CN107953141A - Mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent - Google Patents

Abstract

The present invention relates to communication base station field, mechanism is blown down in the cutting of more particularly to a kind of Full-automatic drilling production line of communication base station internal stent, including workbench, workbench is equipped with blowing chamber, the second slideway is equipped with blowing chamber, some high pressure nozzles are installed with the top of blowing chamber, the front end of blowing chamber is equipped with the import entered for workpiece, the entrance is equipped with overhead door, the overhead door can lift in vertical direction, and overhead door the 4th cylinder that it is lifted in vertical direction equipped with a driving is corresponded on the outer wall of blowing chamber.Second slideway of the setting of the present invention can be docked with the slideway on production line, it is moved to after work pieces process is complete by the second slideway in blowing chamber, cutting of the air-flow sprayed by multiple high pressure nozzles at the top of blowing chamber to workpiece surface is cleared up automatically, its efficiency is higher, and can save manpower.

Description

Mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent

Technical field

The present invention relates to communication base station field, more particularly to a kind of Full-automatic drilling production line of communication base station internal stent Cutting blow down mechanism.

Background technology

, it is necessary to which surface drills through row's unthreaded hole, existing manufacture work on it in the production process of communication base station internal stent Workpiece, mostly using the method manually to drill, is particularly placed on drilling platform, passes through manual control drilling equipment by skill Move down and drill to workpiece, need to control drilling platform is repeatedly mobile to make drill bit be directed at bore position in boring procedure, thus The efficiency manually to drill is excessively low.

Constantly substitute in automation equipment in artificial modern manufacturing industry, automation processing is coordinated using industrial robot more Manufacture of the equipment into parts.

Existing automation drilling equipment, can produce cutting, existing cutting method for cleaning, passes through mostly in processing The method of man-hour manually hand-held jet gun clears up workpiece and machining area, its efficiency is more low, and labor intensive.

The content of the invention

In view of the above-mentioned deficiencies in the prior art, it is an object of the present invention to provide a kind of full-automatic drilling of communication base station internal stent Mechanism is blown down in the cutting of hole production line.

To solve the above problems, the present invention provides following technical scheme：

Mechanism, including workbench are blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent, on workbench Equipped with blowing chamber, the second slideway is equipped with blowing chamber, some high pressure nozzles, the front end of blowing chamber are installed with the top of blowing chamber Equipped with the import entered for workpiece, which is equipped with overhead door, which can lift in vertical direction, blowing chamber Overhead door the 4th cylinder that it is lifted in vertical direction equipped with a driving is corresponded on outer wall.

Further, blowing chamber is equipped with top plate, is equipped with some pipe fixing brackets below top plate, blocks on some pipe fixing brackets Intrinsic tracheae, all high pressure nozzles are both secured on tracheae, and tracheae can rotate on pipe fixing bracket, adjust high pressure nozzle Jet direction.

Further, top plate is hingedly mounted on the top of blowing chamber, and tracheae includes main tracheae and connected by some three Some gas-distributing pipes that head, two pass joints are connected with main tracheae, all gas-distributing pipes prolong the glide direction of workpiece on the second slideway successively Distribution, some high pressure spray groups are evenly arranged on some gas-distributing pipes.

Further, the second slideway is equipped with the second slide for being spaced two symmetrical L-types.

Further, the second waste port of strip is equipped with workbench between two the second slides.

Further, the both sides on workbench positioned at the second slideway are respectively equipped with the 3rd waste port and the 4th waste port.

Further, the lower section of the second waste port, three wastes mouth and the 4th waste port is equipped with recycling bin.

Beneficial effect：Mechanism is blown down in the cutting of the Full-automatic drilling production line of the communication base station internal stent of the present invention, its The second slideway set can be docked with the slideway on production line, and blowing is moved to by the second slideway after work pieces process is complete Interior, cutting of the air-flow sprayed by multiple high pressure nozzles at the top of blowing chamber to workpiece surface are cleared up automatically, its Efficiency is higher, and can save manpower.

Brief description of the drawings

Fig. 1 is the Full-automatic drilling production line dimensional structure diagram of communication base station internal stent；

Fig. 2 is feed mechanism dimensional structure diagram；

Fig. 3 is borehole drill construction dimensional structure diagram；

Fig. 4 is the schematic cross-sectional view of Fig. 3；

Fig. 5 is enlarged drawing at A in Fig. 4；

Fig. 6 is cutting agency dimensional structure diagram；

Fig. 7 is enlarged drawing at B in Fig. 6；

Fig. 8 is clamp assemblies dimensional structure diagram；

Fig. 9 is the decomposition texture schematic diagram of the first slideway；

Figure 10 blows down mechanism dimensional structure diagram for cutting；

Figure 11 blows down mechanism broken section structure diagram for cutting；

Figure 12 is enlarged drawing at C in Figure 11；

Figure 13 is the open mode schematic diagram of blowing chamber top plate；

Figure 14 is the decomposition texture schematic diagram of the second slideway；

Description of reference numerals：Feed mechanism 1, feeding cylinder 1a, conveyer belt 1b, stock guide 1c, discharge port 1c1, striker plate 1d, processing platform 2, the first waste port 2a, detent mechanism 3, the first slideway 3a, the first slide 3a1, locating piece 3b, limited block 3c, Inclined-plane 3c1, horizontal part 3c2, vertical portion 3c3, mounting post 3d, crossbeam 3d1, the first fixed plate 3e, the first cylinder 3f, second fixes Plate 3g, the second cylinder 3h, clamp assemblies 3j, the 3rd cylinder 3j1, air cylinder support 3j2, grip block 3j3, hinged seat 3j4, connecting rod 3j5, borehole drill construction 4, drill bit 4a, the first electric cylinders 4b, the first sliding block 4c, support base 4e, the first driving motor 4f, screw 4g, the Two sliding block 4h, electric machine support 4h1, the second driving motor 4h2, cutting agency 5, polished rod guide rail 5a, guide sleeve 5a1, screw guide rail 5b, feed screw nut 5b1, the 3rd driving motor 5c, cuts and blows down mechanism 6, high pressure nozzle 6a, workbench 6b, the second waste port 6b1, the 3rd waste port 6b2, the 4th waste port 6b3, blowing chamber 6c, import 6c1, top plate 6c2, the second slideway 6d, the second slide 6d1, overhead door 6e, the 4th cylinder 6f, pipe fixing bracket 6g, main tracheae 6h, gas-distributing pipe 6j, workpiece 7.

Embodiment

With reference to Figure of description and embodiment, the specific embodiment of the present invention is described in further detail：

Referring to figs. 1 to the Full-automatic drilling production line of the communication base station internal stent shown in Figure 14, including feed mechanism 1, Processing platform 2, detent mechanism 3, borehole drill construction 4, cutting agency 5 and for will on the workpiece 7 after processing cutting remove Mechanism 6 is blown down in cutting, and feed mechanism 1 is arranged at 2 side of processing platform, and feed mechanism 1 includes setting for the conveying of conveying workpieces 7 It is standby and for the single workpiece 7 of conveying equipment end to be pushed to the feeding cylinder 1a at the processing stations on processing platform 2； Detent mechanism 3 includes the first slideway 3a docked with conveying equipment ending vertical, and the interval being arranged on the first slideway 3a The locating piece 3b of setting and limited block 3c, the first slideway 3a are fixed on processing platform 2, and locating piece 3b and limited block 3c can be It is vertically moved up or down on one slideway 3a, locating piece 3b and limited block 3c are successively lifted when working, and are positioned at workpiece 7 by locating piece 3b Working origin position and by limited block 3c by workpiece 7 it is clamping between locating piece 3b and limited block 3c to prevent workpiece 7 from adding Man-hour moves horizontally；Borehole drill construction 4 is fixed on processing platform 2, and borehole drill construction 4, which includes one, to be lifted simultaneously in vertical direction And the drill bit 4a that can be moved back and forth on the extension line of the first slideway 3a；Cutting agency 5 is arranged at 2 bottom of processing platform, under Material mechanism 5 is moved to push to cut by the workpiece 7 after processing on the first slideway 3a equipped with driving limited block 3c and blown down in mechanism 6 Drive component；Cutting blows down mechanism 6 and is arranged at 2 side of processing platform, and cutting blows down mechanism 6 and is equipped with some high pressure nozzle 6a, High pressure nozzle 6a is connected with source of the gas to blow down the cutting on 7 surface of workpiece.

Preferably, conveying equipment includes conveyer belt 1b, and the both sides of conveyer belt 1b are equipped with the stock guide set along conveying direction The end of 1c, conveyer belt 1b are equipped with striker plate 1d between being located at the stock guide 1c of conveyer belt 1b both sides, close to 2 side of processing platform The end of stock guide 1c is equipped with the discharge port 1c1 being correspondingly arranged with processing platform 2, and feeding cylinder 1a is installed on conveyer belt 1b ends With the side of discharge port 1c1 opposition；Multiple workpiece 7 can once be added by conveyer belt 1b, workpiece 7 is by the gear of conveyer belt 1b ends After flitch 1d stops, the single workpiece 7 of end is pushed on processing platform 2 from discharge port 1c1 by feeding cylinder 1a.

Preferably, inductive switch is equipped with the center of stock guide 1c, which is electrically connected with feeding cylinder 1a, send Material cylinder 1a is electrically connected with cutting agency 5, and the driving motor of feeding cylinder 1a and conveyer belt 1b is electrically connected；Inductive switch is used In whether having workpiece 7 to be processed on sensing conveyer belt 1b, after 7 completion of processing of workpiece on processing platform 2, pass through blanking machine Structure 5 removes the workpiece 7 after completion of processing from processing platform 2, and cutting agency 5 sends telecommunications to feeding cylinder 1a after removal Number, feeding cylinder 1a pushes to the single workpiece 7 of end on processing platform 2 from discharge port 1c1；Feeding cylinder 1a is in feeding When, the driving motor of conveyer belt 1b shuts down.

Preferably, the first slideway 3a is docked with the discharge port 1c1 on stock guide 1c, and the first slideway 3a is equipped with symmetrical point of interval First slide 3a1 of two L-types of cloth, first that strip is equipped between two the first slide 3a1 on processing platform 2 are useless Material mouth 2a.Cutting can be fallen into from the first waste port 2a in the recycling bin of the lower section of processing platform 2 caused by drilling.

Preferably, the side on processing platform 2 positioned at the first slideway 3a is equipped with setting setting mounting post 3d, mounting post 3d It is equipped with two the crossbeam 3d1, two crossbeam 3d1 to extension above the first slideway 3a being spaced apart and is equipped with the first fixed plate 3e, the first fixed plate 3e are equipped with the first cylinder 3f, and the telescopic rod telescopic direction of the first cylinder 3f is perpendicular to the upper of processing platform 2 End face, locating piece 3b are fixed on the telescopic rod end of the first cylinder 3f.First cylinder 3f can drive locating piece 3b straight down In the first slideway 3a of mobile insertion, the front end of workpiece 7 is contradicted on locating piece 3b.

Preferably, the lower section of processing platform 2 is provided with the second fixed plate 3g, the second fixed plate 3g and is equipped with the second cylinder 3h, For the telescopic rod telescopic direction of second cylinder 3h perpendicular to the upper surface of processing platform 2, limited block 3c is fixed on the second cylinder 3h's Telescopic rod end, the second cylinder 3h can drive limited block 3c, and movement is interspersed in the first waste port 2a and first successively straight up On slideway 3a, limited block 3c is contradicted in the rear end of workpiece 7.

Preferably, the position that limited block 3c is contacted with workpiece 7 is equipped with the inclined-plane 3c1 set diagonally downward.Inclined-plane 3c1's Set, enable to during limited block 3c moves up, by workpiece 7 to locating piece 3b directions Level Promoting, make 7 quilt of workpiece Fastening is folded between limited block 3c and locating piece 3b.

Preferably, limited block 3c is made of elastomeric material, to avoid limited block 3c and 7 hard contact of workpiece, to workpiece 7 Appearance causes to damage.

Preferably, detent mechanism 3 is additionally provided with clamp assemblies 3j, and clamp assemblies 3j is arranged at locating piece 3b and limited block 3c Between, clamp assemblies 3j is used to the middle part of workpiece 7 be fixed, and prevents from moving up and down during drilling.

Preferably, clamp assemblies 3j includes the 3rd cylinder 3j1, air cylinder support 3j2 and grip block 3j3, and the 3rd cylinder 3j1 leads to Cross bolt to be fixed on below the top of air cylinder support 3j2, air cylinder support 3j2 is fixedly connected by bolt with processing platform 2, is clamped The tail end of block 3j3 and the telescopic rod end of the 3rd cylinder 3j1 are hinged, and grip block 3j3 is corresponded on the processing platform 2 equipped with hinged Seat 3j4, the both sides of hinged seat 3j4 are respectively equipped with two of one end of connecting rod a 3j5, two connecting rod 3j5 respectively with hinged seat 3j4 Side is hinged, and the on both sides of the middle of the other end of two connecting rod 3j5 respectively with grip block 3j3 is hinged.3rd cylinder 3j1 can drive folder The articulated shaft that block 3j3 is held around itself and connecting rod 3j5 rotates, and drives the front end of grip block 3j3 to be moved around an arching trajectory, is pressed together on work The middle part of part 7, grips workpiece 7, to be moved up and down when preventing workpiece 7 from drilling.

Preferably, borehole drill construction 4 includes cross sliding driving device and lifting gear, and drill bit 4a is installed on lifting gear, Lifting gear is installed on cross sliding driving device.

Preferably, cross sliding driving device is equipped with the first the electric cylinders 4b, the first electric cylinders 4b set parallel to the first slideway 3a Equipped with the first sliding block 4c, the lifting gear includes support base 4e, the first driving motor 4f, screw 4g and the second sliding block 4h, branch Support seat 4e is mounted by means of bolts on the first sliding block 4c, and the second sliding block 4h and support base 4e is slidably matched, and screw 4g is successively It is interspersed at the top of support base 4e, on the second sliding block 4h and support base 4e bottoms, the main shaft of the first driving motor 4f passes through shaft joint It is sequentially connected with screw 4g.

Preferably, the front end of the second sliding block 4h is equipped with electric machine support 4h1, and the second driving is provided with electric machine support 4h1 Motor 4h2, drill bit 4a are fixed on the main shaft of the second driving motor 4h2..

Preferably, in order to adjusting the air line distance between the second driving motor 4h2 and the first slideway 3a, electric machine support 4h1 is equipped with the waist-shaped hole for installation bolt.

Preferably, the side of electric machine support 4h1 is equipped with deck, and being fixed on the deck has coolant nozzle.

Preferably, for the ease of the recycling of coolant, coaming plate is installed on processing platform 2, coaming plate is disposed around processing platform 2 Processing stations, the first slug hole is in the range of coaming plate encloses and set, and coolant can fall progress from first slug hole Recycling.

Preferably, drive component include the polished rod guide rail 5a for being arranged at first waste port 2a both sides of the lower section of processing platform 2 and Screw guide rail 5b, polished rod guide rail 5a are equipped with guide sleeve 5a1, and screw guide rail 5b is equipped with feed screw nut 5b1, the second fixed plate 3g It is set on screw guide rail 5b and polished rod guide rail 5a, feed screw nut 5b1 and guide sleeve 5a1 are mounted by means of bolts on second On fixed plate 3g, the lower section of processing platform 2 is equipped with the 3rd driving motor 5c that driving screw guide rail 5b is rotated.

Preferably, mechanism 6 is blown down in cutting includes workbench 6b, and workbench 6b is arranged at the side of processing platform 2, work Platform 6b is equipped with blowing chamber 6c, is equipped with the second slideway 6d in blowing chamber 6c, workpiece 7 can pass through blanking machine from the first slideway 3a Structure 5 is transferred on the second slideway 6d, and is moved to by the second slideway 6d in blowing chamber 6c, and all high pressure nozzle 6a are both secured to The top of blowing chamber 6c.

Preferably, cut in order to avoid cutting is blown to remaining on the first slideway 3a, the first slideway 3a by high pressure draught in work Part 7 can produce abrasion when moving to 7 outer surface of workpiece；The front end of blowing chamber 6c is equipped with the import 6c1 entered for workpiece 7, should be into Overhead door 6e is equipped with mouth 6c1, overhead door 6e can be lifted in vertical direction, for entering blowing chamber 6c in workpiece 7 After import 6c1 will be closed, with this avoid cutting be blown on the first slideway 3a.

After processing, screw guide rail 5b is driven to rotate by the 3rd driving motor 5c, so as to pass through feed screw nut 5b1 Second fixed plate 3g is moved, and the second fixed plate 3g drives limited block 3c to promote workpiece 7 to slide into the second cunning from the first slideway 3a On road 6d, in order to enable workpiece 7 to be driven fully on the second slideway 6d, the cross section of limited block 3c is L-shaped, spacing Block 3c includes horizontal part 3c2 and vertical portion 3c3, and the end of horizontal part 3c2 is connected with the top of vertical portion 3c3, horizontal part The air line distance of the one end of 3c2 away from vertical portion 3c3 to vertical portion 3c3 are more than the first waste port 2a close to the one of the second slideway 6d Hold to the distance of the second slideway 6d.

Preferably, corresponded on the outer wall of blowing chamber 6c overhead door 6e equipped with one driving its lift in vertical direction the 4th Cylinder 6f.

Preferably, the second slideway 6d is equipped with the second slide 6d1 for being spaced two symmetrical L-types, and workbench 6b is upper The second waste port 6b1 of strip is equipped between two the second slide 6d1.Cutting can be fallen into from the second waste port 6b1 In recycling bin below workbench 6b.

Preferably, it in order to avoid cutting is stopped by workpiece 7 itself, can not drop, work from the second waste port 6b1 completely Both sides on platform 6b positioned at the second slideway 6d are respectively equipped with the 3rd waste port 6b2 and the 4th waste port 6b3.

Preferably, for the ease of the installation of high pressure nozzle 6a and the jet direction of adjustment high pressure nozzle 6a, blowing chamber 6c Equipped with top plate 6c2, some pipe fixing bracket 6g are equipped with below top plate 6c2, being fixed on some pipe fixing bracket 6g has tracheae, owns High pressure nozzle 6a is both secured on tracheae, and tracheae can rotate on pipe fixing bracket 6g, so as to adjust the spray of high pressure nozzle 6a Gas direction.

Preferably, top plate 6c2 is hingedly mounted on the top of blowing chamber 6c, and in order to the installation of tracheae, tracheae includes main gas Pipe 6h and some gas-distributing pipe 6j connected by some three-way connections, two pass joints with main tracheae 6h, all gas-distributing pipe 6j prolong The glide direction of workpiece 7 is sequentially distributed on second slideway 6d, and some high pressure spray groups are evenly arranged on some gas-distributing pipe 6j.

The above described is only a preferred embodiment of the present invention, any limit not is made to the technical scope of the present invention System, therefore any subtle modifications, equivalent variations and modifications that every technical spirit according to the present invention makees above example, In the range of still falling within technical scheme.

Claims (7)

1. mechanism is blown down in a kind of cutting of Full-automatic drilling production line of communication base station internal stent, it is characterised in that：Including work Make platform (6b), workbench (6b) is equipped with blowing chamber (6c), and the second slideway (6d), blowing chamber (6c) top are equipped with blowing chamber (6c) Portion is installed with some high pressure nozzles (6a), and the front end of blowing chamber (6c) is equipped with the import (6c1) entered for workpiece (7), should Import (6c1) place is equipped with overhead door (6e), which can lift in vertical direction, on the outer wall of blowing chamber (6c) Corresponding overhead door (6e) is equipped with the 4th cylinder (6f) for driving it to lift in vertical direction.

2. mechanism is blown down in the cutting of the Full-automatic drilling production line of the communication base station internal stent according to right wants 1, it is special Sign is：Blowing chamber (6c) is equipped with top plate (6c2), is equipped with some pipe fixing brackets (6g) below top plate (6c2), some pipelines are consolidated Determine to fix on frame (6g) and have tracheae, all high pressure nozzles (6a) are both secured on tracheae, and tracheae can be at pipe fixing bracket (6g) Upper rotation, the jet direction of adjustment high pressure nozzle (6a).

3. mechanism is blown down in the cutting of the Full-automatic drilling production line of the communication base station internal stent according to right wants 6, it is special Sign is：Top plate (6c2) is hingedly mounted on the top of blowing chamber (6c), and tracheae includes main tracheae (6h) and passes through some threeways Some gas-distributing pipes (6j) that connector, two pass joints are connected with main tracheae (6h), all gas-distributing pipes (6j) are prolonged on the second slideway (6d) The glide direction of workpiece (7) is sequentially distributed, and some high pressure spray groups are evenly arranged on some gas-distributing pipes (6j).

4. mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent according to claim 1, its It is characterized in that：Second slideway (6d) is equipped with the second slide (6d1) for being spaced two symmetrical L-types.

5. mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent according to claim 1, its It is characterized in that：The second waste port (6b1) of strip is equipped with workbench (6b) between two the second slides (6d1).

6. mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent according to claim 5, its It is characterized in that：Both sides on workbench (6b) positioned at the second slideway (6d) are respectively equipped with the 3rd waste port (6b2) and the 4th waste material Mouth (6b3).

7. mechanism is blown down in the cutting of the Full-automatic drilling production line of communication base station internal stent according to claim 6, its It is characterized in that：The lower section of second waste port (6b1), three wastes mouth and the 4th waste port (6b3) is equipped with recycling bin.