CN210664701U - Output collection device - Google Patents
Output collection device Download PDFInfo
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- CN210664701U CN210664701U CN201921221521.4U CN201921221521U CN210664701U CN 210664701 U CN210664701 U CN 210664701U CN 201921221521 U CN201921221521 U CN 201921221521U CN 210664701 U CN210664701 U CN 210664701U
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- conveying belt
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Abstract
The utility model relates to a yield acquisition device, which belongs to the yield acquisition field and comprises a frame, wherein a first supporting plate and a second supporting plate are sequentially arranged on the frame, a first conveyer belt is arranged in the first supporting plate, a second conveyer belt is arranged on the second supporting plate, the first conveyer belt and the second conveyer belt are positioned at the same horizontal height, a first photoelectric sensor is arranged at the left end of the first conveyer belt, a second photoelectric sensor is arranged at the left end of the second conveyer belt, the first supporting plate and the second supporting plate are respectively arranged on the frame through a first supporting column and a second supporting column, a weighing sensor is arranged between the first supporting plate and the first supporting column, a push plate is also arranged at one side of the first conveyer belt, the push plate is arranged on the frame through a first driving mechanism, the first driving mechanism is used for driving the push plate to reciprocate towards the first conveyer belt, a collection cavity is also arranged at the other side of, the collecting cavity is embedded in the frame. The utility model discloses can realize the automatic acquisition of output.
Description
Technical Field
The utility model relates to an output collection field, in particular to output collection device.
Background
To the piece of the meter of output, if need artificially accomplish, be a large-scale work, not only extravagant manpower resources, still be difficult to guarantee the rate of accuracy, still need register the saving after accomplishing output meter, if carry out the meter on the production line, aggravated the degree of difficulty more, if there is a device can intelligent acquisition data, just can improve production efficiency.
SUMMERY OF THE UTILITY MODEL
Based on this, it is necessary to provide a yield collecting device, which comprises a frame, wherein a first supporting plate and a second supporting plate are sequentially arranged on the frame, a first conveying belt is arranged on the first supporting plate, a second conveying belt is arranged on the second supporting plate, the first conveying belt and the second conveying belt are positioned at the same horizontal height, a first photoelectric sensor is arranged at the left end of the first conveying belt, a second photoelectric sensor is arranged at the left end of the second conveying belt, the first supporting plate and the second supporting plate are respectively arranged on the frame through a first supporting column and a second supporting column, a weighing sensor is arranged between the first supporting plate and the first supporting column, a push plate is further arranged on one side of the first conveying belt, the horizontal height of the push plate is higher than that of the first conveying belt, and the push plate is arranged on the frame through a first driving mechanism, the first drive is used for driving the push plate moves towards the first conveying belt in a reciprocating mode, a collecting cavity is further formed in the other side of the first conveying belt, the collecting cavity is embedded in the rack, and the horizontal height of the collecting cavity is lower than that of the first conveying belt.
The automatic weighing device comprises a rack, a first photoelectric sensor, a second photoelectric sensor, a weighing sensor, a first conveying belt, a second conveying belt and a push plate, wherein the first photoelectric sensor, the second photoelectric sensor, the weighing sensor, the first conveying belt, the second conveying belt and the push plate are all in communication connection with a single chip microcomputer arranged on the rack, the models of the first photoelectric sensor and the second photoelectric sensor are QS18 photoelectric sensors, the model of the weighing sensor is an LC1110 single-point type weighing sensor, and the model of the single chip microcomputer is a.
When gathering output data, will the utility model discloses be connected with production facility, specifically, will the utility model discloses set up between the conveyer belt of production facility, be about to the utility model discloses with production facility's conveyer belt integration together, consequently production facility is when transmitting the product, the product can pass through in proper order the utility model discloses a first conveyer belt and second conveyer belt. When products on the production equipment enter the left end of the first conveying belt, the first photoelectric sensor can detect the products passing through the left end of the first conveying belt, then detection information is sent to the single chip microcomputer, and then the single chip microcomputer obtains quantity information of the products entering the first conveying belt, so that yield information of the products is obtained; when the products enter the second conveying belt, the second photoelectric sensor can detect the products passing through the left end of the second conveying belt, then the detection information is sent to the single chip microcomputer, then the single chip microcomputer can obtain the quantity information of the products entering the second conveying belt, the quantity of the products entering the first conveying belt is subtracted from the quantity of the products entering the second conveying belt to obtain the quantity of the products placed on the first conveying belt, then the weighing sensor can measure the total weight of the products on the first conveying belt, wherein when the weighing sensor weighs, the single chip microcomputer controls the first conveying belt and the second conveying belt to stop conveying, and as the weighing time is extremely short, the conveying of the products by the production equipment is not influenced, so that whether the total weight of the products on the first conveying belt accords with the design total weight or not can be detected according to the quantity information of the products on the first conveying belt and the design weight of the products, if the difference between the weighed total weight and the designed total weight is large, it is indicated that unqualified products exist in the products on the first conveying belt, at the moment, the single chip microcomputer controls the push plate to push the products on the first conveying belt down to the collecting cavity so as to perform preliminary spot check on the products, the qualification rate of the products is improved, and meanwhile, when the products are pushed down, the single chip microcomputer can subtract the number of the pushed down products in the yield information so as to ensure the accuracy of the yield information.
Preferably, the transmitting end of the first photoelectric sensor is located at one side of the first conveying belt, and the receiving end of the first photoelectric sensor is located at the other side of the first conveying belt; the transmitting end of the second photoelectric sensor is positioned on one side of the second conveying belt, and the receiving end of the second photoelectric sensor is positioned on the other side of the second conveying belt.
Preferably, a support frame is further arranged between the first support plate and the second support plate, and a third photoelectric sensor is arranged on the support frame.
The third photoelectric sensor is a QS18 photoelectric sensor and is used for detecting whether a product exists in the gap between the first conveying belt and the second conveying belt, so that the single chip can control the weighing sensor to weigh when the product does not exist in the gap between the first conveying belt and the second conveying belt, and the accuracy of weighing data is guaranteed.
Likewise, can also be used for detecting in the left end of first conveyer belt and the right-hand member setting of second conveyer belt the utility model discloses and whether have the photoelectric sensor of product between the conveyer belt of production facility.
Furthermore, the transmitting end of the third photoelectric sensor is located at the lower end of the support frame, and the receiving end of the third photoelectric sensor is located at the upper end of the support frame.
Preferably, the first conveying belt comprises a first support arranged on the first support plate, a first rotating shaft and a second rotating shaft are rotatably arranged on the first support, a first conveying belt is sleeved on the first rotating shaft and the second rotating shaft, and the first rotating shaft is in driving connection with a second driving mechanism on the first support plate; the second conveyer belt including set up in second support in the second backup pad, rotatable third pivot and the fourth pivot of being provided with on the second support, the cover is equipped with second conveyer belt in third pivot and the fourth pivot, the third pivot with set up in third actuating mechanism drive connection in the second backup pad.
And the second driving mechanism and the third driving mechanism are in communication connection with the single chip microcomputer.
Further, the second driving mechanism and the third driving mechanism are motors.
Preferably, the second driving mechanism is a cylinder or an oil cylinder.
The second driving mechanism is in communication connection with the single chip microcomputer through the electromagnetic valve.
The principle and effect of the present invention will be further explained by combining the above technical solutions:
the utility model discloses during the collection output data, will the utility model discloses be connected with production facility, specifically, will the utility model discloses set up between the conveyer belt of production facility, be about to the utility model discloses be in the same place with the conveyer belt integration of production facility, consequently production facility is when transmitting the product, and the product can pass through in proper order the utility model discloses a first conveyer belt and second conveyer belt. When products on the production equipment enter the left end of the first conveying belt, the first photoelectric sensor can detect the products passing through the left end of the first conveying belt, then detection information is sent to the single chip microcomputer, and then the single chip microcomputer obtains quantity information of the products entering the first conveying belt, so that yield information of the products is obtained; when the products enter the second conveying belt, the second photoelectric sensor can detect the products passing through the left end of the second conveying belt, then the detection information is sent to the single chip microcomputer, then the single chip microcomputer can obtain the quantity information of the products entering the second conveying belt, the quantity of the products entering the first conveying belt is subtracted from the quantity of the products entering the second conveying belt to obtain the quantity of the products placed on the first conveying belt, then the weighing sensor can measure the total weight of the products on the first conveying belt, wherein when the weighing sensor weighs, the single chip microcomputer controls the first conveying belt and the second conveying belt to stop conveying, and as the weighing time is extremely short, the conveying of the products by the production equipment is not influenced, so that whether the total weight of the products on the first conveying belt accords with the design total weight or not can be detected according to the quantity information of the products on the first conveying belt and the design weight of the products, if the difference between the weighed total weight and the designed total weight is large, it is indicated that unqualified products exist in the products on the first conveying belt, at the moment, the single chip microcomputer controls the push plate to push the products on the first conveying belt down to the collecting cavity so as to perform preliminary spot check on the products, the qualification rate of the products is improved, and meanwhile, when the products are pushed down, the single chip microcomputer can subtract the number of the pushed down products in the yield information so as to ensure the accuracy of the yield information.
Drawings
Fig. 1 is a schematic structural diagram of a yield acquisition device according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a yield acquisition device according to an embodiment of the present invention.
Description of reference numerals:
1-a rack, 11-a first support plate, 111-a first conveyor belt, 1111-a first rotating shaft, 1112-a second rotating shaft, 112-a first photoelectric sensor, 113-a push plate, 114-a first driving mechanism, 115-a collection cavity, 12-a second support plate, 121-a second conveyor belt, 1211-a third rotating shaft, 1212-a fourth rotating shaft, 122-a second photoelectric sensor, 13-a first support column, 131-a weighing sensor, 14-a second support column, 15-a support frame, and 151-a third photoelectric sensor.
Detailed Description
To facilitate understanding of those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples:
as shown in fig. 1-2, a yield collecting device comprises a frame 1, wherein a first supporting plate 11 and a second supporting plate 12 are sequentially arranged on the frame 1, a first conveying belt 111 is arranged on the first supporting plate 11, a second conveying belt 121 is arranged on the second supporting plate 12, the first conveying belt 111 and the second conveying belt 121 are located at the same level, a first photoelectric sensor 112 is arranged at the left end of the first conveying belt 111, a second photoelectric sensor 122 is arranged at the left end of the second conveying belt 121, the first supporting plate 11 and the second supporting plate 12 are respectively arranged on the frame 1 through a first supporting column 13 and a second supporting column 14, a weighing sensor 131 is arranged between the first supporting plate 11 and the first supporting column 13, a push plate 113 is further arranged at one side of the first conveying belt 111, and the level of the push plate 113 is higher than the level of the first conveying belt 111, the push plate 113 through first actuating mechanism 114 set up in the frame 1, first drive is used for the drive push plate 113 is towards first conveyer belt 111 reciprocating motion, the opposite side of first conveyer belt 111 still is provided with collection chamber 115, the collection chamber inlays to be located frame 1, just the level in collection chamber 115 is less than the level of first conveyer belt 111.
The first photoelectric sensor 112, the second photoelectric sensor 122, the weighing sensor 131, the first conveying belt 111, the second conveying belt 121 and the push plate 113 are all in communication connection with a single chip microcomputer arranged on the rack 1, the models of the first photoelectric sensor 112 and the second photoelectric sensor 122 are QS18 photoelectric sensors, the model of the weighing sensor 131 is an LC1110 single-point type weighing sensor 131, and the model of the single chip microcomputer is a 51 single chip microcomputer.
When gathering output data, will the utility model discloses be connected with production facility, specifically, will the utility model discloses set up between the conveyer belt of production facility, be about to the utility model discloses with production facility's conveyer belt integration together, consequently production facility is when transmitting the product, the product can pass through in proper order the utility model discloses a first conveyer belt 111 and second conveyer belt 121. When a product on the production equipment enters the left end of the first conveying belt 111, the first photoelectric sensor 112 can detect the product passing through the left end of the first conveying belt 111, then the detection information is sent to the single chip microcomputer, and then the single chip microcomputer obtains the quantity information of the product entering the first conveying belt 111, so that the yield information of the product is obtained; when the product enters the second conveyor belt 121, the second photoelectric sensor 122 can detect the product passing through the left end of the second conveyor belt 121, and then the detected information is sent to the single chip microcomputer, and then the single chip microcomputer can obtain the quantity information of the product entering the second conveyor belt 121, and the quantity of the product placed on the first conveyor belt 111 can be obtained by subtracting the quantity of the product entering the second conveyor belt 121 from the quantity of the product entering the first conveyor belt 111, so that the weighing sensor 131 can measure the total weight of the product on the first conveyor belt 111, wherein when the weighing sensor 131 weighs, the single chip microcomputer controls the first conveyor belt 111 and the second conveyor belt 121 to stop conveying, because the weighing time is extremely short, the conveying of the product by the production equipment is not affected, so that whether the total weight of the product on the first conveyor belt 111 at the moment meets the design total weight can be detected according to the quantity information of the product on the first conveyor belt 111 and the design weight of the product, if the difference between the weighed total weight and the designed total weight is large, it is indicated that the products on the first conveying belt 111 are unqualified, and at the moment, the single chip microcomputer controls the push plate 113 to push the products on the first conveying belt 111 down into the collection cavity 115 so as to perform preliminary spot inspection on the products, thereby improving the qualification rate of the products.
Preferably, the emitting end of the first photosensor 112 is located at one side of the first conveyor belt 111, and the receiving end of the first photosensor 112 is located at the other side of the first conveyor belt 111; the emitting end of the second photosensor 122 is located at one side of the second conveyor belt 121, and the receiving end of the second photosensor 122 is located at the other side of the second conveyor belt 121.
Preferably, a support frame 15 is further disposed between the first support plate 11 and the second support plate 12, and a third photoelectric sensor 151 is disposed on the support frame 15.
The third photo sensor 151 is a QS18 photo sensor, and is used to detect whether a product is present in the gap between the first conveyor belt 111 and the second conveyor belt 121, so that the single chip can control the weighing sensor 131 to weigh when no product is present in the gap between the first conveyor belt 111 and the second conveyor belt 121, thereby ensuring the accuracy of weighing data.
Likewise, can also be used for detecting at the left end of first conveyer belt 111 and the right-hand member setting of second conveyer belt 121 the utility model discloses and whether there is the photoelectric sensor of product between the conveyer belt of production facility.
Further, an emitting end of the third photoelectric sensor 151 is located at the lower end of the support frame, and a receiving end of the third photoelectric sensor 151 is located at the upper end of the support frame.
Preferably, the first conveyor belt 111 includes a first support 14 disposed on the first support plate, a first rotating shaft 1111 and a second rotating shaft 1112 are rotatably disposed on the first support 14, a first conveyor belt is sleeved on the first rotating shaft 1111 and the second rotating shaft 1112, and the first rotating shaft 1111 is in driving connection with a second driving mechanism on the first support plate 11; the second conveying belt 121 includes a second support disposed on the second support plate, a third rotating shaft 1211 and a fourth rotating shaft 1212 are rotatably disposed on the second support 14, a second conveying belt is sleeved on the third rotating shaft 1211 and the fourth rotating shaft 1212, and the third rotating shaft 1211 is in driving connection with a third driving mechanism disposed on the second support plate 12.
And the second driving mechanism and the third driving mechanism are in communication connection with the single chip microcomputer.
Further, the second driving mechanism and the third driving mechanism are motors.
Preferably, the second driving mechanism is a cylinder or an oil cylinder.
The second driving mechanism is in communication connection with the single chip microcomputer through the electromagnetic valve.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (7)
1. A yield acquisition device is characterized by comprising a frame, wherein a first supporting plate and a second supporting plate are sequentially arranged on the frame, a first conveying belt is arranged in the first supporting plate, a second conveying belt is arranged on the second supporting plate, the first conveying belt and the second conveying belt are positioned at the same horizontal height, a first photoelectric sensor is arranged at the left end of the first conveying belt, a second photoelectric sensor is arranged at the left end of the second conveying belt, the first supporting plate and the second supporting plate are respectively arranged on the frame through a first supporting column and a second supporting column, a weighing sensor is arranged between the first supporting plate and the first supporting column, a push plate is further arranged on one side of the first conveying belt, the horizontal height of the push plate is higher than that of the first conveying belt, and the push plate is arranged on the frame through a first driving mechanism, the first drive is used for driving the push plate moves towards the first conveying belt in a reciprocating mode, a collecting cavity is further formed in the other side of the first conveying belt, the collecting cavity is embedded in the rack, and the horizontal height of the collecting cavity is lower than that of the first conveying belt.
2. The yield collection device of claim 1, wherein the emitting end of the first photosensor is located on one side of the first conveyor belt and the receiving end of the first photosensor is located on the other side of the first conveyor belt; the transmitting end of the second photoelectric sensor is positioned on one side of the second conveying belt, and the receiving end of the second photoelectric sensor is positioned on the other side of the second conveying belt.
3. The yield collection device of claim 1, wherein a support frame is further disposed between the first support plate and the second support plate, and a third photoelectric sensor is disposed on the support frame.
4. The yield collection device of claim 3, wherein the emitting end of the third photosensor is located at the lower end of the support frame and the receiving end of the third photosensor is located at the upper end of the support frame.
5. The yield collection device of claim 1, wherein the first conveyor belt comprises a first support disposed on the first support plate, the first support is rotatably provided with a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are sleeved with a first conveyor belt, and the first rotating shaft is in driving connection with a second driving mechanism on the first support plate; the second conveyer belt including set up in second support in the second backup pad, rotatable third pivot and the fourth pivot of being provided with on the second support, the cover is equipped with second conveyer belt in third pivot and the fourth pivot, the third pivot with set up in third actuating mechanism drive connection in the second backup pad.
6. The yield harvesting apparatus of claim 5, wherein the second and third drive mechanisms are motors.
7. The production acquisition device of claim 5, wherein the second drive mechanism is a pneumatic cylinder or an oil cylinder.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921221521.4U CN210664701U (en) | 2019-07-31 | 2019-07-31 | Output collection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921221521.4U CN210664701U (en) | 2019-07-31 | 2019-07-31 | Output collection device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210664701U true CN210664701U (en) | 2020-06-02 |
Family
ID=70818117
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921221521.4U Active CN210664701U (en) | 2019-07-31 | 2019-07-31 | Output collection device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210664701U (en) |
-
2019
- 2019-07-31 CN CN201921221521.4U patent/CN210664701U/en active Active
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| GR01 | Patent grant | ||
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| CP03 | Change of name, title or address |
Address after: 516000 No.05, 1st floor, building T4, Shanshui Huafu, No.9 community, Jinshanhu, Henan'an, Huizhou City, Guangdong Province Patentee after: Guangdong lvjianlian energy environment Co.,Ltd. Address before: 516000 room 02, 14th floor, Yuexin building, No.2, Lane 3, Maidi Road, Huizhou City, Guangdong Province Patentee before: Guangdong Green Jianlian Energy Saving Service Co.,Ltd. |
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| CP03 | Change of name, title or address | ||
| CP01 | Change in the name or title of a patent holder |
Address after: 516000 No.05, 1st floor, building T4, Shanshui Huafu, No.9 community, Jinshanhu, Henan'an, Huizhou City, Guangdong Province Patentee after: Guangdong lvjianlian energy and Environment Technology Co.,Ltd. Address before: 516000 No.05, 1st floor, building T4, Shanshui Huafu, No.9 community, Jinshanhu, Henan'an, Huizhou City, Guangdong Province Patentee before: Guangdong lvjianlian energy environment Co.,Ltd. |
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| CP01 | Change in the name or title of a patent holder |