CN103100849A - Guiding device of automatic locking filature - Google Patents

Abstract

A guiding device of an automatic locking filature comprises a base seat, two clamping pieces which are respectively and rotatably arranged on two sides of the base seat in an opposite mode, an operating part and three elastic parts which are respectively arranged between the base seat and the two clamping pieces in a clamped mode. A slotting is formed in the first end of the base seat along the vertical direction. The operating part can be contained in the slotting in a rotatable mode. A guiding hole and a feed hole are formed in the base seat at a certain oblique angle. The bottom ends of the guiding hole and the feed hole and the top end of the slotting are mutually communicated. The operating part comprises a protruding block is capable of being located at the communication position. The two clamping pieces respectively comprises a clamping part. Containing holes are respectively formed in the lateral sides of the two clamping parts in an opposite mode, and communicated with the lower portion of the slotting. After the operating part rotates, the elastic parts arranged between the operating part and the base seat can be compressed and the protruding block is enabled to leave the communication position in a rotating mode. According to the guiding device of the automatic locking filature, a screw arranged at the communication position of the feed hole and the guiding hole in a blocking mode can be conveniently taken out through rotation of the operating part.

Description

The guider of automatic locking screw machine

Technical field

The present invention relates to a kind of guider, particularly a kind of guider of automatic locking screw machine.

Background technology

In industrial production, for improving speed and the quality of locking screw, often use automatic locking screw machine.Automatic locking screw machine commonly used comprises driving mechanism and the bottle opener that is connected with the output shaft of driving mechanism.This driving mechanism drives bottle opener and moves to grasp screw and screw is secured to workpiece.In order to make screw can be locked in exactly corresponding position, often use a guider.Screw enters from the charging hole of guider in advance, bottle opener enter from the pilot hole of guider and capturing screws with in the corresponding aperture of locking workpiece.Yet screw is stuck when arriving the connectivity part of charging hole and pilot hole sometimes, and screw blocks rear solution and gets up and comparatively bother.

Summary of the invention

In view of more than, be necessary to provide a kind of guider that can solve quickly and easily the automatic locking screw machine that screw blocked.

a kind of guider, comprise a pedestal, rotatably and relatively be mounted on respectively two holders of the both sides of this pedestal, one operating parts and three is folded in respectively the elastic component between this pedestal and this two holder and operating parts, the first end of this pedestal is vertically established a fluting, this operating parts is contained in this fluting rotationally, this pedestal is a fixed inclination one pilot hole and a charging hole is set, the bottom of this pilot hole, the bottom of this charging hole, the top of this fluting is connected, this operating parts comprises that one can be positioned at the projection of this connectivity part, this two holder comprises respectively a clamping part, this two clamping part relatively is respectively equipped with an accommodating hole that is connected with the bottom of this fluting in the side, rotate that this operating parts is compressible to be arranged on the elastic component between this operating parts and this pedestal and to make this projection leave this connectivity part.

The guider of automatic locking screw machine of the present invention rotates this operating portion can conveniently take out block in the screw of the connectivity part of this charging hole and pilot hole.

Description of drawings

Fig. 1 is the three-dimensional exploded view of better embodiment of the guider of automatic locking screw machine of the present invention.

Fig. 2 is the three-dimensional combination figure of Fig. 1.

Fig. 3 is the stereo amplification figure of the other direction of the pedestal in Fig. 1.

Fig. 4 is the stereo amplification figure of the other direction of the operating parts in Fig. 1.

Fig. 5 is that Fig. 2 is along the cutaway view of V-V direction.

The main element symbol description

Pedestal	20
		Roof	22
Lead	23
		Pilot hole	231
The first side wall	24
		Groove	241
Pivoting hole	243
		Counter sink	245
The second sidewall	26
		Fluting	261
The second wall	262
		Through hole	263、327、462
The first wall	264
		The 3rd wall	266
Feed pipe	28
		Charging hole	281
Holder	30
		Clamping part	31
Accommodating hole	312
		Discharge opening	314
Installation portion	32
		Joint face	322
The second inclined-plane	324
		Installing hole	325、412
The side	326
		Operating parts	40
Operating portion	41
		The inclined-plane	43、45
Depression	452
		Projection	46
Spring	50、60
		Bearing pin	80、90

The following specific embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

The specific embodiment

Please refer to Fig. 1 and Fig. 2, the better embodiment of the guider of automatic locking screw machine of the present invention comprises a pedestal 20, two holders 30, an operating parts 40, two first elastic components and one second elastic component.In the present embodiment, this two first elastic component and this second elastic component are respectively two springs 50 and a spring 60.

Please in the lump with reference to Fig. 3, this pedestal 20 comprises roof 22, two relative the first side walls 24 and one second sidewall 26 adjacent with this two the first side wall 24 of a curved surface shaped that raises up.The middle part of this roof 22 extends upward a lead 23.This roof 22 extends upward the feed pipe 28 of an inclination away from a skew back of this second sidewall 26 in this lead 23.Each the first side wall 24 is provided with a groove 241 that runs through top and the bottom of this pedestal 20.One madial wall of each groove 241 is provided with a counter sink 245 that is through to this second sidewall 26, and another madial wall is provided with a pivoting hole 243.This second sidewall 26 is provided with a fluting 261 that runs through top and the bottom of this pedestal 20.The diapire of this fluting 261 comprises that straight down one first wall 264 that extends, one second wall 262 that certainly tilts to extend in the bottom of this first wall 264 reach one the 3rd wall 266 that extends straight down from the bottom of this second wall.The end face of this lead 23 is provided with a pilot hole that axially is through to this first inclined-plane 262 231 along this lead 23.The end face of this feed pipe 28 is provided with a charging hole that axially is through to this second side 266 281 along this feed pipe 28.The both sides of this fluting 261 are respectively equipped with a through hole 263 that is through to corresponding the first side wall 24.

Each holder 30 comprises a clamping part 31 and the upwardly extending installation portion 32 in end face adjacent lateral side place of this clamping part 31 certainly.The end face of this clamping part 31 is provided with the accommodating hole 312 of the inboard that is communicated to this clamping part 31 of a cross section semicircular in shape.The bottom surface of this clamping part 31 is provided with a semicircular discharge opening 314 that is communicated to the inboard of this accommodating hole 312 and this clamping part 31.This installation portion 32 comprises one second inclined-plane 324 and the relative two sides 326 adjacent with the second inclined-plane 324 with this joint face 322 that is vertically connected at the end face of this clamping part 31 and is positioned at the joint face 322 of the inboard of this installation portion 32, tilt is extended upwardly and outwardly by this joint face 322.The top on this second inclined-plane 324 is provided with an installing hole 325.This installation portion 32 is provided with a through hole 327 that runs through these two sides 326.

Please in the lump with reference to Fig. 4, an operating portion 41 is formed on the top of this operating parts 40.The inboard of this operating portion 41 is provided with an installing hole 412.This operating portion 41 is provided with a through hole 462 that runs through its both ends of the surface.The inboard of this operating parts 40 projects a projection 46 triangular in shape in the middle part, an inclined-plane 43 and an inclined-plane 45 are formed respectively at the top of this projection 46 and bottom.This operating parts 40 further forms a depression 452 on this inclined-plane 45.

Please refer to Fig. 2 and Fig. 5, during assembling, an end of this two spring 50 is placed in respectively in the installing hole 325 of this two holder 30.With the through hole 327 of this two holder 30 respectively over against pivoting hole 243 and the counter sink 245 of this two groove 241, two bearing pins 80 snap in this two pivoting hole 243 after passing respectively the through hole 327 of this two counter sink 245 and this two holder 30, and the installation portion 32 of this two holder 30 is connected in respectively this two groove 241 rotationally.The other end of this two spring 50 is the diapire of this two groove 241 of butt respectively.At this two spring 50 respectively under the elastic acting force to this two holder 30, outwards rotate on the top of the installation portion 32 of this two holder 30, clamping part 31 move toward one another of this two holder 30 are over against joining, the accommodating hole 312 of this two clamping part 31 connect and be positioned at this pilot hole 231 under.One end of this spring 60 is placed in the installing hole 412 of this operating parts 40.The through hole 462 of this operating parts 40 is passed this over against two through hole 263, one bearing pins 90 of this fluting 261 wherein snap in another through hole 263 after the through hole 462 of a through hole 263 and this operating parts 40, this operating parts 40 is connected in this fluting 261 rotationally.The other end butt of this spring 60 is somebody's turn to do the first wall 264 of fluting 261.Under the elastic acting force of this spring 60, the operating portion 41 of this operating parts 40 outwards rotates, the projection 46 of this operating parts 40 is inwardly rotated, and the second wall 262 of this fluting 261 is pressed close on the inclined-plane 43 of this projection 46, and the depression 452 of this projection 46 is connected with this charging hole 281 and this two accommodating hole 312.

When using the guider of this automatic locking screw machine, one screw is put into the charging hole 281 of this feed pipe 28, this screw is in this charging hole 281 slips into two accommodating holes 312 that dock of this two holder 30, until the nut block of this screw is in the bottom of this two clamping part 31, the threaded portion of this screw stretch out this two holder 30 two docking discharge openings 314 and over against the hole of its workpiece that need to lock.The bottle opener of one automatic locking screw machine is stretched into this pilot hole 231, this bottle opener is supported the inclined-plane 43 of this operating parts 40, the projection 46 of this operating parts 40 is outwards rotated, and this bottle opener continues to move down and grasps that this screw is backward to be pressed down, and the clamping part 31 of this two holder 30 is outwards rotated.This bottle opener is locked this screw in the hole of this workpiece.

When this screw block is between the depression 452 of this charging hole 281, this operating parts 40 and this accommodating hole 312, press the operating portion 41 of this operating parts 40, the projection 46 of this operating parts 40 is outwards rotated.Can relatively easily form this screw this moment between the top of this projection 46, this fluting 261 and this two clamping part 31 opening takes out.

Claims (8)

1. the guider of an automatic locking screw machine, comprise a pedestal, rotatably and relatively be mounted on respectively two holders of the both sides of this pedestal, one operating parts and three is folded in respectively the elastic component between this pedestal and this two holder and operating parts, the first end of this pedestal is vertically established a fluting, this operating parts is contained in this fluting rotationally, this pedestal is a fixed inclination one pilot hole and a charging hole is set, the bottom of this pilot hole, the bottom of this charging hole, the top of this fluting is connected, this operating parts comprises that one can be positioned at the projection of this connectivity part, this two holder comprises respectively a clamping part, this two clamping part relatively is respectively equipped with an accommodating hole that is connected with the bottom of this fluting in the side, rotate that this operating parts is compressible to be arranged on the elastic component between this operating parts and this pedestal and to make this projection leave this connectivity part.

2. the guider of automatic locking screw machine as claimed in claim 1, it is characterized in that: a groove is longitudinally established respectively in the both sides of this pedestal, the top of the clamping part of each holder is provided with an installation portion, and two bearing pins pass respectively this two installation portion and this pedestal is contained in this two installation portion in corresponding groove rotationally.

3. the guider of automatic locking screw machine as claimed in claim 2, it is characterized in that: an installing hole is established in the top of corresponding bearing pin in the side towards the diapire of respective slot of each installation portion, be arranged on that between this holder and pedestal, an end of elastic component is contained in this installing hole, the other end is supported the diapire of respective slot.

4. the guider of automatic locking screw machine as claimed in claim 1, it is characterized in that: the top of this operating parts is provided with an operating portion, one bearing pin passes this operating portion and this pedestal is contained in this fluting rotationally with this operating parts, this operating portion is established an installing hole in the top of corresponding bearing pin, be arranged on that between this operating parts and pedestal, an end of elastic component is contained in this installing hole, the other end is supported the diapire of corresponding fluting.

5. the guider of automatic locking screw machine as claimed in claim 4, it is characterized in that: the diapire of this fluting comprises extension straight down and first wall relative with the operating portion of operating parts, the second wall that tilts to extend and the 3rd wall that extends straight down from the bottom of the second wall in the bottom of the first wall, this pilot hole runs through this second wall, and this charging hole runs through the 3rd wall.

6. the guider of automatic locking screw machine as claimed in claim 5, it is characterized in that: this projection is based in this operating parts towards a side of this pedestal, and this projection is triangular in shape and be positioned at the below of operating portion.

7. the guider of automatic locking screw machine as claimed in claim 6, it is characterized in that: the bottom of this projection is provided with a depression.

8. the guider of automatic locking screw machine as claimed in claim 1, it is characterized in that: the top of this pedestal also is provided with lead and a feed pipe of a column, and this pilot hole and this feed pipe be extending axially to this lead and this feed pipe end away from this pedestal along this lead and this feed pipe respectively.

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