CN112222479A

CN112222479A - Automatic drilling equipment is fastened in iron plate location polishing

Info

Publication number: CN112222479A
Application number: CN202011134595.1A
Authority: CN
Inventors: 刘飒
Original assignee: Jinhua Ruici Technology Co ltd
Current assignee: Jinhua Ruici Technology Co ltd
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2021-01-15

Abstract

The invention discloses an automatic drilling device for positioning, polishing and tightening an iron plate, which comprises a box body, wherein a transmission cavity is arranged in the box body, the iron plate is fixed through a link mechanism according to related knowledge of mechanical transmission, then a pushing pin is extruded through a slide plate on the mountain side of a drilling cavity to slide, then a bevel gear is shifted through gear transmission and rack transmission to steer to realize reciprocating motion, a porous workbench is also adopted on the lower side, the effect of uniform cooling is achieved through injecting cooling liquid, the temperature can be reduced and water is sprayed in a working state through a buckle spring structure, and the automatic drilling device is closed in a non-working state, so that the function of automatically saving water is realized.

Description

Automatic drilling equipment is fastened in iron plate location polishing

Technical Field

The invention relates to the field related to drilling, in particular to an automatic drilling device for positioning, polishing and tightening an iron plate.

Background

Drilling refers to the operation of machining a hole in a solid material with a drill bit. Traditional drilling equipment, the cooling means of continuous hydrojet when the overwhelming majority all adopts on cooling, the extreme environmental protection not of very consumption coolant liquid, in time there is partial drilling equipment to have adopted endless means, but drilling on iron plate is not too good, appears the sunken of drilling position easily, the effect that the influence was processed out, and most puncher does not have any preliminary work before processing in addition, and this also further influence has arrived the processing effect.

The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: traditional drilling equipment has more drawback in the aspect of the processing at the iron sheet, because the iron sheet is all generally thinner, traditional this type of device does not all adopt the device that prevents the iron sheet and warp, often have more rust on the iron plate of blank when processing iron plate a bit moreover, serious rust spot even a large amount of in addition appears, the condition that appears drilling aversion very easily when iron plate is put on the workstation appears, traditional drilling equipment adopts on cooling down and continues to cool down, unusual consumption coolant liquid.

In order to solve the problems, the embodiment designs an automatic drilling device for positioning, polishing and tightening iron plates, which comprises a base, wherein a conveying cavity is arranged in a box body, a feeding device for driving the iron plates to a specified workbench is arranged in the conveying cavity, the feeding device comprises four transmission shafts which are rotatably connected with the box body and are distributed up, down, right and left, a transmission column is fixedly connected onto the transmission shafts, a contact spring is fixedly connected onto the transmission shafts at the upper side, the contact spring is fixedly connected with the inner wall of the conveying cavity, two shifting shafts which are distributed up and down are rotatably connected onto the box body, shifting baffles are fixedly connected onto the shifting shafts, a control cavity is arranged on the box body, a switch is arranged in the control cavity, a transmission cavity is arranged in the box body, and a main motor is arranged in the transmission cavity, the polishing device comprises a switch, a main motor, a shifting rod, a polishing shaft, a sliding square shaft, a polishing spring, a polishing positioning block, a polishing sliding rod, an anti-drop pin, a polishing table, a polishing supporting spring, a drilling hole cavity, a cooling device and a transmission device, wherein the switch is rotatably connected with the main motor, the shifting rod is fixedly connected with the shifting shaft and is positioned in the control cavity, the shifting rod can be contacted with the switch, the box body is internally provided with the polishing cavity, the main motor is rotatably connected with the polishing shaft, the sliding square shaft is slidably connected with the polishing shaft, the polishing spring is arranged between the sliding square shaft and the polishing shaft, the polishing positioning block is arranged on the inner wall of the polishing cavity, the polishing sliding rod is slidably connected with the polishing positioning block, the lower side of the polishing sliding rod is provided with the anti-drop pin, the polishing table is arranged on the, and a control device which is used for pressing the workpiece on the workbench and controlling the transmission reversing is arranged on the upper side of the drilling cavity.

The transmission device comprises a transmission main shaft which is rotatably connected with the inner wall of the transmission cavity, a sliding bushing is slidably connected onto the transmission main shaft, a sleeve shifting fork is slidably connected onto the sliding bushing, a forward bevel gear is fixedly connected onto the sliding bushing, a reverse bevel gear is fixedly connected onto the sliding bushing, a transmission main bevel gear is fixedly connected onto the upper side of the polishing shaft and can be meshed with the forward bevel gear and the reverse bevel gear, a transmission bevel gear is fixedly connected onto the transmission main shaft, a cavity is arranged in the box body, a blade shaft is rotatably connected onto the inner wall of the cavity, a driven bevel gear is fixedly connected onto the upper side of the blade shaft and is meshed with the transmission bevel gear, and blades are fixedly connected onto the lower side of the blade shaft.

The feeding device comprises an upper closing plate which is in sliding connection with the box body, a closing plate spring is arranged between the upper closing plate and the box body, a supporting plate is connected onto the box body in a sliding mode, a supporting plate spring is arranged between the supporting plate and the box body, and the supporting plate can be in contact connection with the upper closing plate.

Wherein, the cooling device comprises a working supporting block fixedly connected with the inner wall of the drilling cavity, a fixed buckle fixedly connected with the working supporting block, a sliding workbench arranged on the inner wall of the drilling cavity, four pillars which are distributed all around and are fixedly connected with the upper surface of the workbench, the pillars are slidably connected with the working supporting block, a supporting spring is arranged between the pillars and the working supporting block, a liquid outlet is arranged on the upper surface of the workbench, a water hose is arranged on the upper surface of the workbench, a sliding buckle is fixedly connected with the upper surface of the workbench, the water hose bypasses the fixed buckle and is in contact connection with the sliding buckle, the sliding buckle can be in contact connection with the fixed buckle, a drainage pipeline is fixedly connected with the upper surface of the box body, a valve is rotatably connected with the upper surface of the drainage pipeline, and the automatic cooling can be realized in the working state through the up and down movement of the, and the effect of stopping cooling in the non-working state.

Wherein, the control device comprises a positioning shaft fixedly connected with the upper side of the drilling cavity, a rotating block is connected with the upper side of the positioning shaft in a sliding way, the rotating block is connected with the transmission main shaft through threads, a working positioning block is fixedly connected with the inner wall of the drilling cavity, the working positioning block is connected with a front driving connecting rod and a rear driving connecting rod in a rotating way, the rotating block is connected with two driven connecting rods in a rotating way, a pressing plate is connected with the inner wall of the drilling cavity in a sliding way, four pressing plate fixing blocks which are distributed front and rear and left and right are fixedly connected with the inner wall of the drilling cavity, the pressing plate fixing block at the left side is connected with the driven connecting rods in a rotating way, the pressing plate fixing block at the right side is connected with the driving connecting rods in a rotating way, a sliding groove is, the inner wall of the drilling cavity is connected with a control rack in a sliding mode, the inner wall of the control cavity is fixedly connected with a return spring, the return spring is fixedly connected with the control rack, a first transmission shaft is rotatably connected to the upper surface of the control cavity, a transmission gear is fixedly connected to the first transmission shaft, the transmission gear is meshed with the control rack, the first transmission shaft is meshed with the second transmission shaft, a positioning block is fixedly connected to the inner wall of the control cavity, a shifting rack is connected to the positioning block in a sliding mode, and the shifting rack is hinged to the shifting sleeve fork.

The invention has the beneficial effects that: according to the invention, according to the related knowledge of mechanical transmission, the iron plate is fixed through the link mechanism, then the push pin is extruded through the slide plate on the mountain side of the drilling cavity to slide, then the bevel gear is stirred through gear transmission and rack transmission to turn to realize reciprocating motion, the lower side also adopts a porous workbench, the effect of uniform cooling is achieved through injecting cooling liquid, the temperature can be reduced and water is sprayed in the working state through the buckle spring structure, and the locking mechanism is closed in the non-working state, so that the function of automatically saving water is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of an automatic drilling device for positioning, polishing and tightening an iron plate according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic drilling device for positioning, polishing and tightening an iron plate, which is mainly applied to the process of drilling the iron plate, and the invention is further explained by combining the attached drawings of the invention: the automatic drilling device for positioning, polishing and tightening the iron plate comprises a box body 11, wherein a conveying cavity 12 is arranged in the box body 11, a feeding device 902 used for driving the iron plate to a specified workbench is arranged in the conveying cavity 12, the feeding device 902 comprises four transmission shafts 14 which are rotatably connected with the box body 11 and distributed up, down, right and left, transmission columns 16 are fixedly connected onto the transmission shafts 14, contact springs 15 are fixedly connected onto the transmission shafts 14 on the upper side, the contact springs 15 are fixedly connected with the inner wall of the conveying cavity 12, two shifting shafts 18 which are vertically distributed are rotatably connected onto the box body 11, shifting baffles 17 are fixedly connected onto the shifting shafts 18, a control cavity 70 is arranged on the box body 11, a switch 75 is arranged in the control cavity 70, a transmission cavity 13 is arranged in the box body 11, and a main motor 30 is arranged in the transmission cavity 13, the switch 75 is rotatably connected with the main motor 30, the toggle shaft 18 is fixedly connected with a toggle lever 76 which is positioned in the control cavity 70, the toggle lever 76 can be contacted with the switch 75, the box body 11 is internally provided with a polishing cavity 20, the main motor 30 is rotatably connected with a polishing shaft 29, the polishing shaft 29 is slidably connected with a sliding square shaft 27, a polishing spring 28 is arranged between the sliding square shaft 27 and the polishing shaft 29, the lower side of the sliding square shaft 27 is provided with a polishing disc 26, the inner wall of the polishing cavity 20 is provided with a polishing positioning block 22, the polishing positioning block 22 is slidably connected with a polishing slide rod 23, the lower side of the polishing slide rod 23 is provided with an anti-drop pin 21, the upper side of the polishing slide rod 23 is provided with a polishing table 25, a polishing supporting spring 24 is arranged between the polishing table 25 and the polishing positioning block 22, and the box body 11 is internally provided with a drilling cavity 64, a cooling device 903 used for automatically and uniformly cooling the machined parts is arranged in the drilling cavity 64, a transmission device 901 for providing power for the device is arranged in the transmission cavity 13, and a control device 904 used for pressing the workpiece on the workbench and controlling transmission reversing is arranged on the upper side of the drilling cavity 64.

According to the embodiment, the transmission device 901 is described in detail below, the transmission device 901 includes a transmission main shaft 36 rotatably connected to the inner wall of the transmission cavity 13, a sliding bush 34 is slidably connected to the transmission main shaft 36, a sleeve fork 35 is slidably connected to the sliding bush 34, a forward bevel gear 33 is fixedly connected to the sliding bush 34, a reverse bevel gear 32 is fixedly connected to the sliding bush 34, a transmission main bevel gear 31 is fixedly connected to the upper side of the polishing shaft 29, the transmission main bevel gear 31 can be engaged with the forward bevel gear 33 and the reverse bevel gear 32, a transmission bevel gear 42 is fixedly connected to the upper side of the transmission main shaft 36, a cavity 41 is provided in the box 11, a blade shaft 44 is rotatably connected to the inner wall of the cavity 41, and a driven bevel gear 43 is fixedly connected to the upper side of the blade shaft 44, the driven bevel gear 43 is meshed with the transmission bevel gear 42, blades 45 are fixedly connected to the lower side of the blade shaft 44, the sliding bush 34 is shifted to move left and right through the shifting of the shifting fork 35, and then the transmission main bevel gear 31 is meshed with the forward bevel gear 33 or the transmission main bevel gear 31 is meshed with the reverse bevel gear 32, so that the reversing effect is achieved.

According to an embodiment, the feeding device 902 is described in detail below, the feeding device 902 includes an upper closing plate 62 slidably connected to the box 11, a closing plate spring 63 is disposed between the upper closing plate 62 and the box 11, a supporting plate 60 is slidably connected to the box 11, a supporting plate spring 59 is disposed between the supporting plate 60 and the box 11, and the supporting plate 60 can be in contact connection with the upper closing plate 62.

According to the embodiment, the details of the temperature reducing device 903 are described below, the temperature reducing device 903 includes a working support block 69 fixedly connected to the inner wall of the drilling cavity 64, a fixing buckle 57 fixedly connected to the working support block 69, a working table 68 sliding on the inner wall of the drilling cavity 64, four columns 55 distributed front and back and left and right are fixedly connected to the upper surface of the working table 68, the columns 55 are slidably connected to the working support block 69, a supporting spring 56 is disposed between the columns 55 and the working support block 69, a liquid outlet 53 is disposed on the upper surface of the working table 68, a flexible water pipe 54 is disposed on the upper surface of the working table 68, a sliding buckle 58 is fixedly connected to the upper surface of the working table 68, the flexible water pipe 54 bypasses the fixing buckle 57 to be in contact connection with the sliding buckle 58, the sliding buckle 58 can be in contact connection with the fixing buckle 57, a drainage pipe 65 is fixedly connected to the upper surface of the box, the valve 66 is rotatably connected to the upper surface of the drainage pipeline 65, and the cooling effect can be automatically realized in the working state rather than stopping in the working state by moving the workbench 68 up and down.

According to the embodiment, the control device 904 is described in detail below, the control device 904 includes a positioning shaft 37 fixedly connected to an upper side of the drilling cavity 64, a rotating block 38 slidably connected to the positioning shaft 37, the rotating block 38 connected to the transmission main shaft 36 through a screw thread, a work positioning block 40 fixedly connected to an inner wall of the drilling cavity 64, a front driving link 46 and a rear driving link 46 rotatably connected to the work positioning block 40, two driven links 47 rotatably connected to the rotating block 38, a pressing plate 67 slidably connected to an inner wall of the drilling cavity 64, four pressing plate fixing blocks 52 distributed front and rear and left and right connected to the pressing plate 67, the left pressing plate fixing block 52 rotatably connected to the driven links 47, the right pressing plate fixing block 52 rotatably connected to the driving links 46, and a sliding groove 51 provided on the pressing plate 67, the sliding chute 51 is connected with a sliding pin 50 in a sliding manner, the sliding pin 50 is fixedly connected with the pressing plate fixing block 52, the upper surface of the pressing plate 67 is fixedly connected with a drilling motor 48, the inner wall of the drilling cavity 64 is connected with a control rack 71 in a sliding manner, the inner wall of the control cavity 70 is fixedly connected with a return spring 72, the return spring 72 is fixedly connected with the control rack 71, the upper surface of the control cavity 70 is rotatably connected with a first transmission shaft 74, the first transmission shaft 74 is fixedly connected with a transmission gear 73, the transmission gear 73 is meshed and connected with the control rack 71, the first transmission shaft 74 is meshed and connected with the second transmission shaft 77, the inner wall of the control cavity 70 is fixedly connected with a positioning block 49, the positioning block 49 is connected with a toggle rack 78 in a sliding manner, the toggle rack 78 is hinged with the toggle fork 35, and the control rack 71 is pushed to move by the pressing, the shifting rack 78 is driven to move left and right through meshing transmission, and the shifting sleeve fork 35 is driven to move left and right through a connecting rod.

The use steps herein are described in detail below with reference to fig. 1-3: at the beginning, the motor behind the transmission shaft 14 is started to drive the rotation of the transmission shaft 14, so that the iron plate pushes the toggle baffle 17 to move towards the workbench under the guidance of the transmission column 16, the rotation of the toggle baffle 17 drives the toggle shaft 18 to rotate, the rotation of the toggle shaft 18 drives the main motor 30 to start through the toggle switch 75 of the toggle lever 76, the start of the main motor 30 drives the rotation of the polishing shaft 29, on one hand, the polishing shaft 29 and the polishing spring 28 rotate together to polish rust blocks on the iron plate through the polishing disc 26, on the other hand, the bevel gear meshing transmission between the transmission main bevel gear 31 and the forward bevel gear 33 drives the rotation of the transmission main shaft 36, the transmission main shaft 36 and the rotation block 38 drive the rotation block 38 to move leftwards through the threaded connection, then the pressing plate 67 moves downwards under the transmission of the connecting rod, the rotation of the transmission main shaft 36 drives the blade shaft 44, the processed water passing through the upper surface of the iron plate is dried, when the pressing plate 67 moves downwards to contact with the control rack 71, the control rack 71 is pushed to move through the meshing transmission between the control rack 71 and the first transmission shaft 74 and the meshing transmission between the second transmission shaft 77 and the toggle rack 78 to drive the toggle fork 35 to move rightwards, so that the forward bevel gear 33 is disengaged from the transmission main bevel gear 31, the reverse bevel gear 32 is meshed with the transmission main bevel gear 31 to be connected to be reversed, when the pressing plate 67 moves downwards to process the iron plate on the workbench 68, the workbench 68 moves downwards slightly under the pushing of pressure, and when the workbench 68 moves downwards, the sliding buckle 58 moves downwards to drive the cooling liquid of the soft water pipe 54 to be injected into the liquid outlet 53, so that the cooling effect is realized.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an automatic drilling equipment is fastened in polishing of iron plate location, includes the box, its characterized in that: a conveying cavity is arranged in the box body, a feeding device used for driving an iron plate to a specified workbench is arranged in the conveying cavity, the feeding device comprises four transmission shafts which are rotatably connected with the box body and are distributed from top to bottom and from right to left, transmission columns are fixedly connected to the transmission shafts, contact springs are fixedly connected to the transmission shafts on the upper side, the contact springs are fixedly connected to the inner wall of the conveying cavity, two shifting shafts which are distributed from top to bottom are rotatably connected to the box body, shifting baffles are fixedly connected to the shifting shafts, a control cavity is arranged on the box body, a switch is arranged in the control cavity, a transmission cavity is arranged in the box body, a main motor is arranged in the transmission cavity, the switch is rotatably connected with the main motor, a shifting rod which is fixedly connected to the shifting shafts and is positioned in the control cavity is arranged on the, the polishing machine is characterized in that a polishing cavity is arranged in the box body, the main motor is connected with a polishing shaft in a rotating mode, a sliding square shaft is connected to the upper surface of the polishing shaft in a sliding mode, a polishing spring is arranged between the sliding square shaft and the polishing shaft, a polishing positioning block is arranged on the inner wall of the polishing cavity, a polishing sliding rod is connected to the polishing positioning block in a sliding mode, an anti-falling pin is arranged on the lower side of the polishing sliding rod, a polishing table is arranged on the upper side of the polishing sliding rod, a polishing supporting spring is arranged between the polishing table and the polishing positioning block, a drilling cavity is arranged in the box body, a cooling device used for achieving automatic and uniform cooling of a machined part is arranged in the drilling cavity, a transmission device used for providing power for the polishing machine is arranged in the transmission cavity, and a control device.

2. The automatic drilling device for positioning, polishing and tightening iron plates as claimed in claim 1, wherein: the transmission device comprises a transmission main shaft rotationally connected with the inner wall of the transmission cavity, a sliding bushing is slidably connected onto the transmission main shaft, a sleeve shifting fork is slidably connected onto the sliding bushing, a forward bevel gear is fixedly connected onto the sliding bushing, a reverse bevel gear is fixedly connected onto the sliding bushing, a transmission main bevel gear is fixedly connected onto the upper side of the polishing shaft, the transmission main bevel gear can be meshed with the forward bevel gear and the reverse bevel gear, a transmission bevel gear is fixedly connected onto the upper side of the transmission main shaft, a cavity is arranged in the box, a blade shaft is rotationally connected onto the inner wall of the cavity, a driven bevel gear is fixedly connected onto the upper side of the blade shaft, the driven bevel gear is meshed with the transmission bevel gear, and blades are fixedly connected onto the lower side of the blade.

3. The automatic drilling device for positioning, polishing and tightening iron plates as claimed in claim 1, wherein: the feeding device comprises an upper closing plate which is in sliding connection with the box body, a closing plate spring is arranged between the upper closing plate and the box body, a supporting plate is in sliding connection with the box body, a supporting plate spring is arranged between the supporting plate and the box body, and the supporting plate can be in contact connection with the upper closing plate.

4. The automatic drilling device for positioning, polishing and tightening iron plates as claimed in claim 1, wherein: the cooling device comprises a working supporting block fixedly connected with the inner wall of the drilling cavity, a fixed buckle fixedly connected with the working supporting block, a workbench sliding on the inner wall of the drilling cavity, four table posts which are distributed all around and are fixedly connected on the workbench, the table posts are slidably connected with the working supporting block, a supporting spring is arranged between the table posts and the working supporting block, a liquid outlet is arranged on the workbench, a water hose is arranged on the workbench, a sliding buckle is fixedly connected on the workbench, the water hose bypasses the fixed buckle and is in contact connection with the sliding buckle, the sliding buckle can be in contact connection with the fixed buckle, a drainage pipeline is fixedly connected on the box body, a valve is rotatably connected on the drainage pipeline, and automatic cooling in the working state can be realized through the up-and-down movement of the workbench, and the effect of stopping cooling in the non-working state.

5. The automatic drilling device for positioning, polishing and tightening iron plates as claimed in claim 1, wherein: the control device comprises a positioning shaft fixedly connected with the upper side of the drilling cavity, a rotating block is connected onto the positioning shaft in a sliding manner, the rotating block is connected with the transmission main shaft through threads, a working positioning block is fixedly connected onto the inner wall of the drilling cavity, a front driving connecting rod and a rear driving connecting rod are connected onto the working positioning block in a rotating manner, two driven connecting rods are connected onto the rotating block in a rotating manner, a pressing plate is connected onto the inner wall of the drilling cavity in a sliding manner, four pressing plate fixing blocks which are distributed front and rear and left and right are fixedly connected onto the pressing plate, the pressing plate fixing block on the left side is connected with the driven connecting rods in a rotating manner, the pressing plate fixing block on the right side is connected with the driving connecting rods in a rotating manner, a sliding groove is formed in the pressing plate, a sliding, the inner wall of the drilling cavity is connected with a control rack in a sliding mode, the inner wall of the control cavity is fixedly connected with a return spring, the return spring is fixedly connected with the control rack, a first transmission shaft is rotatably connected to the upper surface of the control cavity, a transmission gear is fixedly connected to the first transmission shaft, the transmission gear is meshed with the control rack, the first transmission shaft is meshed with the second transmission shaft, a positioning block is fixedly connected to the inner wall of the control cavity, a shifting rack is connected to the positioning block in a sliding mode, and the shifting rack is hinged to the shifting sleeve fork.