CN106914991B - A kind of glass sintering micro- rectangle milling side tooling - Google Patents

Abstract

The present invention provides a kind of glass sintering micro- rectangle milling side tooling, including milling side positioning tool, compact heap, conductive tooling, the micro- rectangle of multicore and locking nut, milling side positioning tool is L-shaped, convenient for slow wire feeding equipment clamping, clamping centering is convenient and efficient, milling side positioning tool, the micro- rectangle of multicore, conductive tooling and compact heap use nut check, the micro- rectangle milling of glass sintering one-pass molding when the advantages of tooling is can to reach milling of the present invention, ensure workpiece surface roughness, dimensional uniformity, deflection is small, impulse- free robustness, improve production efficiency, its processing quality is good, processing and manufacturing is simple, cost is relatively low, applicability is wide.

Description

A kind of glass sintering micro- rectangle milling side tooling

【Technical field】

The present invention relates to glass sintering micro- rectangular products milling side processing technique field, more particularly to a kind of micro- squares of glass sintering Shape milling side tooling.

【Background technology】

In the milling side manufacturing procedure of product, milling side is usually first done, then carry out next procedure, but is unfavorable for glass burning in this way Process is tied, so be first sintered, then milling side, production efficiency is not only increased in this way, and ensures product surface roughness, ruler The quality requirements such as the small, impulse- free robustness of very little consistency, deflection need to use the micro- rectangle tooling of glass sintering, and in above-mentioned milling side process In, it needing to use milling side tooling, existing milling side frock clamping centering is inconvenient, and workpiece processing quality is general, and size is unstable, Part Surface Roughness is bigger.

Therefore, it is necessary to provide a kind of improved technical solution to overcome the above problem.

【Invention content】

The purpose of the present invention is to provide a kind of glass sintering micro- rectangle milling side toolings, solve high processing costs, clamping is looked for The problems such as positive workpiece quality that is inconvenient, being produced is general, defect rate is high.

To solve the above-mentioned problems, the present invention provides a kind of glass sintering micro- rectangle milling side tooling comprising：Milling side positions Tooling, compact heap, conductive tooling, the micro- rectangle of multicore and locking nut,

Milling side positioning tool have first surface and second surface corresponding with the first surface, described first Surface is equipped with multiple grooves for accommodating the micro- rectangle of the multicore, and a groove corresponds to a micro- rectangle of multicore, each recessed First through hole is equipped in slot, the first through hole runs through the second surface from the first surface, the micro- rectangle of multicore The structure of structure and the conductive tooling is mutually matched, and the micro- rectangle of multicore is installed in the groove, the conduction tooling It is covered on the micro- rectangle of the multicore, the compact heap pressure is set in the conductive tooling, and the compact heap has third surface Corresponding 4th surface with the third surface, the compact heap are equipped with the second through-hole, and second through-hole is described in The 4th surface is run through on third surface, and the locking nut is inserted into from second through-hole, is stretched out simultaneously from the first through hole It is fixed.

As the preferred embodiment of the present invention, the second surface is equipped with slow wire feeding milling side guide groove and multicore Locating slot, slow wire feeding milling side guide groove are recessed from the second surface to the first surface direction, the multicore positioning Slot is set in the guide groove of slow wire feeding milling side.

As the preferred embodiment of the present invention, the micro- rectangle of multicore has multiple multicore contact pins, the conduction There is tooling multiple twist needles and multiple aluminium hydraulic pressed connecting pipes, the twist needle to be set among the aluminium hydraulic pressed connecting pipe, and an aluminium hydraulic pressed connecting pipe corresponds to One twist needle, the multicore contact pin are mutually matched with the aluminium hydraulic pressed connecting pipe, and an aluminium hydraulic pressed connecting pipe corresponds to a multicore contact pin, when described When conductive tooling is placed on the multicore micro- rectangle, the twist needle docks the multicore contact pin.

As the preferred embodiment of the present invention, each piece of compact heap compresses two conductive toolings.

As the preferred embodiment of the present invention, milling side positioning tool also has pedestal block, the pedestal block The bottom of the first surface and the bottom of second surface are connected, and is in integral structure, institute with the first surface, second surface It is vertical with the first surface, second surface to state pedestal block.

As the preferred embodiment of the present invention, milling side positioning tool is L-shaped.

It as the preferred embodiment of the present invention, is equipped in the first through hole and locks internal thread, in the locking Screw thread is matched with the locking nut.

Compared with prior art, the micro- rectangle milling of a kind of glass sintering of the present invention side tooling, it is simple in structure, it is suitable for The milling side of small part processes, and milling side positioning tool is L-shaped, is convenient for slow wire feeding equipment clamping, and clamping centering is convenient and efficient, and milling side is fixed Position tooling, the micro- rectangle of multicore, conductive tooling and compact heap use nut check, to reach the one-pass molding of milling side, ensure workpiece Surface roughness, dimensional uniformity, deflection be small, impulse- free robustness, improves production efficiency, and processing quality is good, processing and manufacturing letter Single, cost is relatively low, and applicability is wide.

【Description of the drawings】

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this For the those of ordinary skill of field, without having to pay creative labor, it can also be obtained according to these attached drawings other Attached drawing.Wherein：

Fig. 1 is the schematic diagram of front three-dimensional structure of glass sintering micro- rectangle milling side tooling in the present invention；

Fig. 2 is glass sintering micro- rectangle milling side tooling overleaf dimensional structure diagram in the present invention；

Fig. 3 is that the partial cutaway of Fig. 2 shows structural schematic diagram；

Fig. 4 is that the partial cutaway of another angle of Fig. 2 shows structural schematic diagram；

Fig. 5 is the structural schematic diagram of the micro- rectangle of multicore in Fig. 1；

Fig. 6 is that the cuing open for the micro- rectangle of multicore in Fig. 5 shows structural schematic diagram；

Fig. 7 is the structural schematic diagram of the conductive tooling in Fig. 1；

Fig. 8 is that the cuing open for conductive tooling in Fig. 7 shows structural schematic diagram；

Fig. 9 is the structural schematic diagram of the locking nut in Fig. 1；

Figure 10 is the structural schematic diagram of the compact heap in Fig. 1.

Wherein, 11 be milling when positioning tool, 111 are slow wire feeding milling guide groove, 112 be locking internal thread, 113 be multicore Locating slot, 114 be first surface, 1141 be groove, 1142 be first through hole, 115 be second surface, 116 be pedestal block, 12 be Compact heap, 121 be third surface, 122 be the 4th surface, 123 be the second through-hole, 13 be conductive tooling, 131 be outside conductive tooling Shell, 132 be aluminium hydraulic pressed connecting pipe, 133 be twist needle, 14 be locking nut, 15 be the micro- rectangle of multicore, 151 be multicore contact pin.

【Specific implementation mode】

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, below in conjunction with the accompanying drawings and specific real Applying mode, the present invention is described in further detail.

" one embodiment " or " embodiment " referred to herein refers to that may be included at least one realization method of the present invention A particular feature, structure, or characteristic." in one embodiment " that different places occur in the present specification not refers both to same A embodiment, nor the individual or selective embodiment mutually exclusive with other embodiment.

It is that the positive stereochemical structure of glass sintering micro- rectangle milling side tooling in the present invention is shown to please refer to Fig.1 to Fig. 2, Fig. 1 It is intended to；Fig. 2 is glass sintering micro- rectangle milling side tooling overleaf dimensional structure diagram in the present invention.As illustrated in fig. 1 and 2, Glass sintering micro- rectangle milling side tooling comprising the micro- rectangle 15 of milling side positioning tool 11, multicore, conductive tooling 13, compact heap 12 With locking nut 14.Milling side positioning tool 11 has obverse and reverse, and front is set as first surface 114, reverse side is set For second surface 115, the through-hole worn from front to the back side is set as first through hole 1142.The micro- rectangle of multicore 15 is first fitted into milling First surface 114 in side positioning tool 11, conductive tooling 13 are assemblied on the micro- rectangle of multicore 15, and compact heap 12, which is assemblied in, leads Electrician fills on 13, and each component is locked by locking nut 14 and locking internal thread 112.In this way, milling side positioning tool 11, compression Coordinate clamping between the micro- rectangle of block 12, conductive tooling 13, multicore 15, has locking internal thread 112 in first through hole 1142, pass through lock Tight nut 14 clamps.

Please continue to refer to Fig. 1 and Fig. 2, and it is that the partial cutaway of Fig. 2 shows structural schematic diagram to combine Fig. 3 and Fig. 4, Fig. 3；Fig. 4 is The partial cutaway of another angle of Fig. 2 shows structural schematic diagram.It is equipped with from first surface 114 to the second table on first surface 114 The groove 1141 of 115 direction of face recess, it is equipped with multicore contact pin 151 for accommodating the micro- rectangle 15 of multicore, the micro- rectangle 15 of multicore, Aluminium hydraulic pressed connecting pipe 132 in conductive tooling 13 corresponds to multicore contact pin 151, also has twist needle 133, twist needle in the front end of aluminium hydraulic pressed connecting pipe 132 The shell of 133 docking multicore contact pins 151, the micro- rectangle of conductive tooling shell 131 and multicore 15 is mutually matched, and is conducive to conductive tooling 13 with the tight fit of the micro- rectangle of multicore 15, moreover, and conductive tooling shell 131 covers 132 He of aluminium hydraulic pressed connecting pipe from top Twist needle 133, compact heap 12 are pressed on conductive tooling shell 131.

On milling side, positioning tool 11 also there is pedestal block 116, first surface 114 and second surface 115 to hang down with pedestal block 116 Straight and direct transition is structure as a whole, and therefore, milling side positioning tool 11 becomes the workpiece of a L-type, is filled for slow wire feeding equipment It presss from both sides, there is slow wire feeding milling side guide groove 111 and multicore locating slot 113,151 length of multicore contact pin to determine more on second surface 115 The depth of core locating slot 113 and slow wire feeding milling side guide groove 111, in this way, entire tooling is all an electric conductor.

Fig. 5 and Fig. 6 are please referred to, Fig. 5 is the structural schematic diagram of the micro- rectangle of multicore in Fig. 1；Fig. 6 is that the multicore in Fig. 5 is micro- Structural schematic diagram is shown in cuing open for rectangle.As shwon in Figures 5 and 6, the micro- rectangle 15 of multicore includes that the shell of the micro- rectangle of multicore 15 (is not schemed Show), in the upper surface of shell, there are one the cavitys (not shown) for being inserted into conductive tooling 13, multicore contact pin 151 to be arranged for setting Among cavity, shell lower end is inserted into groove 1141, and upper part of the housing (is not schemed with first surface 114 by screw and mounting hole Show) it is fixed, multicore contact pin 151 is hollow tubular structure, thereon end in contact twist needle 133, tail end and multicore locating slot 113 Contact.

Fig. 7 and Fig. 8 are please referred to, Fig. 7 is the structural schematic diagram of the conductive tooling in Fig. 1；Fig. 8 is the conductive tooling in Fig. 7 Cut open and show structural schematic diagram.As shown in Figure 7 and Figure 8, conductive tooling 13 includes conductive tooling shell 131, twist needle 133 and crimping Pipe 132, conductive tooling shell 131 are located at the side of institute's twist needle 133 and aluminium hydraulic pressed connecting pipe 132, the bottom of conductive tooling shell 131 It is connected to the bottom of aluminium hydraulic pressed connecting pipe 132, twist needle 133 is arranged on the top of aluminium hydraulic pressed connecting pipe 132, and exposes to the top of aluminium hydraulic pressed connecting pipe 132, leads The shell of the micro- rectangle of multicore 15 is inserted at the top of electrician's casing 131, and aluminium hydraulic pressed connecting pipe 132 docks multicore contact pin 151.

Referring to Fig. 10, Figure 10 is the structural schematic diagram of the compact heap in Fig. 1.As shown in Figure 10, compact heap 12 is plate-like, The two sides of plate is set to third surface 121 and the 4th surface 122, and centre is equipped with the through-hole on the two sides of consistent threading, is set as the Two through-holes 123, then referring to Fig. 9, Fig. 9 is the structural schematic diagram of the locking nut in Fig. 1.As shown in figure 9, it is locking nut 14, it is matched with the locking internal thread 112 in first through hole 1142, when mounted, the second through-hole 123 is directed at first through hole 1142, locking nut 14 is inserted into the second through-hole 123 and is tightened again with 112 spiral of locking internal thread in first through hole 1142.It is pressing Tightly between block 12 and milling side positioning tool 11, conductive tooling 13 and the micro- rectangle 15 of multicore, conductive tooling 13 and the micro- square of multicore are clipped Shape 15 can have two groups, be divided into the both sides of locking nut 14.

Those of ordinary skill in fields it should be appreciated that, the features of the present invention or the first purpose are： 1, the micro- rectangle of milling side positioning tool, multicore, conductive tooling and compact heap use nut check, to reach the one-pass molding of milling side； 2, milling side positioning tool is L-shaped, is convenient for slow wire feeding equipment clamping, clamping centering convenient and efficient；3, simple in structure, it is suitable for small by zero The milling side of part processes, and ensures that workpiece surface roughness, dimensional uniformity, deflection be small, impulse- free robustness, improves production efficiency.

It should be pointed out that any change that one skilled in the art does the specific implementation mode of the present invention All without departing from the range of claims of the present invention.Correspondingly, the scope of the claims of the invention is also not merely limited to In previous embodiment.

Claims (7)

1. a kind of glass sintering micro- rectangle milling side tooling, which is characterized in that including：Milling side positioning tool, compact heap, conductive work Dress, the micro- rectangle of multicore and locking nut,

Milling side positioning tool has first surface and second surface corresponding with the first surface, the first surface It is equipped with multiple for accommodating the grooves of the micro- rectangle of the multicore, a groove corresponds to a micro- rectangle of multicore, in each groove Equipped with first through hole, the first through hole runs through the second surface, the structure of the micro- rectangle of multicore from the first surface It is mutually matched with the structure of the conductive tooling, the micro- rectangle of multicore is installed in the groove, and the conduction tooling lid is set In on the micro- rectangle of the multicore, the compact heap pressure is set in the conductive tooling, the compact heap have third surface and with Corresponding 4th surface in third surface, the compact heap are equipped with the second through-hole, and second through-hole is from the third The 4th surface is run through on surface, and the locking nut is inserted into from second through-hole, stretches out and fix from the first through hole.

2. the micro- rectangle milling of glass sintering according to claim 1 side tooling, which is characterized in that the second surface is equipped with Slow wire feeding milling side guide groove and multicore locating slot, slow wire feeding milling side guide groove is from the second surface to the first surface Direction is recessed, and the multicore locating slot is set in the guide groove of slow wire feeding milling side.

3. the micro- rectangle milling of glass sintering according to claim 1 side tooling, which is characterized in that the micro- rectangle of multicore has There is multiple twist needles and multiple aluminium hydraulic pressed connecting pipes, the twist needle to be set to the crimping for multiple multicore contact pins, the conduction tooling Among pipe, an aluminium hydraulic pressed connecting pipe corresponds to a twist needle, and the multicore contact pin is mutually matched with the aluminium hydraulic pressed connecting pipe, an aluminium hydraulic pressed connecting pipe pair A multicore contact pin is answered, when the conductive tooling is placed on the micro- rectangle of the multicore, the twist needle docks the multicore contact pin.

4. the micro- rectangle milling of glass sintering according to claim 1 side tooling, which is characterized in that each piece of compact heap compresses two A conduction tooling.

5. the micro- rectangle milling of glass sintering according to claim 1 side tooling, which is characterized in that milling side positioning tool is also With pedestal block, the pedestal block connects the bottom of the first surface and the bottom of second surface, and with the first surface, Second surface is in integral structure, and the pedestal block is vertical with the first surface, second surface.

6. the micro- rectangle milling of glass sintering according to claim 5 side tooling, which is characterized in that milling side positioning tool is in L-type.

7. the micro- rectangle milling of glass sintering according to claim 1 side tooling, which is characterized in that be equipped in the first through hole Internal thread is locked, the locking internal thread is matched with the locking nut.