CN213481511U - High-speed combined scale - Google Patents
High-speed combined scale Download PDFInfo
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- CN213481511U CN213481511U CN202022425080.9U CN202022425080U CN213481511U CN 213481511 U CN213481511 U CN 213481511U CN 202022425080 U CN202022425080 U CN 202022425080U CN 213481511 U CN213481511 U CN 213481511U
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- hopper
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- Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)
Abstract
The utility model discloses a high-speed combination scale, which is used for accurately distributing materials; the machine comprises an upper material tray fixed at the top of a rack, wherein a main vibrating tray is arranged at the bottom of the upper material tray, at least two line vibrating trays are distributed around the main vibrating tray, materials on the line vibrating trays fall into material storage hoppers arranged at the lower ends of the line vibrating trays through vibration, a weighing hopper for weighing the materials in real time is arranged at the tail end of each material storage hopper, the weighed materials fall into a memory hopper at the bottom of the weighing hopper, a case is fixed on the rack, and a lower material tray is arranged at the bottom of the memory hopper; the machine case is internally provided with a control panel, the weighing hoppers are provided with weight sensors, the weight sensors are connected with the control panel, each weight sensor transmits a weighing signal of the weight sensor to the control panel in real time, the weighed materials fall into the memory hopper through the weighing hoppers, and the control panel controls the switches of the memory hoppers so as to enable the combined materials to flow into the discharging tray.
Description
Technical Field
The utility model relates to a material conveyor technical field, concretely relates to high-speed combination balance.
Background
The existing feeding device generally only has one material channel and falls down by means of self gravity, and although the material is accelerated rapidly by the structure, the weight of the material is not convenient to control.
SUMMERY OF THE UTILITY MODEL
The utility model provides a high-speed combination balance, it provides can reach quick reinforced, can guarantee the accurate high-speed combination balance of material weight again.
In order to realize the technical purpose, the utility model discloses a scheme is: a high-speed combination scale is used for accurately distributing materials; the machine comprises an upper material tray fixed at the top of a rack, wherein a main vibrating tray is arranged at the bottom of the upper material tray, at least two line vibrating trays are distributed around the main vibrating tray, materials on the line vibrating trays fall into material storage hoppers arranged at the lower ends of the line vibrating trays through vibration, a weighing hopper for weighing the materials in real time is arranged at the tail end of each material storage hopper, the weighed materials fall into a memory hopper at the bottom of the weighing hopper, a case is fixed on the rack, and a lower material tray is arranged at the bottom of the memory hopper; the control panel is arranged in the case, the weighing hoppers are provided with weight sensors, the weight sensors are connected with the control panel, each weight sensor transmits a weighing signal to the control panel in real time, the weighed materials fall into the memory hopper through the weighing hoppers, a user gives a material weight instruction to the case, the control panel in the case calculates the combined weight of the memory hoppers according to the weight instruction, and the control panel controls the switches of the memory hoppers so as to enable the combined materials to flow into the discharging tray. The utility model discloses a shake the material through main dish that shakes and scatter every line dish that shakes, every line shake the dish with material on it tremble into every hopper in, the material in the hopper falls into the weighing hopper fast, flows into the memory after weighing and fights and save, and quick-witted case is according to user's weight instruction, and the control panel is after calculating the combination of material in the memory fill, and the actuating mechanism of bottom is fought in the control memory, and the weight of accurate control material falls into down the charging tray.
Preferably, the storage hopper has a polygonal structure. The material storage hopper is of a polygonal structure, so that materials are more concentrated, the blanking time of the materials is reduced, and the material blanking speed is increased.
Preferably, a movable baffle is arranged at the bottom of the memory bucket, a driving mechanism is fixedly connected to one end of the movable baffle, the driving mechanism is connected with the control board, and the control board controls the driving mechanism to push and pull the movable baffle to open or close the memory bucket. The driving mechanism can be a driving motor, the movable baffle plate is pushed and pulled back and forth by the rotation of the control panel control motor, the control panel can control the memory bucket to be opened and closed, and accurate metering is realized.
Preferably, a chute is further arranged between each memory hopper and the blanking plate, and the materials in the memory hoppers flow into the blanking plate through the chutes. In order to facilitate the materials in the memory hopper to fall into the blanking disc quickly, the materials in the memory hopper slide down through the chute and cannot be centralized to block the channel.
Preferably, the blanking disc is of a cone structure and is large in top and small in bottom. The output and the subsequent packing of convenient material.
Preferably, the wire vibrating discs, the material storage hopper, the weighing hopper and the memory hopper correspond to each other one by one. In order to realize accurate weight control of the material.
The working process is as follows: the materials are manually conveyed to the material feeding tray → the main vibration tray vibrates and disperses to each line vibration tray → each line vibration tray shakes and sends the materials falling on the line vibration tray to the material storage hopper → each weighing hopper falls to each weighing hopper → the weighing hopper carries out real-time weighing and the weight data of the materials are transmitted to the control panel of the case → then falls to the memory hopper → the control panel combines the materials in the memory hopper according to the instruction to obtain the required weight; if the materials are not combined, waiting for the next recombination → the materials are combined completely → flow into the blanking tray through the chute.
The utility model discloses a shake the material through main dish that shakes and scatter every line dish that shakes, every line shake the dish with material on it tremble into every hopper in, the material in the hopper falls into the weighing hopper fast, flows into the memory after weighing and fights and save, and quick-witted case is according to user's weight instruction, and the control panel is after calculating the combination of material in the memory fill, and the actuating mechanism of bottom is fought in the control memory, and the weight of accurate control material falls into down the charging tray.
Drawings
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic perspective view of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1 to 2, a high-speed combination scale according to a preferred embodiment of the present invention is used for accurately distributing materials; the material weighing machine comprises an upper material tray 2 fixed on the top of a rack 1, wherein a main vibration tray 3 is arranged at the bottom of the upper material tray 2, at least two line vibration trays 4 are distributed around the main vibration tray 3, materials on the line vibration trays 4 fall into a material storage hopper 5 arranged at the lower end of the line vibration trays 4 through vibration, a weighing hopper 6 for weighing the materials in real time is arranged at the tail end of each material storage hopper 5, the weighed materials fall into a memory hopper 7 at the bottom of the weighing hopper 6, a case 9 is fixed on the rack 1, and a lower material tray 10 is arranged at the bottom of the memory hopper 7; the control panel is arranged in the case 9, the weighing hoppers 6 are provided with weight sensors, the weight sensors are connected with the control panel, each weight sensor transmits a weighing signal of the weight sensor to the control panel in real time, the weighed materials fall into the memory hopper 7 through the weighing hoppers 6, a user gives a material weight instruction to the case 9, the control panel in the case 9 calculates the combined weight of the memory hopper 7 according to the weight instruction, and the control panel controls the switches of the memory hoppers 7 so as to enable the combined materials to flow into the blanking tray 10. The utility model discloses a shake the material through main dish that shakes and scatter every line dish that shakes, every line shake the dish with material on it tremble into every hopper in, the material in the hopper falls into the weighing hopper fast, flows into the memory after weighing and fights and save, and quick-witted case is according to user's weight instruction, and the control panel is after calculating the combination of material in the memory fill, and the actuating mechanism of bottom is fought in the control memory, and the weight of accurate control material falls into down the charging tray.
Preferably, the storage hopper 5 has a polygonal structure. The material storage hopper is of a polygonal structure, so that materials are more concentrated, the blanking time of the materials is reduced, and the material blanking speed is increased.
Preferably, a movable baffle is arranged at the bottom of the memory bucket 7, a driving mechanism is fixedly connected to one end of the movable baffle, the driving mechanism is connected with the control board, and the control board controls the driving mechanism to push and pull the movable baffle to open or close the memory bucket. The driving mechanism can be a driving motor, the movable baffle plate is pushed and pulled back and forth by the rotation of the control panel control motor, the control panel can control the memory bucket to be opened and closed, and accurate metering is realized.
Preferably, a chute 8 is further arranged between each memory bucket 7 and the blanking tray 10, and the materials in the memory buckets 7 flow into the blanking tray 10 through the chute 8. In order to facilitate the materials in the memory hopper to fall into the blanking disc quickly, the materials in the memory hopper slide down through the chute and cannot be centralized to block the channel.
Preferably, the blanking disc 10 is of a cone structure and is large in top and small in bottom. The output and the subsequent packing of convenient material.
Preferably, the wire vibrating plate 4, the material storage hopper 5, the weighing hopper 6 and the memory hopper 7 correspond to each other one by one. In order to realize accurate weight control of the material.
The working process is as follows: the materials are manually conveyed to the material feeding tray → the main vibration tray vibrates and disperses to each line vibration tray → each line vibration tray shakes and sends the materials falling on the line vibration tray to the material storage hopper → each weighing hopper falls to each weighing hopper → the weighing hopper carries out real-time weighing and the weight data of the materials are transmitted to the control panel of the case → then falls to the memory hopper → the control panel combines the materials in the memory hopper according to the instruction to obtain the required weight; if the materials are not combined, waiting for the next recombination → the materials are combined completely → flow into the blanking tray through the chute.
The utility model discloses a shake the material through main dish that shakes and scatter every line dish that shakes, every line shake the dish with material on it tremble into every hopper in, the material in the hopper falls into the weighing hopper fast, flows into the memory after weighing and fights and save, and quick-witted case is according to user's weight instruction, and the control panel is after calculating the combination of material in the memory fill, and the actuating mechanism of bottom is fought in the control memory, and the weight of accurate control material falls into down the charging tray.
The above, only do the preferred embodiment of the present invention, not used to limit the present invention, all the technical matters of the present invention should be included in the protection scope of the present invention for any slight modification, equivalent replacement and improvement of the above embodiments.
Claims (6)
1. A high-speed combination scale is used for accurately distributing materials; the method is characterized in that: the machine comprises an upper material tray fixed at the top of a rack, wherein a main vibrating tray is arranged at the bottom of the upper material tray, at least two line vibrating trays are distributed around the main vibrating tray, materials on the line vibrating trays fall into material storage hoppers arranged at the lower ends of the line vibrating trays through vibration, a weighing hopper for weighing the materials in real time is arranged at the tail end of each material storage hopper, the weighed materials fall into a memory hopper at the bottom of the weighing hopper, a case is fixed on the rack, and a lower material tray is arranged at the bottom of the memory hopper;
the control panel is arranged in the case, the weighing hoppers are provided with weight sensors, the weight sensors are connected with the control panel, each weight sensor transmits a weighing signal to the control panel in real time, the weighed materials fall into the memory hopper through the weighing hoppers, a user gives a material weight instruction to the case, the control panel in the case calculates the combined weight of the memory hoppers according to the weight instruction, and the control panel controls the switches of the memory hoppers so as to enable the combined materials to flow into the discharging tray.
2. The high-speed combination weigher of claim 1, wherein: the material storage hopper is of a polygonal structure.
3. The high-speed combination weigher of claim 1, wherein: the bottom of the memory bucket is provided with a movable baffle, one end of the movable baffle is fixedly connected with a driving mechanism, the driving mechanism is connected with the control panel, and the control panel controls the driving mechanism to push and pull the movable baffle to open or close the memory bucket.
4. The high-speed combination weigher of claim 2 or 3, wherein: a chute is further arranged between each memory hopper and the blanking plate, and materials in the memory hoppers flow into the blanking plate through the chutes.
5. The high-speed combination weigher of claim 4, wherein: the blanking disc is of a cone structure and is large in the upper part and small in the lower part.
6. The high-speed combination weigher of claim 4, wherein: the wire vibrating discs, the material storage hopper, the weighing hopper and the memory hopper correspond to each other one by one.
Priority Applications (1)
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CN202022425080.9U CN213481511U (en) | 2020-10-27 | 2020-10-27 | High-speed combined scale |
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CN202022425080.9U CN213481511U (en) | 2020-10-27 | 2020-10-27 | High-speed combined scale |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113819993A (en) * | 2021-09-28 | 2021-12-21 | 河南省计量科学研究院 | Calibration method of computer combination scale |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113819993A (en) * | 2021-09-28 | 2021-12-21 | 河南省计量科学研究院 | Calibration method of computer combination scale |
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