CN211806635U

CN211806635U - Double-row six-sided drill

Info

Publication number: CN211806635U
Application number: CN201922288666.2U
Authority: CN
Inventors: 麦康强
Original assignee: Guangzhou Santuo Metal Processing Machinery Co ltd
Current assignee: Guangzhou Santuo Metai Processing Machiney Co.,Ltd.
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-10-30
Anticipated expiration: 2029-12-18

Abstract

The utility model discloses a double-row six-sided drill, which comprises a frame, a first row drill, a second row drill, a clamp, a driving mechanism and a main shaft milling cutter for groove drawing and milling, wherein the frame comprises a slide rail and a workpiece processing table for placing a workpiece; the first gang drill and the second gang drill are both used for processing workpieces, and are slidably mounted on the slide rail, and the first gang drill is positioned above the second gang drill; the clamp is used for clamping a workpiece and is arranged on the sliding rail in a sliding manner; the driving mechanism is respectively arranged on the first gang drill, the second gang drill and the clamp; the number of the first gang drills is two or more, and the position relation of the two first gang drills on the slide rail is that the two first gang drills are distributed in a mirror image mode in the horizontal direction; the main shaft milling cutter is arranged on the fixing plate. The utility model provides a work piece processing equipment that machining efficiency is higher does not need additionally to improve under the condition that the cost of enterprises drops into, promotes the productivity of enterprise's production to adapt to timber furniture's market demand.

Description

Double-row six-sided drill

Technical Field

The utility model relates to a technical field of product processing equipment, concretely relates to six brill of double brill.

Background

In recent years, with the continuous improvement of life of people, the demand of the wood furniture market is more and more increased, the processing industry of wood furniture gradually tends to automatic production and processing, the traditional processing equipment for workpieces such as wood, wood boards and the like is generally single-arm type processing, only one single-arm processing workpiece is processed in the single-arm type processing, the processing efficiency is low, the capacity presented by the single-arm type processing is obviously insufficient in the large wood furniture demand market, in order to improve the production capacity of an enterprise, a plurality of identical single-arm type workpiece processing equipment must be added, the occupied area of a workshop is correspondingly increased by one more equipment, and the investment cost of the enterprise is higher.

Disclosure of Invention

The to-be-solved technical problem of the utility model is, how to provide a work piece processing equipment that machining efficiency is higher, under the condition that does not need extra improvement cost in business to drop into, promote the productivity of enterprise's production to adapt to timber furniture's market demand.

In order to solve the technical problem, the double-row six-sided drill comprises a rack, a first row of drills, a second row of drills, a clamp, a driving mechanism and a main shaft milling cutter for groove broaching and milling, wherein the rack comprises a slide rail and a workpiece processing table for placing a workpiece; the first gang drill and the second gang drill are used for machining workpieces, the first gang drill is slidably mounted on the slide rail, and the machining direction of the first gang drill faces the workpiece machining table; the second gang drill is arranged on the slide rail in a sliding manner, the first gang drill is positioned above the second gang drill, and the machining direction of the second gang drill faces the workpiece machining table; the clamp is used for clamping a workpiece and is arranged on the sliding rail in a sliding manner; the driving mechanisms are respectively arranged on the first gang drill, the second gang drill and the clamp; the number of the first gang drills is two or more, and the position relation of the two first gang drills on the slide rail is that the two first gang drills are distributed in a mirror image mode in the horizontal direction; the main shaft milling cutter is arranged on the fixing plate.

The working principle of the double-row six-sided drill is that a workpiece is placed on a workpiece processing table and is arranged on the workpiece processing table, the double-row six-sided drill is started, a clamp automatically clamps the workpiece arranged on the workpiece processing table, according to the requirements of the workpiece processing technology, the driving mechanism drives the first gang drill, the second gang drill, the clamp and the fixing plate to drive the main shaft milling cutter to slide to corresponding processing positions through the slide rail, the first gang drill and the second gang drill start to automatically process the workpiece at the same time, wherein two first gang drills of the first gang drills simultaneously process the workpiece so as to improve the processing efficiency, when the main shaft milling cutter needs to groove and mill various types of shapes on the workpiece, the first gang drills and the second gang drills stop processing, the main shaft milling cutter is arranged on the fixing plate, the driving mechanism arranged on the first row of drills drives the fixing plate, and the fixing plate drives the main shaft milling cutter to a corresponding processing position and then processes a workpiece according to the product requirement;

two and more than two first gang drills are simultaneously used for machining workpieces, a plurality of machining devices are not additionally arranged, and correspondingly increased factory building occupied area is not needed, so that the production capacity of enterprises can be improved, and the market demand can be conveniently adapted.

The slide rail is including first slide rail, second slide rail and third slide rail, first gang drill slidable mounting is on first slide rail, second gang drill slidable mounting is on the second slide rail, anchor clamps slidable mounting is on the third slide rail.

The spindle milling cutter is characterized by further comprising a fourth sliding rail, the fourth sliding rail is fixedly mounted on the fixing plate, and the spindle milling cutter is in sliding fit with the fourth sliding rail.

And the spindle milling cutter passes through the fourth slide rail and slides up and down in the vertical direction perpendicular to the horizontal plane relative to the fixing plate.

The first slide rail, the second slide rail and the third slide rail are provided with guide rails and racks; the first gang drill is in sliding fit with a guide rail of the first slide rail, and a driving mechanism arranged on the first gang drill is meshed with a rack of the first slide rail; the second gang drill is in sliding fit with a guide rail of a second slide rail, and a driving mechanism arranged on the second gang drill is meshed with a rack of the second slide rail; the fixture is in sliding fit with a guide rail of the third slide rail, and a driving mechanism arranged on the fixture is meshed with a rack of the third slide rail.

The first gang drill, the second gang drill and the clamp can slide on the guide rails of the first slide rail, the second slide rail and the third slide rail which are different from each other, and the corresponding driving mechanisms drive the first gang drill, the second gang drill and the clamp to slide by meshing with the racks.

The quantity of first gang drill is two, and one of them first gang drill is left gang drill, and another first gang drill is right gang drill, actuating mechanism is installed respectively to left side gang drill and right gang drill, left side gang drill and right gang drill all with the guide rail sliding fit of first slide rail, install on right gang drill actuating mechanism still is used for driving the fixed plate, makes the fixed plate remove for first slide rail.

In the process of machining in an actual workshop by the aid of the double-row six-sided drill, due to the fact that the first row drill and the second row drill are distributed, punching operations are generally conducted on six faces of a workpiece at the same time and are inconvenient to use for slot broaching and milling, the spindle milling cutter can be used for punching, slot broaching and milling, more procedures are integrated on the double-row six-sided drill, and machining efficiency of the workpiece is further improved;

when the left gang drill, the right gang drill and the second gang drill simultaneously punch the workpiece, the main shaft milling cutter stops working; when the spindle milling cutter needs to groove and mill various shapes of workpieces, the left gang drill, the right gang drill and the second gang drill stop working, and only the driving mechanism arranged on the right gang drill drives the fixing plate, so that the fixing plate drives the spindle milling cutter to move relative to the first sliding rail.

Chip removal device is all installed to left side gang drill, right gang drill and main shaft milling cutter, chip removal device includes suction hood, trachea passageway, cylinder to and be used for opening and close trachea passageway's control valve through control cylinder in order to reach, trachea passageway is located the top of suction hood, the cylinder is installed on trachea passageway, cylinder and control valve electric connection.

The dust hood and the air pipe channel are both provided with a chip inlet and a chip outlet, the chip outlet of the dust hood is connected with the chip inlet of the air pipe channel, and the dust hood and the air pipe channel are made of sheet metal materials.

During the process of processing the workpiece, a lot of sawdust flies out, part of sawdust is attached to the workpiece, the processing precision of a product is influenced, the flying sawdust extremely influences the workshop environment, and the redundant sawdust generated during processing the workpiece can be discharged by the facility of the chip removal device, so that the clean production of the workpiece and the workshop environment is ensured;

the chip removal device arranged on the left gang drill can remove the saw dust generated during the processing of the left gang drill; the chip removal device arranged on the right gang drill can remove the saw dust generated during the processing of the right gang drill; the chip removal device arranged on the main shaft milling cutter can remove the saw dust generated during the processing of the main shaft milling cutter, and because the main shaft milling cutter is arranged on the right gang drill, the air pipe channel corresponding to the main shaft milling cutter and the air pipe channel corresponding to the right gang drill are arranged side by side, and the air pipe channel is provided with two chip inlet ports and one chip outlet port;

the chip removal device has the working principle that due to the action of suction, sawdust is sucked from the chip inlet of the dust hood and then is discharged through the chip outlet of the dust hood, and due to the fact that the chip inlet of the air pipe channel is connected with the chip outlet of the dust hood, sawdust is sucked from the chip inlet of the air pipe channel and finally is discharged from the chip outlet of the air pipe channel; when the spindle milling cutter independently processes a workpiece, the control valve controls the air cylinder to close chip inlets of the left gang drill and the right gang drill corresponding to the air pipe channel, the chip removal devices corresponding to the left gang drill and the right gang drill stop working at the moment, and controls the air cylinder to open the chip inlets of the spindle milling cutter corresponding to the air pipe channel, the chip removal devices corresponding to the spindle milling cutter start working at the moment, and the chip removal devices corresponding to the left gang drill and the right gang drill work simultaneously only when the workpiece is punched.

The driving mechanism comprises a gear, a speed reducer and a servo motor, the servo motor is connected with the speed reducer, the speed reducer is connected with the gear, and the gear is meshed with the rack.

The workpiece processing table is provided with a plurality of through holes for air circulation.

Because chip removal device is inhaling the in-process of saw-dust, need can inhale chip removal device with the saw-dust through sufficient air, the setting of the bench through-hole of work piece processing can increase the air current volume to more quickly discharge the saw-dust that produces in the course of working through chip removal device.

Drawings

Fig. 1 is a schematic structural diagram of a double-row six-sided drill in an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the third slide rail of FIG. 1;

fig. 3 is a schematic structural diagram of a double-row six-sided drill in the embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of the first slide rail and the driving mechanism of FIG. 3;

FIG. 5 is an enlarged fragmentary view of the workpiece processing station of FIG. 3;

fig. 6 is a side view of a second gang drill mounted on a frame in an embodiment of the invention;

fig. 7 is a schematic structural diagram of a right gang drill in an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a spindle milling cutter mounted on a fixing plate according to an embodiment of the present invention;

description of reference numerals:

10. the machining device comprises a rack, 11, a slide rail, 111, a first slide rail, 112, a second slide rail, 113, a third slide rail, 114, a guide rail, 115, a rack, 12, a workpiece machining table, 20, a first gang drill, 21, a left gang drill, 22, a right gang drill, 30, a second gang drill, 40, a clamp, 50, a driving mechanism, 51, a gear, 52, a speed reducer, 53, a servo motor, 60, a spindle milling cutter, 61, a fixing plate, 70, a chip removal device, 71, a dust hood, 72, a gas pipe channel, 721, a chip inlet, 722, a chip outlet, 73, a cylinder, 74, a control valve, 80 and a fourth slide rail.

Detailed Description

The following describes embodiments of the present invention in detail.

As shown in fig. 1 to 7, the double-row six-sided drill comprises a frame 10, a first row drill 20, a second row drill 30, a clamp 40, a driving mechanism 50, and a spindle milling cutter 60 for grooving and milling, wherein the frame 10 comprises a slide rail 11 and a workpiece processing table 12 for placing a workpiece; the first row of drills 20 and the second row of drills 30 are used for machining workpieces, the first row of drills 20 are slidably mounted on the slide rail 11, and the machining direction of the first row of drills 20 faces the workpiece machining table 12; the second gang drill 30 is slidably mounted on the slide rail 11, the first gang drill 20 is positioned above the second gang drill 30, and the processing direction of the second gang drill 30 faces the workpiece processing table 12; the clamp 40 is used for clamping a workpiece, and the clamp 40 is slidably arranged on the slide rail 11; the driving mechanism 50 is respectively arranged on the first gang drill 20, the second gang drill 30 and the clamp 40; the number of the first row of drills 20 is two, and the position relation of the two first rows of drills 20 on the slide rail 11 is that the two first rows of drills are distributed in a mirror image mode in the horizontal direction; the spindle milling cutter 60 is mounted on a fixed plate 61.

The working principle of the double-row six-sided drill is that a workpiece is placed and installed on a workpiece processing table 12, the double-row six-sided drill is started, a clamp 40 automatically clamps the workpiece installed on the workpiece processing table 12, according to the requirements of a workpiece processing process, a driving mechanism 50 drives a first row drill 20, a second row drill 30, a spindle milling cutter 60 and the clamp 40 to slide to corresponding processing positions through a slide rail 11, the first row drill 20 and the second row drill 30 start to automatically process the workpiece simultaneously, wherein two first row drills 20 of the first row drill 20 process the workpiece simultaneously so as to improve the processing efficiency, when the spindle milling cutter 60 needs to groove and mill various types of shapes of the workpiece, the first row drill 20 and the second row drill 30 stop processing, because the spindle milling cutter 60 is installed on a fixing plate 61, the driving mechanism 50 installed on the first row drill 20 drives the fixing plate 61, the fixed plate 61 drives the main shaft milling cutter 60 to a corresponding processing position and then processes the workpiece according to the product requirement;

two or more than two first gang drills 20 process the work piece simultaneously, do not need additionally to increase many processing equipment, also need not the corresponding factory building area that increases, just can promote the production productivity of enterprise to adapt to market demand.

The driving mechanism 50 comprises a gear 51, a speed reducer 52 and a servo motor 53, wherein the servo motor 53 is connected with the speed reducer 52, the speed reducer 52 is connected with the gear 51, and the gear 51 is meshed with the rack 115; the work processing table 12 is provided with a plurality of through holes for ventilation of air.

Because the chip removal device 70 needs to suck the wood chips into the chip removal device 70 through enough air in the process of sucking the wood chips, the arrangement of the through holes on the workpiece processing table 12 can increase the air flow amount, so that the wood chips generated in the processing process can be more quickly discharged through the chip removal device 70.

The dust hood 71 and the air pipe passage 72 are both provided with a chip inlet 721 and a chip outlet 722, the chip outlet 722 of the dust hood 71 is connected with the chip inlet 721 of the air pipe passage 72, and the dust hood 71 and the air pipe passage 72 are both made of sheet metal materials.

During the process of processing the workpiece, a lot of wood chips fly out, part of the wood chips are attached to the workpiece, the processing precision of the product is influenced, the flying wood chips extremely influence the workshop environment, and the facility of the chip removal device 70 can remove the redundant wood chips during the processing of the workpiece, so that the clean production of the workpiece and the workshop environment is ensured;

the chip removal device 70 arranged on the left gang drill 21 can remove the saw dust generated during the processing of the left gang drill 21; the chip removal device 70 arranged on the right gang drill 22 can remove the wood chips generated during the processing of the right gang drill 22; the chip removal device 70 mounted on the main shaft milling cutter 60 can remove the chips generated during the processing of the main shaft milling cutter 60, because the main shaft milling cutter 60 is mounted on the right gang drill 22, the air pipe channel 72 corresponding to the main shaft milling cutter 60 is mounted side by side with the air pipe channel 72 corresponding to the right gang drill 22, and the air pipe channel 72 has two chip inlets 721 and one chip outlet 722;

the chip removal device 70 works on the principle that due to the action of suction, the chips are sucked from the chip inlet 721 of the dust hood 71 and then discharged through the chip outlet 722 of the dust hood 71, and due to the fact that the chip inlet 721 of the air pipe channel 72 is connected with the chip outlet 722 of the dust hood 71, the chips are sucked from the chip inlet 721 of the air pipe channel 72 and finally discharged from the chip outlet 722 of the air pipe channel 72; when the spindle milling cutter 60 separately processes a workpiece, the control valve 74 controls the cylinder 73 to enable the cylinder 73 to close the chip inlets 721 of the left gang drill 21 and the right gang drill 22 corresponding to the air pipe channel 72, at this time, the chip removal devices 70 corresponding to the left gang drill 21 and the right gang drill 22 stop working, and controls the cylinder 73 to enable the cylinder 73 to open the chip inlets 721 of the spindle milling cutter 60 corresponding to the air pipe channel 72, at this time, the chip removal devices 70 corresponding to the spindle milling cutter 60 start working, and when only a punching operation is required on the workpiece, the chip removal devices 70 corresponding to the left gang drill 21 and the right gang drill 22 simultaneously work.

The slide rail 11 comprises a first slide rail 111, a second slide rail 112 and a third slide rail 113, the first gang drill 20 is slidably mounted on the first slide rail 111, the second gang drill 30 is slidably mounted on the second slide rail 112, and the fixture 40 is slidably mounted on the third slide rail 113; the double-row six-sided drill further comprises a fourth slide rail 80, the fourth slide rail 80 is fixedly installed on the fixing plate 61, and the spindle milling cutter 60 is in sliding fit with the fourth slide rail 80, so that the spindle milling cutter 60 slides up and down in the vertical direction perpendicular to the horizontal plane relative to the fixing plate 61 through the fourth slide rail 80; the first slide rail 111, the second slide rail 112 and the third slide rail 113 are all provided with a guide rail 114 and a rack 115; the first row of drills 20 is slidably engaged with the guide rail 114 of the first slide rail 111 such that the driving mechanism 50 mounted on the first row of drills 20 is engaged with the rack 115 of the first slide rail 111; the second gang drill 30 is in sliding fit with a guide rail 114 of a second slide rail 112, and a driving mechanism 50 arranged on the second gang drill 30 is meshed with a rack 115 of the second slide rail 112; the clamp 40 is slidably engaged with the guide rail 114 of the third slide rail 113, and the driving mechanism 50 mounted on the clamp 40 is engaged with the rack 115 of the third slide rail 113.

The first row of drills 20, the second row of drills 30 and the fixture 40 can slide on the guide rails 114 of the first slide rail 111, the second slide rail 112 and the third slide rail 113, and the corresponding driving mechanisms 50 drive the first row of drills 20, the second row of drills 30 and the fixture 40 to slide by meshing with the racks 115; the number of the first row drills 20 is two, one of the first row drills 20 is a left row drill 21, the other one of the first row drills 20 is a right row drill 22, the left row drill 21 and the right row drill 22 are respectively provided with a driving mechanism 50, the left row drill 21 and the right row drill 22 are both in sliding fit with a guide rail 114 of the first slide rail 111, and the driving mechanism 50 arranged on the right row drill 22 is further used for driving the fixing plate 61, so that the fixing plate 61 moves relative to the first slide rail 111.

In the process of machining in an actual workshop by using the double-row six-sided drill, the first row drill 20 and the second row drill 30 are used for punching six faces of a workpiece at the same time due to the arrangement of distributed drilling cutters, so that the operation is inconvenient for slot broaching and milling, the spindle milling cutter 60 can be used for punching, slot broaching and milling, more processes are integrated on one double-row six-sided drill, and the workpiece machining efficiency is further increased;

when the left gang drill 21, the right gang drill 22 and the second gang drill 30 simultaneously punch the workpiece, the main shaft milling cutter 60 stops working; when the spindle milling cutter 60 is to perform grooving and milling on a workpiece in various shapes, the left gang drill 21, the right gang drill 22 and the second gang drill 30 stop working, and only the driving mechanism 50 mounted on the right gang drill 22 drives the fixing plate 61, so that the fixing plate 61 drives the spindle milling cutter 60 to move relative to the first slide rail 111.

Chip removal device 70 is all installed to left gang drill 21, right gang drill 22 and main shaft milling cutter 60, and chip removal device 70 includes suction hood 71, trachea passageway 72, cylinder 73 and is used for opening and close the control valve 74 of trachea passageway 72 through control cylinder 73, and trachea passageway 72 is located the top of suction hood 71, and cylinder 73 installs on trachea passageway 72, and cylinder 73 and control valve 74 electric connection.

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

1. Six brill of double row bore includes:

the device comprises a rack, a positioning device and a control device, wherein the rack comprises a slide rail and a workpiece processing table for placing a workpiece;

the first gang drill is used for machining a workpiece, the first gang drill is slidably mounted on the slide rail, and the machining direction of the first gang drill faces the workpiece machining table;

the second gang drill is used for machining a workpiece and is arranged on the sliding rail in a sliding manner, the first gang drill is positioned above the second gang drill, and the machining direction of the second gang drill faces the workpiece machining table;

the clamp is used for clamping a workpiece and is arranged on the sliding rail in a sliding manner;

the driving mechanisms are respectively arranged on the first gang drill, the second gang drill and the clamp;

the device is characterized in that the number of the first gang drills is two or more, and the position relations of the two first gang drills on the slide rail are distributed in a mirror image manner in the horizontal direction;

the double-row six-sided drill further comprises a fixing plate and a main shaft milling cutter for groove broaching and milling, wherein the main shaft milling cutter is installed on the fixing plate.

2. The double-row six-sided drill as recited in claim 1, wherein said slide track comprises a first slide track, a second slide track and a third slide track, said first row of drills being slidably mounted on said first slide track, said second row of drills being slidably mounted on said second slide track, and said chuck being slidably mounted on said third slide track.

3. The double row hexahedral drill according to claim 2, further comprising a fourth slide rail fixedly mounted on the fixed plate, the spindle cutter being slidably engaged with the fourth slide rail.

4. The double row hexahedral drill according to claim 2, wherein the first, second and third slide rails are provided with a guide rail and a rack;

the first gang drill is in sliding fit with a guide rail of the first slide rail, and a driving mechanism arranged on the first gang drill is meshed with a rack of the first slide rail;

the second gang drill is in sliding fit with a guide rail of a second slide rail, and a driving mechanism arranged on the second gang drill is meshed with a rack of the second slide rail;

the fixture is in sliding fit with a guide rail of the third slide rail, and a driving mechanism arranged on the fixture is meshed with a rack of the third slide rail.

5. The twin gang six drills according to claim 4, wherein the number of the first gang drills is two, one of the first gang drills is a left gang drill, the other of the first gang drills is a right gang drill, the left gang drill and the right gang drill are respectively provided with a driving mechanism, the left gang drill and the right gang drill are both in sliding fit with a guide rail of the first slide rail, and the driving mechanism arranged on the right gang drill is further used for driving the fixing plate to move relative to the first slide rail.

6. The six-sided double-row drill as claimed in claim 5, wherein the chip removal device is installed on each of the left-row drill, the right-row drill and the spindle milling cutter, the chip removal device comprises a dust hood, an air pipe channel, a cylinder and a control valve for controlling the cylinder to open and close the air pipe channel, the air pipe channel is located above the dust hood, the cylinder is installed on the air pipe channel, and the cylinder is electrically connected with the control valve.

7. The double-gang six-facet drill according to claim 6, wherein the dust hood and the air pipe channel are both provided with a chip inlet and a chip outlet, the chip outlet of the dust hood is connected with the chip inlet of the air pipe channel, and the dust hood and the air pipe channel are both made of sheet metal materials.

8. The double row six-sided drill as defined in any one of claims 4 to 7, wherein the driving mechanism comprises a gear, a reducer and a servo motor, the servo motor is connected with the reducer, the reducer is connected with the gear, and the gear is engaged with the rack.

9. The twin gang hexahedral drill according to claim 8, wherein the work machining table is provided with a plurality of through holes for ventilation of air.