CN202952330U - Numerical control multi-station integrated equipment - Google Patents

Numerical control multi-station integrated equipment Download PDF

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Publication number
CN202952330U
CN202952330U CN 201220684408 CN201220684408U CN202952330U CN 202952330 U CN202952330 U CN 202952330U CN 201220684408 CN201220684408 CN 201220684408 CN 201220684408 U CN201220684408 U CN 201220684408U CN 202952330 U CN202952330 U CN 202952330U
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CN
China
Prior art keywords
cylinder
hopper
workbench
support
numerical control
Prior art date
Application number
CN 201220684408
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Chinese (zh)
Inventor
周东升
Original Assignee
诸城市电力大众木器有限公司
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Publication date
Application filed by 诸城市电力大众木器有限公司 filed Critical 诸城市电力大众木器有限公司
Priority to CN 201220684408 priority Critical patent/CN202952330U/en
Application granted granted Critical
Publication of CN202952330U publication Critical patent/CN202952330U/en

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Abstract

The utility model discloses numerical control multi-station integrated equipment which comprises a frame body and a numerical control system, wherein the frame body is provided with a workbench positioned in the middle of the frame body; a power transmission mechanism capable of driving the workbench to move forth and back along a guide rail arranged on the frame body is arranged at the bottom of the workbench; a material clamping device and a material discharging device are arranged on the upper part of the workbench; a material feeding device comprises hopper assembly brackets arranged on the frame body on the left side and the right side of the workbench; hoppers are arranged on the tops of the hopper assembly brackets and are positioned above the material clamping device; a horizontal drilling device comprises vertical columns arranged on the left side and the right side of the frame body behind the material feeding device; angle adjustment mechanisms are arranged on the vertical columns; motor seats are arranged on the angle adjustment mechanisms; and a horizontal drilling motor with a drill bit and a vertical milling device are transversely arranged on the motor seats. The numerical control multi-station integrated equipment has the beneficial effects that a plurality of processing devices are combined together; a plurality of modes for processing can be finished on one set of equipment; the cost is reduced; and the occupied space is reduced.

Description

The numerical control multi-station integration apparatus
Technical field
The utility model relates to a kind of numerical control multi-station integration apparatus.
Background technology
At present, wood furniture is in process, at first need to process each parts, and then component combination become complete chair, wherein the front and back support member of chair is processed pretty troublesome, as shown in Figure 1, present processing generally needs several operations, comprises the flush cutting in the two ends of wooden unit, then bores the hole of inclination in both ends of the surface, in the respectively groove milling of the two ends, the surperficial left and right sides of wooden unit, and these several operations all need manually-operated, and each operation needs an equipment, waste time and energy like this, production efficiency is low, is unfavorable for large-scale production.
Summary of the invention
For solving above technical deficiency, the utility model provides a kind of numerical control multi-station integration apparatus, can concentrate the front and rear support members of the wooden chair of processing time saving and energy savingly, and production efficiency is high.
The utility model is realized by following measures:
A kind of numerical control multi-station integration apparatus of the utility model comprises support body and digital control system, is provided with on the described support body:
Workbench is positioned at the support body middle part, and its bottom is arranged on the support body by the Y-axis servo-operated mechanism, and workbench top is provided with clamping device and device for discharging;
Feeding device comprises the hopper assembly bracket that is arranged on the support body of the workbench left and right sides, and described hopper assembly bracket comprises vertical hopper, and described hopper is positioned at the top of clamping device, is provided with discharging device on the hopper;
Flush cutter sweep, comprise the column that is arranged on the left and right sides on the support body of feeding device rear, described column front side is connected with vertical angular adjustment dish I, is provided with horizontal cutting motor on the described angular adjustment dish I, and described cutting motor drives and is connected with saw blade;
The horizontal auger device comprises the angular adjustment dish II that vertically is arranged on the column rear side, is provided with horizontal auger motor with drill bit by the X-axis transmission mechanism on the described angular adjustment dish II; With
Grooving apparatus, comprise support, described frame bottom is arranged on the left and right sides on the support body of horizontal auger device rear by the X-axis transmission mechanism, is connected with cutter motor by Z-axis transmission mechanism on the described support, and described cutter motor drives by driving-belt and is connected with the end with the cutter spindle of milling cutter.
Above-mentioned clamping device is divided into two groups that are symmetricly set on the workbench left and right sides, every group comprises baffle plate and the material folding cylinder that is separately positioned on relative both sides, workbench front and back, described device for discharging comprises material ejection cylinder and discharging cylinder, described material ejection cylinder vertically is arranged on the workbench of below between baffle plate and the material folding cylinder, described discharging cylinder is arranged on the outside of material folding cylinder, and the piston-rod end of discharging cylinder is provided with push pedal.
Above-mentioned hopper is the bathtub construction of strip, the notch of left and right sides hopper is relative, described discharging device comprises two lock material cylinders, two blowing cylinders and one are by the material cylinder, described lock material cylinder is horizontally installed on rear wall or the front side wall outside of hopper, be provided with on sidewall or the front side wall and can make the hole that passes that lock material cylinder piston rod passes, the piston rod that described blowing cylinder vertically is arranged on hopper below and blowing cylinder is connected with retainer plate, described left side wall or the right side wall outside that is arranged on hopper by the material cylinder, be provided with on left side wall or the right side wall can make by what the material cylinder piston rod passed and pass the hole, and relative with the interval between baffle plate and the material folding cylinder by the piston rod of expecting cylinder.
Above-mentioned column front side is provided with lift adjustment screw rod I, the described lift adjustment screw rod I vertical horizontal guide groove that is threaded, be provided with the X-axis adjusting screw(rod) in the described horizontal guide groove, the described X-axis adjusting screw(rod) base plate I that has been threaded, angular adjustment dish I is arranged on the base plate I, described column rear side is provided with lift adjustment screw rod II, the lift adjustment screw rod II base plate II that has been threaded, and described angular adjustment dish II is arranged on the base plate II.
Be provided with arc guide barrel on above-mentioned angular adjustment dish I, the II, be installed with the lead that is fixed on base plate I, the II in the arc guide barrel, fastening nut has been threaded on the lead.
Above-mentioned Y-axis servo-operated mechanism comprises leading screw and is connected the servomotor that connects leading screw, and described X-axis transmission mechanism, Z-axis transmission mechanism comprise that cylinder is connected the slide bar that piston rod connects with cylinder.
Above-mentioned digital control system comprises the PLC controller that is arranged in the control cabinet, described material folding cylinder, material ejection cylinder, discharging cylinder, lock are expected cylinder, blowing cylinder, are provided with magnetic switch and magnetic valve by expecting on the cylinder, described PLC controller connects magnetic switch, magnetic valve, servomotor, cutting motor, horizontal auger motor and cutter motor, is provided with action button on the described control cabinet.
The excircle of above-mentioned angular adjustment dish I, II is provided with rule.
The beneficial effects of the utility model are: 1. a plurality of processing unit (plant)s are combined, can finish the processing of a plurality of modes on an equipment, reduced the quantity of process equipment, reduced cost, reduced taking up room; 2. parts can once be finished automatically, and are time saving and energy saving, improved production efficiency, are conducive to the extensive industry production of parts; 3. integrated degree is high, and is easy to adjust, the chair front and rear support members that can produce different size.
Description of drawings
The chair front and rear support members structural representation that Fig. 1 the utility model is processed into.
Fig. 2 is main TV structure schematic diagram of the present utility model.
Fig. 3 is the left TV structure schematic diagram of Fig. 2.
The main TV structure schematic diagram of Fig. 4 workbench part of the present utility model.
Fig. 5 is the left TV structure schematic diagram of Fig. 4.
Fig. 6 is the utility model feeding device master TV structure schematic diagram.
Fig. 7 is the left TV structure schematic diagram of Fig. 6.
Fig. 8 is the flush cutter sweep of the utility model and horizontal auger device master TV structure schematic diagram.
Fig. 9 is the left TV structure schematic diagram of Fig. 8.
Figure 10 is grooving apparatus master TV structure schematic diagram of the present utility model.
Figure 11 is the left TV structure schematic diagram of Figure 10.
Wherein: 1 support body, 2 workbench, 3 feeding devices, 3-1 hopper assembly bracket, the 3-2 hopper,
4 flush cutter sweeps, 4-1 cutting motor, 4-2 saw blade, 5 grooving apparatus, 5-1 cutter motor, the 5-2 cutter spindle, 5-3 support, 6 horizontal auger devices, 7 discharging cylinders, 8 material folding cylinders, 9 baffle plates, 10 material ejection cylinders, 11 servomotors, 12 blowing cylinders, 13 by the material cylinder, 14 lock material cylinders, 15 columns, 16 lift adjustment screw rod I, 17 angular adjustment dish I, 18 base plate I, 19 cylinders, 20 horizontal guide grooves, 21 lift adjustment screw rod II, 22 base plate II, 23 angular adjustment dish II.
The specific embodiment
Shown in Fig. 2,3, numerical control multi-station integration apparatus of the present utility model comprises support body 1 and digital control system, is provided with workbench 2, feeding device 3, flush cutter sweep 4, horizontal auger device 6 and grooving apparatus 5 on the support body 1.
Shown in Fig. 4,5, workbench 2 is positioned at support body 1 middle part, and its bottom is provided with and can drives workbench 2 along being arranged on the power drive mechanism that the guide rail on the support body 1 moves forward and backward, and workbench 2 tops are provided with clamping device and device for discharging.Clamping device is divided into two groups that are symmetricly set on workbench 2 left and right sides, every group comprises baffle plate 9 and the material folding cylinder 8 that is separately positioned on relative both sides, workbench 2 front and back, device for discharging comprises material ejection cylinder 10 and discharging cylinder 7, material ejection cylinder 10 vertically is arranged on the workbench 2 of below between baffle plate 9 and the material folding cylinder 8, discharging cylinder 7 is arranged on the outside of material folding cylinder 8, and the piston-rod end of discharging cylinder 7 is provided with push pedal.
Shown in Fig. 6,7, feeding device 3 comprises the hopper assembly bracket 3-1 that is arranged on workbench 2 left and right sides support bodys 1, and hopper assembly bracket 3-1 top is provided with hopper 3-2, and hopper 3-2 is positioned at the top of clamping device.Hopper 3-2 is the bathtub construction of strip, the notch of left and right sides hopper 3-2 is relative, the rear wall of hopper 3-2 or front side wall bottom are provided with lock material cylinder 14, the notch below of hopper 3-2 vertically is provided with blowing cylinder 12, be provided with on the left side wall of hopper 3-2 or the right side wall by material cylinder 13, described relative with the interval between baffle plate 9 and the material folding cylinder 8 by material cylinder 13.
Shown in Fig. 8,9, comprise the column 15 that is arranged on the left and right sides on the support body of feeding device rear, column 15 front sides are connected with vertical angular adjustment dish I 17, are provided with horizontal cutting motor on the angular adjustment dish I 17, and cutting motor drives and is connected with saw blade.
The horizontal auger device comprises the angular adjustment dish II 23 that vertically is arranged on column 15 rear sides, is provided with horizontal auger motor with drill bit by the X-axis transmission mechanism on the angular adjustment dish II 23.
Shown in Figure 10,11, grooving apparatus comprises support, frame bottom is arranged on the left and right sides on the support body of horizontal auger device rear by the X-axis transmission mechanism, is connected with cutter motor by Z-axis transmission mechanism on the support, and cutter motor drives by driving-belt and is connected with the end with the cutter spindle of milling cutter.
Clamping device is divided into two groups that are symmetricly set on the workbench left and right sides, every group comprises baffle plate and the material folding cylinder that is separately positioned on relative both sides, workbench front and back, device for discharging comprises material ejection cylinder and discharging cylinder, material ejection cylinder vertically is arranged on the workbench of below between baffle plate and the material folding cylinder, the discharging cylinder is arranged on the outside of material folding cylinder, and the piston-rod end of discharging cylinder is provided with push pedal.
Hopper is the bathtub construction of strip, the notch of left and right sides hopper is relative, discharging device comprises two lock material cylinders 14, two blowing cylinders 12 and one are by material cylinder 13, lock material cylinder 14 is horizontally installed on rear wall or the front side wall outside of hopper, be provided with on sidewall or the front side wall and can make the hole that passes that lock material cylinder 14 piston rods pass, the piston rod that blowing cylinder 12 vertically is arranged on hopper below and blowing cylinder 12 is connected with retainer plate, be arranged on left side wall or the right side wall outside of hopper by material cylinder 13, be provided with on left side wall or the right side wall can make by what material cylinder 13 piston rods passed and pass the hole, and relative with the interval between baffle plate and the material folding cylinder by the piston rod of expecting cylinder 13.
Column 15 front sides are provided with lift adjustment screw rod I 16, the horizontal guide groove 20 that it is vertical that lift adjustment screw rod I 16 is threaded, laterally be provided with the X-axis adjusting screw(rod) in the guide groove 20, the X-axis adjusting screw(rod) base plate I 18 that has been threaded, angular adjustment dish I 17 is arranged on the base plate I 18, column 15 rear sides are provided with lift adjustment screw rod II 21, the lift adjustment screw rod II 21 base plate II 22 that has been threaded, and angular adjustment dish II 23 is arranged on the base plate II 22.Be provided with arc guide barrel on angular adjustment dish I 17, the II, be installed with the lead that is fixed on base plate I 18, the II in the arc guide barrel, fastening nut has been threaded on the lead.The Y-axis servo-operated mechanism comprises leading screw and is connected the servomotor 11 that connects leading screw, and X-axis transmission mechanism, Z-axis transmission mechanism comprise that cylinder is connected the slide bar that piston rod connects with cylinder.The excircle of angular adjustment dish I 17, II is provided with rule.
Digital control system comprises the PLC controller that is arranged in the control cabinet, described material folding cylinder, material ejection cylinder, discharging cylinder, lock are expected cylinder 14, blowing cylinder 12, are provided with magnetic switch and magnetic valve by expecting on the cylinder 13, described PLC controller connects magnetic switch, magnetic valve, servomotor 11, cutting motor, horizontal auger motor and cutter motor, is provided with action button on the control cabinet.
Its operation principle is: the plank of one pile of section of being cut into is put between two hopper 3-2, the retainer plate of the blowing cylinder 12 of bottom is held this pile plank, after the startup, lock material cylinder 14 is squeezed in the penult plank on the hopper 3-2 sidewall, prevent that it and it above plank from falling, and nethermost plank follows the retainer plate of blowing cylinder 12 to drop between baffle plate 9 and the material folding cylinder 8, then push up from the side plank by material cylinder 13, plank is leaned against a side, then material folding cylinder 8 stretches out, thus with clip with wooden board between material folding cylinder 8 and baffle plate 9.Servomotor 11 work, mobile backward along guide rail by the whole workbench 2 of screw-nut mechanism.When the position that moves between the column 15, the timber end cutting that cutting motor 4-1 will pass through is flat.Then workbench 2 continues to move backward along guide rail, and when arriving horizontal auger servomotor position, the horizontal auger servomotor moves inward and finish simultaneously the boring at timber two ends from both sides, reset after having bored.Workbench 2 continues mobile backward, and when moving to position between the support 5-3, cutter motor 5-1 falls, and then cutter motor 5-1 moves inward, and the milling cutter of rotation has milled out the inboard groove of arc that is with the two ends of plank.
After workbench 2 ran to end, material folding cylinder 8 retraction unclamped plank, and material ejection cylinder 10 is timber jack-up, and then discharging cylinder 7 pushes timber, the process of finishing the work, and workbench 2 is got back to original position, carries out next one and circulates.
Because the hole gradient of boring about some chair front and rear support members is different, so increased the angular adjustment dish, when needs are adjusted the angle of inclination of horizontal auger motor and cutter motor 5-1, the rotational angle adjustment disk is regulated and is got final product, the angle of determine adjusting according to top rule, and fix by fastening nut.Digital control system edits program, index signal take the magnetic switch signal as next step action, the rotation of control servomotor 11, horizontal auger motor and cutter motor 5-1, thereby realize the accurate control to timber processing, simultaneously digital control system also control lock material cylinder 14, blowing cylinder 12, by the break-make of the control magnetic valve of expecting cylinder 13, material folding cylinder 8, material ejection cylinder 10 and discharging cylinder 7, control the action of each cylinder, realized automation.
The above only is the preferred embodiment of this patent; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the art of this patent principle; can also make some improvement and replacement, these improvement and replacement also should be considered as the protection domain of this patent.

Claims (8)

1. a numerical control multi-station integration apparatus comprises support body and digital control system, it is characterized in that, is provided with on the described support body:
Workbench is positioned at the support body middle part, and its bottom is arranged on the support body by the Y-axis servo-operated mechanism, and workbench top is provided with clamping device and device for discharging;
Feeding device comprises the hopper assembly bracket that is arranged on the support body of the workbench left and right sides, and described hopper assembly bracket comprises vertical hopper, and described hopper is positioned at the top of clamping device, is provided with discharging device on the hopper;
Flush cutter sweep, comprise the column that is arranged on the left and right sides on the support body of feeding device rear, described column front side is connected with vertical angular adjustment dish I, is provided with horizontal cutting motor on the described angular adjustment dish I, and described cutting motor drives and is connected with saw blade;
The horizontal auger device comprises the angular adjustment dish II that vertically is arranged on the column rear side, is provided with horizontal auger motor with drill bit by the X-axis transmission mechanism on the described angular adjustment dish II; With
Grooving apparatus, comprise support, described frame bottom is arranged on the left and right sides on the support body of horizontal auger device rear by the X-axis transmission mechanism, is connected with cutter motor by Z-axis transmission mechanism on the described support, and described cutter motor drives by driving-belt and is connected with the end with the cutter spindle of milling cutter.
2. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: described clamping device is divided into two groups that are symmetricly set on the workbench left and right sides, every group comprises baffle plate and the material folding cylinder that is separately positioned on relative both sides, workbench front and back, described device for discharging comprises material ejection cylinder and discharging cylinder, described material ejection cylinder vertically is arranged on the workbench of below between baffle plate and the material folding cylinder, described discharging cylinder is arranged on the outside of material folding cylinder, and the piston-rod end of discharging cylinder is provided with push pedal.
3. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: described hopper is the bathtub construction of strip, the notch of left and right sides hopper is relative, described discharging device comprises two lock material cylinders, two blowing cylinders and one are by the material cylinder, described lock material cylinder is horizontally installed on rear wall or the front side wall outside of hopper, be provided with on sidewall or the front side wall and can make the hole that passes that lock material cylinder piston rod passes, the piston rod that described blowing cylinder vertically is arranged on hopper below and blowing cylinder is connected with retainer plate, described left side wall or the right side wall outside that is arranged on hopper by the material cylinder, be provided with on left side wall or the right side wall can make by what the material cylinder piston rod passed and pass the hole, and relative with the interval between baffle plate and the material folding cylinder by the piston rod of expecting cylinder.
4. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: described column front side is provided with lift adjustment screw rod I, the described lift adjustment screw rod I vertical horizontal guide groove that is threaded, be provided with the X-axis adjusting screw(rod) in the described horizontal guide groove, the described X-axis adjusting screw(rod) base plate I that has been threaded, angular adjustment dish I is arranged on the base plate I, described column rear side is provided with lift adjustment screw rod II, the lift adjustment screw rod II base plate II that has been threaded, described angular adjustment dish II is arranged on the base plate II.
5. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: be provided with arc guide barrel on described angular adjustment dish I, the II, be installed with the lead that is fixed on base plate I, the II in the arc guide barrel, fastening nut has been threaded on the lead.
6. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: described Y-axis servo-operated mechanism comprises leading screw and is connected the servomotor that connects leading screw, and described X-axis transmission mechanism, Z-axis transmission mechanism comprise that cylinder is connected the slide bar that piston rod connects with cylinder.
7. described numerical control multi-station integration apparatus according to claim 1, it is characterized in that: described digital control system comprises the PLC controller that is arranged in the control cabinet, described material folding cylinder, material ejection cylinder, discharging cylinder, lock are expected cylinder, blowing cylinder, are provided with magnetic switch and magnetic valve by expecting on the cylinder, described PLC controller connects magnetic switch, magnetic valve, servomotor, cutting motor, horizontal auger motor and cutter motor, is provided with action button on the described control cabinet.
8. described numerical control multi-station integration apparatus according to claim 4, it is characterized in that: the excircle of described angular adjustment dish I, II is provided with rule.
CN 201220684408 2012-12-13 2012-12-13 Numerical control multi-station integrated equipment CN202952330U (en)

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Application Number Priority Date Filing Date Title
CN 201220684408 CN202952330U (en) 2012-12-13 2012-12-13 Numerical control multi-station integrated equipment

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Application Number Priority Date Filing Date Title
CN 201220684408 CN202952330U (en) 2012-12-13 2012-12-13 Numerical control multi-station integrated equipment

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103009441A (en) * 2012-12-13 2013-04-03 诸城市电力大众木器有限公司 Numerical control multi-station integrated equipment
CN105171852A (en) * 2015-09-19 2015-12-23 顺德职业技术学院 Numerical control two-sided routing and sanding integrated machine
CN105269639A (en) * 2015-12-03 2016-01-27 福建龙竹工贸有限公司 Perforation equipment for two ends of each batten
CN106182210A (en) * 2016-08-29 2016-12-07 美克国际家私(天津)制造有限公司 A kind of control system sawing brill Milling Machining production line

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103009441A (en) * 2012-12-13 2013-04-03 诸城市电力大众木器有限公司 Numerical control multi-station integrated equipment
CN105171852A (en) * 2015-09-19 2015-12-23 顺德职业技术学院 Numerical control two-sided routing and sanding integrated machine
CN105269639A (en) * 2015-12-03 2016-01-27 福建龙竹工贸有限公司 Perforation equipment for two ends of each batten
CN106182210A (en) * 2016-08-29 2016-12-07 美克国际家私(天津)制造有限公司 A kind of control system sawing brill Milling Machining production line

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right

Effective date of registration: 20131028

Address after: 250000 No. 6999 View Road, Zhucheng City, Shandong Province

Patentee after: Shandong Jinxu Energy Technology Co., Ltd.

Address before: 250000 Shandong city of Weifang Province Zhucheng City Missouri Street Office Station

Patentee before: Zhucheng Power Dazhong Woodenware Co., Ltd.

ASS Succession or assignment of patent right

Owner name: SHANDONG JINXU ENERGY TECHNOLOGY CO., LTD.

Free format text: FORMER OWNER: ZHUCHENG POWER DAZHONG WOODENWARE CO., LTD

Effective date: 20131028

C41 Transfer of patent application or patent right or utility model
RGAV Abandon patent right to avoid regrant
AV01 Patent right actively abandoned

Granted publication date: 20130529

Effective date of abandoning: 20150204