CN201584634U - Cam type device for inserting terminal - Google Patents

Cam type device for inserting terminal Download PDF

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Publication number
CN201584634U
CN201584634U CN2009202652324U CN200920265232U CN201584634U CN 201584634 U CN201584634 U CN 201584634U CN 2009202652324 U CN2009202652324 U CN 2009202652324U CN 200920265232 U CN200920265232 U CN 200920265232U CN 201584634 U CN201584634 U CN 201584634U
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CN
China
Prior art keywords
leveling
clamping
cam
block
slide
Prior art date
Application number
CN2009202652324U
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Chinese (zh)
Inventor
赵凯
Original Assignee
东莞市焦点自动化科技有限公司
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Publication date
Application filed by 东莞市焦点自动化科技有限公司 filed Critical 东莞市焦点自动化科技有限公司
Priority to CN2009202652324U priority Critical patent/CN201584634U/en
Application granted granted Critical
Publication of CN201584634U publication Critical patent/CN201584634U/en

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Abstract

The utility model provides a cam type device for an inserting terminal which includes a clamping mechanism, a leveling mechanism, a pre-inserting mechanism, a shearing mechanism and a camshaft mechanism; the clamping mechanism, the leveling mechanism, the pre-inserting mechanism, and the shearing mechanism are connected in sequence by the camshaft mechanism; the camshaft mechanism includes a drive mechanism, a pulley mechanism, a cam spindle and a coder mechanism; the clamping mechanism includes a clamping cam, a clamping transmission mechanism, a clamping sliding block, a clamping slideway, a clamping spring seat and a slideway fixing mechanism; the leveling mechanism includes a leveling cam, a leveling transmission block, a leveling head mechanism, a leveling detection mechanism and a sliding rail mechanism; the pre-inserting mechanism includes a pre-inserting cam, a pre-inserting transmission mechanism and a pre-inserting sliding block; the shearing mechanism includes a shearing cam, a shearing transmission mechanism, a shearing block, a shearing sliding block and a shearing material channel. The cam type device for the inserting terminal can realize automatic shearing, pre-inserting, leveling and clamping, and has the advantages of high processing precision, more functions, high production efficiency, etc.

Description

Cam type device for inserting terminal
Technical field
The utility model relates to a kind of terminal and inserts equipment, the sub-device of particularly a kind of cam-type spigot.
Background technology
At present, in the processing of terminal part, generally fracture by manual, insert in the plastic cement by hand then, realize whole shaping with tool again, operating efficiency is lower, quality is difficult to control, in the course of processing, terminal inserts and to occur distortion easily, and foreign matter such as sneaks at phenomenon, thereby causes defective products, and the time and the operation of processing are all longer, had a strong impact on cost performance of product, influenced the production capacity that product lot quantity is produced, traditional handwork has defectives such as efficient is low, quality is unstable, the making space requirement is big, serious waste of resources.And at present, existing terminal machining machine and tool has the few and not high defective of machining accuracy of function, in use has significant limitation.
The utility model content
The purpose of this utility model is to overcome the shortcoming of prior art with not enough, provide a kind of machining accuracy height, function more, can utilize the rotating band moving cam of motor to do irregular circular motion, thus realize terminal shearing, insert in advance, the sub-device of cam-type spigot of leveling and clamping.
The purpose of this utility model is achieved through the following technical solutions: the sub-device of a kind of cam-type spigot, comprise fixture, flattening mechanism, insert mechanism, cutting mechanism and camshaft mechanism in advance, described fixture, flattening mechanism, insert mechanism in advance and be connected by camshaft mechanism successively with cutting mechanism.
Described camshaft mechanism comprises driving mechanism, pulley mechanism, cam shaft and code device, and described driving mechanism is connected with pulley mechanism; Described pulley mechanism is connected with an end of cam shaft by the bearing race snap group; The other end of described cam shaft connects code device, and described code device is provided with motor and encoder, and described motor is connected with encoder.
Described cam shaft is provided with clamping adjustment ring and cuts off and adjust ring; Described clamping adjustment ring is connected with fixture, and described cut-out adjustment ring is connected with cutting mechanism.
Described fixture comprises clamp cam, clamp transmission mechanism, clamping slide block, clamping slideway, clamp springs seat and slideway fixed mechanism, described clamp cam, clamp transmission mechanism and clamping slideway are connected successively, and described clamping slideway all is connected with the slideway fixed mechanism with the clamping slide block; Described clamping slide block places in the clamping slideway; Described clamping slideway is connected with the clamp springs seat by spring; Described clamping slideway top is provided with grip block; Described clamp cam is connected with cam shaft.
Described clamp transmission mechanism comprises drive block, clamping drive block, slide rail and clamping retainer; Described slide rail is located at clamping retainer top, and described slide rail top connects the clamping drive block; Described clamping drive block is connected with drive block; Described drive block is connected with clamp cam;
Described slideway fixed mechanism comprises slideway pressing plate, clamping slide, slide adjustment piece; Described slideway pressing plate is located at clamping slide block both sides, and is connected with the clamping slideway; Described slide adjustment piece places clamping slide lower end and is connected with the clamping slideway; Described clamping slideway places on the clamping slide.
The below of described clamping slideway one end is provided with a breach, and described clamping drive block is connected with described breach; The tail end of described grip block is provided with clamping pilot pin block, and is closely connected with the tail end of grip block; Described drive block below is provided with drive block and adjusts seat.
Described flattening mechanism comprises leveling cam, leveling drive block, leveling head mechanism, leveling testing agency and sliding track mechanism, and described leveling cam is connected with the leveling drive block; Described leveling drive block is connected with leveling head mechanism; Described leveling testing agency is connected with leveling head mechanism, sliding track mechanism respectively; Described sliding track mechanism is located at leveling base top; Described leveling cam is connected with cam shaft.
Described leveling head mechanism comprises leveling head briquetting seat, leveling briquetting, leveling head and leveling headstock; Described leveling head briquetting seat is located at leveling drive block below; Described leveling head is located on the leveling headstock, and described leveling briquetting places on the leveling head briquetting seat, and is connected with leveling head;
Described leveling testing agency comprises that leveling detects that slide block, leveling detect cylinder, leveling detects piece and photoelectric sensor; Described leveling detects the slide block end and is provided with leveling detection limit base, and described leveling detection cylinder detects piece with leveling and is connected with leveling detection limit base respectively; Described photoelectric sensor detects cylinder with leveling respectively by the photoelectric sensor seat and is connected with leveling detection piece; Described leveling detects slide block and is provided with leveling headstock locating piece;
Described leveling briquetting is connected with leveling head briquetting seat; Described leveling head places on the leveling headstock, and is connected with leveling detection slide block;
Described pre-inserted mechanism comprises pre-inserted cam, pre-inserted transmission mechanism and pre-inserted slide block; Described pre-inserted cam is connected with pre-inserted transmission mechanism, and described pre-inserted transmission mechanism is connected with pre-inserted slide block; Described pre-inserted cam is connected with cam shaft;
Described pre-inserted transmission mechanism comprises pre-inserted drive block, pre-inserted transmission adjusting seat, pre-inserted retainer and pre-inserted transmission base, and described pre-inserted drive block is connected with pre-inserted transmission adjusting seat; Described pre-inserted retainer is connected with pre-inserted cam; Described pre-inserted retainer is connected with pre-inserted transmission adjusting seat, and all is located at pre-inserted transmission base top; Described pre-inserted transmission base, pre-inserted drive block all are connected with flattening mechanism.
Described cutting mechanism comprises shears cam, shears transmission mechanism, cuts off piece, cuts off slide block and cuts off the material road; Described shearing cam with shear transmission mechanism and be connected, described shearing transmission mechanism, cut off slide block and be connected piece and connect successively, described cut-out piece places cut-out to expect in the road; Described shearing cam is connected with cam shaft.
Described shearing transmission mechanism comprises drive block, drive block adjusting seat, cuts off driving block, slide rail and cut-out retainer; Described slide rail is fixed on and cuts off on the retainer; Described drive block, drive block adjusting seat, cut-out driving block are connected with slide rail and are connected; Described cut-out driving block one end is connected with the cut-out drive block, and described cut-out drive block is connected with the cut-out slide block;
Described cut-out slide block both sides are connected with the slideway pressing plate, and below, described cut-out material road is provided with slide, and places in the slide; Described slide below is provided with the slide adjustment block.
Mechanism of the present utility model: the driving mechanism in the starting cam axis mechanism, driving mechanism drive pulley mechanism kinematic, pulley mechanism drives cam shaft and rotates, and code device and motor are also controlled the motion of cam shaft simultaneously; The cam shaft drive is sheared cam and is moved in a circle, and the circular motion of shearing cam is converted to rectilinear motion by shearing transmission mechanism, and by cutting off piece, cut-out slide block and cutting off the cutting operation that terminal is finished in the material road; Cam shaft drives pre-inserted cam and moves in a circle, the circular motion of pre-inserted cam is converted to rectilinear motion by pre-inserted transmission mechanism, and by pre-inserted slide block drive terminal insertion plastic cement (supplied materials of plastic cement is to realize by other supplies of equipment), finish pre-inserted work; Cam shaft drives the leveling cam and moves in a circle, the circular motion of leveling cam is converted to rectilinear motion by the leveling drive block, leveling head mechanism flattens the terminal that inserts plastic cement, and whether has reached the leveling effect by leveling testing agency detection terminal, realizes the leveling operation of terminal; Cam shaft drives clamp cam and moves in a circle, and the circular motion of clamp cam is converted to rectilinear motion by the clamping drive block, and finishes the clamping flow chart of terminal by clamping slide block, clamping slideway and clamp springs seat etc.
The utility model compared with prior art has following advantage and beneficial effect:
1, the utility model can convert rotatablely moving of servomotor to concrete rectilinear motion by cam, can realize continuously the shearing of a terminal, pre-inserted, leveling and clamping flow chart; By Electric Machine Control and cycle operation, can realize the required insertion terminal equipment of terminal of electronic devices and components different spacing.
2, the utility model can pass through the Electric Machine Control operation, automatically realizes the processing operation of terminal, has reduced craft and labour, has greatly improved production efficiency and output.
3, the utility model has improved the quality of product, has reduced cost savings the time, has improved output, and the waste and the noiselessness that reduce resource are pollution-free.
Description of drawings
Fig. 1 is a general structure schematic diagram of the present utility model.
Fig. 2 is the structural representation of fixture shown in Figure 1.
Fig. 3 is the structural representation of flattening mechanism shown in Figure 1.
Fig. 4 is a pre-structural representation of inserting mechanism shown in Figure 1.
Fig. 5 is the structural representation of cutting mechanism shown in Figure 1.
Fig. 6 is the structural representation of camshaft mechanism shown in Figure 1.
Among each figure: 1, camshaft mechanism; 2, cutting mechanism; 3, insert mechanism in advance; 4, flattening mechanism; 5, fixture; 6, clamp cam; 7, clamping drive block; 8, clamp springs seat; 9, slideway pressing plate; 10, clamping slide; 11, clamping slideway; 12, grip block; 13, clamping pilot pin block; 14, clamping slide block; 15, clamping retainer; 16, slide rail; 17, drive block is adjusted seat; 18, drive block; 19, leveling cam; 20, leveling drive block; 21, a leveling briquetting seat; 22, leveling head; 23, leveling headstock; 24, leveling headstock locating piece; 25, sliding track mechanism; 26, leveling base; 27, leveling detects slide block; 28, leveling detects limit base; 29, leveling detects cylinder; 30, photoelectric sensor seat; 31, leveling detects piece; 32, leveling briquetting; 33, insert cam in advance; 34, insert transmission in advance and adjust seat; 35, insert the transmission base in advance; 36, insert slide block in advance; 37, insert retainer in advance; 38, cut off the material road; 39, slide is adjusted piece; 40, cut off piece; 41, cut off slide block; 42, slideway pressing plate; 43, cut off driving block; 44, slide rail; 45, cut off retainer; 46, drive block is adjusted seat; 47, drive block; 48, shear cam; 49, cut off drive block; 50, pulley mechanism; 51, bearing race snap group; 52, cut off the adjustment ring; 53, cam shaft; 54, clamping adjustment ring; 55, code device; 56, motor; 57, driving mechanism
Embodiment
Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but execution mode of the present utility model is not limited thereto.
Embodiment
Fig. 1~6 show concrete structure of the present utility model, as seen from Figure 1, the sub-device of this cam-type spigot comprises fixture 5, flattening mechanism 4, inserts mechanism 3, cutting mechanism 2 and camshaft mechanism 1 in advance, described fixture 5, flattening mechanism 4, inserts mechanism 3 in advance and is connected by camshaft mechanism 1 successively with cutting mechanism 2.
As shown in Figure 6, camshaft mechanism 1 comprises driving mechanism 57, pulley mechanism 50, cam shaft 53 and code device 55, and driving mechanism 57 is connected with pulley mechanism 50; Pulley mechanism 50 is connected with an end of cam shaft 53 by bearing race snap group 51; The other end of cam shaft 53 connects code device 55, and code device 55 is provided with motor 56 and encoder, and described motor 56 is connected with encoder.
Cam shaft 53 is provided with clamping adjustment ring 54 and cuts off adjustment ring 52; Clamping adjustment ring 54 is connected with clamping device 5, cuts off adjustment ring 52 and is connected with cutting mechanism 2.
As shown in Figure 2, fixture 5 comprises clamp cam 6, clamp transmission mechanism, clamping slide block 147, clamping slideway 11, clamp springs seat 8 and slideway fixed mechanism, clamp cam 6, clamp transmission mechanism and clamping slideway 11 are connected successively, and clamping slideway 11 all is connected with the slideway fixed mechanism with clamping slide block 14; Clamping slide block 14 places in the clamping slideway 11; Described clamping slideway 11 is connected with clamp springs seat 8 by spring; Clamping slideway 11 tops are provided with grip block 12; Described clamp cam 6 is connected with cam shaft 53.
Clamp transmission mechanism comprises drive block 18, clamping drive block 7, slide rail 16 and clamping retainer 15; Described slide rail 16 is located at clamping retainer 15 tops, and described slide rail 16 tops connect clamping drive block 7; Described clamping drive block 7 is connected with drive block 18; Described drive block 18 is connected with clamp cam 6;
The slideway fixed mechanism comprises slideway pressing plate 9, clamping slide 10, slide adjustment piece; Described slideway pressing plate 9 is located at clamping slide block 14 both sides, and is connected with clamping slideway 11; Described slide adjustment piece places clamping slide 10 lower ends and is connected with clamping slideway 11; Described clamping slideway 11 places on the clamping slide 10.
The below of clamping slideway 11 1 ends is provided with a breach, and described clamping drive block 7 is connected with described breach; The tail end of described grip block 12 is provided with clamping pilot pin block 13, and is closely connected with the tail end of grip block 12; Described drive block 18 belows are provided with drive block and adjust seat 17.
As shown in Figure 3, flattening mechanism 4 comprises leveling cam 19, leveling drive block 20, leveling head mechanism, leveling testing agency and sliding track mechanism 25, and described leveling cam 19 is connected with leveling drive block 20; Described leveling drive block 20 is connected with leveling head mechanism; Described leveling testing agency is connected with leveling head mechanism, sliding track mechanism 25 respectively; Described sliding track mechanism 25 is located at leveling base 26 tops; Described leveling cam 19 is connected with cam shaft 53.
Leveling head mechanism comprises leveling head briquetting seat 21, leveling briquetting 32, leveling head 22 and leveling headstock 23; Described leveling head briquetting seat 21 is located at leveling drive block 20 belows; Described leveling head 22 is located on the leveling headstock 23, and described leveling briquetting 32 places on the leveling head briquetting seat 21, and is connected with leveling head 22;
Leveling testing agency comprises that leveling detection slide block 27, leveling detect cylinder 29, leveling detects piece 31 and photoelectric sensor; Described leveling detects slide block 27 ends and is provided with leveling and detects limit base 28, described leveling detect cylinder 29 and be connected detect piece 31 respectively with flatten detection limit base 28 and be connected; Described photoelectric sensor detects cylinder 29 with leveling respectively and is connected detection piece 31 by photoelectric sensor seat 30 and is connected; Described leveling detects slide block 27 and is provided with leveling headstock locating piece 24;
Leveling briquetting 32 is connected with leveling head briquetting seat 21; Described leveling head places on the leveling headstock 23, and is connected with leveling detection slide block 27;
As shown in Figure 4, pre-inserted mechanism 3 comprises pre-inserted cam 33, pre-inserted transmission mechanism and pre-inserted slide block 36; Described pre-inserted cam 33 is connected with pre-inserted transmission mechanism, and described pre-inserted transmission mechanism is connected with pre-inserted slide block 36; Described pre-inserted cam 33 is connected with cam shaft 53;
Pre-inserted transmission mechanism comprises pre-inserted drive block, pre-inserted transmission adjusting seat 34, pre-inserted retainer 37 and pre-inserted transmission base 35, and pre-inserted drive block is connected with pre-inserted transmission adjusting seat 34; Described pre-inserted retainer 37 is connected with pre-inserted cam 33; Pre-inserted retainer 37 is connected with pre-inserted transmission adjusting seat 34, and all is located at pre-inserted transmission base 35 tops; Pre-inserted transmission base 35, pre-inserted drive block all are connected with flattening mechanism 4.
As shown in Figure 5, cutting mechanism 2 comprises shearing cam 48, shearing transmission mechanism, cut-out piece 40, cut-out slide block 41 and cuts off and expect road 38; Described shearing cam 48 with shear transmission mechanism and be connected, described shearing transmission mechanism, cut off slide block 41 and be connected piece 40 and connect successively, described cut-out piece 40 places cut-out to expect in the road 38; Described shearing cam 48 is connected with cam shaft 53.
Shearing transmission mechanism comprises drive block 47, drive block adjustment seat 46, cuts off driving block 43, slide rail 44 and cuts off retainer 45; Described slide rail 44 is fixed on and cuts off on the retainer 45; Described drive block 47, drive block adjustment seat 46, cut-out driving block 43 are connected successively with slide rail; Described cut-out driving block 43 1 ends are connected with and cut off drive block 49, and described cut-out drive block 49 is connected with cut-out slide block 41;
Cut off slide block 41 both sides and be connected with slideway pressing plate 42,38 belows, described cut-out material road are provided with slide, and place in the slide; Described slide below is provided with slide and adjusts piece 39.
The foregoing description is the utility model preferred implementation; but execution mode of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under spirit of the present utility model and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within the protection range of the present utility model.

Claims (10)

1. sub-device of cam-type spigot is characterized in that: comprise fixture, flattening mechanism, insert mechanism, cutting mechanism and camshaft mechanism in advance, described fixture, flattening mechanism, insert mechanism in advance and be connected by camshaft mechanism successively with cutting mechanism.
2. the sub-device of cam-type spigot according to claim 1, it is characterized in that: described camshaft mechanism comprises driving mechanism, pulley mechanism, cam shaft and code device, described driving mechanism is connected with pulley mechanism; Described pulley mechanism is connected with an end of cam shaft by the bearing race snap group; The other end of described cam shaft connects code device, and described code device is provided with motor and encoder, and described motor is connected with encoder.
3. Cam type device for inserting terminal according to claim 2 is characterized in that: described cam shaft is provided with the clamping adjustment ring and cuts off adjustment ring; Described clamping adjustment ring is connected with clamping device, and described cut-out adjustment ring is connected with cutting mechanism.
4. the sub-device of cam-type spigot according to claim 2, it is characterized in that: described fixture comprises clamp cam, clamp transmission mechanism, clamping slide block, clamping slideway, clamp springs seat and slideway fixed mechanism, described clamp cam, clamp transmission mechanism and clamping slideway are connected successively, and described clamping slideway all is connected with the slideway fixed mechanism with the clamping slide block; Described clamping slide block places in the clamping slideway; Described clamping slideway is connected with the clamp springs seat by spring; Described clamping slideway top is provided with grip block; Described clamp cam is connected with cam shaft.
5. the sub-device of cam-type spigot according to claim 4 is characterized in that: described clamp transmission mechanism comprises drive block, clamping drive block, slide rail and clamping retainer; Described slide rail is located at clamping retainer top, and described slide rail top connects the clamping drive block; Described clamping drive block is connected with drive block; Described drive block is connected with clamp cam;
Described slideway fixed mechanism comprises slideway pressing plate, clamping slide, slide adjustment piece; Described slideway pressing plate is located at clamping slide block both sides, and is connected with the clamping slideway; Described slide adjustment piece places clamping slide lower end and is connected with the clamping slideway; Described clamping slideway places on the clamping slide;
The below of described clamping slideway one end is provided with a breach, and described clamping drive block is connected with described breach; The tail end of described grip block is provided with clamping pilot pin block, and is closely connected with the tail end of grip block; Described drive block below is provided with drive block and adjusts seat.
6. Cam type device for inserting terminal according to claim 2 is characterized in that: described flattening mechanism comprises leveling cam, leveling drive block, leveling head mechanism, leveling testing agency and sliding track mechanism, described leveling cam with flatten drive block and be connected; Described leveling drive block is connected with leveling head mechanism; Described leveling testing agency is connected with leveling head mechanism, sliding track mechanism respectively; Described sliding track mechanism is located at leveling base top; Described leveling cam is connected with cam shaft.
7. Cam type device for inserting terminal according to claim 6 is characterized in that: described leveling head mechanism comprises leveling head briquetting seat, leveling briquetting, leveling head and leveling headstock; Described leveling head briquetting seat is located at leveling drive block below; Described leveling head is located on the leveling headstock, and described leveling briquetting places on the leveling head briquetting seat, and is connected with leveling head;
Described leveling testing agency comprises that leveling detects that slide block, leveling detect cylinder, leveling detects piece and photoelectric sensor; Described leveling detects the slide block end and is provided with leveling detection limit base, and described leveling detection cylinder detects piece with leveling and is connected with leveling detection limit base respectively; Described photoelectric sensor detects cylinder with leveling respectively by the photoelectric sensor seat and is connected with leveling detection piece; Described leveling detects slide block and is provided with leveling headstock locating piece;
Described leveling briquetting is connected with leveling head briquetting seat; Described leveling head places on the leveling headstock, and is connected with leveling detection slide block.
8. Cam type device for inserting terminal according to claim 2, it is characterized in that: described pre-inserted mechanism comprises pre-inserted cam, pre-inserted transmission mechanism and pre-inserted slide block; Described pre-inserted cam is connected with pre-inserted transmission mechanism, and described pre-inserted transmission mechanism is connected with pre-inserted slide block; Described pre-inserted cam is connected with cam shaft;
Described pre-inserted transmission mechanism comprises pre-inserted drive block, pre-inserted transmission adjusting seat, pre-inserted retainer and pre-inserted transmission base, and described pre-inserted drive block is connected with pre-inserted transmission adjusting seat; Described pre-inserted retainer is connected with pre-inserted cam; Described pre-inserted retainer is connected with pre-inserted transmission adjusting seat, and all is located at pre-inserted transmission base top; Described pre-inserted transmission base, pre-inserted drive block all are connected with flattening mechanism.
9. Cam type device for inserting terminal according to claim 2 is characterized in that: described cutting mechanism comprises shears cam, shears transmission mechanism, cuts off piece, cuts off slide block and cuts off the material road; Described shearing cam with shear transmission mechanism and be connected, described shearing transmission mechanism, cut off slide block and be connected piece and connect successively, described cut-out piece places cut-out to expect in the road; Described shearing cam is connected with cam shaft.
10. Cam type device for inserting terminal according to claim 9 is characterized in that: described shearing transmission mechanism comprises drive block, drive block adjusting seat, cuts off driving block, slide rail and cut-out retainer; Described slide rail is fixed on and cuts off on the retainer; Described drive block, drive block adjusting seat, cut-out driving block are connected with slide rail and are connected; Described cut-out driving block one end is connected with the cut-out drive block, and described cut-out drive block is connected with the cut-out slide block;
Described cut-out slide block both sides are connected with the slideway pressing plate, and below, described cut-out material road is provided with slide, and places in the slide; Described slide below is provided with the slide adjustment block.
CN2009202652324U 2009-12-15 2009-12-15 Cam type device for inserting terminal CN201584634U (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
CN2009202652324U CN201584634U (en) 2009-12-15 2009-12-15 Cam type device for inserting terminal

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Publication Number Publication Date
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102159038A (en) * 2011-03-09 2011-08-17 珠海市宇腾自动化设备制造有限公司 Plug-in board head of fully-automatic terminal plug-in board machine
CN102412492A (en) * 2011-12-27 2012-04-11 苏州新润达电子有限公司 Automatic processing device for DC (direct current) plug
CN102709788A (en) * 2012-05-29 2012-10-03 苏州瀚川机电有限公司 Terminal pin plugging device
CN102931564A (en) * 2012-08-14 2013-02-13 惠州市奥罗拉科技有限公司 Cam-type full-automatic terminal mounting mechanism
CN103401124A (en) * 2013-07-23 2013-11-20 浙江合兴电子元件有限公司 High-speed cam pin inserting machine
CN103515830A (en) * 2012-06-21 2014-01-15 苏州瀚川机电有限公司 Terminal pin-inserting device
WO2014183309A1 (en) * 2013-05-15 2014-11-20 Zhao Wei Mechanism for splitting, drawing, and feeding a flat cable
CN104979736A (en) * 2014-04-10 2015-10-14 苏州瀚川机电有限公司 Terminal pin-inserting device
CN110112631A (en) * 2019-05-16 2019-08-09 东莞理工学院 A kind of electric power connector kludge

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102159038A (en) * 2011-03-09 2011-08-17 珠海市宇腾自动化设备制造有限公司 Plug-in board head of fully-automatic terminal plug-in board machine
CN102159038B (en) * 2011-03-09 2012-10-31 珠海市宇腾自动化设备制造有限公司 Plug-in board head of fully-automatic terminal plug-in board machine
CN102412492A (en) * 2011-12-27 2012-04-11 苏州新润达电子有限公司 Automatic processing device for DC (direct current) plug
CN102709788A (en) * 2012-05-29 2012-10-03 苏州瀚川机电有限公司 Terminal pin plugging device
CN102709788B (en) * 2012-05-29 2015-01-07 苏州瀚川机电有限公司 Terminal pin plugging device
CN103515830B (en) * 2012-06-21 2016-10-05 苏州瀚川机电有限公司 A kind of terminal pin device
CN103515830A (en) * 2012-06-21 2014-01-15 苏州瀚川机电有限公司 Terminal pin-inserting device
CN102931564A (en) * 2012-08-14 2013-02-13 惠州市奥罗拉科技有限公司 Cam-type full-automatic terminal mounting mechanism
WO2014183309A1 (en) * 2013-05-15 2014-11-20 Zhao Wei Mechanism for splitting, drawing, and feeding a flat cable
CN103401124A (en) * 2013-07-23 2013-11-20 浙江合兴电子元件有限公司 High-speed cam pin inserting machine
CN103401124B (en) * 2013-07-23 2015-04-22 浙江合兴电子元件有限公司 High-speed cam pin inserting machine
CN104979736A (en) * 2014-04-10 2015-10-14 苏州瀚川机电有限公司 Terminal pin-inserting device
CN110112631A (en) * 2019-05-16 2019-08-09 东莞理工学院 A kind of electric power connector kludge

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