CN202094465U - Die used for assembling spring probe - Google Patents
Die used for assembling spring probe Download PDFInfo
- Publication number
- CN202094465U CN202094465U CN2011202157220U CN201120215722U CN202094465U CN 202094465 U CN202094465 U CN 202094465U CN 2011202157220 U CN2011202157220 U CN 2011202157220U CN 201120215722 U CN201120215722 U CN 201120215722U CN 202094465 U CN202094465 U CN 202094465U
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- China
- Prior art keywords
- needle tubing
- module
- sieve
- spring
- needle
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- Expired - Fee Related
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Abstract
The utility model discloses a die used for assembling a spring probe. The spring probe is composed of a needle tubing, a spring and a needle head. The die is characterized by comprising a sieve needle tubing module, a needle tubing positioning module, a needle tubing base plate module, a sieve spring module, a sieve needle head module, a leak needle head module, and a riveting upper module which are independent from each other and are of flat structures. The modules are all provided with positioning structures used for being matched with each other. According to the spring probe assembling by the method, a lot of probes of finished products can be assembled at the same time in a batch in one operation and the assembled quantity is decided by hole sites arranged on the modules; assembling efficiency is high; the method can be completed by means of simple human labor; tools used in the method have simple structures and the tools can be used in probes of various types; and cost of assembling processing is substantially reduced.
Description
Technical field
The utility model relates to the manufacturing process of spring probe, specifically is the assembly jig of spring probe.
Background technology
Spring probe, have another name called Pogo pin, also be called as antenna thimble, probe, thimble, it is a kind of precision connector that is applied in the electronic products such as mobile phone, be widely used in antenna for mobile phone, interconnect function between battery of mobile phone etc. and the cell phone mainboard solves the purposes of the connection that can't be difficult to finish with shell fragment or other connector for the client.Pogo pin stable performance in use, contact performance height, connect of many uses, be the product of connector first-selection.There is a precision spring structure pogo pin inside.The part of Pogo pin is three parts, syringe needle, spring, needle tubing.
The special construction of spring probe and size make that the technology of above each parts formation finished product probe of batch machining assembling is comparatively complicated, often be difficult to both and get both between working (machining) efficiency and processing cost.
The utility model content
At the problems referred to above, the utility model aims to provide the low mould that is used for the spring probe assembling of a kind of packaging efficiency height, processing cost.
For realizing this technical purpose, scheme of the present utility model is: a kind of mould that is used for the spring probe assembling, described spring probe is made up of needle tubing, spring and syringe needle, the bottom of needle tubing is a large part, the top is the little position of suit syringe needle, spring is encapsulated in the needle tubing syringe needle is produced tension force, and the position that syringe needle is riveting in the needle tubing is the major part position, and the position that exposes to needle tubing is the microcephaly position; This mould be characterised in that its by separately independently, the sieve needle tubing module of slab construction, needle tubing locating module, needle tubing floor module, sieve spring module, sieve syringe needle module, dropped stitch head module and riveted upper module form, the location structure of coupling between above-mentioned each module is equipped with and is used for mutually, wherein:
Be laid with one group of needle tubing sieve aperture in the sieve needle tubing module, the aperture of this sieve aperture and needle tubing bottom size coupling, needle tubing can stand in this sieve aperture under the effect of gravity;
Be laid with in the needle tubing locating module and needle tubing sieve aperture location hole one to one, the little position caliber of needle tubing and location hole aperture coupling, needle tubing can pass this location hole and be fixed on this locating module;
The needle tubing floor module can be fixed in the end face of needle tubing bottom, needle tubing locating module location, the fixedly axial motion of needle tubing;
Sieve be laid with in the spring module one group with needle tubing location hole spring sieve aperture one to one, the aperture of this sieve aperture and the external diameter of spring coupling, spring passes through this hole landing to needle tubing under the effect of gravity;
Be laid with in the sieve syringe needle module one group with needle tubing location hole syringe needle sieve aperture one to one, the external diameter at the aperture of this sieve aperture and syringe needle microcephaly position mates, syringe needle can stand in this sieve aperture under the effect of gravity;
Be laid with in the dropped stitch head module one group with needle tubing location hole dropped stitch head hole one to one, the external diameter coupling at the aperture in this hole and syringe needle major part position, syringe needle passes through this hole landing to needle tubing under the effect of gravity;
Be laid with in the riveted upper module one group with needle tubing location hole riveted groove one to one, can be when this groove is under pressure with the top riveted of needle tubing, the major part position and the spring of syringe needle is encapsulated in the needle tubing.
As preferably, described sieve needle tubing module and sieve spring module are provided with concave face, and corresponding sieve aperture all is laid in this concave face.
As preferably, the aperture of the spring upstream end of described spring sieve aperture is greater than the spring external diameter, and the axial cross section of this sieve aperture is funnel-form.
As preferably, the sieve aperture on described sieve needle tubing module, sieve spring module, the sieve syringe needle module and the hole count in location hole on the needle tubing locating module and the dropped stitch head hole on the dropped stitch head module are 5~5000.
Adopt the method for this programme to carry out the assembling of spring probe, can be in operation in batches assembling simultaneously go out a large amount of finished product probes, concrete quantity once can be assembled 5PIN~5000PIN usually by position, the hole decision of setting on the module, packaging efficiency is high; In addition, this method only need can be finished by the work of simple manpower, and the instrument that uses in the method etc. are simple in structure and applicable to the probe of polytypic, greatly reduce the assembling cost of processing.
Description of drawings
Fig. 1 is the package assembly schematic diagram of the utility model medi-spring probe.
Fig. 2 is the structural representation of sieve needle tubing module.
Fig. 3 is the cross-sectional structure schematic diagram of sieve needle tubing module.
Fig. 4 falls into the structural representation of sieve needle tubing module for needle tubing.
Fig. 5 is the structural representation of needle tubing locating module.
Fig. 6 is fixed on structural representation in the locating module for needle tubing.
Fig. 7 is the structural representation of needle tubing floor module.
Fig. 8 is the structural representation of preassembled unit one in the utility model.
Fig. 9 is the structural representation of sieve spring module.
Figure 10 falls into the structural representation of needle tubing by spring screen deck for spring.
Figure 11 is the structural representation of sieve syringe needle module.
Figure 12 falls into the structural representation of dropped stitch head module for syringe needle.
Figure 13 is the structural representation of dropped stitch head module.
Figure 14 is the schematic diagram of dropped stitch head module, card and the combination of sieve syringe needle module.
Figure 15 is the structural representation of riveted upper module.
Figure 16 is the structural representation of the part cross section of riveted upper module
Figure 17 is the structural representation of riveted product.
Embodiment
Below in conjunction with the drawings and specific embodiments and concrete using method, the utility model is described in further details.
A kind of method that is used for the spring probe assembling of the present utility model, as shown in Figure 1, described spring probe is made up of needle tubing 1, spring 2 and syringe needle 3, the bottom 11 of needle tubing is a large part, top 12 is the little position of suit syringe needle, spring 2 is encapsulated in the needle tubing 1 syringe needle 3 is produced tension force, and the position that syringe needle 3 is riveting in the needle tubing 1 is major part position 31, and the position that exposes to needle tubing is microcephaly position 32; This mould by separately independently, the sieve needle tubing module 41 of slab construction, needle tubing locating module 42, needle tubing floor module 5, sieve spring module 6, sieve syringe needle module 7, dropped stitch head module 8 and riveted upper module 9 form, the location structure 10 of coupling between above-mentioned each module is equipped with and is used for mutually, wherein:
Shown in Fig. 2,3, be laid with one group of needle tubing sieve aperture 411 in the sieve needle tubing module 41, the external diameter size coupling of the aperture of this sieve aperture 411 and needle tubing bottom 11, needle tubing can stand in this sieve aperture under the effect of gravity, described sieve needle tubing module 41 is provided with concave face 412, and corresponding sieve aperture 411 all is laid in this concave face; Be laid with in the needle tubing locating module 42 as shown in Figure 5 and needle tubing sieve aperture 411 location hole 421 one to one, little position 12 calibers of needle tubing and location hole 421 apertures coupling, needle tubing 1 can pass this location hole 421 and be fixed on this locating module; As shown in Figure 7, needle tubing floor module 5 can be fixed in the end face of needle tubing bottom, needle tubing locating module location 11, the fixedly axial motion of needle tubing, and the needle tubing floor module is provided with the groove of placing the needle tubing basal sliding with the position that the needle tubing bottom contacts;
In the specific implementation, sieve needle tubing step is operated in the following manner: needle tubing 1 is put into sieve needle tubing module 41, and big because of needle tubing 1 bottom 11, center of gravity is in the bottom, and with the swing of module left-right and front-back, needle tubing bottom 11 can be introduced into (face amplifies shown in Figure 4 as follows) in the module.Again needle tubing 1 locating module 42 is put into the module of having sieved needle tubing, two modules are fallen turnback, allow needle tubing 1 little position 12 enter in the locating module 42, take down sieve needle tubing module 41 (face amplifies shown in Figure 6 as follows) again.At last needle tubing floor module 5 is aimed at the needle tubing locating modules and put into, fix, two modules are fallen turnback, as above finish sieve needle tubing operation (face amplifies shown in Figure 8 as follows), form preassembled unit one.
As shown in Figure 9, sieve be laid with in the spring module 6 one group with needle tubing location hole 421 spring sieve aperture 61 one to one, the external diameter coupling of the aperture of this sieve aperture 61 and spring 2, spring 2 passes through this hole landing to needle tubing 1 under the effect of gravity; As most preferred embodiment, the aperture of the spring upstream end of described spring sieve aperture 61 is greater than the spring external diameter, and the axial cross section of this sieve aperture is funnel-form, as shown in figure 10.In the specific implementation, sieve spring step is operated in the following manner: the needle tubing top 12 that a spring screen deck 6 is positioned over above-mentioned preassembled unit one, Kong Weijun on the spring screen deck 6 is corresponding one by one with each needle tubing 1, be placed on this spring screen deck 6 spring 2 moving with hairbrush left-right and front-back brush, spring falls in the corresponding needle tubing 1 in batches, visual needle tubing all has spring in the hole, takes this spring screen deck 6 again away, forms preassembled unit two; As shown in figure 10.
As shown in figure 11, be laid with in the sieve syringe needle module 7 one group with needle tubing location hole 421 syringe needle sieve aperture 71 one to one, the external diameter at the aperture of this sieve aperture 71 and syringe needle microcephaly position 32 mates, syringe needle can stand in this sieve aperture under the effect of gravity; In the specific implementation, sieve syringe needle step is operated in the following manner: as shown in figure 12, syringe needle 3 is put into left-right and front-back swing on the sieve syringe needle module 7, allow syringe needle 3 microcephaly positions 32 enter in the aperture of this module 7, the needle insertion position of this module is all corresponding one by one with the interior needle tubing of locating module.
As shown in figure 13, be laid with in the dropped stitch head module 8 one group with needle tubing location hole 421 dropped stitch head hole 81 one to one, the external diameter coupling at the aperture in this hole and syringe needle major part position 31, syringe needle 3 under the effect of gravity by this hole landing to needle tubing 1. when specifically implementing, dropped stitch head step is operated in the following manner: as shown in figure 14, syringe needle 3 major part positions 31 ends of sieve syringe needle module 7 are put and are put dropped stitch head module 8 again after card 11 is also fixed, dropped stitch head module 8 ends are positioned over the needle tubing top of preassembled unit two, again card 11 is taken away, the major part position 31 of syringe needle 3 falls under gravity in the corresponding needle tubing 1, take this dropped stitch head module again away, form preassembled unit three.
Shown in Figure 15,16, be laid with in the riveted upper module 9 one group with needle tubing location hole 421 riveted groove 91 one to one, can be when this groove is under pressure with the top riveted of needle tubing 1, the major part position and the spring of syringe needle is encapsulated in the needle tubing.In the specific implementation, as shown in figure 17, riveted product step is operated in the following manner: a riveted upper module 9 is put into above-mentioned preassembled unit three, this riveted upper module 9 and floor module 5 are exerted pressure, with the little position end riveted of needle tubing, the major part position and the spring of syringe needle is encapsulated in the needle tubing.
Usually riveted product step can be put into lock seaming machine, press starting button, riveted is finished, and takes out module and pogo pin finished product again.So far, whole operation is finished.
Adopt the mould of this specific embodiment to carry out the assembling of spring probe, can be in operation in batches assembling simultaneously go out a large amount of finished product probes, concrete quantity can be reached a collection of hundreds of spare usually and be assembled simultaneously by position, the hole decision of setting on the module, and packaging efficiency is high; In addition, this method only need can be finished by the work of simple manpower, and the instrument that uses in the method etc. are simple in structure and applicable to the probe of polytypic, greatly reduce the assembling cost of processing.
Through a large amount of tests, the finished product yield of this assemble method is very high, defect ware can not occur substantially.
The above; it only is preferred embodiment of the present utility model; not in order to restriction the utility model, every foundation technical spirit of the present utility model to any trickle modification that above embodiment did, be equal to and replace and improve, all should be included within the protection range of technical solutions of the utility model.
Claims (5)
1. one kind is used for the mould that spring probe is assembled, described spring probe is made up of needle tubing, spring and syringe needle, the bottom of needle tubing is a large part, the top is the little position of suit syringe needle, spring is encapsulated in the needle tubing syringe needle is produced tension force, the position that syringe needle is riveting in the needle tubing is the major part position, and the position that exposes to needle tubing is the microcephaly position; This mould be characterised in that its by separately independently, the sieve needle tubing module of slab construction, needle tubing locating module, needle tubing floor module, sieve spring module, sieve syringe needle module, dropped stitch head module and riveted upper module form, the location structure of coupling between above-mentioned each module is equipped with and is used for mutually, wherein:
Be laid with one group of needle tubing sieve aperture in the sieve needle tubing module, the aperture of this sieve aperture and needle tubing bottom size coupling, needle tubing can stand in this sieve aperture under the effect of gravity;
Be laid with in the needle tubing locating module and needle tubing sieve aperture location hole one to one, the little position caliber of needle tubing and location hole aperture coupling, needle tubing can pass this location hole and be fixed on this locating module;
The needle tubing floor module can be fixed in the end face of needle tubing bottom, needle tubing locating module location, the fixedly axial motion of needle tubing;
Sieve be laid with in the spring module one group with needle tubing location hole spring sieve aperture one to one, the aperture of this sieve aperture and the external diameter of spring coupling, spring passes through this hole landing to needle tubing under the effect of gravity;
Be laid with in the sieve syringe needle module one group with needle tubing location hole syringe needle sieve aperture one to one, the external diameter at the aperture of this sieve aperture and syringe needle microcephaly position mates, syringe needle can stand in this sieve aperture under the effect of gravity;
Be laid with in the dropped stitch head module one group with needle tubing location hole dropped stitch head hole one to one, the external diameter coupling at the aperture in this hole and syringe needle major part position, syringe needle passes through this hole landing to needle tubing under the effect of gravity;
Be laid with in the riveted upper module one group with needle tubing location hole riveted groove one to one, can be when this groove is under pressure with the top riveted of needle tubing, the major part position and the spring of syringe needle is encapsulated in the needle tubing.
2. the method for assembling according to claim 1 is characterized in that: described sieve needle tubing module and sieve spring module are provided with concave face, and corresponding sieve aperture all is laid in this concave face.
3. the method for assembling according to claim 1, it is characterized in that: the aperture of the spring upstream end of described spring sieve aperture is greater than the spring external diameter, and the axial cross section of this sieve aperture is funnel-form.
4. the method for assembling according to claim 1 is characterized in that: the position that described needle tubing floor module contact with the needle tubing bottom is provided with the groove of placement needle tubing basal sliding.
5. according to the method for each described assembling in the claim 1 to 4, it is characterized in that: the sieve aperture on described sieve needle tubing module, sieve spring module, the sieve syringe needle module and the hole count in location hole on the needle tubing locating module and the dropped stitch head hole on the dropped stitch head module are 5~5000.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011202157220U CN202094465U (en) | 2011-06-10 | 2011-06-10 | Die used for assembling spring probe |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011202157220U CN202094465U (en) | 2011-06-10 | 2011-06-10 | Die used for assembling spring probe |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202094465U true CN202094465U (en) | 2011-12-28 |
Family
ID=45369508
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2011202157220U Expired - Fee Related CN202094465U (en) | 2011-06-10 | 2011-06-10 | Die used for assembling spring probe |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202094465U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102263352A (en) * | 2011-06-10 | 2011-11-30 | 魏正鹏 | Mould used for assembling spring probe |
| CN111604446A (en) * | 2020-06-01 | 2020-09-01 | 渭南高新区木王科技有限公司 | Double-end kludge for probe |
-
2011
- 2011-06-10 CN CN2011202157220U patent/CN202094465U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102263352A (en) * | 2011-06-10 | 2011-11-30 | 魏正鹏 | Mould used for assembling spring probe |
| CN102263352B (en) * | 2011-06-10 | 2014-07-30 | 魏正鹏 | Mould used for assembling spring probe |
| CN111604446A (en) * | 2020-06-01 | 2020-09-01 | 渭南高新区木王科技有限公司 | Double-end kludge for probe |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20111228 Termination date: 20140610 |