CN209508353U - A kind of on-line automatic induction annealing device of crimping material strip - Google Patents
A kind of on-line automatic induction annealing device of crimping material strip Download PDFInfo
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- CN209508353U CN209508353U CN201920067500.5U CN201920067500U CN209508353U CN 209508353 U CN209508353 U CN 209508353U CN 201920067500 U CN201920067500 U CN 201920067500U CN 209508353 U CN209508353 U CN 209508353U
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- feeding
- annealing furnace
- infrared sensor
- belt
- transition belt
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Abstract
The utility model relates to material strip processing technique fields, in particular a kind of on-line automatic induction annealing device of crimping material strip, including feeding transition belt, feeding conveyer belt, mounting rack, infeed conveyor and feeding transition belt, feeding conveyer belt is installed in the right positions of the charging transition belt, the first translation conveyors are installed on the charging transition belt, mounting rack is installed on the front position of the feeding conveyer belt, the left and right sides below the mounting rack is symmetrically installed with motor, the output shaft of two motors is rotatablely connected between two lower gears respectively, third translation conveyors are installed on the feeding transition belt, 4th translation conveyors are installed on the infeed conveyor;In the utility model, by setting charging transition belt, infeed conveyor and feeding transition belt, processing quality is high, high in machining efficiency, intelligent high with automatization level.
Description
Technical field
The utility model relates to material strip processing technique field, specially a kind of on-line automatic induction annealing device of crimping material strip.
Background technique
It is made annealing treatment in the process of crimping material strip, annealing is a kind of metal heating processing technology, is referred to
Metal is heated slowly to certain temperature, keeps enough time, it is then cooling with Reasonable Speed.Purpose is to reduce hardness, is improved
Machinability;Residual stress is eliminated, stable dimensions reduce deformation and crackle tendency;Crystal grain is refined, tissue, elimination group are adjusted
Defect is knitted, exactly, annealing is the heat treatment process of a kind of pair of material, including metal material, nonmetallic materials, and green wood
Also there are the similarities and differences with conventional metals annealing for the annealing purpose of material, therefore, to a kind of on-line automatic induction annealing device of crimping material strip
Demand it is growing.
Existing apparatus is carrying out in use, automatization level is low, and intelligent level is low, and error rate is high, and people's production capacity can not be equal
Weighing apparatus, can not match front and back automatically processing device technique and capacity efficiency, material accumulation easily occur in carrying out process
Problem, processing quality is poor, therefore, proposes a kind of on-line automatic induction annealing device of crimping material strip regarding to the issue above.
Utility model content
The purpose of this utility model is to provide a kind of on-line automatic induction annealing devices of crimping material strip, to solve above-mentioned back
The problem of being proposed in scape technology.
To achieve the above object, the utility model provides the following technical solutions:
A kind of on-line automatic induction annealing device of crimping material strip, including charging transition belt, feeding conveyer belt, installation
Frame, infeed conveyor and feeding transition belt, it is described charging transition belt right positions on feeding conveyer belt is installed,
First translation conveyors are installed on the charging transition belt, the second translation conveying is installed in the feeding conveyer belt
The installation site of machine, first translation conveyors is corresponding with the installation site of the second translation conveyors, the conveying transmission
Infrared inductor is installed on the middle position of band, the feeding conveyer belt and is fed on the front position of transition belt all
First feeding infrared sensor is installed, mounting rack is installed on the front position of the feeding conveyer belt, in the mounting rack
From left to right uniformly installation and is disposed with the first annealing furnace and the there are three guide rail between two adjacent guide rails in portion
Two annealing furnaces, the left and right sides below the mounting rack are symmetrically installed with motor, and the output shaft of two motors is respectively with two
It is rotatablely connected between a lower gear, four gears is separately installed on the top position of three guide rails, and two neighboring
It is rotatablely connected, is symmetrically installed on the position below three guide rails there are four lower gear by shaft between the gear,
It is connected between the gear and lower gear by chain, feeding transition biography is installed on the front position of first annealing furnace
Band is sent, infeed conveyor is installed on the front position of second annealing furnace, is equipped on the feeding transition belt
Three translation conveyors are equipped with the 4th translation conveyors, the installation position of the third translation conveyors on the infeed conveyor
It sets corresponding with the installation site of the 4th translation conveyors.
Preferably, it is slidably connected between first annealing furnace and two guide rails, the first annealing furnace setting exists
On the middle position of two chains, first annealing furnace is connect with two chains, after first annealing furnace
Orientation, which is set, is equipped with the first rewinding infrared sensor, in front of the first rewinding infrared sensor and charging transition belt
The installation site of first feeding infrared sensor is corresponding, and it is red to be equipped with the second feeding on the front position of first annealing furnace
Outer sensor.
Preferably, it is slidably connected between second annealing furnace and two guide rails, the second annealing furnace setting exists
On the middle position of two chains, second annealing furnace is connect with two chains, after second annealing furnace
Orientation, which is set, is equipped with the first rewinding infrared sensor, first in front of the first rewinding infrared sensor and feeding conveyer belt
The installation site of feeding infrared sensor is corresponding, and the infrared biography of the second feeding is equipped on the front position of second annealing furnace
Sensor.
Preferably, the of the second feeding infrared sensor in front of first annealing furnace and feeding transition belt rear
The installation site of two rewinding infrared sensors is corresponding, the second feeding infrared sensor and feeding in front of second annealing furnace
The installation site of the second rewinding infrared sensor at conveyer belt rear is corresponding.
Preferably, electric cabinet is installed on the mounting rack, the electric cabinet respectively with motor, the first translation conveyors,
It is electrically connected between second translation conveyors, third translation conveyors and the 4th translation conveyors.
Preferably, the height of the feeding transition belt and feeding conveyer belt is higher than feeding transition belt and send
Expect the height of conveyer belt.
Compared with prior art, the utility model has the beneficial effects that
1, in the utility model, by guide rail, mounting rack, chain, gear and lower gear, guide rail, mounting rack, chain,
Being used cooperatively between gear and lower gear increases the automatization level of the device, keeps the device same what is annealed
When can carry out blanking, material strip can be transported to subsequent processing, while infrared inductor, the first feeding infrared sensor, second sending
Being used cooperatively between material infrared sensor, the first rewinding infrared sensor and the second rewinding infrared sensor, increases the dress
The intelligent level set, make device carry out using when can be realized accurately feeding, ensure that the accuracy of processing, avoid giving up
The generation of material;
2, in the utility model, transition belt, feeding transition belt, the first annealing furnace and second are fed by setting
Annealing furnace, being used cooperatively between charging transition belt, feeding transition belt, the first annealing furnace and the second annealing furnace, increases
The working efficiency of the device is added, which is increased conevying efficiency, improve shipping mass, deposited by the way of double transports
It takes link and waits less, avoid carrying out in use, material strip conveying comes to lead to material accumulation when annealing operation does not complete
The problem of, increase the cleaning of processing environment.
Detailed description of the invention
Fig. 1 is the top view of utility model device entirety
Fig. 2 is the installation diagram that transition belt and infeed conveyor are fed in the utility model Fig. 1;
Fig. 3 is the top view of mounting rack in the utility model Fig. 1;
Fig. 4 is the front view of mounting rack in the utility model Fig. 3;
Fig. 5 is mounting rack schematic diagram of internal structure in the utility model Fig. 4;
Fig. 6 is the installation diagram of mounting rack in the utility model Fig. 5;
Fig. 7 is the installation diagram of infeed conveyor in the utility model Fig. 1.
In figure: 1- feeds transition belt, 2- feeding conveyer belt, 3- mounting rack, 4- electric cabinet, 5- infeed conveyor, 6-
Feeding transition belt, the first translation conveyors of 7-, 8- infrared inductor, the second translation conveyors of 9-, the first feeding of 10- are infrared
Sensor, the first annealing furnace of 11-, the first rewinding of 12- infrared sensor, the second annealing furnace of 13-, 14- the second feeding infrared sensing
Device, 15- chain, 16- motor, 17- gear, 18- lower gear, 19- third translation conveyors, 20- the second rewinding infrared sensing
Device, the 4th translation conveyors of 21-, 22- guide rail.
Specific embodiment
Fig. 1-7 is please referred to, the utility model provides a kind of technical solution:
A kind of on-line automatic induction annealing device of crimping material strip, including charging transition belt 1, feeding conveyer belt 2, installation
Frame 3, infeed conveyor 5 and feeding transition belt 6, it is described charging transition belt 1 right positions on be equipped with conveying biography
Band 2 is sent, the first translation conveyors 7 are installed on the charging transition belt 1, are equipped with second in the feeding conveyer belt 2
Translation conveyors 9, the installation site of first translation conveyors 7 is corresponding with the installation site of the second translation conveyors 9, institute
It states and infrared inductor 8 is installed on the middle position of feeding conveyer belt 2, the feeding conveyer belt 2 and charging transition belt 1
Front position on the first feeding infrared sensor 10 is all installed, be equipped on the front position of the feeding conveyer belt 2
Shelve 3, from left to right uniformly there are three guide rails 22 for installation inside the mounting rack 3, and between two adjacent guide rails 22
It is disposed with the first annealing furnace 11 and the second annealing furnace 13, the left and right sides of 3 lower section of mounting rack is symmetrically installed with motor
16, the output shaft of two motors 16 is rotatablely connected between two lower gears 18 respectively, the top of three guide rails 22
It is separately installed with four gears 17 on position, and is rotatablely connected between the two neighboring gear 17 by shaft, three
Lower gear 18 there are four being symmetrically installed on the position of 22 lower section of guide rail, passes through chain between the gear 17 and lower gear 18
Item 15 connects, and is equipped with feeding transition belt 6 on the front position of first annealing furnace 11, second annealing furnace 13
Infeed conveyor 5 is installed on front position, third translation conveyors 19 are installed on the feeding transition belt 6, it is described
4th translation conveyors 21, the installation site of the third translation conveyors 19 and the 4th translation are installed on infeed conveyor 5
The installation site of conveyer 21 is corresponding.
It is slidably connected between first annealing furnace 11 and two guide rails 22, first annealing furnace 11 is arranged two
On the middle position of a chain 15, first annealing furnace 11 is connect with two chains 15, first annealing furnace
First rewinding infrared sensor 12 is installed, the first rewinding infrared sensor 12 is passed with charging transition on 11 rear position
Send the installation site of the first feeding infrared sensor 10 in 1 front of band corresponding, on the front position of first annealing furnace 11
Second feeding infrared sensor 14 is installed, is slidably connected between second annealing furnace 13 and two guide rails 22, guide rail
22, being used cooperatively between mounting rack 3, chain 15, gear 17 and lower gear 18, increases the automatization level of the device,
Make the device that can carry out blanking while being annealed, material strip can be transported to subsequent processing, while infrared inductor 8,
One feeding infrared sensor 10, the second feeding infrared sensor 14, the first rewinding infrared sensor 12 and the infrared biography of the second rewinding
Being used cooperatively between sensor 20 increases the intelligent level of the device, make device carry out using when can be realized precisely
Feeding, ensure that the accuracy of processing, avoid the generation of waste material, second annealing furnace 13 is arranged in two chains 15
Middle position on, second annealing furnace 13 is connect with two chains 15, the rear position of second annealing furnace 13
On the first rewinding infrared sensor 12 is installed, the first rewinding infrared sensor 12 and the first of 2 front of feeding conveyer belt
The installation site of feeding infrared sensor 10 is corresponding, and it is red to be equipped with the second feeding on the front position of second annealing furnace 13
Outer sensor 14, the second feeding infrared sensor 14 in 11 front of the first annealing furnace and 6 rear of feeding transition belt
The installation site of second rewinding infrared sensor 20 is corresponding, the second feeding infrared sensor in 13 front of the second annealing furnace
14 is corresponding with the installation site of the second rewinding infrared sensor 20 at 5 rear of infeed conveyor, is equipped on the mounting rack 3
Electric cabinet 4, the electric cabinet 4 are conveyed with motor 16, the first translation conveyors 7, the second translation conveyors 9, third translation respectively
It is electrically connected between machine 19 and the 4th translation conveyors 21, the height of the feeding transition belt 6 and feeding conveyer belt 2
Higher than the height of feeding transition belt 6 and infeed conveyor 5, transition belt 1, feeding transition belt 6, first are fed
Being used cooperatively between annealing furnace 11 and the second annealing furnace 13, increases the working efficiency of the device, and the device is using double transports
Mode, increase conevying efficiency, improve shipping mass, access link and wait few, avoid carrying out in use, when moving back
When firer's sequence does not complete, material strip conveys the problem of coming to lead to material accumulation, increases the cleaning of processing environment.
The model 36MT-3PG-EN of electric cabinet 47, the first feeding infrared sensor 10, the first rewinding infrared sensor
12, the model LHl958 of the second feeding infrared sensor 14, the second rewinding infrared sensor 20, the model of infrared inductor 8
For RE200B, the first translation conveyors 7, the second translation conveyors 9, third translation conveyors 19 and the 4th translation conveyors 21
Model LS3210-L, the model DY-TH1000 of the first annealing furnace 11 and the second annealing furnace 13.
Workflow: in use, the device is connected to extraneous power supply, the first annealing furnace 11 and the second annealing when not in use
Furnace 13 is all arranged on the lower position of mounting rack 3, and when carrying out conveying, material strip is fed forward under the transmission of feeding conveyer belt 2,
When infrared inductor 8 perceives material strip, the motor 16 on 3 right side of mounting rack works at this time, and the motor 16 on right side drives lower gear 18
Rotation, being used cooperatively between lower gear 18, gear 17 and chain 15, chain 15 drives the second annealing furnace 13 to move up at this time,
The first rewinding infrared sensor 12 on second annealing furnace 13 and the first feeding infrared sensor 10 in front of infeed conveyor 5 are right
When connecing inductive signal, motor 16 stops working at this time, and material strip is transported in the second annealing furnace 13 and moves back by feeding conveyer belt 2
Fire, when material strip is completely into the second annealing furnace 13, the motor 16 on right side is inverted, and chain 15 drives the second annealing furnace 13 multiple
Position, in the process, second material strip is perceived by infrared inductor 8, and the motor 16 in left side works at this time, 16 band of motor in left side
Dynamic lower gear 18 rotates, being used cooperatively between lower gear 18, gear 17 and chain 15, and chain 15 drives the first annealing at this time
Furnace 11 moves up, the first feeding of the first rewinding infrared sensor 12 on the first annealing furnace 11 and 1 front of charging transition belt
When infrared sensor 10 docks inductive signal, motor 16 stops working at this time, and the first translation conveyors 7 and the second translation are defeated at this time
It send and cooperates between machine 9, material strip is transported on charging transition belt 1, material strip is transported to the by the second transition belt
It anneals in one annealing furnace 11, at this time the second feeding infrared sensor 14 and infeed conveyor 5 in 13 front of the second annealing furnace
On the second rewinding infrared sensor 20 dock inductive signal, the second annealing furnace 13 will annealing complete material strip be transported to feeding biography
It send on band 5, when material strip is completely into the first annealing furnace 11, left motor 16 is inverted, and chain 15 drives the first annealing furnace
11 reset, the second feeding infrared sensor 14 when 11 front of the first annealing furnace and the second rewinding on feeding transition belt 6
Infrared sensor 20 docks inductive signal, and material strip is transported on feeding transition belt 6 by the first annealing furnace 11, and the 4th translation is defeated
Send and be used cooperatively between machine 21 and third translation conveyors 19, material strip is transported on infeed conveyor 5, at this time next material strip into
Enter at 8 position of infrared inductor, right motor 16 work, be thus repeated, in the process, guide rail 22, mounting rack 3,
Being used cooperatively between chain 15, gear 17 and lower gear 18, increases the automatization level of the device, make the device into
Blanking can be carried out while row annealing, material strip can be transported to subsequent processing, while infrared inductor 8, the infrared biography of the first feeding
Between sensor 10, the second feeding infrared sensor 14, the first rewinding infrared sensor 12 and the second rewinding infrared sensor 20
Be used cooperatively, increase the intelligent level of the device, make device carry out using when can be realized accurately feeding, ensure that
The accuracy of processing avoids the generation of waste material, and moreover, charging transition belt 1, feeding transition belt 6, first are annealed
Being used cooperatively between furnace 11 and the second annealing furnace 13, increases the working efficiency of the device, and the device is using double sides transported
Formula increases conevying efficiency, improves shipping mass, accesses link and waits less, avoids carrying out in use, working as lehr attendant
When sequence does not complete, material strip conveys the problem of coming to lead to material accumulation, increases the cleaning of processing environment.
Claims (6)
1. a kind of on-line automatic induction annealing device of crimping material strip, including charging transition belt (1), feeding conveyer belt (2), peace
Shelve (3), infeed conveyor (5) and feeding transition belt (6), it is characterised in that: the right side of charging transition belt (1)
It is equipped on side position feeding conveyer belt (2), the first translation conveyors (7), institute is installed on the charging transition belt (1)
It states and is equipped on feeding conveyer belt (2) the second translation conveyors (9), the installation site of first translation conveyors (7) and the
The installation site of two translation conveyors (9) is corresponding, is equipped with infrared inductor on the middle position of the feeding conveyer belt (2)
(8), the infrared biography of the first feeding is all installed on the front position of the feeding conveyer belt (2) and charging transition belt (1)
Sensor (10) is equipped with mounting rack (3) on the front position of the feeding conveyer belt (2), the mounting rack (3) it is internal from a left side to
There are three guide rail (22) for right uniformly installation, and are disposed with the first annealing furnace (11) between two adjacent guide rails (22)
With the second annealing furnace (13), the left and right sides below the mounting rack (3) is symmetrically installed with motor (16), two motors
(16) output shaft is rotatablely connected between two lower gears (18) respectively, on the top position of three guide rails (22) respectively
There are four gear (17) for installation, and are rotatablely connected between the two neighboring gear (17) by shaft, lead described in three
There are four being symmetrically installed on position below rail (22) lower gear (18), pass through between the gear (17) and lower gear (18)
Chain (15) connects, and is equipped with feeding transition belt (6) on the front position of first annealing furnace (11), described second moves back
It is equipped on the front position of stove (13) infeed conveyor (5), third translation is installed on the feeding transition belt (6)
Conveyer (19) is equipped with the 4th translation conveyors (21), the third translation conveyors (19) on the infeed conveyor (5)
Installation site it is corresponding with the installation site of the 4th translation conveyors (21).
2. the on-line automatic induction annealing device of a kind of crimping material strip according to claim 1, it is characterised in that: described first
It is slidably connected between annealing furnace (11) and two guide rails (22), first annealing furnace (11) is arranged in two chains
(15) on middle position, first annealing furnace (11) connect with two chains (15), first annealing furnace (11)
Rear position on the first rewinding infrared sensor (12) is installed, the first rewinding infrared sensor (12) and charging transition
The installation site of the first feeding infrared sensor (10) in front of conveyer belt (1) is corresponding, before first annealing furnace (11)
Orientation, which is set, is equipped with the second feeding infrared sensor (14).
3. the on-line automatic induction annealing device of a kind of crimping material strip according to claim 1, it is characterised in that: described second
It is slidably connected between annealing furnace (13) and two guide rails (22), second annealing furnace (13) is arranged in two chains
(15) on middle position, second annealing furnace (13) connect with two chains (15), second annealing furnace (13)
Rear position on the first rewinding infrared sensor (12) is installed, the first rewinding infrared sensor (12) and conveying transmit
The installation site of the first feeding infrared sensor (10) in front of band (2) is corresponding, the front position of second annealing furnace (13)
It sets and the second feeding infrared sensor (14) is installed.
4. the on-line automatic induction annealing device of a kind of crimping material strip according to claim 1, it is characterised in that: described first
The infrared biography of the second rewinding of the second feeding infrared sensor (14) and feeding transition belt (6) rear in front of annealing furnace (11)
The installation site of sensor (20) is corresponding, the second feeding infrared sensor (14) and feeding in front of second annealing furnace (13)
The installation site of the second rewinding infrared sensor (20) at conveyer belt (5) rear is corresponding.
5. the on-line automatic induction annealing device of a kind of crimping material strip according to claim 1, it is characterised in that: the installation
It is equipped on frame (3) electric cabinet (4), the electric cabinet (4) translates with motor (16), the first translation conveyors (7), second respectively
It is electrically connected between conveyer (9), third translation conveyors (19) and the 4th translation conveyors (21).
6. the on-line automatic induction annealing device of a kind of crimping material strip according to claim 1, it is characterised in that: the feeding
The height of transition belt (6) and feeding conveyer belt (2) is higher than feeding transition belt (6) and infeed conveyor (5)
Highly.
Priority Applications (1)
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CN201920067500.5U CN209508353U (en) | 2019-01-15 | 2019-01-15 | A kind of on-line automatic induction annealing device of crimping material strip |
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CN201920067500.5U CN209508353U (en) | 2019-01-15 | 2019-01-15 | A kind of on-line automatic induction annealing device of crimping material strip |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112756529A (en) * | 2020-12-24 | 2021-05-07 | 江苏东浦钨钼制品有限责任公司 | Reciprocating type molybdenum rod processing system that links up pay-off |
-
2019
- 2019-01-15 CN CN201920067500.5U patent/CN209508353U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112756529A (en) * | 2020-12-24 | 2021-05-07 | 江苏东浦钨钼制品有限责任公司 | Reciprocating type molybdenum rod processing system that links up pay-off |
CN112756529B (en) * | 2020-12-24 | 2024-03-12 | 江苏东浦钨钼制品有限责任公司 | Molybdenum rod processing system capable of reciprocating continuous feeding |
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GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: An on-line automatic induction annealing device for curling strip Effective date of registration: 20220629 Granted publication date: 20191018 Pledgee: Wuxi Xishan sub branch of Bank of Jiangsu Co.,Ltd. Pledgor: Wuxi Weida New Materials Technology Co.,Ltd. Registration number: Y2022320010297 |
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PE01 | Entry into force of the registration of the contract for pledge of patent right |