CN204751455U - Automatic feeding device of screw - Google Patents

Abstract

The utility model provides an automatic feeding device of screw, includes the casing bottom plate, places track vibration seat, graduated disk rotary mechanism, screw track, silo room and control and display panel in the casing, screw warp the silo room fall into the screw track on, this screw rail mounting is in track vibration seat on, the screw is in the screw track on moved ahead by neatly arranged and vibration, reach graduated disk rotary mechanism, by output is for use one by one in this graduated disk rotary mechanism. The utility model discloses the roller mechanism volume reduces greatly, can remove alone to cylinder motor or transmission shaft, guarantees the accuracy nature and the stability of screw supply.

Description

Screw automatic feeding device

Technical field

The utility model belongs to technical field of automation equipment, specifically a kind of screw automatic feeding device.

Background technology

In machine work, screw is absolutely necessary element, and how quick and portably fitly to supply screw is the technical matters that the application will solve.Screw feedway of the prior art, because of volume, complex structure, cause maintenance expense expensive, and need suitable space to place due to entire machine, unfavorablely to use when work-yard changes, meanwhile, screw feedway of the prior art also has the following disadvantages:

1) transmission shaft is directly mounted to drum motor axle head, and whole mechanism takes up room after being mounted to filature base plate greatly, and number of assembling steps is loaded down with trivial details, and removing maintenance to the later stage makes troubles.

2) scoop flitch in cylinder to need to install in addition, add the assembling procedure of cylinder mechanism, see Fig. 1.It is open for scooping flitch, is scooping in material process, the easy landing of screw.After scooping material, screw can not directly be fallen in track by scooping flitch, must increase by a blanking mechanism.Scooping material quantity to increase, scooping flitch size comparatively greatly, and then whole cylinder mechanism volume is increased, taking larger space.

3) do not install feeding distribution mechanism, screw directly arranges one by one and is directed to track front end, directly takes with corkscrew.Coping screw screwdriver head band is magnetic, and when taking screw, is drawn the screw adhesive band errant together at screw rear portion.

Utility model content

For above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of screw automatic feeding device, and conveying screw is stablized, and makes screw not easily landing, bonding, compact structure, easy for installation.

The technical solution of the utility model is as follows:

A kind of screw automatic feeding device, comprise housing and base plate, its feature is, also comprises the track vibration seat be placed in housing, calibrated disc rotating mechanism, screw track, hopper room and control and display panel, described base plate is provided with drum motor;

Screw is fallen on described screw track through described hopper room, this screw track installation is on described track vibration seat, screw on described screw track by proper alignment and vibration move ahead, calibrated disc rotating mechanism described in arrival, is exported stand-by one by one in this calibrated disc rotating mechanism;

Described control and display panel are arranged on described housing, and respectively with the control circuit board connection of the vibrating motor in described drum motor, track vibration seat, the rotation motor in calibrated disc rotating mechanism and hopper room.

Described hopper room comprises hopper room front panel, cylinder, hairbrush, drum drive axle and U-type groove;

Described U-type groove two ends are locked in hopper room front panel and cylinder respectively, form the inclination curved surface of hopper room front panel end higher than cylinder end, make screw can slip in described cylinder along this U-type groove, described hairbrush is fixed on directly over U-type groove, the two ends of this hairbrush connect hopper room front panel and cylinder respectively, and the axle head stretching out hopper room front panel is provided with hairbrush miniature gears;

Described drum drive axle is installed on the below of U-type groove, the two ends of this drum drive axle are each passed through described hopper room front panel and cylinder, this drum drive axle is provided with drum drive axle umbrella shape finishing bevel gear cuter, this drum drive axle is provided with cam near one end of hopper room front panel, and the other end near cylinder is provided with cylinder miniature gears;

Described hopper room front panel is provided with front panel crowngear and front panel crowngear axle drive shaft;

Described cylinder comprises cylinder adapter plate, cylinder liner, outer dental roller, PVC adapter plate and control circuit board; Described outer dental roller inner peripheral is distributed with multiple breach, and outer peripheral edges are provided with gear; The outer peripheral edges of described cylinder liner are provided with a liner breach; Described cylinder liner passes from external tooth centre of the drum, and the two is locked between described cylinder adapter plate and PVC adapter plate, and described control circuit board is locked in the another side of PVC adapter plate;

Hopper room is inserted from hopper room front panel in one end of described filature track, make the below being in described hairbrush at the filature track of hopper chamber interior, and contact with hairbrush, the other end of described filature track is placed in hopper outdoor and is arranged on described track vibration seat;

After energising, drum motor running drives the running of drum motor umbrella shape finishing bevel gear cuter, drum motor umbrella shape finishing bevel gear cuter is engaged with drum drive axle umbrella shape finishing bevel gear cuter, and drive it to operate, thus drive drum drive axle to rotate thereupon, and then drive is arranged on the cylinder miniature gears of drum drive axle one end and the cam of the other end, described cylinder miniature gears and the engaged gears of outer dental roller drive rolling running to carry out scooping material, screw is driven along the outer thoughtful top of cylinder liner by the breach of outer dental roller, then falls into filature track from the breach of cylinder liner;

Front panel crowngear axle drive shaft is driven to move up and down when described cam operates, and drive front panel crowngear to swing up and down, this front panel crowngear is engaged with hairbrush miniature gears, and swing with crowngear and swing, and then drive hairbrush to swing, the placement location of screw is carried out further regular.

Described calibrated disc rotating mechanism comprises rotation motor, calibrated disc opening fixed leg, calibrated disc, cross organization gear, rotating disk mechanism gear, rotating disk mechanism, establishes cross mechanism jaggy, the sensor fixation plate with circular groove, sensor fixation plate permanent seat, receiving sensor and emission sensor; Index plate gear is connected with, this index plate gear and described cross mechanism gears meshing, this cross organization gear and described rotating disk mechanism gears meshing at the axle head of described rotation motor; This rotating disk mechanism gear is coaxial with described rotating disk mechanism, thus drives this rotating disk mechanism to rotate; Described rotating disk mechanism be circumferentially provided with a boss, this boss often revolves to turn around to be engaged once with the breach of described cross mechanism and to drive this cross mechanism to rotate 1/4 and encloses; Described cross mechanism is coaxial with described calibrated disc opening fixed leg, and synchronous rotary, the calibrated disc described in the installation of upper end of this calibrated disc opening fixed leg, this calibrated disc is embedded in the centre hole of described sensor fixation plate permanent seat, described sensor fixation plate is fixed on described sensor fixation plate permanent seat, arranges described sensor receiving device, sensor emission device respectively in the both sides, front and back of this sensor fixation plate.

Signals Transfer Board and sensor is also provided with in the below of described rotating disk mechanism gear, in order to control board running and to read calculated signals screw quantity: when screw is not drawn, screw terminal shelters from sensor, and whole board is out of service, after being drawn, operate again.

Four recesses are evenly distributed with, for holding screw at the periphery of described calibrated disc.

Breach in described cross mechanism is four, orthogonal, the position of this breach and the position of described boss suitable.

Compared with prior art, the beneficial effects of the utility model are:

1) adopt drum motor and the disjunct structure of transmission shaft, then take up room after whole mechanism is mounted to filature base plate and greatly reduce, and simple installation.When later period maintenance is maintained, can remove separately for drum motor or transmission shaft.

2) cylinder is provided with breach, does not need to install in addition to scoop flitch.In cylinder breach and cylinder liner formed one semiclosed scoop expect room, screw is landing not easily, once scoop material quantity more.After scooping material, the breach that screw can be arranged by cylinder liner directly falls in track, does not need to increase blanking mechanism in addition.Expect that room is semi-enclosed because scooping, therefore ensureing that under the prerequisite scooping material quantity, whole cylinder mechanism volume reduces greatly.

3) be provided with feeding distribution mechanism, screw is directed to track front end one by one by track, and singlely enters feeding distribution mechanism.When taking screw, screwdriver heads can't affect rear portion screw at every turn.Feeding distribution mechanism adopts Novel index plate rotating mechanism, and built-in two-way turntable mechanism ensures particularity and the stability of feeding distribution mechanism work.

Accompanying drawing explanation

Fig. 1 is screw feedway intermediate roll part-structure schematic diagram in prior art.

Fig. 2 is the structural representation of the utility model screw element automatic supplier.

Fig. 3 is the exploded view of the utility model screw element automatic supplier.

Fig. 4 is the structural representation of the utility model intermediate roll motor and transmission shaft.

Fig. 5 is the structural representation of hopper room and screw track in the utility model.

Fig. 6 is the structural representation of the utility model intermediate roll part.

Fig. 7 is the utility model intermediate roll decomposed figure.

Fig. 8 is the shell block diagram of the utility model screw element automatic supplier.

Fig. 9 is the structural representation of calibrated disc rotating mechanism in the utility model.

Figure 10 is the exploded drawings of calibrated disc rotating mechanism in the utility model.

In figure:

A base plate, B track vibration seat, C calibrated disc rotating mechanism, D screw track, E hopper room, F controls and display panel, A1 drum motor, E1 hopper room front panel, E2 cylinder, E3 hairbrush, E4 drum drive axle, E5U type groove, E1-1 front panel crowngear, E1-2 front panel crowngear axle drive shaft, E2-1 cylinder adapter plate, E2-2 cylinder liner, E2-2-1 liner breach, the outer dental roller of E2-3, E2-3-1 breach, E2-3-2 gear, E2-4PVC adapter plate, E2-5 control circuit board, E3-1 hairbrush miniature gears, E4-1 drum drive axle umbrella shape finishing bevel gear cuter, E4-2 cylinder miniature gears, E4-3 cam, 101 front shrouds, 102 back shrouds, 103 left front side covers, 104 right front side covers, 105 left back side covers, 106 right back side covers, 107 upper guard boards, 1-rotation motor, 1-1-index plate gear, 2 cross organization gears, 3 rotating disk mechanism gears, 4 rotating disk mechanisms, 5 cross mechanisms, 5-1 calibrated disc breach, 6 calibrated disc opening fixed legs, 7 calibrated discs, 7-1 recess, 8 sensor fixation plates, 9 sensor fixation plate permanent seats, 10 receiving sensors, 11 emission sensor, 21 device for disc plate fixed legs, 22 device for disc right panels, the left plate of 23 device for disc, 24 screw baffle plates, 29 screwdriver head guide seats, 31 right adapter plates, 32 left adapter plates, 33 front shoes, 34 rear fixed plates.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Please first consult Fig. 2-Fig. 3, Fig. 2 is the structural representation of the utility model screw element automatic supplier, Fig. 3 is the exploded view of the utility model screw element automatic supplier, as shown in the figure, a kind of screw automatic feeding device, comprises housing, base plate A, the track vibration seat B be placed in housing, calibrated disc rotating mechanism C, screw track D, hopper room E and control and display panel F.Described base plate A is provided with drum motor A1; Screw is fallen on described screw track D through described hopper room E, this screw track D is arranged on described track vibration seat B, screw on described screw track D by proper alignment and vibration move ahead, calibrated disc rotating mechanism C described in arrival, is exported stand-by one by one in this calibrated disc rotating mechanism C;

Described control and display panel F are arranged on described housing, and respectively with the control circuit board E2-5 connection of the vibrating motor in described drum motor A1, track vibration seat B, the rotation motor in calibrated disc rotating mechanism C and hopper room E.

Fig. 5 is the structural representation of hopper room and screw track in the utility model, and as shown in the figure, described hopper room E comprises hopper room front panel E1, cylinder E2, hairbrush E3, drum drive axle E4 and U-type groove E5.Described U-type groove E5 two ends are locked in hopper room front panel E1 and cylinder E2 respectively, form hopper room front panel E1 and hold the inclination curved surface held higher than cylinder E2, make screw can slip in described cylinder E2 along this U-type groove E5, described hairbrush E3 is fixed on directly over U-type groove E5, the two ends of this hairbrush E3 connect hopper room front panel E1 and cylinder E2 respectively, and the axle head stretching out hopper room front panel E1 is provided with hairbrush miniature gears E3-1; Described drum drive axle E4 is installed on the below of U-type groove E5, the two ends of this drum drive axle E4 are each passed through described hopper room front panel E1 and cylinder E2, this drum drive axle E4 is provided with drum drive axle umbrella shape finishing bevel gear cuter E4-1, this drum drive axle E4 is provided with cam E4-3 near one end of hopper room front panel E1, and the other end near cylinder E2 is provided with cylinder miniature gears E4-2;

Described hopper room front panel E1 is provided with front panel crowngear E1-1 and front panel crowngear axle drive shaft E1-2;

Described cylinder E2 comprises cylinder adapter plate E2-1, cylinder liner E2-2, outer dental roller E2-3, PVC adapter plate E2-4 and control circuit board E2-5; Described outer dental roller E2-3 inner peripheral is distributed with multiple breach E2-3-1, and outer peripheral edges are provided with gear E2-3-2; The outer peripheral edges of described cylinder liner E2-2 are provided with a liner breach E2-2-1.Cylinder liner E2-2 passes from outer dental roller E2-3 center and is locked on PVC adapter plate E2-4, cylinder adapter plate E2-1 locks with upper three the rivet E2-4-1 phases of PVC adapter plate E2-4, and settling three Bearings between, control circuit board E2-5 is locked in the PVC adapter plate E2-4 back side.Hopper room is inserted from hopper room front panel E1 in one end of described filature track D, make the below being in described hairbrush E3 at the filature track D of E inside, hopper room, and contact with hairbrush E3, the other end of described filature track D is placed in hopper outdoor and is arranged on described track vibration seat B;

During work, screw enters hopper room E, and screw is slipped in the breach E2-3-1 of outer dental roller E2-3 setting by the inclination U-type groove E5 installed in the E of hopper room.After energising, drum motor A1 running drives drum motor umbrella shape finishing bevel gear cuter A1-1 running, and drum motor umbrella shape finishing bevel gear cuter A1-1 is engaged with drum drive axle umbrella shape finishing bevel gear cuter E4-1, and drives it to operate.Drum drive axle umbrella shape finishing bevel gear cuter E4-1 is arranged on drum drive axle E4, and rotates thereupon.Drum drive axle one end mounting rotary drum miniature gears E4-2.The gear E2-3-2 that cylinder miniature gears E4-2 and outer dental roller E2-3 are arranged is engaged and drives rolling running to carry out scooping material, screw is driven along the outer thoughtful top of cylinder liner E2-2 by breach E2-3-1, and the breach E2-2-1 then arranged from cylinder liner E2-2 falls into filature track D.Filature track D is installed on filature track vibration seat B, and filature track vibration seat B internal vibration motor running vibrates, and Guiding screw is delivered to hopper outdoor one by one.

Meanwhile, the drum drive axle other end installs cam E4-3, drives front panel umbrella shape tooth axle drive shaft E1-2 to move up and down, and drive front panel crowngear E1-1 to swing up and down during its running.Front panel crowngear E1-1 is engaged with miniature gears E3-1, and miniature gears E3-1 is installed on hairbrush one end, and swings with crowngear E1-1 and swing, abnormal attitude screw on cleaning filature track D.

Screw is delivered to filature track D front end, enters the breach that disk on filature calibrated disc rotating mechanism C is arranged, and takes assigned address to and wait for and taking.

Fig. 9 is the structural representation of calibrated disc rotating mechanism in the utility model, Figure 10 is the exploded drawings of calibrated disc rotating mechanism in the utility model, as shown in the figure, calibrated disc rotating mechanism, comprising: rotation motor 1, cross organization gear 2, rotating disk mechanism gear 3, rotating disk mechanism 4, cross mechanism 5, calibrated disc opening fixed leg 6, calibrated disc 7, sensor fixation plate 8, sensor fixation plate permanent seat 9, sensor receiving device 10, sensor emission device 11, Signals Transfer Board 13 and sensor 14.Be connected with index plate gear 1-1 at the axle head of described rotation motor 1, this index plate gear 1-1 engages with described cross organization gear 2, and this cross organization gear 2 engages with described rotating disk mechanism gear 3.The circumference of rotating disk mechanism 4 is provided with a boss 4-1, described cross mechanism 5 is coaxial with described calibrated disc opening fixed leg 6, and synchronous rotary, the calibrated disc 7 described in the installation of upper end of this calibrated disc opening fixed leg 6, the interior described sensor fixation plate 8 of centre hole that this calibrated disc 7 is embedded in described sensor fixation plate permanent seat 9 is fixed on described sensor fixation plate permanent seat 9, arranges described sensor receiving device 10 and sensor emission device 11 respectively in the both sides, front and back of this sensor fixation plate 8.Signals Transfer Board 13 and sensor 14 is also provided with in the below of described rotating disk mechanism gear 3.Four recess 7-1 are evenly distributed with, for holding screw at the periphery of described calibrated disc 7.Breach 5-1 in described cross mechanism 5 is four, orthogonal, the position of this breach and the position of described boss 4-1 suitable.

During work, screw is entered by track in the recess 7-1 on calibrated disc 7, and DC Brushless Motor 1 rotates, and makes gear 1-1 drive cross organization gear 2, and then drives rotating disk mechanism gear 3 to rotate.Meanwhile, rotating disk mechanism gear 3 drives rotating disk mechanism 4 synchronous rotary again, and the boss 4-1 on rotating disk mechanism often revolves and turns around, and is engaged once and drives cross mechanism 5 to rotate 1/4 circle with the breach 5-1 of cross mechanism 5.Being just in time once a circle for guaranteeing that rotating disk mechanism gear 3 often operates, being thereunder provided with Signals Transfer Board 13 and sensor 14 carries out spacing.Calibrated disc opening fixed leg 6 is coaxial with cross mechanism 5, and synchronous rotary.After calibrated disc opening fixed leg 6 rotates 1/4 circle, recess 7-1 carries screw and rotates to assigned address, and the sensor receiving device 10 on sensor fixation plate 8 and sensor emission device 11 obtain signal.When screw is not drawn, screw terminal shelters from sensor, and whole board is out of service, and after screw is drawn, whole mechanism operates again.

Increase control circuit board E2-5 and control and display panel F.By the button on control and display panel F, drum motor, vibrating motor, rotating mechanism motor are arranged.

Read-out shows the accumulative quantity taken away after screw is drawn.On the other hand, can arrange the screw quantity needed by latch fitting, after screw is drawn, count, to zero, circulates successively.Directly reflect and whether be there is leakage lock by latch fitting, improve the quality of products.

Finally it should be noted that, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical scheme of utility model or equivalent replacement, and not departing from the spirit and scope of technical solutions of the utility model, it all should be encompassed in the middle of right of the present utility model.

Claims (6)

1. a screw automatic feeding device, comprise housing and base plate (A), it is characterized in that, also comprise the track vibration seat (B) be placed in housing, calibrated disc rotating mechanism (C), screw track (D), hopper room (E) and control and display panel (F), described base plate (A) is provided with drum motor (A1);

Screw is fallen on described screw track (D) through described hopper room (E), this screw track (D) is arranged on described track vibration seat (B), screw on described screw track (D) by proper alignment and vibration move ahead, calibrated disc rotating mechanism (C) described in arrival, is exported stand-by one by one in this calibrated disc rotating mechanism (C);

Described control and display panel (F) are arranged on described housing, and respectively with control circuit board (E2-5) connection of the vibrating motor in described drum motor (A1), track vibration seat (B), the rotation motor in calibrated disc rotating mechanism (C) and hopper room (E).

2. screw automatic feeding device according to claim 1, it is characterized in that, described hopper room (E) comprises hopper room front panel (E1), cylinder (E2), hairbrush (E3), drum drive axle (E4) and U-type groove (E5);

Described U-type groove (E5) two ends are locked in hopper room front panel (E1) and cylinder (E2) respectively, form hopper room front panel (E1) and hold the inclination curved surface held higher than cylinder (E2), make screw can slip in described cylinder (E2) along this U-type groove (E5), described hairbrush (E3) is fixed on directly over U-type groove (E5), the two ends of this hairbrush (E3) connect hopper room front panel (E1) and cylinder (E2) respectively, and the axle head stretching out hopper room front panel (E1) is provided with hairbrush miniature gears (E3-1);

Described drum drive axle (E4) is installed on the below of U-type groove (E5), the two ends of this drum drive axle (E4) are each passed through described hopper room front panel (E1) and cylinder (E2), this drum drive axle (E4) is provided with drum drive axle umbrella shape finishing bevel gear cuter (E4-1), this drum drive axle (E4) is provided with cam (E4-3) near one end of hopper room front panel (E1), and the other end near cylinder (E2) is provided with cylinder miniature gears (E4-2);

Described hopper room front panel (E1) is provided with front panel crowngear (E1-1) and front panel crowngear axle drive shaft (E1-2);

Described cylinder (E2) comprises cylinder adapter plate (E2-1), cylinder liner (E2-2), outer dental roller (E2-3), PVC adapter plate (E2-4) and control circuit board (E2-5); Described outer dental roller (E2-3) inner peripheral is distributed with multiple breach (E2-3-1), and outer peripheral edges are provided with gear (E2-3-2); The outer peripheral edges of described cylinder liner (E2-2) are provided with a liner breach (E2-2-1); Described cylinder liner (E2-2) passes from outer dental roller (E2-3) center, the two is locked between described cylinder adapter plate (E2-1) and PVC adapter plate (E2-4), and described control circuit board (E2-5) is locked in the another side of PVC adapter plate (E2-4);

Hopper room is inserted from hopper room front panel (E1) in one end of described filature track (D), make the below being in described hairbrush (E3) at the filature track (D) that hopper room (E) is inner, and contact with hairbrush (E3), the other end of described filature track (D) is placed in hopper outdoor and is arranged on described track vibration seat (B);

After energising, drum motor (A1) running drives drum motor umbrella shape finishing bevel gear cuter (A1-1) running, drum motor umbrella shape finishing bevel gear cuter (A1-1) is engaged with drum drive axle umbrella shape finishing bevel gear cuter (E4-1), and drive it to operate, thus drive drum drive axle (E4) to rotate thereupon, and then drive is arranged on the cylinder miniature gears (E4-2) of drum drive axle one end and the cam (E4-3) of the other end, described cylinder miniature gears (E4-2) is engaged with the gear (E2-3-2) of outer dental roller (E2-3) and drives rolling running to carry out scooping material, screw is driven along cylinder liner (E2-2) thoughtful top outward by the breach (E2-3-1) of outer dental roller (E2-3), then fall into filature track (D) from the breach (E2-2-1) of cylinder liner (E2-2),

Front panel crowngear axle drive shaft (E1-2) is driven to move up and down when described cam (E4-3) operates, and drive front panel crowngear (E1-1) to swing up and down, this front panel crowngear (E1-1) is engaged with hairbrush miniature gears (E3-1), swing with crowngear (E1-1) and swing, and then drive hairbrush to swing, the placement location of screw is carried out further regular.

3. screw automatic feeding device according to claim 1, it is characterized in that, described calibrated disc rotating mechanism (C) comprises rotation motor (1), calibrated disc opening fixed leg (6), calibrated disc (7), cross organization gear (2), rotating disk mechanism gear (3), rotating disk mechanism (4), the cross mechanism (5) being provided with breach (5-1), the sensor fixation plate (8) with circular groove, sensor fixation plate permanent seat (9), receiving sensor (10) and emission sensor (11);

Index plate gear (1-1) is connected with at the axle head of described rotation motor (1), this index plate gear (1-1) engages with described cross organization gear (2), and this cross organization gear (2) engages with described rotating disk mechanism gear (3); This rotating disk mechanism gear (3) is coaxial with described rotating disk mechanism (4), thus drives this rotating disk mechanism (4) to rotate;

Described rotating disk mechanism (4) be circumferentially provided with a boss (4-1), this boss (4-1) often revolves to turn around to be engaged once with the breach (5-1) of described cross mechanism (5) and to drive this cross mechanism (5) to rotate 1/4 and encloses;

Described cross mechanism (5) is coaxial with described calibrated disc opening fixed leg (6), and synchronous rotary, the calibrated disc (7) described in the installation of upper end of this calibrated disc opening fixed leg (6), this calibrated disc (7) is embedded in the centre hole of described sensor fixation plate permanent seat (9), described sensor fixation plate (8) is fixed on described sensor fixation plate permanent seat (9), in the both sides, front and back of this sensor fixation plate (8), described sensor receiving device (10) is set respectively, sensor emission device (11).

4. screw automatic feeding device according to claim 3, is characterized in that, is also provided with Signals Transfer Board (13) and sensor (14) in the below of described rotating disk mechanism gear (3).

5. screw automatic feeding device according to claim 3, is characterized in that, is evenly distributed with four recesses (7-1), for holding screw at the periphery of described calibrated disc (7).

6. screw automatic feeding device according to claim 3, it is characterized in that, breach (5-1) in described cross mechanism (5) is four, orthogonal, the position of this breach and the position of described boss (4-1) suitable.