CN105149639A - Double-bit bench drill - Google Patents

Double-bit bench drill Download PDF

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Publication number
CN105149639A
CN105149639A CN201510687951.5A CN201510687951A CN105149639A CN 105149639 A CN105149639 A CN 105149639A CN 201510687951 A CN201510687951 A CN 201510687951A CN 105149639 A CN105149639 A CN 105149639A
Authority
CN
China
Prior art keywords
plates
hopper
bearing
main shaft
centre bores
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201510687951.5A
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Chinese (zh)
Inventor
刘开成
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chuzhou Pinzhida Electrical Technology Co Ltd
Original Assignee
Chuzhou Pinzhida Electrical Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chuzhou Pinzhida Electrical Technology Co Ltd filed Critical Chuzhou Pinzhida Electrical Technology Co Ltd
Priority to CN201510687951.5A priority Critical patent/CN105149639A/en
Publication of CN105149639A publication Critical patent/CN105149639A/en
Pending legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23BTURNING; BORING
    • B23B39/00General-purpose boring or drilling machines or devices; Sets of boring and/or drilling machines
    • B23B39/16Drilling machines with a plurality of working-spindles; Drilling automatons
    • B23B39/161Drilling machines with a plurality of working-spindles; Drilling automatons with parallel work spindles
    • B23B39/162Drilling machines with a plurality of working-spindles; Drilling automatons with parallel work spindles having gear transmissions
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23BTURNING; BORING
    • B23B47/00Constructional features of components specially designed for boring or drilling machines; Accessories therefor
    • B23B47/30Additional gear with one or more working-spindles attachable to the main working-spindle and mounting the additional gear
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q7/00Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
    • B23Q7/02Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of drums or rotating tables or discs
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q7/00Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
    • B23Q7/10Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of magazines

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Drilling And Boring (AREA)

Abstract

The invention discloses a double-bit bench drill which comprises a bench drill body and an automatic feeding mechanism. The bench drill body comprises a double-drill mechanism and a lifting mechanism for driving the double-drill mechanism to move up and down. The feeding mechanism comprises a frame body, a feeding hopper, a material blocking piece, a discharge hopper, a material conveying wheel and an air cylinder. Two through holes are vertically formed in the material blocking piece. A discharge gap for allowing workpieces to fall down is formed between the material blocking piece and the feeding hopper. A material groove is formed in the circumferential wall of the material conveying wheel. The extension direction of the material groove is parallel to the rotating center axis direction of the material conveying wheel. A material clamping air cylinder and a push block for pushing workpieces located in the material groove are arranged on the material conveying wheel. A cylinder body of the material clamping air cylinder is fixedly arranged in an annular notch. The push block is fixedly arranged on a piston of the material clamping air cylinder. A cylinder body of the air cylinder is arranged on the frame body in a rotating mode. A piston of the air cylinder is arranged on a pin shaft in a rotating mode. The piston of the air cylinder drives the material conveying wheel to rotate in a reciprocating mode within a certain angle range through the pin shaft when stretching out and drawing back. By means of the double-bit bench drill, work efficiency is effectively improved.

Description

A kind of double end bench drill
Technical field
The invention belongs to Machining Technology field, be specifically related to a kind of double end bench drill.
Background technology
There is a kind of circular power transmission shaft, its two ends are provided with the symmetrical through hole radially running through axis body, traditional processing method bores the other end again after utilizing bench drill to bore one end, the weak point of this processing mode is: primary need two procedures, second when processing the other end, in order to make two to hole symmetrical, need to locate accurately, this point greatly adds technology difficulty.In addition, in traditional processing mode, there is no automatic feed and discharging mechanism, cause working (machining) efficiency slower.
Summary of the invention
The object of this invention is to provide a kind of double end bench drill that can promote working (machining) efficiency.
The technical scheme realizing the object of the invention is: a kind of double end bench drill, comprises table drill body and automatic feeding mechanism; Table drill body comprises two drill mechanism and for driving two drill mechanism to do the elevating mechanism moved up and down; Two drill mechanism comprises mounting disc, rotate and be arranged on the main shaft of mounting disc center, the driving wheel be fixed on main shaft, rotate and be arranged on the first power transmission shaft in mounting disc, be fixedly installed on the first driven pulley of the first power transmission shaft upper end, be arranged on the first drill bit of the first power transmission shaft lower end, rotate the second driving shaft be arranged in mounting disc, be fixedly installed on the second driven pulley of second driving shaft upper end and be arranged on the second drill bit of second driving shaft lower end; On main shaft, edge is provided with main shaft clutch shaft bearing, main shaft upper bearing (metal) and main shaft lower bearing in direction from top to bottom successively, and driving wheel is between main shaft upper bearing (metal) and main shaft lower bearing; First power transmission shaft edge is provided with the first power transmission shaft upper bearing (metal) and the first power transmission shaft lower bearing in direction from top to bottom successively, and the first drive is arranged on the below of the first power transmission shaft lower bearing; Second driving shaft edge is provided with second driving shaft upper bearing (metal) and second driving shaft lower bearing in direction from top to bottom successively, and the second drive is arranged on the top of second driving shaft upper bearing (metal);
Mounting disc is made up of a plate, No. two plates, No. three plates, No. four plates, No. five plates and No. six plates, and each plate is arranged all in the horizontal direction; A plate crimping is fixed on the roof of No. two plates; A plate is provided with a centre bore, an arcuate socket, two mounting holes and a multiple screw, and the diapire of a plate is provided with the storage tank for accommodating No. two plates, and this storage tank is positioned at immediately below an arcuate socket; Main shaft clutch shaft bearing is arranged in a centre bore; The center of No. two plates is provided with No. two centre bores, is provided with the first power transmission shaft upper bearing (metal) in No. two centre bores; No. two plates are arranged in the storage tank of a plate, and crimped separately by bolt be fixedly installed on No. three plates roof on, storage tank is that No. two plates leave mobile space; No. three plates are provided with No. three centre bores, two No. three mounting holes, No. three arcuate sockets, No. three circular holes and multiple No. three screws, and two No. three mounting holes, No. three arcuate sockets, No. three circular holes and multiple three plate screws are all positioned at outside No. three centre bores; Be provided with main shaft upper bearing (metal) in No. three centre bores, in No. three circular holes, be provided with the first power transmission shaft lower bearing; No. four plates are provided with No. four centre bores, two No. four arcuate sockets and multiple No. four screws; The bottom of No. four centre bores is provided with main shaft lower bearing; Two No. four arcuate sockets are positioned at the both sides of No. four centre bores and become axial symmetry to arrange, and each No. four arcuate sockets are communicated with No. four centre bores; Driving wheel is arranged in No. four centre bores, and between main shaft lower bearing and main shaft upper bearing (metal); First drive and the second drive are arranged in corresponding No. four arcuate socket separately; No. five plates are provided with No. five centre bores, two No. five mounting holes, No. five arcuate sockets, No. five circular holes and multiple No. five screws, are provided with second driving shaft upper bearing (metal) in No. five centre bores; 6th plate is provided with No. six centre bores, is provided with second driving shaft lower bearing in No. six centre bores; A plate and No. two plates are crimped on the roof of No. three plates, and No. three plates are crimped on the roof of No. four plates, and No. four plates are crimped on the roof of No. five plates, and No. six plates are fixed on the diapire of No. five plates;
First transmission main shaft, along direction from top to bottom, passes an arcuate socket of a plate, No. two centre bores of No. two plates, No. three circular holes of No. three plates, No. four arcuate sockets for No. four plates and No. five arcuate sockets of No. five plates successively; Second driving shaft, along direction from top to bottom, passes another No. four arcuate sockets, No. five circular holes of No. five plates and No. six centre bores of No. six plates on No. four plates successively;
Feeding mechanism comprises support body, feed hopper, backgauge part, discharging hopper, material transfer wheel and the cylinder for driving material transfer to take turns reciprocating rotation; Backgauge part is arranged on feed hopper exit, and backgauge part is provided with two through holes along the vertical direction; Feed hopper is along distance backgauge part from as far as the downward-sloping setting near direction; Discharging hopper is positioned at immediately below feed hopper, and discharging hopper is along the distance downward-sloping setting in the direction of backgauge part near to far away; Be provided with the blanking clearance for the workpiece that drops between backgauge part and feed hopper outlet, the through hole of backgauge part and discharging hopper throat are positioned at the both sides of blanking clearance; The rotation of material transfer wheel is arranged on support body; The periphery wall of material transfer wheel is provided with hopper, and the bearing of trend of hopper is parallel with the center of rotation axis direction that material transfer is taken turns; The center of material transfer wheel periphery wall is also circumferentially provided with annular breach and runs through the bearing pin of this annular breach, and the bearing of trend of bearing pin is parallel with the center of rotation axis direction that material transfer is taken turns; Material transfer wheel is provided with material folding cylinder and the pushing block for promoting to be arranged in hopper workpiece, and material folding cylinder block is fixedly installed in annular breach, and pushing block is fixedly installed on material folding cylinder piston; The cylinder body of cylinder rotates and is arranged on support body, and cylinder piston rotates and is arranged on bearing pin, when cylinder piston extends and shortens, drives material transfer wheel reciprocating rotation within the scope of certain angle by bearing pin;
When material transfer wheel brings to the workpiece in hopper immediately below through hole, material folding cylinder piston extends, and by pushing block, the workpiece top in hopper is pressed on the diapire of backgauge part; When material transfer wheel brings to adjacent discharging hopper throat the workpiece in hopper, material folding cylinder piston extends, and by pushing block, the workpiece in hopper is pushed out in discharging hopper; Material transfer wheel is when turning to other position, and material folding cylinder piston foreshortens to most casual labourer position, and pushing block is positioned at the diapire of bottom as hopper of hopper.
Feeding mechanism in 10 structure the present invention can automatic feed, discharging and material folding, drilling operation can be carried out at axis body two ends simultaneously; In addition, the present invention performs an action owing to adopting cylinder, for electric operating, obviously promotes operating efficiency.
Accompanying drawing explanation
Fig. 1 is a kind of perspective view of the present invention;
Fig. 2 is a kind of perspective view of two drill mechanism in bench drill shown in Fig. 1;
Fig. 3 is a kind of explosive view of two drill mechanism shown in Fig. 2;
Fig. 4 is a kind of explosive view when two drill mechanism is observed from another angle shown in Fig. 2.
Fig. 5 is a kind of perspective view of automatic feeding mechanism in bench drill shown in Fig. 1;
Fig. 6 is that automatic feeding mechanism shown in Fig. 5 removes after part support body from a kind of perspective view during another angle views;
Fig. 7 is a kind of structural representation that the mechanism of air-actuated feeding shown in Fig. 6 is in processing stations;
Fig. 8 is the close-up schematic view at A place in Fig. 7;
Fig. 9 is a kind of structural representation that the mechanism of air-actuated feeding shown in Fig. 7 is in material returned station;
Figure 10 is a kind of structural representation that the mechanism of air-actuated feeding shown in Fig. 7 is in splicing station.
Detailed description of the invention
(embodiment 1)
Fig. 1 to Figure 10 shows a kind of detailed description of the invention of the present invention.
The present embodiment is a kind of double end bench drill, sees shown in Fig. 1 to Figure 10, and this bench drill comprises table drill body 1 and feeding mechanism 2.
Table drill body 1 comprises two drill mechanism 3 and for driving two drill mechanism 3 to do the elevating mechanism (figure does not draw) moved up and down.
Two drill mechanism 3 comprises mounting disc 4, rotate and be arranged on the main shaft 31 of mounting disc center, the driving wheel 32 be fixed on main shaft, rotate and be arranged on the first power transmission shaft 33 in mounting disc, be fixedly installed on the first driven pulley 34 of the first power transmission shaft upper end, be arranged on the first drill bit 35 of the first power transmission shaft lower end, rotate the second driving shaft 36 be arranged in mounting disc, be fixedly installed on the second driven pulley 37 of second driving shaft upper end and be arranged on the second drill bit 38 of second driving shaft lower end; Main shaft synchronously drives the first driven pulley and the rotation of the second driven pulley by driving wheel, and also namely synchronous the first power transmission shaft and the second driving shaft of driving rotates, and then synchronously drives the first drill bit and the second drill bit rotational.
Main shaft, the first power transmission shaft and second driving shaft are all arranged along plumb line direction; Driving wheel, the first driven pulley and the second driven pulley are arranged on mounting disc inside.
On main shaft 31, edge is provided with main shaft clutch shaft bearing 311, main shaft upper bearing (metal) 312 and main shaft lower bearing 313 in direction from top to bottom successively, and driving wheel is between main shaft upper bearing (metal) and main shaft lower bearing.Main shaft is passed down through and stretches out mounting disc, and the axis body that main shaft stretches out mounting disc is downwards provided with main shaft coupling sleeve 315, and this main shaft coupling sleeve rotates with spindle synchronous; In concrete practice, this main shaft can be utilized to connect sheath and to connect chuck of machine tool or the 3rd drill bit, to realize the advantage of one-machine-multi-function.
First power transmission shaft 33 is provided with the below that the first power transmission shaft upper bearing (metal) 331 and the first power transmission shaft lower bearing 332, first drive are arranged on the first power transmission shaft lower bearing successively along direction from top to bottom.
Second driving shaft 36 is provided with the top that second driving shaft upper bearing (metal) 361 and second driving shaft lower bearing 362, second drive are arranged on second driving shaft upper bearing (metal) successively along direction from top to bottom.
Mounting disc is made up of a plate 41, No. two plates 42, No. three plates 43, No. four plates 44, No. five plates 45 and No. six plates 46, and each plate is arranged all in the horizontal direction.
Plate 41 crimping is fixed on the roof of No. two plates.
The diapire that plate 41 is provided with a centre bore 411, arcuate socket 412, two mounting holes 413 and multiple screws 414, plate is provided with the storage tank 415 for accommodating No. two plates, and this storage tank is positioned at immediately below an arcuate socket; Main shaft clutch shaft bearing 311 is arranged in a centre bore.
The center of No. two plates 42 is provided with in No. two centre bores 421, No. two centre bores and is provided with the first power transmission shaft upper bearing (metal) 331.
No. two plates are arranged in the storage tank of a plate, and crimped separately by bolt be fixedly installed on No. three plates roof on, and No. two plates are before fixing, and can slide in the storage tank of a plate, also namely the storage tank of a plate is that No. two plates leave mobile space.
No. three plates 43 are provided with No. three centre bores 431, two No. three mounting holes 432, No. three arcuate socket 433, No. three circular hole 434 and multiple No. three screws 435, two No. three mounting holes, No. three arcuate sockets, No. three circular holes and multiple three plate screws are all positioned at outside No. three centre bores; Be provided with in No. three centre bores in main shaft upper bearing (metal) 312, No. three circular holes and be provided with the first power transmission shaft lower bearing 332.
No. four plates 44 are provided with No. four centre bores 441, two No. four arcuate sockets 442 and multiple No. four screws 443; The bottom of No. four centre bores is provided with main shaft lower bearing 313; Two No. four arcuate sockets are positioned at the both sides of No. four centre bores and become axial symmetry to arrange, and each No. four arcuate sockets are communicated with No. four centre bores.
Driving wheel is arranged in No. four centre bores, and between main shaft lower bearing and main shaft upper bearing (metal); First drive and the second drive are arranged in corresponding No. four arcuate socket separately.
5th plate 45 is provided with No. five centre bores 451, be positioned in two No. five mounting holes, 452, No. five arcuate socket, 453, No. five circular hole 454 of main shaft upper bearing (metal) both sides and multiple No. five screws 455, No. five centre bores and be provided with second driving shaft upper bearing (metal) 361.
6th plate 46 is provided with in No. six centre bores 461, No. six centre bores and is provided with second driving shaft lower bearing 362.
No. two plates are arranged in the storage tank of a plate, and a plate and No. two plates are crimped on the roof of No. three plates, and No. three plates are crimped on the roof of No. four plates, and No. four plates are crimped on the roof of No. five plates, and No. six plates are fixed on the diapire of No. five plates.
First transmission main shaft, along direction from top to bottom, passes No. four arcuate sockets 442 for No. three circular holes 434, No. four plates and No. five arcuate sockets 453 of No. five plates of No. two centre bores 421, No. three plates of an arcuate socket 412, No. two plates of a plate successively.
Second driving shaft, along direction from top to bottom, passes No. five circular holes 454 of another No. four arcuate sockets 442, No. five plates on No. four plates and No. six centre bores 461 of No. six plates successively.
A plate 41, No. two plates 42, No. three plates 43 and No. four plates 44 are connected and fixed by multiple bolt assembly, and No. four plates 44, No. five plates 45 and No. six plates 46 are fixed by other multiple bolt assembly.
This mounting disc has the following advantages: be conducive to the spacing between adjustment first drill bit and the second drill bit, to adapt to the workpiece to be added of different drill change.When adjusting, only need process another No. three circular holes and the fastening screw with No. two plate adaptations on No. three plates, then ressembling the position of i.e. adjustable first power transmission shaft; No. five plates process another No. five circular holes and the fastening screw with No. six plate adaptations, then ressembles the position of i.e. adjustable second driving shaft; This thinks that all the other holes are all that the first power transmission shaft and second driving shaft have reserved adjusting play.Also No. three standby plates for subsequent use or No. five standby plates can be selected, the position difference to some extent of No. three circular holes in the position of No. three circular holes on these No. three standby plates and the present embodiment, the position difference to some extent of No. five circular holes in the position of No. five circular holes on these No. five standby plates and the present embodiment, being assembled into the mode of new mounting disc by directly using standby plate instead, also can the spacing between the first drill bit and the second drill bit suitably being adjusted.
Air-actuated feeding mechanism 2 comprise support body 21, feed hopper 22, backgauge part 23, discharging hopper 24, material transfer wheel 25, for driving material transfer to take turns the cylinder 26 of reciprocating rotation.
Backgauge part is arranged on feed hopper and exports 221 places, and backgauge part is provided with two through holes 231 along the vertical direction; The shape of each through hole is circular; The basal surface of backgauge part is horizontal plane.
Feed hopper is along distance backgauge part from as far as the downward-sloping setting near direction; Discharging hopper is positioned at immediately below feed hopper, and discharging hopper is along the distance downward-sloping setting in the direction of backgauge part near to far away, and the periphery wall of all adjacent material transfer wheel of feed hopper outlet 221 and discharging hopper throat 241 is arranged.
Be provided with the blanking clearance 27 for the workpiece to be processed 100 that drops between backgauge part and feed hopper outlet, the through hole of backgauge part and discharging hopper throat 241 are positioned at the both sides of blanking clearance.
In the present embodiment, backgauge part 23 comprises fixed head 233 and adjustable plate 234, and fixed head is fixedly installed on support body, and adjustable plate is arranged on support body by bolt assembly is adjustable; Two through holes are arranged on fixed head, and are positioned at the both sides of adjustable plate.By unscrewing bolt assembly, adjustable plate can move forward and backward along distance feed hopper from as far as near direction, thus the width of adjustment blanking clearance, when being adjusted to proper width, screwing bolts assembly again, thus adjustable plate is fixedly installed on support body.
The rotation of material transfer wheel is arranged on support body; The periphery wall of material transfer wheel is provided with hopper 251, and the bearing of trend of hopper is parallel with the center of rotation axis direction that material transfer is taken turns.
The center of material transfer wheel periphery wall is also circumferentially provided with annular breach 252 and runs through the bearing pin 253 of this annular breach, and the bearing of trend of bearing pin is parallel with the center of rotation axis direction that material transfer is taken turns, and the cross sectional shape of this annular breach is rectangle.
The shape of the hopper in the present embodiment is U-shaped; Material transfer wheel in the present embodiment is provided with material folding cylinder 51 and pushing block 52, and material folding cylinder block is fixedly installed in annular breach, and pushing block is fixedly installed on material folding cylinder piston, and pushing block is positioned at the diapire of bottom as hopper of hopper.
The cylinder body 261 of cylinder rotates and is arranged on support body, and cylinder piston 262 rotates and is arranged on bearing pin, when cylinder piston extends and shortens, drives material transfer wheel reciprocating rotation within the scope of certain angle by bearing pin.
The course of work and the principle of feeding mechanism in the present embodiment are described below in conjunction with accompanying drawing:
See shown in Fig. 7 and Fig. 8, material transfer wheel is in processing stations; Now cylinder piston is stretched to most farm labourer position, and the hopper opening of material transfer wheel is positioned at immediately below two through holes on backgauge part; Material folding cylinder can drive pushing block to move up and down, and in the process of movement by workpiece pre-tightening on the diapire of backgauge part or unclamp workpiece; When material transfer wheel is in processing stations, material folding cylinder is pressed in workpiece top on the diapire of backgauge part by pushing block, ensures the stability adding workpiece in man-hour.
As shown in Figure 9, material transfer wheel is in material returned station; Cylinder piston retraction in shown in Fig. 7, material transfer wheel is driven to turn to position shown in Fig. 9 along clockwise direction from position shown in Fig. 7, in the process, material transfer wheel hopper together with finished work wherein through blanking clearance, but owing to having finished work 200 in hopper now, therefore other workpiece to be processed 100 can not fall to hopper from blanking clearance; Stop operating when material transfer wheel turns to position shown in Fig. 9, now finished work is released hopper by cylinder piston rapid elongation, makes it enter discharging hopper.
As shown in Figure 10, material transfer wheel is in splicing station; In shown in Fig. 9, cylinder piston extends, material transfer wheel is driven to turn to position shown in Figure 10 in the counterclockwise direction from position shown in Fig. 9, in this position, because the second cylinder bounces back to original position, make hopper keep vacant state, therefore in feed hopper, a nethermost workpiece to be processed drop in hopper from blanking clearance; After this cylinder piston continues to extend, and drives material transfer wheel to continue to take action in the counterclockwise direction, until arrive position shown in Fig. 7.
Feeding mechanism in the present embodiment can automatic feed, discharging and material folding; In addition, the present embodiment performs an action owing to adopting cylinder, for electric operating, obviously promotes operating efficiency.
Obviously, the above embodiment of the present invention is only for example of the present invention is clearly described, and is not the restriction to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And these belong to connotation of the present invention the apparent change of extending out or variation still belong to protection scope of the present invention.

Claims (1)

1. a double end bench drill, comprises table drill body and automatic feeding mechanism; Table drill body comprises two drill mechanism and for driving two drill mechanism to do the elevating mechanism moved up and down; Two drill mechanism comprises mounting disc and rotates the main shaft being arranged on mounting disc center; It is characterized in that:
Also comprise the driving wheel be fixed on main shaft, rotate the first power transmission shaft be arranged in mounting disc, be fixedly installed on the first driven pulley of the first power transmission shaft upper end, be arranged on the first drill bit of the first power transmission shaft lower end, rotate the second driving shaft be arranged in mounting disc, be fixedly installed on the second driven pulley of second driving shaft upper end and be arranged on the second drill bit of second driving shaft lower end; On main shaft, edge is provided with main shaft clutch shaft bearing, main shaft upper bearing (metal) and main shaft lower bearing in direction from top to bottom successively, and driving wheel is between main shaft upper bearing (metal) and main shaft lower bearing; First power transmission shaft edge is provided with the first power transmission shaft upper bearing (metal) and the first power transmission shaft lower bearing in direction from top to bottom successively, and the first drive is arranged on the below of the first power transmission shaft lower bearing; Second driving shaft edge is provided with second driving shaft upper bearing (metal) and second driving shaft lower bearing in direction from top to bottom successively, and the second drive is arranged on the top of second driving shaft upper bearing (metal);
Mounting disc is made up of a plate, No. two plates, No. three plates, No. four plates, No. five plates and No. six plates, and each plate is arranged all in the horizontal direction; A plate crimping is fixed on the roof of No. two plates; A plate is provided with a centre bore, an arcuate socket, two mounting holes and a multiple screw, and the diapire of a plate is provided with the storage tank for accommodating No. two plates, and this storage tank is positioned at immediately below an arcuate socket; Main shaft clutch shaft bearing is arranged in a centre bore; The center of No. two plates is provided with No. two centre bores, is provided with the first power transmission shaft upper bearing (metal) in No. two centre bores; No. two plates are arranged in the storage tank of a plate, and crimped separately by bolt be fixedly installed on No. three plates roof on, storage tank is that No. two plates leave mobile space; No. three plates are provided with No. three centre bores, two No. three mounting holes, No. three arcuate sockets, No. three circular holes and multiple No. three screws, and two No. three mounting holes, No. three arcuate sockets, No. three circular holes and multiple three plate screws are all positioned at outside No. three centre bores; Be provided with main shaft upper bearing (metal) in No. three centre bores, in No. three circular holes, be provided with the first power transmission shaft lower bearing; No. four plates are provided with No. four centre bores, two No. four arcuate sockets and multiple No. four screws; The bottom of No. four centre bores is provided with main shaft lower bearing; Two No. four arcuate sockets are positioned at the both sides of No. four centre bores and become axial symmetry to arrange, and each No. four arcuate sockets are communicated with No. four centre bores; Driving wheel is arranged in No. four centre bores, and between main shaft lower bearing and main shaft upper bearing (metal); First drive and the second drive are arranged in corresponding No. four arcuate socket separately; No. five plates are provided with No. five centre bores, two No. five mounting holes, No. five arcuate sockets, No. five circular holes and multiple No. five screws, are provided with second driving shaft upper bearing (metal) in No. five centre bores; 6th plate is provided with No. six centre bores, is provided with second driving shaft lower bearing in No. six centre bores; A plate and No. two plates are crimped on the roof of No. three plates, and No. three plates are crimped on the roof of No. four plates, and No. four plates are crimped on the roof of No. five plates, and No. six plates are fixed on the diapire of No. five plates;
First transmission main shaft, along direction from top to bottom, passes an arcuate socket of a plate, No. two centre bores of No. two plates, No. three circular holes of No. three plates, No. four arcuate sockets for No. four plates and No. five arcuate sockets of No. five plates successively; Second driving shaft, along direction from top to bottom, passes another No. four arcuate sockets, No. five circular holes of No. five plates and No. six centre bores of No. six plates on No. four plates successively;
Feeding mechanism comprises support body, feed hopper, backgauge part, discharging hopper, material transfer wheel and the cylinder for driving material transfer to take turns reciprocating rotation; Backgauge part is arranged on feed hopper exit, and backgauge part is provided with two through holes along the vertical direction; Feed hopper is along distance backgauge part from as far as the downward-sloping setting near direction; Discharging hopper is positioned at immediately below feed hopper, and discharging hopper is along the distance downward-sloping setting in the direction of backgauge part near to far away; Be provided with the blanking clearance for the workpiece that drops between backgauge part and feed hopper outlet, the through hole of backgauge part and discharging hopper throat are positioned at the both sides of blanking clearance; The rotation of material transfer wheel is arranged on support body; The periphery wall of material transfer wheel is provided with hopper, and the bearing of trend of hopper is parallel with the center of rotation axis direction that material transfer is taken turns; The center of material transfer wheel periphery wall is also circumferentially provided with annular breach and runs through the bearing pin of this annular breach, and the bearing of trend of bearing pin is parallel with the center of rotation axis direction that material transfer is taken turns; Material transfer wheel is provided with material folding cylinder and the pushing block for promoting to be arranged in hopper workpiece, and material folding cylinder block is fixedly installed in annular breach, and pushing block is fixedly installed on material folding cylinder piston; The cylinder body of cylinder rotates and is arranged on support body, and cylinder piston rotates and is arranged on bearing pin, when cylinder piston extends and shortens, drives material transfer wheel reciprocating rotation within the scope of certain angle by bearing pin;
When material transfer wheel brings to the workpiece in hopper immediately below through hole, material folding cylinder piston extends, and by pushing block, the workpiece top in hopper is pressed on the diapire of backgauge part; When material transfer wheel brings to adjacent discharging hopper throat the workpiece in hopper, material folding cylinder piston extends, and by pushing block, the workpiece in hopper is pushed out in discharging hopper; Material transfer wheel is when turning to other position, and material folding cylinder piston foreshortens to most casual labourer position, and pushing block is positioned at the diapire of bottom as hopper of hopper.
CN201510687951.5A 2015-10-18 2015-10-18 Double-bit bench drill Pending CN105149639A (en)

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CN107024538A (en) * 2016-04-29 2017-08-08 宁波麦克潘特电动工具有限公司 Ceramic tile drill bit Welding quality test device
CN111015335A (en) * 2019-12-26 2020-04-17 苏州肯美威机械制造有限公司 Automatic feeding and discharging device capable of preventing workpiece clamping stagnation for machining
CN112077357A (en) * 2020-09-17 2020-12-15 天路自动化(江苏)有限公司 Automatic production line of formwork rack

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CN102078980A (en) * 2010-12-23 2011-06-01 福建龙净环保股份有限公司 Drilling equipment for columnar pieces
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CN111015335B (en) * 2019-12-26 2021-06-29 苏州肯美威机械制造有限公司 Automatic feeding and discharging device capable of preventing workpiece clamping stagnation for machining
CN112077357A (en) * 2020-09-17 2020-12-15 天路自动化(江苏)有限公司 Automatic production line of formwork rack
CN112077357B (en) * 2020-09-17 2022-11-25 天路自动化(江苏)有限公司 Automatic production line of formwork rack

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