CN205328071U - Multichannel formula conveying system's auto -change over device and multichannel formula conveying system - Google Patents
Multichannel formula conveying system's auto -change over device and multichannel formula conveying system Download PDFInfo
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- CN205328071U CN205328071U CN201620110899.7U CN201620110899U CN205328071U CN 205328071 U CN205328071 U CN 205328071U CN 201620110899 U CN201620110899 U CN 201620110899U CN 205328071 U CN205328071 U CN 205328071U
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- blanking tube
- material blanking
- tube parts
- switching
- supply unit
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- 239000000463 material Substances 0.000 claims abstract description 165
- 230000006698 induction Effects 0.000 claims description 55
- 229910000831 Steel Inorganic materials 0.000 claims description 6
- 239000010959 steel Substances 0.000 claims description 6
- 239000003082 abrasive agent Substances 0.000 claims description 3
- 230000033001 locomotion Effects 0.000 description 3
- 230000000903 blocking effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 150000001875 compounds Chemical class 0.000 description 1
- 230000007257 malfunction Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000005406 washing Methods 0.000 description 1
Abstract
The utility model relates to a conveying system field, and auto -change over device and a multichannel formula conveying system of a multichannel formula conveying system are disclosed, this multichannel formula conveying system includes first via conveying unit and second way conveying unit, first via conveying unit includes many first conveyer belts and a plurality of first blanking pipe part, second way conveying unit includes many second conveyer belts and a plurality of second blanking pipe part, first blanking pipe part and the respective blanking of second blanking pipe part are managed and are intersected the intercommunication at the cross connection position, auto -change over device including set up in the switching baffle at cross connection position with be used for the drive to switch the actuating mechanism of baffle, should switch that the baffle passes through actuating mechanism's drive and optionally switches in the primary importance and the second place to the output of the first blanking of optionally shutoff pipe part or the output of second blanking pipe part. The utility model discloses a multichannel formula conveying system's auto -change over device can switch the transportation with the material between the conveying unit of difference.
Description
Technical field
This utility model relates to induction system field, in particular it relates to the switching device of a kind of Multi-channel type induction system。Additionally, this utility model further relates to a kind of Multi-channel type induction system。
Background technology
At present, the conveying of the loose unpacked material such as power plant, mine, harbour is generally adopted two-way and is arranged in parallel belt conveyor systems。Affecting the many factors that induction system is properly functioning, such as belt deviation, conveyer electrical equipment malfunction, single channel belt tearing, driving device and take-up device fault etc. all can directly affect the properly functioning of conveying mechanism, thus affecting safety in production further。Therefore, the be arranged in parallel reliability of belt conveyor systems, seriality, promptness, safety of two-way is basis and the premise of its stable operation。
As depicted in figs. 1 and 2, the two-way belt conveyor systems that is arranged in parallel generally comprises the first via supply unit 1 and the second road supply unit 2 that are arranged in parallel, the first material blanking tube parts 1b that first via supply unit 1 includes a plurality of first conveyer belt 1a and multicomponent is not connected between the first adjacent conveyer belt 1a, the second material blanking tube parts 2b that the second road supply unit 2 includes a plurality of second conveyer belt 2a and multicomponent is not connected between the second adjacent conveyer belt 2a。When induction system is run, the one in first via supply unit 1 and the second road supply unit 2 is run, and another one is then standby。In running, when the one in first via supply unit 1 and the second road supply unit 2 breaks down, material on the supply unit of this fault just cannot be transported to destination, only by artificial mode, the material on the supply unit of this fault is joined on standby supply unit, then proceed to conveying, thus substantially increase the labor intensity of workman, and reduce the whole efficiency of induction system。
In view of this, it is desirable to provide the switching device of a kind of Multi-channel type induction system that material can be switched transhipment between different supply units。
Utility model content
Technical problem to be solved in the utility model is to provide the switching device of a kind of Multi-channel type induction system, and material can be switched transhipment by the switching device of this Multi-channel type induction system between different supply units。
Another technical problem to be solved in the utility model is to provide a kind of Multi-channel type induction system, and material can be switched transhipment by the switching device of this Multi-channel type induction system between different supply units。
In order to solve above-mentioned technical problem, this utility model provides the switching device of a kind of Multi-channel type induction system, this Multi-channel type induction system includes first via supply unit and the second road supply unit, described first via supply unit includes a plurality of first conveyer belt and multiple the first material blanking tube parts being connected between adjacent described first conveyer belt, described second road supply unit includes a plurality of second conveyer belt and multiple the second material blanking tube parts being connected between adjacent described second conveyer belt, described first material blanking tube parts and the second material blanking tube parts all include material blanking tube, described first material blanking tube parts and the described second respective material blanking tube of material blanking tube parts intersect at interconnection position and connect, described switching device includes being arranged at the switching baffle plate at described interconnection position and for driving the driving mechanism of described switching baffle plate, this switching baffle plate is optionally switched with the second position in primary importance by the driving of described driving mechanism, optionally to block the outfan of described first material blanking tube parts or the outfan of described second material blanking tube parts。
Preferably, described driving mechanism includes switching shaft and the driver element for driving described switching shaft to rotate, and one end of described switching baffle plate is installed on described switching shaft。
Preferably, described driver element include being connected to described switching shaft crank arm and with described hinged linear driving mechanism of cranking arm, described switching device also includes the bearing block fixed, and described switching shaft is arranged in the installing hole of described bearing block。
Preferably, the other end of described switching baffle plate be formed as knife-edge。
Preferably, described switching baffle plate is formed by the steel plate that 20-30mm is thick, and is coated with stainless sheet steel outside this switching baffle plate。
Preferably, described switching device also includes for controlling described switching baffle plate optionally in the control unit of primary importance with second position switching。
On the basis of the switching device of above-mentioned Multi-channel type induction system, this utility model also provides for a kind of Multi-channel type induction system, this Multi-channel type induction system includes first via supply unit, the switching device of the second road supply unit and Multi-channel type induction system of the present utility model, described first via supply unit includes a plurality of first conveyer belt and multiple the first material blanking tube parts being connected between adjacent described first conveyer belt, described second road supply unit includes a plurality of second conveyer belt and multiple the second material blanking tube parts being connected between adjacent described second conveyer belt, described first material blanking tube parts and the second material blanking tube parts all include material blanking tube。
Preferably, described first material blanking tube parts and the described second respective material blanking tube of material blanking tube parts are provided with Anti-sticking material device。
Preferably, described first material blanking tube parts and the described second respective material blanking tube of material blanking tube parts make circular pipe by high-abrasive material。
Preferably, described first material blanking tube parts and described second material blanking tube parts are all formed as being easy to the shape of material conveying, described first material blanking tube parts also include two ends and connect the material blanking tube of described first material blanking tube parts and the first connecting portion of described first conveyer belt respectively, this first connecting portion is vertically arranged, and the angle between this first connecting portion of conveying direction and the material blanking tube of described first material blanking tube parts of material is obtuse angle, described second material blanking tube parts also include two ends and connect the material blanking tube of described second material blanking tube parts and the second connecting portion of described second conveyer belt respectively, this second connecting portion is vertically arranged, and the angle between this second connecting portion of conveying direction and the material blanking tube of described second material blanking tube parts of material is obtuse angle。
The switching device of Multi-channel type induction system of the present utility model can when the one in first via supply unit and the second road supply unit breaks down, start its switching device, another one in material transfer on the supply unit broken down to first via supply unit and the second road supply unit will continue conveying, thus being avoided by artificial mode, the material on the supply unit of this fault is joined on standby supply unit, the switching device of visible Multi-channel type induction system of the present utility model can improve reliability and the efficiency of Multi-channel type induction system, and the labor intensity of workman can be reduced。
Other features and advantages of the utility model will be described in detail in detailed description of the invention part subsequently。
Accompanying drawing explanation
Accompanying drawing is used to offer and is further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, but is not intended that restriction of the present utility model together with detailed description below。In the accompanying drawings:
Fig. 1 is the structural representation of existing Multi-channel type induction system;
Fig. 2 is the concrete structure schematic diagram of the Multi-channel type induction system in Fig. 1;
Fig. 3 is the structural representation of the Multi-channel type induction system according to detailed description of the invention of the present utility model;
Fig. 4 is the structural representation (wherein, the true form of the first material blanking tube parts and the second respective material blanking tube of material blanking tube parts is shown in Figure 5) of the switching device of the Multi-channel type induction system in Fig. 3;
Fig. 5 is the zoomed-in view of the switching device of the Multi-channel type induction system in Fig. 4;
Fig. 6 is the concrete structure schematic diagram of the switching device of the Multi-channel type induction system in Fig. 4。
Description of reference numerals
1, first via supply unit 1a, the first conveyer belt
1b, first material blanking tube parts the 2, second road supply unit
2a, the second conveyer belt 2b, the second material blanking tube parts
3, interconnection position 4, switching device
4a, switching baffle plate 4b, crank arm
4c, linear driving mechanism 4d, switching shaft
4e, bearing block
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail。It should be appreciated that detailed description of the invention described herein is merely to illustrate and explains this utility model, it is not limited to this utility model。
This utility model provides the switching device of a kind of Multi-channel type induction system, specifically, as shown in figures 3 to 6, this Multi-channel type induction system includes first via supply unit 1 and the second road supply unit 2, described first via supply unit 1 includes a plurality of first conveyer belt 1a and multiple the first material blanking tube parts 1b being connected between adjacent described first conveyer belt 1a, described second road supply unit 2 includes a plurality of second conveyer belt 2a and multiple the second material blanking tube parts 2b being connected between adjacent described second conveyer belt 2a, described first material blanking tube parts 1b and the second material blanking tube parts 2b all includes material blanking tube, described first material blanking tube parts 1b and the described second material blanking tube respective material blanking tube of parts 2b intersect at interconnection position 3 and connect, described switching device 4 includes being arranged at the switching baffle plate 4a at described interconnection position 3 and for driving the driving mechanism of described switching baffle plate 4, this switching baffle plate 4a is optionally switched with the second position in primary importance by the driving of described driving mechanism, optionally to block the outfan of described first material blanking tube parts 1b or the outfan of described second material blanking tube parts 2b。
It should be noted that the specific constructive form of first via supply unit the 1, second road supply unit 2 and switching baffle plate 4 can be arranged as required to, these belong within technology concept of the present utility model。
The switching device of Multi-channel type induction system of the present utility model can when the one in first via supply unit 1 and the second road supply unit 2 breaks down, start its switching device, another one in material transfer on the supply unit broken down to first via supply unit 1 and the second road supply unit 2 will continue conveying, thus being avoided by artificial mode, the material on the supply unit of this fault is joined on standby supply unit, the switching device of visible Multi-channel type induction system of the present utility model can improve reliability and the efficiency of Multi-channel type induction system, and the labor intensity of workman can be reduced。Such as, when use first via supply unit 1 carry material and using the second road supply unit 2 as standby supply unit time, under normal circumstances, switching device makes switching baffle plate 4a be positioned at the second position of the outfan blocking the second material blanking tube parts 2b and guarantee that the first material blanking tube parts 1b is unobstructed;When first via supply unit 1 breaks down, switching baffle plate 4a can be made to move to primary importance by driving mechanism, to block the outfan of the first material blanking tube parts 1b and to get out of the way the outfan of the second material blanking tube parts 2b, so that being exported by the outfan of the second material blanking tube parts 2b through interconnection position 3 by the first material blanking tube parts 1b material entered, efficiently accomplish the transfer of material and the switching of supply unit。
In this utility model, multi-form driving mechanism can be arranged as required to, so that switching baffle plate 4a realizes different motions, as long as can switch in primary importance and the second position and block the outfan of the first material blanking tube parts 1b and the outfan of described second material blanking tube parts 2b in primary importance and the second position respectively。
In the switching device of Multi-channel type induction system of the present utility model, specifically, described driving mechanism includes switching shaft 4d and for driving the described switching shaft 4d driver element rotated, one end of described switching baffle plate 4a is installed on described switching shaft 4d, rotate thereby through drive unit drives switching shaft 4d and make switching baffle plate 4a swing, so that optionally in primary importance and second position switching, in order to optionally block the outfan of the first material blanking tube parts 1b or the outfan of the second material blanking tube parts 2b。More specifically, described driver element include being connected to described switching shaft crank arm 4b and with described linear driving mechanism 4c hinged for the 4b that cranks arm, described switching device also includes the bearing block 4e fixed, described switching shaft 4d is arranged in the installing hole of described bearing block 4e, thus the rectilinear motion of linear driving mechanism 4c is changed into the rotary motion of switching shaft 4d。
It should be noted that, the specific constructive form of switching device 4 is not limited in above form, such as switching device 4 can include two the switching baffle plates being separately positioned on interconnection position 3, this switching baffle plate corresponds respectively to the first material blanking tube parts 1b and the described second material blanking tube respective material blanking tube of parts 2b, and this switching baffle plate can by the driving of driving mechanism optionally in primary importance (on position) and the second position (withdrawn position) switching, optionally to block the outfan of the first material blanking tube parts 1b or the outfan of the second material blanking tube parts 2b。
In the switching device of above-mentioned Multi-channel type induction system, it is preferable that the other end of described switching baffle plate 4 be formed as knife-edge, in order to slow down material to switching the washing away and clashing into of baffle plate 4 side。
In the switching device of above-mentioned Multi-channel type induction system, more preferably, described switching baffle plate 4 is formed (being preferably 20mm) by the steel plate that 20-30mm is thick, and this switching baffle plate 4 is outside is coated with stainless sheet steel, to reduce the friction that material produces when switching the conveying of baffle plate 4 front, extend the service life of switching baffle plate 4。
In the switching device of Multi-channel type induction system of the present utility model, more preferably, described switching device 4 also includes for controlling described switching baffle plate 4a optionally in the control unit of primary importance with second position switching, specifically, this control unit can be scattered control system such that it is able to remotely control switching baffle plate 4a in primary importance and second position switching。
In addition, this utility model also provides for a kind of Multi-channel type induction system, this Multi-channel type induction system includes first via supply unit 1, the switching device of the second road supply unit 2 and Multi-channel type induction system of the present utility model, described first via supply unit 1 includes a plurality of first conveyer belt 1a and multiple the first material blanking tube parts 1b being connected between adjacent described first conveyer belt 1a, described second road supply unit 2 includes a plurality of second conveyer belt 2a and multiple the second material blanking tube parts 2b being connected between adjacent described second conveyer belt 2a, described first material blanking tube parts 1b and the second material blanking tube parts 2b all includes material blanking tube。
The switching device of Multi-channel type induction system of the present utility model can when the one in first via supply unit 1 and the second road supply unit 2 breaks down, start its switching device, another one in material transfer on the supply unit broken down to first via supply unit 1 and the second road supply unit 2 will continue conveying, thus being avoided by artificial mode, the material on the supply unit of this fault is joined on standby supply unit, the switching device of visible Multi-channel type induction system of the present utility model can improve reliability and the efficiency of Multi-channel type induction system, and the labor intensity of workman can be reduced。
In Multi-channel type induction system of the present utility model, preferably, it is provided with Anti-sticking material device, thus preventing material from being blocked by respective for the first material blanking tube parts 1b and the second material blanking tube parts 2b material blanking tube in described first material blanking tube parts 1b and the described second material blanking tube respective material blanking tube of parts 2b。
In Multi-channel type induction system of the present utility model, more preferably, described first material blanking tube parts 1b and the described second material blanking tube respective material blanking tube of parts 2b make circular pipe by high-abrasive material such that it is able to improve the first material blanking tube parts 1b and the service life of the second material blanking tube respective material blanking tube of parts 2b。
In Multi-channel type induction system of the present utility model, further preferably, described first material blanking tube parts 1b and described second material blanking tube parts 2b is all formed as being easy to the shape of material conveying, specifically, described first material blanking tube parts 1b also includes two ends and connects the material blanking tube of the first material blanking tube parts 1b and first connecting portion of the first conveyer belt 1a respectively, this first connecting portion is vertically arranged, and the angle between this first connecting portion of conveying direction and the material blanking tube of the first material blanking tube parts 1b of material is obtuse angle, described second material blanking tube parts 2b also includes two ends and connects the material blanking tube of the second material blanking tube parts 2b and second connecting portion of the second conveyer belt 2a respectively, this second connecting portion is vertically arranged, and the angle between this second connecting portion of conveying direction and the material blanking tube of the second material blanking tube parts 2b of material is obtuse angle, described first material blanking tube parts 1b and the described second material blanking tube respective material blanking tube of parts 2b are all formed as the twisted tube smoothly transitted, consequently facilitating material is by the first material blanking tube parts 1b and the second material blanking tube respective material blanking tube of parts 2b, prevent blocking。
Preferred implementation of the present utility model is described in detail above in association with accompanying drawing; but; this utility model is not limited to the detail in above-mentioned embodiment; in technology concept of the present utility model; the technical solution of the utility model can being carried out multiple simple variant, these simple variant belong to protection domain of the present utility model。
It is further to note that, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, it is possible to be combined by any suitable mode, in order to avoid unnecessary repetition, various possible compound modes are no longer illustrated by this utility model separately。
Additionally, can also carry out combination in any between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally。
Claims (10)
1. the switching device of a Multi-channel type induction system, this Multi-channel type induction system includes first via supply unit (1) and the second road supply unit (2), described first via supply unit (1) includes a plurality of first conveyer belt (1a) and multiple the first material blanking tube parts (1b) being connected between adjacent described first conveyer belt (1a), described second road supply unit (2) includes a plurality of second conveyer belt (2a) and multiple the second material blanking tube parts (2b) being connected between adjacent described second conveyer belt (2a), described first material blanking tube parts (1b) and the second material blanking tube parts (2b) all include material blanking tube, it is characterized in that, described first material blanking tube parts (1b) and described second material blanking tube parts (2b) respective material blanking tube intersect in interconnection position (3) and connect, described switching device (4) includes being arranged at the switching baffle plate (4a) of described interconnection position (3) and being used for driving the driving mechanism of described switching baffle plate (4), this switching baffle plate (4a) is optionally switched with the second position in primary importance by the driving of described driving mechanism, optionally to block the outfan of described first material blanking tube parts (1b) or the outfan of described second material blanking tube parts (2b)。
2. switching device according to claim 1, it is characterized in that, described driving mechanism includes switching shaft (4d) and is used for the driver element driving described switching shaft (4d) to rotate, and one end of described switching baffle plate (4a) is installed on described switching shaft (4d)。
3. switching device according to claim 2, it is characterized in that, described driver element includes being connected to cranking arm (4b) and the linear driving mechanism (4c) hinged with described crank arm (4b) of described switching shaft (4d), described switching device also includes the bearing block (4e) fixed, and described switching shaft (4d) is arranged in the installing hole of described bearing block (4e)。
4. switching device according to claim 2, it is characterised in that the other end of described switching baffle plate (4) be formed as knife-edge。
5. switching device according to claim 2, it is characterised in that described switching baffle plate (4) is formed by the steel plate that 20-30mm is thick, and it is coated with stainless sheet steel outside this switching baffle plate (4)。
6. switching device according to claim 1, it is characterised in that described switching device (4) also includes for controlling described switching baffle plate (4a) optionally in the control unit of primary importance with second position switching。
7. a Multi-channel type induction system, this Multi-channel type induction system includes first via supply unit (1) and the second road supply unit (2), described first via supply unit (1) includes a plurality of first conveyer belt (1a) and multiple the first material blanking tube parts (1b) being connected between adjacent described first conveyer belt (1a), described second road supply unit (2) includes a plurality of second conveyer belt (2a) and multiple the second material blanking tube parts (2b) being connected between adjacent described second conveyer belt (2a), described first material blanking tube parts (1b) and the second material blanking tube parts (2b) all include material blanking tube, it is characterized in that, this Multi-channel type induction system includes the switching device of the Multi-channel type induction system according to any one in claim 1-6。
8. Multi-channel type induction system according to claim 7, it is characterised in that described first material blanking tube parts (1b) and be provided with Anti-sticking material device in described second material blanking tube parts (2b) respective material blanking tube。
9. the Multi-channel type induction system according to claim 7 or 8, it is characterised in that described first material blanking tube parts (1b) and described second material blanking tube parts (2b) respective material blanking tube make circular pipe by high-abrasive material。
10. Multi-channel type induction system according to claim 9, it is characterized in that, described first material blanking tube parts (1b) and described second material blanking tube parts (2b) are all formed as being easy to the shape of material conveying, described first material blanking tube parts (1b) also include two ends and connect the material blanking tube of described first material blanking tube parts (1b) and the first connecting portion of described first conveyer belt (1a) respectively, this first connecting portion is vertically arranged, and the angle between this first connecting portion of conveying direction and the material blanking tube of described first material blanking tube parts (1b) of material is obtuse angle, described second material blanking tube parts (2b) also include two ends and connect the material blanking tube of described second material blanking tube parts (2b) and the second connecting portion of described second conveyer belt (2a) respectively, this second connecting portion is vertically arranged, and the angle between this second connecting portion of conveying direction and the material blanking tube of described second material blanking tube parts (2b) of material is obtuse angle。
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CN201620110899.7U CN205328071U (en) | 2016-02-03 | 2016-02-03 | Multichannel formula conveying system's auto -change over device and multichannel formula conveying system |
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CN201620110899.7U CN205328071U (en) | 2016-02-03 | 2016-02-03 | Multichannel formula conveying system's auto -change over device and multichannel formula conveying system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109093015A (en) * | 2018-07-17 | 2018-12-28 | 芜湖固高自动化技术有限公司 | A kind of automatic charging equipment for spinning machine |
CN113646603A (en) * | 2019-02-25 | 2021-11-12 | 莱奥纳尔多股份公司 | Actuation system for firearm |
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2016
- 2016-02-03 CN CN201620110899.7U patent/CN205328071U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109093015A (en) * | 2018-07-17 | 2018-12-28 | 芜湖固高自动化技术有限公司 | A kind of automatic charging equipment for spinning machine |
CN113646603A (en) * | 2019-02-25 | 2021-11-12 | 莱奥纳尔多股份公司 | Actuation system for firearm |
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