant), processing ceramic lock pin; After machining, start compression cylinder 9 and unclamp right top 4; Start and hold out against cylinder 6 and retract, ceramic insertion core departs from frock, this process of Posterior circle.

Claims (6)

1. peripheral milling Double Tops point clamping tooling, it is characterized in that: described frock comprises left and right two bases, top, the top driving mechanism in two, left and right, compact heap, hold down gags, two top coaxial and top is relative, a left side is top is fixed on left base, have gathering sill on right base or in compact heap, the right side is top is positioned at gathering sill, and compact heap can contact right top, the top driving mechanism drive right side is top moves along gathering sill, and hold down gag drives compact heap jam-packed or unclamps right top.

2. peripheral milling Double Tops point clamping tooling according to claim 1, is characterized in that: described top driving mechanism is for holding out against cylinder, and the ejecting rod of cylinder holding out against cylinder connects right top afterbody.

3. peripheral milling Double Tops according to claim 2 point clamping tooling, is characterized in that: described in hold out against cylinder with air pressure regulator.

4. peripheral milling Double Tops point clamping tooling according to claim 1, it is characterized in that: described hold down gag comprises compression cylinder, rocking arm, compression cylinder drive air cylinder connecting rod; one end hinge of rocking arm is in air cylinder connecting rod; the other end with cam and hinge in right base; air cylinder connecting rod move up and down band moving cam rotate, during rotation extruding or unclamp below compact heap.

5. peripheral milling Double Tops point clamping tooling according to claim 1, it is characterized in that: fixed guide block on right base, guide pad has gathering sill, gathering sill and a left side top equidirectional, the right side is top is positioned at gathering sill, and right top top fastens compact heap, and the bottom surface of compact heap has deep-slotted chip breaker, after fastening, between the bottom surface of compact heap and guide pad, there is gap.

6. peripheral milling Double Tops point clamping tooling according to claim 1, is characterized in that: having in the middle of compact heap holds right top circular hole, and as gathering sill bottom circular hole, circular hole side has breach, and the right side in the stressed rear locking circular hole of compact heap is top.