CN207930280U - Aluminum automobile anticollision beam assembly assembly machine - Google Patents
Aluminum automobile anticollision beam assembly assembly machine Download PDFInfo
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- CN207930280U CN207930280U CN201820126580.2U CN201820126580U CN207930280U CN 207930280 U CN207930280 U CN 207930280U CN 201820126580 U CN201820126580 U CN 201820126580U CN 207930280 U CN207930280 U CN 207930280U
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- energy
- absorption box
- engine base
- collision prevention
- prevention girders
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Abstract
The utility model discloses a kind of aluminum automobile anticollision beam assembly assembly machine, including engine base and two assembly devices being set on engine base;Wherein, two assembly devices include being connected on engine base and the fixing device for fixing collision prevention girders ontology and energy-absorption box, the locking device for being connected on engine base and capable of locking collision prevention girders ontology and energy-absorption box and the first detection device for being connected to hole position on engine base and for detecting the mounting hole that the end of collision prevention girders ontology opens up and the second detection device for detecting the connector in energy-absorption box;When the first detection device detects that the hole position of mounting hole is correct and second detection device detects the connector in energy-absorption box, locking device locks collision prevention girders ontology and energy-absorption box.Aluminum automobile anticollision beam assembly assembly machine efficiency of assembling is high, effectively improves no marking hole, hole position not just and the phenomenon that neglected loading.
Description
Technical field
The utility model is related to automobile buffer beam general assembly technical field more particularly to a kind of aluminum automobile buffer beam are total
At assembly machine.
Background technology
Automobile buffer beam assembly is to absorb a kind of device of collision energy, including anticollision when vehicle is collided for mitigating
Beam ontology and two energy-absorption boxes, collision prevention girders ontology and energy-absorption box can effectively absorb impact energy when low speed collision occurs for vehicle
Amount reduces damage of the impact force to chassis runner, to play the protective effect to vehicle as much as possible.
It is general peace turn hole first to be beaten on collision prevention girders ontology and in two energy-absorbings when existing aluminum automobile anticollision beam assembly assembly
Installation connecting element in box, then by collision prevention girders ontology and two energy-absorption box the screwed lock connections.But existing assembly method is deposited
The problem of assembly precision is low, the connector that is easy in no marking hole and neglected loading energy-absorption box.
Utility model content
The purpose of this utility model is that proposing a kind of aluminum automobile anticollision beam assembly assembly machine, efficiency of assembling is high, can
No marking hole, hole position are effectively improved not just and the phenomenon that neglected loading.
For this purpose, the utility model uses following technical scheme:
A kind of aluminum automobile anticollision beam assembly assembly machine, for assembling collision prevention girders ontology and two energy-absorption boxes;The aluminum
Automobile buffer beam general assembly machine includes engine base and two assembly devices being set on the engine base, first assembly dress
First energy-absorption box of assembly and collision prevention girders ontology are set, second assembly device assembles second energy-absorption box and collision prevention girders sheet
Body;Wherein, the bearing for carrying collision prevention girders ontology and two energy-absorption boxes is connected on the engine base;Two assembly devices
Include:
It is connected to the fixing device on the engine base and for fixing collision prevention girders ontology and energy-absorption box;
It is connected on the engine base and can lock the locking device of collision prevention girders ontology and energy-absorption box;And
It is connected to the first inspection of the hole position on the engine base and for detecting the mounting hole that the end of collision prevention girders ontology opens up
Survey device and the second detection device for detecting the connector in energy-absorption box;When first detection device detects the peace
The hole position for filling hole is correct and when the second detection device detects the connector in energy-absorption box, the locking device locking
Collision prevention girders ontology and energy-absorption box.
Further, the fixing device includes the first fixing device for fixing energy-absorption box;Described first fixes dress
Set including:
It is connected to the limited block on the engine base and for being limited to the side of energy-absorption box;
It is rotatably dispose on the engine base and the first pressure holding piece in the another side of energy-absorption box can be pressed;And
It is connected on the engine base and drives the servo motor of the first pressure holding piece rotation.
Further, the limited block offers the card slot that energy-absorption box is put for card;The side of energy-absorption box offer to
Lack two first positioning holes, is convexly equipped at least two first positioning pins in the card slot, each first positioning pin is respectively protruding into
In the corresponding first positioning hole.
Further, the fixing device further includes the second fixing device for fixing collision prevention girders ontology;Described
Two fixing devices include that the bearing of collision prevention girders ontology is connect and be used to support with the engine base, is rotatably dispose on the engine base
Cursor, the one end for being connected to the cursor simultaneously can press the second pressure holding piece in the top surface of collision prevention girders ontology and driving institute
State cursor and co-rotational first cylinder of second pressure holding piece.
Further, two assembly devices further include the positioning device for being positioned to collision prevention girders ontology;
The positioning device include the underface for being set to the second location hole that the bottom surface of collision prevention girders ontology opens up the second positioning pin and
It is connected on the engine base and second positioning pin can be driven to stretch into the second cylinder in the second location hole.
Further, first detection device includes:
Detection components, the detection components include for across the mounting hole the first detector and with it is described first inspection
First fixed block of gauge head connection;
It is set to the first driving plate that can be moved on the engine base and towards or away from the mounting hole, described first is solid
Determine block to be slidably connected in first driving plate;And
Along the spring of first detector being connected axially between first fixed block and first driving plate.
Further, first detection device further includes for detecting first driving plate and first fixation
The range sensor of the distance between block, the range sensor include being divided into the both ends of the spring and respectively with described
One detector and the emitter and reception device of first fixed block connection.
Further, the second detection device includes the second detector of the underface for being set to energy-absorption box and is connected to
On the engine base and second detector can be driven to stretch into the 5th cylinder in energy-absorption box;The end of second detector
It is provided with the touch sensor for incuding the connector.
Further, the locking device includes at least one connecting seat being set on the engine base, each connection
Seat can be moved along the length direction of the collision prevention girders ontology;It is provided at least one electric screw on each connecting seat
Rifle, each eclectic screw gun can move up and down relative to the connecting seat, be moved along the width direction of collision prevention girders ontology.
The beneficial effects of the utility model are:The aluminum automobile anticollision beam assembly assembly machine of the utility model, passes through two
The common assembly collision prevention girders ontology of assembly and one of energy-absorption box and collision prevention girders ontology and another energy-absorption box, efficiency of assembling is high,
Assembly precision is high;The first detection device and second detection device is respectively set on device by being assembled at two, effectively improves
The phenomenon that neglected loading connector in turn hole and energy-absorption box, is pacified in no marking, improves assembling quality.
Description of the drawings
Fig. 1 is the structural schematic diagram of aluminum automobile anticollision beam assembly assembly machine provided by the utility model;
Fig. 2 is the structural representation of another angle of aluminum automobile anticollision beam assembly assembly machine provided by the utility model
Figure;
Fig. 3 is the structural schematic diagram of the locking device in Fig. 1;
Fig. 4 is the assembling structure schematic diagram of the first detection device and fixing device in Fig. 2;
Fig. 5 is the structural schematic diagram of the positioning device of aluminum automobile anticollision beam assembly assembly machine provided by the utility model;
Fig. 6 is the structural representation of the second detection device of aluminum automobile anticollision beam assembly assembly machine provided by the utility model
Figure.
In figure:Engine base 10;Sliding rail 11;Bearing 12;First fixing device 20;Limited block 21;First pressure holding piece 22;Servo electricity
Machine 23;First positioning pin 24;Second fixing device 30;Cursor 31;Second pressure holding piece 32;First cylinder 33;Second positioning pin
41;Second cylinder 42;First detection device 50;First detector 51;First fixed block 52;First driving plate 53;Third cylinder
54;4th cylinder 55;Second detection device 60;Second detector 61;5th cylinder 62;Locking device 70;Eclectic screw gun
71;Link block 72;Connecting seat 73;7th cylinder 74;Driven wheel 75;Belt 76;Motor 77;Protect chain 78;Collision prevention girders ontology 81;
Energy-absorption box 82.
Specific implementation mode
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
As shown in Figures 1 to 6, a kind of aluminum automobile anticollision beam assembly assembly machine, for assembling collision prevention girders ontology 81 and two
Energy-absorption box 82;Aluminum automobile anticollision beam assembly assembly machine includes engine base 10 and be set on engine base 10 two assembly devices, the
One assembly device assembles first energy-absorption box 82 and collision prevention girders ontology 81, and second assembly device assembles second energy-absorption box 82
With collision prevention girders ontology 81;Wherein, two assembly devices include be connected on engine base 10 and for fix collision prevention girders ontology 81 and
The fixing device of energy-absorption box 82, the locking device 70 that is connected on engine base 10 and can lock collision prevention girders ontology 81 and energy-absorption box 82
And it is connected to the first detection device of the hole position on engine base 10 and for detecting the mounting hole that the end of collision prevention girders ontology 81 opens up
50 and the second detection device 60 for detecting the connector in energy-absorption box 82;When the first detection device detects mounting hole
When hole position is correct and second detection device detects the connector in energy-absorption box 82, locking device 70 locks collision prevention girders ontology 81
And energy-absorption box 82.
The aluminum automobile anticollision beam assembly assembly machine of the utility model assembles assembly anticollision simultaneously by two assembly devices
Beam ontology 81 and one of energy-absorption box 82 and collision prevention girders ontology 81 and another energy-absorption box 82, efficiency of assembling are high.Pass through first
Detection device 50 detects the hole position of the mounting hole opened up on collision prevention girders ontology 81, and detects energy-absorption box by second detection device 60
Connector in 82, the phenomenon that effectively improving no marking hole and neglected loading.
Specifically, fixing device includes the first fixing device 20 for fixing energy-absorption box 82 and for fixing collision prevention girders sheet
Second fixing device 30 of body 81.Wherein, the first fixing device 20 includes being connected on engine base 10 and for energy-absorption box 82
Limited block 21 that side is limited is rotatably dispose on engine base 10 and can press in the another side of energy-absorption box 82
One pressure holding piece 22 and the servo motor 23 for being connected on engine base 10 and driving the rotation of the first pressure holding piece 22.Second fixing device 30
Include the bearing 12 that collision prevention girders ontology 81 is connect and be used to support with engine base 10, the cursor 31 being rotatably dispose on engine base 10,
It is connected to one end of cursor 31 and the second pressure holding piece 32 and driving cursor in the top surface of collision prevention girders ontology 81 can be pressed
31 and 32 co-rotational first cylinder 33 of the second pressure holding piece.Pass through the mutual of the first fixing device 20 and the second fixing device 30
Cooperation, to which collision prevention girders ontology 81 and two energy-absorption boxes 82 to be securely fixed on bearing 12.
To further increase the assembly precision of anticollision beam assembly, is offered on limited block 21 and put energy-absorption box 82 for card
Card slot, the card of energy-absorption box 82 are put in the groove of limited block 21.At least two first positioning holes are offered in the side of energy-absorption box 82,
At least two first positioning pins 24 are convexly equipped in card slot, each first positioning pin 24 is respectively protruding into corresponding first positioning hole.
So, it can be achieved that energy-absorption box 82 is accurately positioned.
For the accurate positionin for realizing to collision prevention girders ontology 81, two assembly devices further include being connected on engine base 10 to determine
Position device.The positioning device includes the second fixed of the underface for being set to the second location hole that the bottom surface of collision prevention girders ontology 81 opens up
Position and is connected on engine base 10 and the second positioning pin 41 can be driven to stretch into the second cylinder 42 in second location hole pin 41.Pass through
Two the second cylinders 42 respectively drive two the second positioning pins 41 and stretch into corresponding second location hole, to realize to collision prevention girders
The accurate positionin of ontology 81 is that good condition is created in the high-precision assembly of anticollision beam assembly.
In the utility model, the first detection device 50 include detection components, be set on engine base 10 and can towards or far
The first driving plate 53, spring and range sensor from mounting hole movement.Wherein, detection components include for across mounting hole
First detector 51 and the first fixed block 52 being connect with the first detector 51;First fixed block 52 is slidably connected to the first driving
On plate 53;Spring is connected axially to along the first detector 51 between the first fixed block 52 and the first driving plate 53;First driving
Plate 53 is connected with the third cylinder 54 for driving it to be moved towards or away from mounting hole;The first driving plate of driving is connected on engine base 10
53 and the 4th cylinder 55 that lifts jointly of third cylinder 54.Range sensor is for detecting the first driving plate 53 and the first fixed block
The distance between 52, and include the hair for being divided into the both ends of spring and being connect respectively with the first detector 51 and the first fixed block 52
Injection device and reception device.When detection, third cylinder 54 drives the first detector 51 to be moved towards mounting hole, if the hole of mounting hole
Not just, then the first detector 51 will certainly be against on collision prevention girders ontology 81, cause spring compressed, range sensor detects for position
The first driving plate 53 and the distance between the first fixed block 52 reduce.Therefore, when the distance of range sensor detection is less than in advance
If when value, indicating that the first detector 51 cannot be stretched into normally in mounting hole, there are no marking hole or hole position are incorrect for the mounting hole
Problem.
Wherein, second detection device 60 includes the second detector 61 of the underface for being set to energy-absorption box 82 and is connected to
On engine base 10 and the second detector 61 can be driven to stretch into the 5th cylinder 62 in energy-absorption box 82;The end of second detector 61
It is provided with the touch sensor for incuding connector.The connector in energy-absorption box 82 is sensed by touch sensor, with
Judge the connector whether neglected loading.
After the hole position of detection mounting hole and connector are qualified, the locking device 70 of two assembly devices opens up work,
Corresponding energy-absorption box 82 and collision prevention girders ontology 81 are locked respectively.The locking device 70 includes the connecting seat being set on engine base 10
73, it is connected on engine base 10 and for being drivingly connected driving mechanism that seat 73 moves along the length direction of collision prevention girders ontology 81, setting
Two eclectic screw guns 71 being placed on connecting seat 73 are set to two the 6th cylinders and two the 7th cylinders on connecting seat 73
74 and protection chain 78.Wherein, eclectic screw gun 71 is slidably connected on link block 72, and the 6th cylinder drives eclectic screw gun 71
It moves up and down;Link block 72 is slidably connected with connecting seat 73, and the 7th cylinder 74 is connected on connecting seat 73, and for driving it
In a link block 72 moved along the width direction of collision prevention girders ontology 81.The length direction of 10 upper edge collision prevention girders ontology 81 of engine base
Two sliding rails 11 are provided with, connecting seat 73 is slidably connected with sliding rail 11.Driving device includes the master being rotationally connected on engine base 10
Driving wheel, driven wheel 75, connection driving wheel and the belt 76 of driven wheel 75 and the motor 77 of driving driving wheel rotation.Protect chain 78
One end is connect with engine base 10, and the other end is connect with connecting seat 73.
The technical principle of the utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality
With novel principle, and it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on the explanation herein,
Those skilled in the art would not require any inventive effort the other specific implementation modes that can associate the utility model,
These modes are fallen within the scope of protection of the utility model.
Claims (9)
1. a kind of aluminum automobile anticollision beam assembly assembly machine, for assembling collision prevention girders ontology (81) and two energy-absorption boxes (82);Its
It is characterized in that, the aluminum automobile anticollision beam assembly assembly machine includes engine base (10) and be set on the engine base (10) two
Device is assembled, first assembly device assembles first energy-absorption box (82) and collision prevention girders ontology (81), second dress
Second energy-absorption box (82) and collision prevention girders ontology (81) are assembled with device;Wherein, two assembly devices include:
It is connected to the fixing device on the engine base (10) and for fixing collision prevention girders ontology (81) and energy-absorption box (82);
It is connected on the engine base (10) and can lock the locking device (70) of collision prevention girders ontology (81) and energy-absorption box (82);And
Be connected on the engine base (10) and hole position for detecting the mounting hole that the end of collision prevention girders ontology (81) opens up the
One detection device (50) and second detection device (60) for detecting the connector in energy-absorption box (82);When first detection
Device detects that the hole position of the mounting hole is correct and the second detection device detects the connection in energy-absorption box (82)
When part, locking device (70) the locking collision prevention girders ontology (81) and energy-absorption box (82).
2. aluminum automobile anticollision beam assembly assembly machine according to claim 1, which is characterized in that the fixing device includes
The first fixing device (20) for fixing energy-absorption box (82);First fixing device (20) includes:
It is connected to the limited block (21) on the engine base (10) and for being limited to the side of energy-absorption box (82);
It is rotatably dispose on the engine base (10) and the first pressure holding piece (22) in the another side of energy-absorption box (82) can be pressed;
And
It is connected on the engine base (10) and drives the servo motor (23) of the first pressure holding piece (22) rotation.
3. aluminum automobile anticollision beam assembly assembly machine according to claim 2, which is characterized in that on the limited block (21)
It offers for blocking the card slot for putting energy-absorption box (82);The side of energy-absorption box (82) offers at least two first positioning holes, described
At least two first positioning pins (24) are convexly equipped in card slot, each first positioning pin (24) is respectively protruding into corresponding described first
In location hole.
4. aluminum automobile anticollision beam assembly assembly machine according to claim 2 or 3, which is characterized in that the fixing device
It further include the second fixing device (30) for fixing collision prevention girders ontology (81);Second fixing device (30) include with it is described
Engine base (10) connects and is used to support the bearing (12) of collision prevention girders ontology (81), the rotation being rotatably dispose on the engine base (10)
Arm (31), the one end for being connected to the cursor (31) can simultaneously be pressed in the second pressure holding piece of the top surface of collision prevention girders ontology (81)
(32) and the driving cursor (31) and co-rotational first cylinder (33) of second pressure holding piece (32).
5. aluminum automobile anticollision beam assembly assembly machine according to claim 1, which is characterized in that two assembly devices
Further include the positioning device for being positioned to collision prevention girders ontology (81);The positioning device includes being set to collision prevention girders sheet
It the second positioning pin (41) of the underface for the second location hole that the bottom surface of body (81) opens up and is connected on the engine base (10) simultaneously
Second positioning pin (41) can be driven to stretch into the second cylinder (42) in the second location hole.
6. aluminum automobile anticollision beam assembly assembly machine according to claim 1, which is characterized in that first detection device
(50) include:
Detection components, the detection components include for across the mounting hole the first detector (51) and with it is described first inspection
The first fixed block (52) of gauge head (51) connection;
Be set on the engine base (10) and can towards or away from the first driving plate (53) that the mounting hole moves, described
One fixed block (52) is slidably connected on first driving plate (53);And
Along first detector (51) be connected axially to first fixed block (52) and first driving plate (53) it
Between spring.
7. aluminum automobile anticollision beam assembly assembly machine according to claim 6, which is characterized in that first detection device
(50) further include Distance-sensing for detecting the distance between first driving plate (53) and described first fixed block (52)
Device, the range sensor include be divided into the spring both ends and respectively with first detector (51) and described first
The emitter and reception device of fixed block (52) connection.
8. aluminum automobile anticollision beam assembly assembly machine according to claim 1, which is characterized in that the second detection device
(60) include the second detector (61) for the underface for being set to energy-absorption box (82) and be connected on the engine base (10) and can
Second detector (61) is driven to stretch into the 5th cylinder (62) in energy-absorption box (82);The end of second detector (61)
It is provided with the touch sensor for incuding the connector.
9. aluminum automobile anticollision beam assembly assembly machine according to claim 1, which is characterized in that the locking device (70)
Including at least one connecting seat (73) being set on the engine base (10), each connecting seat (73) can be along the anticollision
The length direction of beam ontology (81) moves;At least one eclectic screw gun (71), each institute are provided on each connecting seat (73)
Stating eclectic screw gun (71) can move up and down relative to the connecting seat (73), along the width direction shifting of collision prevention girders ontology (81)
It is dynamic.
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CN201820126580.2U CN207930280U (en) | 2018-01-25 | 2018-01-25 | Aluminum automobile anticollision beam assembly assembly machine |
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CN201820126580.2U CN207930280U (en) | 2018-01-25 | 2018-01-25 | Aluminum automobile anticollision beam assembly assembly machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110744304A (en) * | 2019-10-16 | 2020-02-04 | 台山市金桥铝型材厂有限公司 | Automobile anti-collision beam processing equipment |
CN114029747A (en) * | 2021-11-23 | 2022-02-11 | 上海和达汽车配件有限公司 | Automatic production line for multiple riveting processes of aluminum alloy anti-collision beam |
-
2018
- 2018-01-25 CN CN201820126580.2U patent/CN207930280U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110744304A (en) * | 2019-10-16 | 2020-02-04 | 台山市金桥铝型材厂有限公司 | Automobile anti-collision beam processing equipment |
CN110744304B (en) * | 2019-10-16 | 2020-06-12 | 台山市金桥铝型材厂有限公司 | Automobile anti-collision beam processing equipment |
CN114029747A (en) * | 2021-11-23 | 2022-02-11 | 上海和达汽车配件有限公司 | Automatic production line for multiple riveting processes of aluminum alloy anti-collision beam |
CN114029747B (en) * | 2021-11-23 | 2024-03-22 | 上海和达汽车配件有限公司 | Automatic production line for multiple riveting processes of aluminum alloy anti-collision beam |
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