CN216735955U - Single-outlet belt, double-outlet belt, conveying device and stamping line - Google Patents
Single-outlet belt, double-outlet belt, conveying device and stamping line Download PDFInfo
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- CN216735955U CN216735955U CN202123349629.1U CN202123349629U CN216735955U CN 216735955 U CN216735955 U CN 216735955U CN 202123349629 U CN202123349629 U CN 202123349629U CN 216735955 U CN216735955 U CN 216735955U
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Abstract
The utility model relates to an auto parts carries technical field, more specifically relates to a single belt and two belts of being qualified for next round of competitions and conveyor and press line thereof, wherein singly go out the line belt, including connecting gradually L type structure unloading belt, quality testing belt, turning belt, vanning belt. The utility model discloses a single belt of being qualified for the next round of competitions, rotatory ejection of compact function is realized to usable belt, carries out the functional partitioning to the region of belt difference simultaneously, satisfies conveying, quality control, packing requirement.
Description
Technical Field
The utility model relates to an auto parts carries technical field, more specifically relates to a single belt and two belts of being qualified for next round of competitions and conveyor and press line thereof.
Background
In order to meet the requirement of high-speed automation of a stamping production line, 2 linear conveying belts are generally arranged at the tail of the production line and used for quality inspection and part framing. Because large-scale parts such as side wall need rotate, then need increase a shuttle and rotatory manipulator at press line production line tail, realize this function, and add these two stations more not only greatly increased the length of production line, but also increased area and equipment cost.
The prior patent discloses a belt with turn function, can replace shuttle and rotatory manipulator through the function that the belt turned, realize the rotation function of part, but this kind of device can only carry out the part transfer function simply, and the speed of whole belt is certain, and at the in-process that the automobile parts was being carried, still will realize quality control and packing function simultaneously, consequently, on the transfer route, the functional area of difference will carry out the speed governing to the belt conveying, in order to satisfy conveying, quality control, packing requirement.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome prior art not enough, provide a single belt of being qualified for the next round of competitions, rotatory ejection of compact function is realized to usable belt, carries out the functional partitioning to the region of belt difference simultaneously, satisfies conveying, quality control, packing requirement.
In order to solve the technical problem, the utility model discloses a technical scheme is:
the utility model provides a single-outlet belt, including the unloading belt, quality testing belt, the turn belt, the vanning belt that connect gradually into L type structure and can carry out independent control respectively to its rotational speed and turn to.
The utility model discloses a single belt of being qualified for next round of competitions utilizes the turn function of L type structure, realizes rotatory ejection of compact. The unloading belt is used for accepting the part of stamping wire tail, and the quality testing belt is for carrying out the quality testing region to the part, and the turning belt carries out the rotatory output of part, and the vanning belt is for carrying out the vanning region to the part. Of course, the L-shaped structure here is a broad concept, and may be a perpendicular intersection or an arc shape having a certain curvature at the intersection.
Preferably, the length of the boxing belt is greater than that of the quality inspection belt, and the length of the quality inspection belt is greater than that of the blanking belt.
Preferably, the heights of the blanking belt, the quality inspection belt, the turning belt and the boxing belt are distributed in a step mode, and the blanking belt is located at the highest position.
Preferably, the blanking belt, the quality inspection belt and the boxing belt are of straight-line segment structures, and the turning belt is of an arc-line segment structure.
Preferably, an included angle is formed between the blanking belt and the boxing belt, and the included angle is 45-135 degrees.
The utility model also provides a single belt conveyor that is qualified for next round of competitions, include as above single belt, unloading belt drive mechanism, quality testing belt drive mechanism, turn belt drive mechanism, vanning belt drive mechanism, controller of being qualified for next round of competitions, the unloading belt with unloading belt drive mechanism connects, the quality testing belt with quality testing belt drive mechanism connects, the turning belt with turning belt drive mechanism connects, the vanning belt with vanning belt drive mechanism connects, and unloading belt drive mechanism, quality testing belt drive mechanism, turn belt drive mechanism, vanning belt drive mechanism all are connected with the controller electricity.
The utility model discloses an unloading belt drive mechanism is used for driving the unloading belt to rotate, and quality control belt drive mechanism is used for driving the quality control belt to rotate, and turning belt drive mechanism is used for driving the turning belt to rotate, and packing belt drive mechanism is used for driving the packing belt to rotate; the controller controls the blanking belt transmission mechanism, the quality inspection belt transmission mechanism, the turning belt transmission mechanism and the boxing belt transmission mechanism respectively, the rotation speeds of the blanking belt, the quality inspection belt, the turning belt and the boxing belt can be controlled independently respectively, the running speeds of the belts can be adjusted conveniently according to the production beats in different areas, parts on the whole belt conveying device can be conveyed orderly, and the requirements of conveying, quality inspection and packaging are met. The utility model discloses a single belt conveyor that is qualified for the next round of competitions utilizes its special layout scheme, and required rotatory unloading manipulator of reducible traditional scheme and shuttle reach reduction equipment investment cost, and the length of reducible production line reduces the occupation of land space of production line simultaneously, still has the effect that improves product competitive advantage.
The quality inspection belt of the utility model can be provided with a corresponding quality inspection device, and can also carry out corresponding quality inspection in the area manually when parts are conveyed on the quality inspection belt; in the same way, the packaging belt can be provided with corresponding packaging instruments to realize automatic packaging of parts, and corresponding packaging operation can be carried out in the region manually during conveying on the packaging belt mechanism of the parts.
The utility model also provides a two belts of being qualified for next round of competitions, include as above single belt of being qualified for the next round of competitions, single belt of being qualified for the next round of competitions is two and the symmetry sets up, and two single belts of being qualified for the next round of competitions connect into U type structure through two unloading belts.
The utility model discloses a two belts of being qualified for the next round of competitions can realize both sides simultaneous output, carry out the both sides of single kind part and export in turn, perhaps the bilateral of two cave parts of a mould exports in turn, can satisfy the function of high production beat, has improved production efficiency greatly.
The utility model also provides a double-outlet belt conveyor, which comprises two single-outlet belt conveyors symmetrically arranged; two single-outlet belt conveying devices are connected into a U-shaped structure through two blanking belts.
Preferably, the double-outlet belt conveying device comprises a left packing belt, a left turning belt, a left quality inspection belt, a left discharging belt, a right quality inspection belt, a right turning belt and a right packing belt which are connected in sequence, and further comprises a left packing belt transmission mechanism connected with the left packing belt, a left turning belt transmission mechanism connected with the left turning belt, a left quality inspection belt transmission mechanism connected with the left quality inspection belt, a left discharging belt transmission mechanism connected with the left discharging belt, a right packing belt transmission mechanism connected with the right packing belt, a right turning belt transmission mechanism connected with the right turning belt, a right quality inspection belt transmission mechanism connected with the right quality inspection belt and a right discharging belt transmission mechanism connected with the right discharging belt, wherein the controller is connected with each transmission mechanism respectively.
The utility model discloses a two belt conveyor that are qualified for next round of competitions's theory of operation:
conveying the single parts:
when single parts such as side walls are produced, the two blanking belts are static firstly, when the parts fall on the blanking belts, the left blanking belt transmission structure and the right blanking belt transmission structure simultaneously transmit positively, the left blanking belt and the right blanking belt simultaneously transmit leftwards, and the side wall parts are conveyed to the left boxing belt through the left quality inspection belt and the left turning belt; when the next piece is produced, the left discharging belt transmission mechanism and the right discharging belt transmission mechanism are simultaneously reversed, the left discharging belt and the right discharging belt are simultaneously transmitted to the right, and the side wall parts are conveyed to the right boxing belt through the right quality inspection belt and the right turning belt, so that left and right alternate discharging is realized, and the beat requirement of a high-speed stamping line is met.
Certainly, when the production takt time is low or in order to meet the requirements of quality inspection and packaging stations of workers, one-side output can be performed, the two blanking belts are static firstly, the first part falls on the left blanking belt, the left blanking belt transmission mechanism positively transmits the part, and the part is conveyed to the left boxing belt through the left quality inspection belt and the left turning belt; the second part falls on the right blanking belt, the right blanking belt transmission mechanism positively transmits the part, and the part is conveyed to the left boxing belt through the left quality inspection belt and the left turning belt.
A two-piece part conveying flow:
the production of double parts, namely 2 parts are produced by a set of die, for example, when a left door plate and a right door plate are produced, two blanking belts are static firstly, when the parts fall on the blanking belts, the left door plate falls on the left blanking belt, the right door plate falls on the right blanking belt, a left blanking belt transmission mechanism and a right blanking belt transmission mechanism respectively rotate positively and negatively, and the left door plate parts are conveyed to a left boxing belt through a left quality inspection belt and a left turning belt; the right door plate part is conveyed to a right boxing belt through a right quality inspection belt and a right turning belt, so that left and right alternate discharging is realized, and the beat requirement of a high-speed stamping line is met.
The utility model also provides a punching press line, including be used for abluent cleaning machine of material, a plurality of manipulator that are used for the material to transport, a plurality of presses that are used for the material processing, as above two belt conveyor that are qualified for the next round of competitions, the material finishes the retransferring to two belt conveyor that are qualified for the next round of competitions through the press processing after the cleaning machine washs in proper order by the manipulator of different positions and exports.
The utility model discloses a traditional punching press line is compared to the punching press line, and the double-outlet belt conveyor who utilizes U type structure through the press department at punching press line tail promptly tail end replaces sharp conveyor belt, realizes part angle conversion in part transportation process, has reduced a shuttle and rotatory manipulator station, has shortened production line length through this scheme greatly, reduces the at least 120 square meters of area to cut back the equipment investment and reach 900 ten thousand yuan.
Preferably, a plurality of presses are 4 at least, including the fashioned first press of material that is used for that sets gradually, all be used for the material plastic or punch a hole or the second press of side cut, the third press, the fourth press, a plurality of manipulators are 5 at least, including locating the first manipulator between cleaning machine and the first press, locate the second manipulator between first press and the second press, locate the third manipulator between second press and the third press, locate the fourth manipulator between third press and the fourth press, locate the fifth manipulator between fourth press and the two belt conveyor that are qualified for the next round of competitions.
Compared with the prior art, the beneficial effects of the utility model are that:
(1) the single-outlet belt conveying device with the L-shaped structure can replace a conveying device consisting of a shuttle machine, a rotary manipulator and a linear conveying belt, and can realize the rotary discharging function of parts;
(2) the blanking belt, the quality inspection belt, the turning belt and the boxing belt are respectively and independently controlled, so that different areas of the belts can be respectively regulated in speed, and the requirements of production beats such as conveying, quality inspection, packaging and the like are met;
(3) the double-outlet belt conveying device with the U-shaped structure can realize left and right alternate discharge, not only can meet the requirement on the beat of a high-speed stamping line, but also can meet the requirement on simultaneous discharge of two products in two cavities of one die.
Drawings
Fig. 1 is a schematic structural view of a single outlet belt of the present invention;
FIG. 2 is a schematic view of a first configuration of a double outlet belt;
FIG. 3 is a second structural diagram of a double outlet belt;
fig. 4 is a schematic structural view of a press line.
The graphic symbols are illustrated as follows:
1. a blanking belt; 11. a left blanking belt; 12. a right blanking belt; 2. a quality inspection belt; 21. a left quality inspection belt; 22. a right quality inspection belt; 3. a turning belt; 31. a left turn belt; 32. a right turn belt; 4. boxing belts; 41. a left boxing belt; 42. a right vanning belt; 101. a single outlet belt; 102. (ii) a A double-outlet belt conveying device; 103. a cleaning machine; 104. a manipulator; 105. a press machine.
Detailed Description
The present invention will be further described with reference to the following embodiments. Wherein the showings are for the purpose of illustration only and not for the purpose of limiting the same, the same is shown by way of illustration only and not in the form of limitation; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.
The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms can be understood according to specific situations by those of ordinary skill in the art.
Example 1
Fig. 1 shows an embodiment of the single-outlet belt of the present invention, which comprises an unloading belt 1, a quality inspection belt 2, a turning belt 3, and a boxing belt 4, which are sequentially connected into an L-shaped structure and can be separately controlled for rotating speed and steering.
The utility model discloses be suitable for the automobile parts of conveying including but not limited to: side wall, fender, hair flap, door plant, top cap, floor.
As an embodiment of the utility model, unloading belt 1, quality testing belt 2, vanning belt 4 are the straightway structure, and turning belt 3 is the arc segment structure.
As an embodiment of the utility model, the length of vanning belt 4 is greater than quality control belt 2, and the length of quality control belt 2 is greater than the length of unloading belt 1.
Preferably, the blanking belt is a linear belt with the length of 2.5 meters; the quality inspection belt adopts a linear belt with the length of 6 meters; the turning belt adopts an arc-shaped belt with a turning radius of 3.5 meters, so that the rotation of the direction of the part is realized; the boxing belt adopts a linear belt with the length of 12 meters. Generally, the production tact of boxing is low, and the packaged parts need to be stored and transported according to the specification after boxing, so the length of the boxing belt 4 needs to be slightly longer, and the quality inspection needs to be performed through a plurality of processes or quality inspection with a plurality of different indexes, so the length of the quality inspection belt 2 also needs to be constant; since the time required for blanking is short and the tact time is fast, the length of the blanking belt 1 can be set to be the shortest. Of course, within the scope of the knowledge of those skilled in the art, the lengths of the boxing belt, the quality inspection belt and the blanking belt can be adjusted according to the optimal production tact of the corresponding process.
As an embodiment of the utility model, the height of unloading belt 1, quality control belt 2, turning belt 3, vanning belt 4 is cascaded distribution, and unloading belt 1 is located the highest position.
Because unloading belt 1, quality testing belt 2, turning belt 3, vanning belt 4 connect gradually into L type structure, consequently, set the mechanism of each interconnect into the ladder shape, be favorable to the smooth transition of material in the junction, because the material is the most advanced to be gone into unloading belt mechanism, and export from vanning belt mechanism 4, consequently, among each mechanism that is cascaded distribution, unloading belt mechanism 1 is located the highest position, and other mechanisms progressively decrease in proper order, vanning belt 4 is located the lowest position. Within the cognitive range of the technical personnel in the field, the blanking belt 1, the quality inspection belt 2, the turning belt 3 and the boxing belt 4 can also adopt the same height, so that all the parts are positioned on the same horizontal plane, and the whole parts can be obliquely arranged to facilitate discharging.
As an embodiment of the present invention, an included angle is formed between the discharging belt 1 and the boxing belt 4, and the included angle is 45-135 °.
The change of the included angle between the discharging belt 1 and the boxing belt 4 is realized through the turning belt 3, so that the purpose of outputting the rotation angle of the part is achieved. Preferably, the angle of an included angle formed between the blanking belt 1 and the boxing belt 4 is 90 degrees, so that the parts are vertically output after blanking.
Example 2
The utility model relates to a single belt conveyor's of being qualified for next round of competitions embodiment, include belt 101 as foretell single play line, unloading belt drive mechanism, quality inspection belt drive mechanism, turn belt drive mechanism, vanning belt drive mechanism, a controller, the unloading belt is connected with unloading belt drive mechanism, the quality inspection belt is connected with quality inspection belt drive mechanism, the turn belt is connected with turn belt drive mechanism, the vanning belt is connected with vanning belt drive mechanism, and unloading belt drive mechanism, quality inspection belt drive mechanism, turn belt drive mechanism, vanning belt drive mechanism all is connected with the controller electricity.
As an embodiment of the utility model, still include induction system, induction system installs on the unloading belt, and induction system is connected with the controller electricity.
The blanking belt is used for placing parts from the tail end of the punching line, as one embodiment, the blanking belt can be a belt with the length of 2.5 meters, and the mechanical arm takes out the punched parts from the die and conveys the parts to the blanking belt; the blanking belt transmission device is used for driving a blanking belt to run so as to realize the function of belt transmission; the sensing device is used for sensing parts, the parts are static before being placed on the blanking belt, and the parts start to act after being placed on the blanking belt. Of course, the corresponding sensing device can also be arranged at one side of the manipulator, and the sensing device is electrically connected with the controller to realize the control of the blanking belt transmission device. The controller can realize the control of the running speed, the running direction and the starting and stopping states of the blanking belt.
As an embodiment of the utility model, still include the quality testing device, the quality testing device is installed on the quality testing belt, and the quality testing device is connected with the controller electricity.
The quality inspection belt plays a part transmission role and is used for inspecting the quality of the parts on line; the quality testing belt transmission device provides running power for the quality testing belt, and the quality testing device is used for performing quality testing on parts and comprises but is not limited to an image detector, an infrared distance meter and the like; under the condition that some quality testing devices can not meet the requirements of comprehensive quality testing, the quality testing is realized by assisting workers, and the workers perform quality testing on parts on two sides of a quality testing belt. The controller can realize the control of the running speed, the running direction and the starting and stopping states of the quality detection belt.
The turning belt is used for adjusting the angle of the part and enabling the direction of the part to rotate so as to replace a shuttle machine and a rotary manipulator. The turning belt transmission device is used for driving the turning belt to run, and the controller can realize the control of the running speed, the running direction and the starting and stopping states of the turning belt.
The boxing belt is used for conveying the parts serving as a part packaging area and conveying the parts to a special container; the boxing belt transmission device is used for driving the boxing belt to run, and the controller can control the running speed, the running direction and the starting and stopping states of the boxing belt.
Example 3
Fig. 2 to fig. 3 show an embodiment of the present invention, which includes the single outgoing-line belt 101, the single outgoing-line belt 101 is two and symmetrically disposed, and the two single outgoing-line belts 101 are connected into a U-shaped structure through the two blanking belts 1.
The double-outlet belt formed by the symmetrically arranged single-outlet belts 101 can discharge from the middle to two ends respectively, namely left and right alternate discharge is realized, and the requirement on the rhythm of a high-speed stamping line can be met. The highest beat of high-speed punching press line reaches 15 pieces/min, and the line tail must adopt two belt baitings, if adopt two straight belts of tradition, must rotate when the unloading of large-scale parts such as side wall, but the both arms manipulator of high-speed punching press line can only linear motion, does not possess rotation function, consequently, for satisfying the rotatory demand of part unloading, conventional scheme is for increasing unloading shuttle and rotation manipulator, and adopts the utility model discloses a rotatory and two ejection of compact functions of part then can be realized to the two outgoing line belts of U type structure, can effectively reduce the equipment investment to reduce area.
Preferably, the double-outlet belt comprises a left boxing belt 41, a left turning belt 31, a left quality inspection belt 21, a left blanking belt 11, a right blanking belt 12, a right quality inspection belt 22, a right turning belt 32 and a right boxing belt 42 which are connected in sequence.
The left boxing belt 41 and the right boxing belt 42 have similar functions and are used as boxing areas, so that parts can be conveniently boxed; the left turning belt 31 and the right turning belt 32 have similar functions and can be used for realizing rotary discharging of parts; the left quality inspection belt 21 and the right quality inspection belt 22 have similar functions and are used as quality inspection areas; the left blanking belt 11 and the right blanking belt 12 have similar functions and are used for receiving blanking. Furthermore, the left boxing belt 41 and the right boxing belt 42, the left turning belt 31 and the right turning belt 32, the left quality inspection belt 21 and the right quality inspection belt 22, and the left blanking belt 11 and the right blanking belt 12 are symmetrically arranged.
Example 4
Fig. 2 to 3 show an embodiment of a double-outlet belt conveyor according to the present invention, which includes the single-outlet belt conveyor as described above, and the two single-outlet belt conveyors are symmetrically arranged; the two single-outlet belt conveying devices are connected into a U-shaped structure through the two blanking belts 1.
Preferably, the double-outlet belt conveying device comprises a left boxing belt 41, a left turning belt 31, a left quality inspection belt 21, a left blanking belt 11, a right blanking belt 12, a right quality inspection belt 22, a right turning belt 32 and a right boxing belt 42 which are sequentially connected, and further comprises a left boxing belt transmission mechanism connected with the left boxing belt 41, a left turning belt transmission mechanism connected with the left turning belt 31, a left quality inspection belt transmission mechanism connected with the left quality inspection belt 21, a left blanking belt transmission mechanism connected with the left blanking belt 11, a right boxing belt transmission mechanism connected with the right boxing belt 42, a right turning belt transmission mechanism connected with the right turning belt 32, a right quality inspection belt transmission mechanism connected with the right quality inspection belt 22 and a right blanking belt transmission mechanism connected with the right blanking belt 12, and the controller is respectively connected with each transmission mechanism.
The left boxing belt transmission mechanism is used for driving the left boxing belt 41 to run, the left turning belt transmission mechanism is used for driving the left turning belt 31 to run, the left quality inspection belt transmission mechanism is used for driving the left quality inspection belt 21 to run, and the left blanking belt transmission mechanism is used for driving the left blanking belt 11 to run; the right boxing belt transmission mechanism has similar function with the left boxing belt transmission mechanism and is used for driving the right boxing belt 42 to run; the right turning belt transmission mechanism has a function similar to that of the left turning belt transmission mechanism and is used for driving the right turning belt 32 to rotate; the right quality testing belt transmission mechanism has similar function with the left quality testing belt transmission mechanism and is used for driving the right quality testing belt 22 to run; the right blanking belt transmission mechanism has a function similar to that of the left blanking belt transmission mechanism and is used for driving the right blanking belt 12 to operate.
Example 5
As shown in fig. 4, the utility model relates to an embodiment of a press line, including being used for abluent cleaning machine 103 of material, a plurality of manipulators 104 that are used for the material to transport, a plurality of presses 105 that are used for the material processing, as above-mentioned two belt conveyor 102 that are qualified for the next round of competitions, the material is handled through the press 105 after the cleaning machine 103 washs in proper order by the manipulator 104 of different positions and shifts to two belt conveyor 102 that are qualified for the next round of competitions and export.
The cleaning machine 103 is used for material cleaning, the manipulator 104 is used for carrying out the transportation of material between the station of difference, and the press 105 divide into two kinds, has the press 105 that is used for the material shaping, has the press 105 that is used for material plastic or punches a hole or cut edge, and the belt conveyor 102 that is qualified for the next round of competitions sets up at the press line tail end for the ejection of compact.
As an embodiment of the utility model, a plurality of presses 105 are 4 at least, including the fashioned first press of material that is used for that sets gradually, all be used for the material plastic or punch a hole or the second press of cutting edge, the third press, the fourth press, a plurality of manipulators 104 are 5 manipulators at least, including locating the first manipulator between cleaning machine 103 and the first press, locate the second manipulator between first press and the second press, locate the third manipulator between second press and the third press, locate the fourth manipulator between third press and the fourth press, locate the fifth manipulator between fourth press and the two belt conveyor 102 of being qualified for the next round of competitions.
Preferably, the press line consists of 4 presses 105, 5 double- arm manipulators 104 and 1 material cleaning machine 103, the full automation of material unstacking, transportation, cleaning, part production and transportation is realized in the whole line, and the presses and the manipulators 104 have the automatic switching function. The utility model has simple structure, reasonably meets the beat requirement of a high-speed stamping line through the outgoing line layout, realizes the function of left and right alternate discharging, reduces the rotary discharging mechanical arm and the shuttle platform, and has simpler equipment process and convenient maintenance; the cost is better, the rotary feeding mechanical arms and the shuttle table are reduced, the equipment investment is reduced by 900 ten thousand yuan, and meanwhile, the floor area is reduced by 120 square meters.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.
Claims (10)
1. The utility model provides a single-outlet belt, its characterized in that includes the unloading belt (1), quality testing belt (2), turn belt (3), vanning belt (4) that connect gradually into L type structure and can carry out independent control respectively to its rotational speed and turn to.
2. The single outlet belt according to claim 1, wherein the length of the packing belt (4) is greater than the length of the quality inspection belt (2), and the length of the quality inspection belt (2) is greater than the length of the blanking belt (1).
3. The single outlet belt according to claim 1 or 2, wherein the heights of the blanking belt (1), the quality inspection belt (2), the turning belt (3) and the boxing belt (4) are distributed in a stepped manner, and the blanking belt (1) is located at the highest position.
4. The single-outlet belt as claimed in claim 3, wherein the blanking belt (1), the quality testing belt (2) and the boxing belt (4) are all straight-line segment structures, and the turning belt (3) is an arc-line segment structure.
5. The single outlet belt according to claim 4, wherein an included angle is formed between the blanking belt (1) and the boxing belt (4), and the included angle is 45-135 degrees.
6. A single-outlet belt conveying device, which is characterized by comprising the single-outlet belt (101) as claimed in any one of claims 1 to 5, an unloading belt transmission mechanism, a quality inspection belt transmission mechanism, a turning belt transmission mechanism, a boxing belt transmission mechanism and a controller, wherein the unloading belt is connected with the unloading belt transmission mechanism, the quality inspection belt is connected with the quality inspection belt transmission mechanism, the turning belt is connected with the turning belt transmission mechanism, the boxing belt is connected with the boxing belt transmission mechanism, and the unloading belt transmission mechanism, the quality inspection belt transmission mechanism, the turning belt transmission mechanism and the boxing belt transmission mechanism are all electrically connected with the controller.
7. A double-outlet belt, characterized in that, comprises a single-outlet belt (101) as claimed in any one of claims 1 to 5, the single-outlet belts (101) are arranged symmetrically, and the two single-outlet belts (101) are connected into a U-shaped structure through two blanking belts (1).
8. A double-outlet belt conveying device is characterized by comprising the single-outlet belt conveying device according to claim 6, wherein the number of the single-outlet belt conveying devices is two, and the two single-outlet belt conveying devices are symmetrically arranged; the two single-outlet belt conveying devices are connected into a U-shaped structure through two blanking belts (1).
9. A stamping line is characterized by comprising a cleaning machine (103) for cleaning materials, a plurality of mechanical arms (104) for transferring the materials, a plurality of presses (105) for processing the materials and the double-outlet belt conveyor (102) as claimed in claim 8, wherein the materials are cleaned by the mechanical arms (104) at different positions in sequence through the cleaning machine (103), processed by the presses (105) and then transferred to the double-outlet belt conveyor (102) for output.
10. The stamping line according to claim 9, wherein the number of presses (105) is at least 4, including a first press for material forming, a second press, a third press and a fourth press which are all used for material shaping or punching or trimming, the number of manipulators (104) is at least 5, and the number of the manipulators comprises a first manipulator arranged between the cleaning machine and the first press, a second manipulator arranged between the first press and the second press, a third manipulator arranged between the second press and the third press, a fourth manipulator arranged between the third press and the fourth press, and a fifth manipulator arranged between the fourth press and the double-outlet belt conveying device (102).
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CN202123349629.1U CN216735955U (en) | 2021-12-27 | 2021-12-27 | Single-outlet belt, double-outlet belt, conveying device and stamping line |
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CN202123349629.1U CN216735955U (en) | 2021-12-27 | 2021-12-27 | Single-outlet belt, double-outlet belt, conveying device and stamping line |
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CN216735955U true CN216735955U (en) | 2022-06-14 |
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