CN205464431U - Three -dimensional porous drilling machine of motormeter crossbeam - Google Patents
Three -dimensional porous drilling machine of motormeter crossbeam Download PDFInfo
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- CN205464431U CN205464431U CN201620092780.1U CN201620092780U CN205464431U CN 205464431 U CN205464431 U CN 205464431U CN 201620092780 U CN201620092780 U CN 201620092780U CN 205464431 U CN205464431 U CN 205464431U
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- drill bit
- cylinder
- clamp system
- boring machine
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Abstract
The utility model discloses a three -dimensional porous drilling machine of motormeter crossbeam belongs to the mechanical equipment field for traditional drilling machine is solved and the hole site distribution can't be satisfied at different spatial position, the different instrument crossbeam of interval. It includes frame, pipe fitting locating plate, be located the first drilling machine of frame top and be located the second drilling machine at frame rear, the frame is rectangular frame, frame top is the control chamber, the control chamber is equipped with the first platform that is used for placing first drilling machine for place the second platform of second drilling machine. At first drilling machine of different spatial position and second drilling machine, process out the distribution in different spatial position, the different drilling of interval through setting up the distribution on the instrument crossbeam.
Description
Technical field
This utility model belongs to technical field of mechanical equipment, specifically, is automobile instrument crossbeam three-dimensional porous boring machine.
Background technology
The instrument beam of automobile is to support human-computer interface control equipment needed thereby and decoration.Driver and passenger in protection car
Structural member, its intensity and rigidity are the primary indexs of its performance.
Instrument beam needs to process position, multiple hole in one direction, and (position, hole is distributed in different spatial, and spacing is each
Different).Traditional boring machine has the following disadvantages, and first, only one of which drill bit, need to get out required position, hole successively, produce effect
Rate is low, and second, due to manual operations, in the course of processing, need repeatedly to move boring machine, it is difficult to ensure that the porose position of institute keeps same
One directivity, the same tropism causing the position, instrument beam hole after processing is poor, and the 3rd, drill bit can cause abrasion because of life-time service,
Half drill bit can be dropped, cost of idleness, and the 4th, the impulsive force that drill bit bears is relatively big, easily causes Drill Crack.
Summary of the invention
This utility model purpose is intended to provide one and is applicable to position, hole and is distributed in different spatial, and spacing is different
Automobile instrument crossbeam three-dimensional porous boring machine.For realizing above-mentioned technical purpose, the technical solution adopted in the utility model is as follows:
Automobile instrument crossbeam three-dimensional porous boring machine, including frame, pipe fitting location-plate, is positioned at the first boring above frame
Machine and the second boring machine being positioned at frame rear, described frame is rectangular frame, and described upper rack is divided into operating room, described behaviour
The first platform for placing the first boring machine it is provided with, for placing the second platform of the second boring machine as room;Described first bores
Hole machine includes the first motor, the first shaft coupling, the first driving gear, the first driven gear, the first telescoping universal joint, the first drill bit
Telescopic cylinder, the first drill chuck, the first drill bit, the first clamp system compression cylinder, the first clamp system moves cylinder, and described
One motor controls the first driving gear by the first shaft coupling, and described first driving gear passes through the first driven gear transmission first
Telescoping universal joint, described first telescoping universal joint front end connects the first drill bit telescopic cylinder, and described first drill bit telescopic cylinder leads to
Crossing the first drill chuck and control the first drill bit, described first platform connects the first clamp system and moves cylinder, described first clamping machine
Structure moves cylinder front end and connects the first clamp system compression cylinder, and described first clamp system compression cylinder extends to pipe fitting location
Above plate;Described second boring machine includes the second motor, the second shaft coupling, the second driving gear, the second driven gear, and second stretches
Contracting universal joint, the second drill bit telescopic cylinder, the second drill chuck, the second drill bit, the second clamp system compression cylinder, the second clamping machine
Structure moves cylinder, and described second motor controls the second driving gear by the second shaft coupling, and described second driving gear is by the
Two driven gear transmission the second telescoping universal joints, described second telescoping universal joint front end connects the second drill bit telescopic cylinder, described
Second drill bit telescopic cylinder controls the second drill bit by the second drill chuck, and described second platform connects the second clamp system and moves gas
Cylinder, described second clamp system moves cylinder front end and connects the second clamp system compression cylinder, and described second clamp system compresses
Cylinder extends to above pipe fitting location-plate.
Use the utility model of technique scheme, be distributed in different spatial the first boring machine and second by setting
Boring machine, utilizes the first telescoping universal joint to regulate the first drill bit, utilizes the second telescoping universal joint to regulate the second drill bit.
The first, the second driving gear coordinates with the first, the second telescoping universal joint respectively, is easily adjusted processing pitch-row, makes brill
Hole is not limited by gear institute, saves the time adjusted, and the restriction at the rarest dead angle is suitable for the processing different boring of spacing.
By regulation the first, the second drill chuck, it is possible to according to the abrasion condition of drill bit, carry out time limit spacing adjustment, it is ensured that
Drill bit is fully utilized, it is to avoid waste.
The first, the second clamp system moves cylinder and uses bounce cylinder, and the pressure of cylinder is adjusted according to pressure regulator, subtracts
The impact of few drill bit, reduces the probability that drill bit interrupts.
Limiting further, described frame lower is arranged with iron filings and reclaims funnel.
Iron filings are set and reclaim funnel, utilize iron filings to reclaim collection funnel drill bit and work on instrument beam produced ferrum
Bits, keep the clean cleaning of work platforms.
Limiting further, described first boring machine is provided with 5-6 the first drill bit being distributed in different spatial, described
Second boring machine is provided with 5-6 the second drill bit being distributed in different spatial.
Instrument beam according to automobile presets drilling hole amount, and the first, second drill bit is respectively 5-6.
This utility model compared to existing technology, reduces labour cost, improves production efficiency.
Accompanying drawing explanation
This utility model can be further illustrated by the nonlimiting examples that accompanying drawing is given;
Fig. 1 is this utility model automobile instrument crossbeam three-dimensional porous boring machine axonometric chart;
Fig. 2 is this utility model automobile instrument crossbeam three-dimensional porous boring machine left view;
Main element symbol description is as follows:
Frame 1, the first platform 101, the second platform 102, pipe fitting location-plate 2, the first boring machine 3, the first motor 301, the
One shaft coupling 302, the first driving gear 303, the first driven gear 304, the first telescoping universal joint 305, the first drill bit stretches gas
Cylinder 306, the first drill chuck 307, the first drill bit 308, the first clamp system compression cylinder 309, the first clamp system moves cylinder
310, the second boring machine 4, the second motor 401, the second shaft coupling 402, the second driving gear 403, the second driven gear 404, the
Two telescoping universal joints 405, the second drill bit telescopic cylinder 406, the second drill chuck 407, the second drill bit 408, the second clamp system pressure
Tight cylinder 409, the second clamp system moves cylinder 410.
Detailed description of the invention
In order to make those skilled in the art that this utility model be may be better understood, below in conjunction with the accompanying drawings with embodiment pair
Technical solutions of the utility model further illustrate.
Such as Fig. 1, shown in Fig. 2, automobile instrument crossbeam three-dimensional porous boring machine, including frame 1, pipe fitting location-plate 2, it is positioned at machine
The first boring machine 3 above frame 1 and the second boring machine 4 being positioned at frame 1 rear, frame 1 is rectangular frame, frame 1 upper part
For operating room, operating room is provided with the first platform 101 for placing the first boring machine 3, for placing the second of the second boring machine 4
Platform 102;First boring machine 3 includes the first motor 301, the first shaft coupling 302, the first driving gear 303, the first driven gear
304, the first telescoping universal joint 305, the first drill bit telescopic cylinder 306, the first drill chuck 307, the first drill bit 308, the first clamping
Mechanism's compression cylinder 309, the first clamp system moves cylinder 310, and the first motor 301 controls first by the first shaft coupling 302
Driving gear 303, the first driving gear 303 is by first driven gear 304 transmission the first telescoping universal joint 305, and first stretches
Universal joint 305 front end connects the first drill bit telescopic cylinder 306, and the first drill bit telescopic cylinder 306 is controlled by the first drill chuck 307
First drill bit 308, the first platform 101 connects the first clamp system and moves cylinder 309, and the first clamp system moves cylinder 309
Front end connects the first clamp system compression cylinder 310, and the first clamp system compression cylinder 310 extends to above pipe fitting location-plate 2;
Second boring machine 4 includes the second motor 401, the second shaft coupling 402, the second driving gear 403, the second driven gear 404, second
Telescoping universal joint 405, the second drill bit telescopic cylinder 406, the second drill chuck 407, the second drill bit 408, the second clamp system compresses
Cylinder 409, the second clamp system moves cylinder 410, and the second motor 401 controls the second driving gear by the second shaft coupling 402
403, the second driving gear 403 is by second driven gear 404 transmission the second telescoping universal joint 405, the second telescoping universal joint 405
Front end connects the second drill bit telescopic cylinder 406, and the second drill bit telescopic cylinder 406 controls the second drill bit by the second drill chuck 407
408, the second platform 102 connects the second clamp system and moves cylinder 409, the second clamp system moves cylinder 409 front end and connects
Second clamp system compression cylinder 410, the second clamp system compression cylinder 410 extends to above pipe fitting location-plate 2.
Frame 1 lower part is provided with iron filings and reclaims funnel (diagram is not drawn into).
First boring machine 3 is provided with 6 the first drill bits 308 being distributed in different spatial, and the second boring machine 4 is provided with
6 the second drill bits 408 being distributed in different spatial.
The automobile instrument crossbeam three-dimensional porous boring machine provided this utility model above is described in detail.Concrete real
The explanation executing example is only intended to help to understand method of the present utility model and core concept thereof.It should be pointed out that, and this technology is led
For the those of ordinary skill in territory, on the premise of without departing from this utility model principle, it is also possible to if this utility model is carried out
Dry improvement and modification, these improve and modification also falls in this utility model scope of the claims.
Claims (2)
1. automobile instrument crossbeam three-dimensional porous boring machine, it is characterised in that: include frame, pipe fitting location-plate, be positioned at above frame
The first boring machine and be positioned at second boring machine at frame rear, described frame is rectangular frame, and described upper rack is divided into behaviour
Making room, described operating room is provided with the first platform for placing the first boring machine, for placing the second platform of the second boring machine;
Described first boring machine includes the first motor, the first shaft coupling, the first driving gear, the first driven gear, first stretch universal
Joint, the first drill bit telescopic cylinder, the first drill chuck, the first drill bit, the first clamp system compression cylinder, the first clamp system moves
Cylinder, described first motor controls the first driving gear by the first shaft coupling, and described first driving gear is driven by first
Gear drive the first telescoping universal joint, described first telescoping universal joint front end connects the first drill bit telescopic cylinder, and described first bores
Head telescopic cylinder controls the first drill bit by the first drill chuck, and described first platform connects the first clamp system and moves cylinder, institute
Stating the first clamp system to move cylinder front end and connect the first clamp system compression cylinder, described first clamp system compression cylinder is prolonged
Extend above pipe fitting location-plate;Described second boring machine includes the second motor, the second shaft coupling, the second driving gear, second from
Moving gear, the second telescoping universal joint, the second drill bit telescopic cylinder, the second drill chuck, the second drill bit, the second clamp system compresses gas
Cylinder, the second clamp system moves cylinder, and described second motor controls the second driving gear by the second shaft coupling, and described second is main
Moving gear passes through second driven gear transmission the second telescoping universal joint, and described second telescoping universal joint front end connects the second drill bit and stretches
Contracting cylinder, described second drill bit telescopic cylinder controls the second drill bit by the second drill chuck, and described second platform connects the second folder
Tight mechanism moves cylinder, and described second clamp system moves cylinder front end and connects the second clamp system compression cylinder, and described second
Clamp system compression cylinder extends to above pipe fitting location-plate;Described frame lower is arranged with iron filings and reclaims funnel.
Automobile instrument crossbeam three-dimensional porous boring machine the most according to claim 1, it is characterised in that: described first boring machine
Being provided with 5-6 the first drill bit being distributed in different spatial, described second boring machine is provided with 5-6 and is distributed in different empty
Between the second drill bit of position.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620092780.1U CN205464431U (en) | 2016-01-31 | 2016-01-31 | Three -dimensional porous drilling machine of motormeter crossbeam |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620092780.1U CN205464431U (en) | 2016-01-31 | 2016-01-31 | Three -dimensional porous drilling machine of motormeter crossbeam |
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Publication Number | Publication Date |
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CN205464431U true CN205464431U (en) | 2016-08-17 |
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CN201620092780.1U Active CN205464431U (en) | 2016-01-31 | 2016-01-31 | Three -dimensional porous drilling machine of motormeter crossbeam |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105485182A (en) * | 2015-12-31 | 2016-04-13 | 宁波长飞亚塑料机械制造有限公司 | Bearing supporting and arranging structure for screw transmission shaft of electric injection molding machine |
CN107414136A (en) * | 2017-08-28 | 2017-12-01 | 柳州煜华科技有限公司 | The big pipe boring method of fascia board girder |
-
2016
- 2016-01-31 CN CN201620092780.1U patent/CN205464431U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105485182A (en) * | 2015-12-31 | 2016-04-13 | 宁波长飞亚塑料机械制造有限公司 | Bearing supporting and arranging structure for screw transmission shaft of electric injection molding machine |
CN107414136A (en) * | 2017-08-28 | 2017-12-01 | 柳州煜华科技有限公司 | The big pipe boring method of fascia board girder |
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