CN209157763U - A kind of boring numerical control machining clamper of handware - Google Patents

Abstract

The utility model discloses a kind of boring numerical control machining clampers of handware, including storage box, servo motor and the second connecting rod, the lower inside of the storage box is equipped with servo motor, and first gear is provided with above servo motor, the upper surface avris of the storage box offers sliding slot, and hole is reserved in the upper surface middle position of storage box, controller is installed above storage box simultaneously, the middle position of the first connecting rod is equipped with lantern ring, the middle position of first briquetting is connected with each other by shaft and the second briquetting, and first the end point of briquetting and spring pass through spring and be connected with each other, second connecting rod is located at the bosom position of storage box, and second the end point connection of connecting rod be connected with each other with one end of casing.The boring numerical control machining clamper of the handware, convenient for handware is taken outward, reduces the production difficulty of handware convenient for carrying out extruding fixation to handware, and after handware completion of processing.

Description

A kind of boring numerical control machining clamper of handware

Technical field

The utility model relates to handware processing technique field, specially a kind of boring numerical control machining clamper of handware.

Background technique

The effects of handware refers to the tool formed after intermetallic composite coating casting, plays fixed thing, processing thing, decoration, Handware is made in crossing in layer for processing by processes such as forging, punching press, punching and polishings, and handware is daily in people It is seen everywhere in life.

Handware needs to use fixed device when processing drilling, however there are following for existing handware clamp for machining Problem:

1, mostly use greatly manually mode fastening drilling is carried out to handware, it is larger to the difficulty that handware is fixed, influence The speed of handware drilling, reduces the efficiency of hardware frame processing；

2, the handware after drilling is not easy to take, and can not eject outward handware, after increasing handware processing The difficulty taken.

In view of the above-mentioned problems, being badly in need of carrying out innovative design on the basis of original handware clamp for machining.

Utility model content

The purpose of this utility model is to provide a kind of boring numerical control machining clampers of handware, to solve above-mentioned background skill Existing handware clamp for machining is proposed in art, is not easy to that handware is fixed, and is not easy to the hardware after processing The problem of part is taken outward, increases handware difficulty of processing.

To achieve the above object, the utility model provides the following technical solutions: a kind of boring numerical control processing folder of handware Tool, including storage box, servo motor and the second connecting rod, the lower inside of the storage box are equipped with servo motor, and servo First gear is provided with above motor, while the avris of first gear is connected with each other by second gear and first connecting rod, The upper surface avris of the storage box offers sliding slot, and hole, while glove are reserved in the upper surface middle position of storage box Controller is installed, the middle position of the first connecting rod is equipped with lantern ring, and passes through support above lantern ring above case Bar and the first briquetting are connected with each other, and the middle position of first briquetting is connected with each other by shaft and the second briquetting, and first The end point of briquetting and spring is connected with each other by spring, and second connecting rod is located at the bosom position of storage box, and The end point connection of second connecting rod and one end of casing are connected with each other, while the other end of casing is fixed with top plate, the top Restricted bar is arranged in the avris of plate, and the avris of top plate offers limiting groove.

Preferably, the first connecting rod is provided with 2, and first connecting rod and about the axisymmetrical of first gear Two gears are integration setting, while second gear is to engage connection with first gear.

Preferably, the first connecting rod and the second connecting rod are all made of shape of threads setting, and first connecting rod and lantern ring It with casing is to be threadedly coupled with the second connecting rod.

Preferably, first briquetting and storage box constitute the structure that is slidably installed, and the first briquetting and the second briquetting are to turn Dynamic mounting structure, while the first briquetting and the second briquetting are all made of trapezoidal setting.

Preferably, first briquetting is angularly distributed in the upper surface of storage box, and the first briquetting and sliding slot end Distance is greater than the distance between top plate end point and storage box.

Preferably, the top plate and storage box constitute lifting mounting structure, and top plate is arranged about the axisymmetrical of hole, The internal diameter of hole is greater than the outer diameter of top plate simultaneously.

Compared with prior art, the utility model has the beneficial effects that the boring numerical control machining clamper of the handware, is convenient for Extruding fixation is carried out to handware, and after handware completion of processing, convenient for handware is taken outward, reduces handware Production difficulty；

1. first connecting rod rotation is driven by servo motor, so as to drive the first briquetting being angularly distributed indirectly Handware is fixed, it, can be to variform handware since the first briquetting and the second briquetting are rotation connection It is fixed；

2. after handware completion of processing, and when the first briquetting slides in and out, the second connecting rod is able to drive top plate rising Handware is ejected, the difficulty that handware is taken is reduced.

Detailed description of the invention

Fig. 1 is the utility model entirety front cross-sectional structural schematic diagram；

Fig. 2 is the utility model entirety overlooking structure diagram；

Fig. 3 is the utility model support rod and storage box attachment structure schematic diagram；

Fig. 4 is that the utility model limits bar and casing-pipe connection structure schematic diagram.

In figure: 1, storage box；2, servo motor；3, first gear；4, second gear；5, first connecting rod；6, lantern ring；7, Support rod；8, the first briquetting；9, shaft；10, the second briquetting；11, spring；12, the second connecting rod；13, casing；14, top plate； 15, limiting groove；16, bar is limited；17, controller；18, sliding slot；19, hole.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of boring numerical control machining clamper of handware, Including storage box 1, servo motor 2, first gear 3, second gear 4, first connecting rod 5, lantern ring 6, support rod 7, the first briquetting 8, shaft 9, the second briquetting 10, spring 11, the second connecting rod 12, casing 13, top plate 14, limiting groove 15, limitation bar 16, controller 17, sliding slot 18 and hole 19, the lower inside of storage box 1 is equipped with servo motor 2, and the top of servo motor 2 is provided with One gear 3, while the avris of first gear 3 is connected with each other by second gear 4 and first connecting rod 5, the upper surface of storage box 1 Avris offers sliding slot 18, and hole 19, while the top installation of storage box 1 are reserved in the upper surface middle position of storage box 1 There is controller 17, the middle position of first connecting rod 5 is equipped with lantern ring 6, and the top of lantern ring 6 passes through support rod 7 and the first pressure Block 8 is connected with each other, and the middle position of the first briquetting 8 is connected with each other by shaft 9 and the second briquetting 10, and the first briquetting 8 and bullet The end point of spring 11 is connected with each other by spring 11, and the second connecting rod 12 is located at the bosom position of storage box 1, and second connects The end point connection of extension bar 12 and one end of casing 13 are connected with each other, while the other end of casing 13 is fixed with top plate 14, top plate Restricted bar 16 is arranged in 14 avris, and the avris of top plate 14 offers limiting groove 15；

First connecting rod 5 is provided with 2, and first connecting rod 5 and second gear 4 about the axisymmetrical of first gear 3 It is arranged for integration, while second gear 4 is to engage connection with first gear 3, first connecting rod 5 is adopted with the second connecting rod 12 It is arranged with shape of threads, and first connecting rod 5 is to be threadedly coupled with lantern ring 6 and the second connecting rod 12 with casing 13, when servo electricity When machine 2 works, drives first connecting rod 5 and the second connecting rod 12 to rotate, when first connecting rod 5 rotates, be able to drive lantern ring 6 and exist The top of first connecting rod 5 is slided, and at the same time, the second connecting rod 12 is able to drive the lifting of top plate 14；

First briquetting 8 and storage box 1 constitute the structure that is slidably installed, and the first briquetting 8 and the second briquetting 10 are rotational installation Structure, while the first briquetting 8 and the second briquetting 10 are all made of trapezoidal setting, when lantern ring 6 slides, drive first by support rod 7 Briquetting 8 slide, handware is fixed, when be extruded handware it is in irregular shape when, the second briquetting 10 by pressure by turn Axis 9 is rotated, and fixed stability is improved；

First briquetting 8 is angularly distributed in the upper surface of storage box 1, and the first briquetting 8 is big at a distance from 18 end of sliding slot In the distance between 14 end point of top plate and storage box 1, when the first briquetting 8 slides in and out, top plate 14 is moved up, when first When briquetting 8 and handware are detached from, top plate 14 is located at the inside of storage box 1, and the first briquetting 8 persistently slides in and out, and top plate 14 can Handware is ejected outward, avoids the active force being restricted, eject the height of top plate 14 normally handware can not (see attached Fig. 1, when being detached from this time for the first briquetting 8 with handware)；

Top plate 14 and storage box 1 constitute lifting mounting structure, and top plate 14 is arranged about the axisymmetrical of hole 19, simultaneously The internal diameter of hole 19 is greater than the outer diameter of top plate 14, and the internal diameter of hole 19 is larger, and top plate 14 is when rising, unrestricted effect Power.

Working principle: in numerical control machining clamper boring using the handware, according to Fig. 1-4, handware is put It sets in the top of storage box 1, then servo motor 2 works while first connecting rod 5 and the second connecting rod 12 being driven to rotate, and first Connecting rod 5 is able to drive the first briquetting 8 when rotating mobile to the direction of handware, and carries out extruding fixation to handware, when When second connecting rod 12 rotates, top plate 14 is moved down, and then handware is fixed by the first briquetting 8 and the second briquetting 10, When handware it is in irregular shape when, the second briquetting 10 can be rotated by shaft 9, increase the effect fixed to handware with this Power avoids handware from falling off, influence device use (when being ejected due to handware, top plate 14 is in the outside of storage box 1, this When be device original state, when another handware is drilled, according to the actual situation, the position of handware should be in the upper of top plate 14 Side, when the first briquetting 8 slides, top plate 14 drives handware decline, when handware is contacted with storage box 1, and by storage box 1 When the active force of barrier, the first briquetting 8 continues to slide, and handware can be fixed with this)；

After handware is drilled, servo motor 2 drives first connecting rod 5 and the second connecting rod 12 to rotate backward, and then the One briquetting 8 persistently slides in and out, and the second connecting rod 12 drives casing 13 to rise, can be upward by handware by top plate 14 with this Ejection, reduces the difficulty of taking of handware.

Finally it should be noted that the above content is only to illustrate the technical solution of the utility model, rather than it is practical to this The limitation of novel protected range, those skilled in the art to the technical solution of the utility model carry out it is simple modification or Person's equivalent replacement, all without departing from the spirit and scope of technical solutions of the utility model.

Claims (6)

1. a kind of boring numerical control machining clamper of handware, including storage box (1), servo motor (2) and the second connecting rod (12), It is characterized by: the lower inside of the storage box (1) is equipped with servo motor (2), and it is provided with above servo motor (2) First gear (3), while the avris of first gear (3) is connected with each other by second gear (4) and first connecting rod (5), it is described The upper surface avris of storage box (1) offers sliding slot (18), and hole is reserved in the upper surface middle position of storage box (1) (19), it while above storage box (1) is equipped with controller (17), the middle position of the first connecting rod (5) is equipped with set Ring (6), and the top of lantern ring (6) is connected with each other by support rod (7) and the first briquetting (8), the centre of first briquetting (8) Position is connected with each other by shaft (9) and the second briquetting (10), and the end point of the first briquetting (8) and spring (11) passes through spring (11) it being connected with each other, second connecting rod (12) is located at the bosom position of storage box (1), and the second connecting rod (12) End point connection and the one end of casing (13) are connected with each other, while the other end of casing (13) is fixed with top plate (14), the top Restricted bar (16) is arranged in the avris of plate (14), and the avris of top plate (14) offers limiting groove (15).

2. the boring numerical control machining clamper of a kind of handware according to claim 1, it is characterised in that: first connection Bar (5) is provided with 2 about the axisymmetrical of first gear (3), and first connecting rod (5) is integrated with second gear (4) Setting, while second gear (4) is to engage connection with first gear (3).

3. the boring numerical control machining clamper of a kind of handware according to claim 1, it is characterised in that: first connection Bar (5) and the second connecting rod (12) are all made of shape of threads setting, and first connecting rod (5) and lantern ring (6) and the second connecting rod It (12) is to be threadedly coupled with casing (13).

4. the boring numerical control machining clamper of a kind of handware according to claim 1, it is characterised in that: first briquetting (8) and storage box (1) constitutes the structure that is slidably installed, and the first briquetting (8) and the second briquetting (10) are rotational installation structure, simultaneously First briquetting (8) and the second briquetting (10) are all made of trapezoidal setting.

5. the boring numerical control machining clamper of a kind of handware according to claim 1, it is characterised in that: first briquetting (8) it is angularly distributed in the upper surface of storage box (1), and the first briquetting (8) is greater than top plate at a distance from sliding slot (18) end (14) the distance between end point and storage box (1).

6. the boring numerical control machining clamper of a kind of handware according to claim 1, it is characterised in that: the top plate (14) Lifting mounting structure is constituted with storage box (1), and top plate (14) is arranged about the axisymmetrical of hole (19), while hole (19) Internal diameter be greater than top plate (14) outer diameter.