CN213858024U - Double-channel numerical control six-side drill production equipment - Google Patents

Abstract

The utility model discloses a six brill production facility of binary channels numerical control, including entablature subassembly, bottom end rail subassembly, go up to bore the device, down to bore the device, first processing platform and second processing platform, first processing platform all is located same horizontal plane with the second processing platform, goes up to bore the device and includes that first brill mills mechanism, second brill and mills the mechanism, and down to bore the device and include that the third bores and mills mechanism, fourth brill and mill the mechanism, and the direction of processing of first brill mill mechanism and third brill mill the mechanism direction of processing all towards first processing platform. The utility model discloses a first brill mills mechanism, second brill and mills mechanism, third brill and mills mechanism and fourth brill and mill the mechanism and can simultaneous working, two work pieces of simultaneous processing to can be in four sides of every work piece and six upper and lower faces simultaneous processing according to the processing demand of difference, greatly improved work piece machining efficiency, improve the machining efficiency of every equipment in limited factory building space, improve the productivity effect of enterprise.

Description

Double-channel numerical control six-side drill production equipment

Technical Field

The utility model relates to a numerical control equipment technical field, concretely relates to six brill production facility of binary channels numerical control.

Background

The double-channel numerical control drilling and milling equipment is mainly used for producing and processing plate furniture.

The drilling and milling equipment on the market at present is respectively provided with a set of drilling and milling equipment for processing plate furniture from top to bottom, the traditional method for improving the production efficiency is to purchase a plurality of drilling and milling equipment, starting from the economic benefit of an enterprise, under the background that the land cost is higher and higher, the space of an enterprise factory building is limited, but as is well known, a set of drilling and milling equipment needs to use a plurality of parts such as a drive and a cylinder, the occupied area of the equipment is large, more drilling and milling equipment cannot be contained in the limited space, and the production benefit of the enterprise cannot be improved.

In this regard, it is important to provide a dual-channel numerical control hexahedral drill production apparatus that solves the above problems.

Disclosure of Invention

An object of the utility model is to improve prior art's defect, provide a six brill production facility of binary channels numerical control.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a double-channel numerical control six-sided drill production device comprises an upper cross beam assembly, a lower cross beam assembly, an upper row of drilling devices, a lower row of drilling devices, a first machining table and a second machining table, wherein the upper cross beam assembly is positioned above the lower cross beam assembly, the upper row of drilling devices are used for machining workpieces, the upper row of drilling devices are slidably mounted on the upper cross beam assembly, the lower row of drilling devices are used for machining workpieces, the lower row of drilling devices are slidably mounted on the lower cross beam assembly, the first machining table is used for placing workpieces, the first machining table is arranged between the upper row of drilling devices and the lower row of drilling devices, the second machining table is arranged between the upper row of drilling devices and the lower row of drilling devices, the first machining table and the second machining table are positioned on the same horizontal plane, and the upper row of drilling devices comprise a first drilling mechanism and a second milling mechanism, the lower row of drilling devices comprises a third drilling and milling mechanism and a fourth drilling and milling mechanism, the machining direction of the first drilling and milling mechanism and the machining direction of the third drilling and milling mechanism face the first machining table, the machining direction of the second drilling and milling mechanism and the machining direction of the fourth drilling and milling mechanism face the second machining table, and in the technical scheme, the first machining table and the second machining table are arranged between the upper cross beam assembly and the lower cross beam assembly.

The principle of the double-channel numerical control six-sided drill production equipment is that two workpieces are respectively arranged on a first processing table and a second processing table, the double-channel numerical control six-sided drill production equipment is started, and a first drilling and milling mechanism of an upper drilling device processes one workpiece and a second drilling and milling mechanism processes the other workpiece simultaneously through the sliding of the upper drilling device on an upper cross beam assembly and the sliding of a lower drilling device on a lower cross beam assembly; the machining is stopped after the machining process of the first drilling and milling mechanism is finished, the third drilling and milling mechanism of the lower drilling device continues to machine the workpiece, the machining is stopped after the machining process of the second drilling and milling mechanism is finished, the fourth drilling and milling mechanism of the lower drilling device continues to machine the other workpiece, the first drilling and milling mechanism and the second drilling and milling mechanism of the upper drilling device machine the two workpieces simultaneously, and the third drilling and milling mechanism and the fourth drilling and milling mechanism of the lower drilling device machine the two workpieces simultaneously, so that the production efficiency is greatly improved.

The first drilling and milling mechanism and the second drilling and milling mechanism respectively comprise a left gang drill, a right gang drill and a main shaft milling cutter, the right gang drill is positioned between the left gang drill and the main shaft milling cutter, and the main shaft milling cutter is fixedly arranged on the right gang drill.

The first drilling and milling mechanism and the second drilling and milling mechanism simultaneously and respectively process two same workpieces, and the left gang drill, the right gang drill and the main shaft milling cutter are matched with the workpieces to perform processing operations such as groove drawing, drilling, milling and the like according to a program set by equipment so as to meet more and more complex processing process requirements in the market and further improve the use universality of the equipment.

The left gang drill, the right gang drill and the main shaft milling cutter of the first drilling and milling mechanism and the left gang drill, the right gang drill and the main shaft milling cutter of the second drilling and milling mechanism are arranged in a mirror image distribution manner in the vertical direction by taking the middle end of the upper crossbeam assembly as the center.

The first drilling and milling mechanism and the second drilling and milling mechanism which are arranged in a mirror image distribution mode can simultaneously process two identical workpieces.

The material conveying device comprises a first conveying line and a second conveying line, the first conveying line is in butt joint with the first processing table, and the first conveying line is positioned on two sides of the first processing table; the second transmission line is in butt joint with the second processing table, and the second transmission line is located on two sides of the second processing table.

The arrangement of the material conveying device further realizes that workpieces are all completed by automatic equipment from the whole process of loading, processing and unloading, wherein the first conveying line conveys the workpieces to the first processing table, the second conveying line conveys the workpieces to the second processing table, the first conveying line and the second conveying line respectively convey two same workpieces to the corresponding first processing table and the second processing table, and the two same workpieces are mutually matched and do not interfere with each other in the operation process.

The material conveying device is provided with a plurality of conveying rollers which are arranged in parallel.

In the process of conveying the workpieces by the material conveying device, the workpieces are respectively conveyed to the corresponding first processing table and the second processing table through the movement of the conveying roller, and the process is simple, convenient and fast.

The clamping device is positioned above the first conveying line and the second conveying line.

When the material conveying device conveys the workpieces, the clamping device above the first conveying line and the clamping device above the second conveying line automatically clamp the two corresponding workpieces, and the positions of the workpieces on the first processing table and the second processing table are adjusted by the sliding of the clamping devices on the frame.

Still including the push pedal device, the push pedal device includes vertical push pedal, horizontal push pedal and actuating mechanism, vertical push pedal and horizontal push pedal, vertical push pedal is used for promoting the work piece in vertical direction, horizontal push pedal is used for promoting the work piece in the horizontal direction, the quantity of vertical push pedal and horizontal push pedal is at least two, horizontal push pedal is located between two adjacent transmission rollers, actuating mechanism is connected with vertical push pedal and horizontal push pedal drive respectively.

Before clamping device centre gripping work piece, when material transmission device transmitted the work piece to the top of push pedal device, actuating mechanism driven vertical push pedal rose to jack-up the work piece from the transmission roller, the work piece after the jack-up stopped carrying, stopped when the work piece by jack-up to the height with the horizontal plane parallel and level of horizontal push pedal, under actuating mechanism's effect, horizontal push pedal pushed the clamping device with the work piece level on, made clamping device press from both sides tight work piece.

The device comprises an upper cross beam assembly, a lower cross beam assembly, a first machining table and a second machining table, and is characterized by further comprising a rack, wherein the upper cross beam assembly, the lower cross beam assembly, the first machining table and the second machining table are fixedly arranged on the rack, two guide rails are fixedly arranged on the rack, and a plurality of clamping devices are respectively slidably arranged on the corresponding guide rails.

After the clamping device clamps the workpiece, the clamping device slides on the corresponding guide rail, so that the clamping device moves the workpiece to the first processing table and the second processing table, and the processing precision of the workpiece is further improved by adjusting the processing position of the workpiece.

The quantity of horizontal push pedal is two, and two horizontal push pedals correspond respectively and install on first transmission line and second transmission line, and vertical push pedal and horizontal push pedal all are equipped with the brush that is used for with the work piece contact.

The arrangement of the brush is used for preventing the workpieces from being damaged or scratched in the process of respectively jacking and pushing the workpieces by the vertical push plate and the horizontal push plate, and the yield of workpiece processing is further improved.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

when the double-channel numerical control six-sided drilling production equipment runs, the first drilling and milling mechanism, the second drilling and milling mechanism, the third drilling and milling mechanism and the fourth drilling and milling mechanism can work simultaneously, two workpieces are machined simultaneously, four side faces, the upper face and the lower face of each workpiece can be machined simultaneously according to different machining requirements, the machining efficiency of the workpieces is greatly improved, in the actual machining process, after measurement and calculation, the working efficiency of the double-channel numerical control six-sided drilling production equipment is twice that of the traditional drilling and milling equipment, the machining efficiency of each equipment is further improved in a limited factory space, and the production benefit of enterprises is improved.

Drawings

FIG. 1 is a schematic diagram of an entity structure of a dual-channel numerical control six-sided drill production device in the embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the material transfer device of FIG. 1;

FIG. 3 is an enlarged view of a portion of the pusher mechanism of FIG. 1;

fig. 4 is a schematic structural diagram of an entity of the dual-channel numerical control hexahedral drill production equipment in the embodiment of the present invention after the material conveying device, the first processing table and the second processing table are disassembled;

FIG. 5 is an enlarged view of a portion of the lower drill unit shown in FIG. 4;

fig. 6 is a schematic structural view of an upper row of drilling devices slidably mounted on an upper beam assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an embodiment of the present invention in which the lower drilling device is slidably mounted on the lower beam assembly;

description of reference numerals:

10. the device comprises an upper cross beam assembly, 11, a lower cross beam assembly, 20, an upper row of drilling devices, 21, a first drilling and milling mechanism, 22, a second drilling and milling mechanism, 23, a left row of drilling devices, 24, a right row of drilling devices, 25, a spindle milling cutter, 30, a lower row of drilling devices, 33, a third drilling and milling mechanism, 34, a fourth drilling and milling mechanism, 40, a first processing table, 41, a second processing table, 50, a material conveying device, 51, a first conveying line, 52, a second conveying line, 53, a conveying roller, 60, a clamping device, 70, a push plate device, 71, a vertical push plate, 72, a horizontal push plate, 73, a driving mechanism, 74, a brush, 80, a rack, 81 and a guide rail.

Detailed Description

The following describes embodiments of the present invention in detail.

As shown in fig. 1 to 7, a dual-channel numerical control six-sided drill production apparatus includes an upper beam assembly 10, a lower beam assembly 11, an upper drilling device 20, a lower drilling device 30, a first processing table 40 and a second processing table 41, wherein the upper beam assembly 10 is located above the lower beam assembly 11, the upper drilling device 20 is used for processing a workpiece, the upper drilling device 20 is slidably mounted on the upper beam assembly 10, the lower drilling device 30 is used for processing a workpiece, the lower drilling device 30 is slidably mounted on the lower beam assembly 11, the first processing table 40 is used for placing a workpiece, the first processing table 40 is arranged between the upper drilling device 20 and the lower drilling device 30, the second processing table 41 is used for placing a workpiece, the second processing table 41 is arranged between the upper drilling device 20 and the lower drilling device 30, the first processing table 40 and the second processing table 41 are both located on the same horizontal plane, the upper drilling device 20 includes a first milling mechanism 21, a second milling mechanism, and a second milling mechanism 41, The second drilling and milling mechanism 22 and the lower drilling device 30 include a third drilling and milling mechanism 33 and a fourth drilling and milling mechanism 34, the processing direction of the first drilling and milling mechanism 21 and the processing direction of the third drilling and milling mechanism 33 both face the first processing platform 40, the processing direction of the second drilling and milling mechanism 22 and the processing direction of the fourth drilling and milling mechanism 34 both face the second processing platform 41, and in this embodiment, the first processing platform 40 and the second processing platform 41 are both disposed between the upper beam assembly 10 and the lower beam assembly 11.

With reference to fig. 1, fig. 2 and fig. 4, the first drilling and milling mechanism 21 and the second drilling and milling mechanism 22 each include a left gang drill 23, a right gang drill 24 and a spindle milling cutter 25, the right gang drill 24 is located between the left gang drill 23 and the spindle milling cutter 25, and the spindle milling cutter 25 is fixedly mounted on the right gang drill 24; referring to fig. 6, the left gang drill 23, the right gang drill 24 and the spindle milling cutter 25 of the first drilling and milling mechanism 21, and the left gang drill 23, the right gang drill 24 and the spindle milling cutter 25 of the second drilling and milling mechanism 22 are distributed in a mirror image manner in the vertical direction with the middle end of the upper beam assembly 10 as the center.

As shown in fig. 1, 2 and 3, the dual-channel numerical control six-sided drill production equipment further comprises a material conveying device 50, wherein the material conveying device 50 comprises a first conveying line 51 and a second conveying line 52, the first conveying line 51 is butted with the first processing table 40, and the first conveying line 51 is positioned at two sides of the first processing table 40; the second transfer line 52 is butted against the second processing table 41, and the second transfer line 52 is positioned at both sides of the second processing table 41; with continued reference to fig. 3, the material transfer device 50 is provided with a plurality of transfer rollers 53 arranged in parallel with each other.

Referring to fig. 4, the dual-channel numerical control six-sided drill production equipment further includes 4 clamping devices 60 for clamping the workpiece, and the clamping devices 60 are located above the first transmission line 51 and the second transmission line 52.

Referring to fig. 2 and 3, the double-channel numerical control six-sided drill production equipment further comprises a push plate device 70 and a rack 80, wherein the push plate device 70 comprises a vertical push plate 71, a horizontal push plate 72 and a driving mechanism, the vertical push plate 71 and the horizontal push plate 72 are used for pushing a workpiece in the vertical direction, the horizontal push plate 72 is used for pushing the workpiece in the horizontal direction, the number of the vertical push plate 71 and the number of the horizontal push plate 72 are two, the horizontal push plate 72 is located between two adjacent transmission rollers 53, and the driving mechanism is respectively in driving connection with the vertical push plate 71 and the horizontal push plate 72; with reference to fig. 4, the upper beam assembly 10, the lower beam assembly 11, the first processing table 40 and the second processing table 41 are all fixedly mounted on the frame 80, two guide rails 81 are fixedly mounted on the frame 80, and the 4 clamping devices 60 are respectively slidably mounted on the corresponding guide rails 81; the number of the horizontal push plates 72 is two, the two horizontal push plates 72 are correspondingly arranged on the first transmission line 51 and the second transmission line 52 respectively, and the vertical push plate 71 and the horizontal push plate 72 are both provided with brushes 74 used for contacting with a workpiece.

In the present embodiment, the position of the first drilling and milling mechanism 21 is opposite to the position of the third drilling and milling mechanism 33; the second milling and drilling mechanism 22 is located opposite the fourth milling and drilling mechanism 34,

in the present embodiment, the first processing table 40 and the second processing table 41 are assembled into a single overall workpiece processing table, which is advantageous for further simplifying the assembly process of the workpiece processing table.

The embodiment has the following advantages:

1. a principle of double-channel numerical control six-sided drill production equipment is that two workpieces are respectively arranged on a first processing table 40 and a second processing table 41, the double-channel numerical control six-sided drill production equipment is started, and through sliding of an upper gang drill device 20 on an upper cross beam assembly 10 and sliding of a lower gang drill device 30 on a lower cross beam assembly 11, a first drilling and milling mechanism 21 of the upper gang drill device 20 processes one workpiece, and a second drilling and milling mechanism 22 processes the other workpiece simultaneously; when the processing procedure of the first drilling and milling mechanism 21 is completed, the processing is stopped, the third drilling and milling mechanism 33 of the lower drilling device 30 continues to process the workpiece, when the processing procedure of the second drilling and milling mechanism 22 is completed, the processing is stopped, the fourth drilling and milling mechanism 34 of the lower drilling device 30 continues to process another workpiece, the first drilling and milling mechanism 21 and the second drilling and milling mechanism 22 of the upper drilling device 20 simultaneously process two workpieces, and the third drilling and milling mechanism 33 and the fourth drilling and milling mechanism 34 of the lower drilling device 30 simultaneously process two workpieces, so that the production efficiency is greatly accelerated;

when the double-channel numerical control six-sided drilling production equipment runs, the first drilling and milling mechanism 21, the second drilling and milling mechanism 22, the third drilling and milling mechanism 33 and the fourth drilling and milling mechanism 34 can simultaneously work to simultaneously process two workpieces, and can simultaneously process four side faces, the upper face and the lower face of each workpiece according to different processing requirements, so that the processing efficiency of the workpieces is greatly improved.

2. The first drilling and milling mechanism 21 and the second drilling and milling mechanism 22 simultaneously and respectively process two identical workpieces, and the left gang drill 23, the right gang drill 24 and the main shaft milling cutter 25 cooperate with the processing operations of grooving, drilling, milling and the like on the workpieces according to a program set by equipment, so that the processing method is suitable for more and more complex processing process requirements in the market, and the use universality of the equipment is further improved.

3. The first drilling and milling mechanism 21 and the second drilling and milling mechanism 22 which are arranged in a mirror image distribution mode can simultaneously machine two identical workpieces.

4. The arrangement of the material conveying device 50 further realizes that workpieces are all finished by automatic equipment from the whole process of loading, processing and unloading, wherein the first conveying line 51 conveys the workpieces to the first processing table 40, the second conveying line 52 conveys the workpieces to the second processing table 41, the first conveying line and the second conveying line respectively convey two identical workpieces to the corresponding first processing table 40 and the second processing table 41, and the two identical workpieces are mutually matched and do not interfere with each other in the operation process.

5. In the process of conveying the workpieces by the material conveying device 50, the workpieces are respectively conveyed to the corresponding first processing table 40 and the second processing table 41 through the movement of the conveying roller 53, and the process is simple, convenient and quick.

6. When the material conveying device 50 is in the process of conveying the workpieces, the clamping device 60 above the first conveying line 51 and the clamping device 60 above the second conveying line automatically clamp the two corresponding workpieces, and the positions of the workpieces on the first processing table 40 and the second processing table 41 are adjusted by sliding the clamping devices 60 on the frame 80.

7. Before the workpiece is clamped by the clamping device 60, when the workpiece is conveyed to the position above the push plate device 70 by the material conveying device 50, the driving mechanism drives the vertical push plate 71 to rise, so that the workpiece is jacked up from the conveying roller 53, the jacked workpiece stops being conveyed, when the workpiece is jacked up to the height flush with the horizontal plane of the horizontal push plate 72, the workpiece stops being pushed up, and under the action of the driving mechanism, the horizontal push plate 72 horizontally pushes the workpiece to the clamping device 60, so that the clamping device 60 clamps the workpiece.

8. After the clamping device 60 clamps the workpiece, the clamping device 60 slides on the corresponding guide rail 81, so that the clamping device 60 moves the workpiece to the first processing table 40 and the second processing table 41, and the processing position of the workpiece is adjusted to further improve the processing precision of the workpiece.

9. The arrangement of the brush 74 is used for preventing the workpiece from being damaged or scratched in the process of respectively jacking and pushing the workpiece by the vertical push plate 71 and the horizontal push plate 72, and further improving the yield of workpiece processing.

The above are only specific embodiments of the present invention, and the protection scope of the present invention is not limited thereby; any replacement and improvement made on the basis of not violating the conception of the utility model belong to the protection scope of the utility model.

Claims (9)

1. A dual channel digitally controlled hexahedral drill production apparatus comprising: the device comprises an upper cross beam assembly, a lower cross beam assembly, an upper drill discharging device, a lower drill discharging device, a first processing table and a second processing table;

the upper cross beam assembly is positioned above the lower cross beam assembly;

the upper gang drill device is used for processing a workpiece and is slidably mounted on the upper cross beam assembly;

the lower gang drill device is used for processing a workpiece and is arranged on the lower cross beam assembly in a sliding manner;

the first machining table is used for placing a workpiece and arranged between the upper drilling device and the lower drilling device;

the second machining table is used for placing a workpiece, the second machining table is arranged between the upper drilling device and the lower drilling device, and the first machining table and the second machining table are both positioned on the same horizontal plane;

the device is characterized in that the upper row of drilling devices comprise a first drilling and milling mechanism and a second drilling and milling mechanism, and the lower row of drilling devices comprise a third drilling and milling mechanism and a fourth drilling and milling mechanism;

the processing direction of the first drilling and milling mechanism and the processing direction of the third drilling and milling mechanism face the first processing platform;

and the processing direction of the second drilling and milling mechanism and the processing direction of the fourth drilling and milling mechanism face the second processing platform.

2. The dual channel digitally controlled six-sided drill production apparatus of claim 1 wherein the first and second drilling and milling mechanisms each comprise a left gang drill, a right gang drill, and a spindle cutter, the right gang drill being positioned between the left gang drill and the spindle cutter, the spindle cutter being fixedly mounted to the right gang drill.

3. The dual channel numerically controlled six-sided drill production apparatus as claimed in claim 2, wherein the left gang drill, the right gang drill, and the spindle milling cutter of the first drilling and milling mechanism and the left gang drill, the right gang drill, and the spindle milling cutter of the second drilling and milling mechanism are arranged in mirror image distribution in a vertical direction centered on the middle end of the upper beam assembly.

4. The dual-channel numerical control six-sided drill production equipment according to any one of claims 1 to 3, further comprising a material conveying device, wherein the material conveying device comprises a first conveying line and a second conveying line, the first conveying line is butted with the first processing table, and the first conveying line is positioned on two sides of the first processing table; the second transmission line is in butt joint with the second processing table, and the second transmission line is located on two sides of the second processing table.

5. The dual-channel numerical control six-sided drill production equipment as claimed in claim 4, wherein the material conveying device is provided with a plurality of conveying rollers arranged in parallel with each other.

6. The dual channel digitally controlled six-sided drill production apparatus of claim 4 further including a plurality of clamping means for clamping the workpiece, said clamping means being positioned above the first and second transfer lines.

7. The dual-channel numerical control six-sided drill production equipment as claimed in claim 5, further comprising a push plate device, wherein the push plate device comprises a vertical push plate, a horizontal push plate and a driving mechanism, the vertical push plate and the horizontal push plate are used for pushing the workpiece in the vertical direction, the horizontal push plate is used for pushing the workpiece in the horizontal direction, the number of the vertical push plate and the number of the horizontal push plate are at least two, the horizontal push plate is located between two adjacent conveying rollers, and the driving mechanism is in driving connection with the vertical push plate and the horizontal push plate respectively.

8. The dual-channel numerical control six-sided drill production equipment of claim 6, further comprising a frame, wherein the upper beam assembly, the lower beam assembly, the first processing table and the second processing table are all fixedly mounted on the frame, the frame is fixedly mounted with two guide rails, and the plurality of clamping devices are respectively slidably mounted on the corresponding guide rails.

9. The dual-channel numerically-controlled six-sided drill production equipment as claimed in claim 7, wherein the number of the horizontal push plates is two, the two horizontal push plates are respectively correspondingly installed on the first transmission line and the second transmission line, and the vertical push plate and the horizontal push plate are respectively provided with a brush for contacting with the workpiece.

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