CN114028974A - Raw material quantitative adding equipment for H62 brass plate processing - Google Patents

Abstract

The invention relates to quantitative adding equipment, in particular to raw material quantitative adding equipment for processing an H62 brass plate. Need to design one kind and can replace the manual work to carry out the ration to the raw materials and discharge, avoid appearing surpassing or not up to standard phenomenon, the more convenient raw materials ration interpolation equipment of H62 brass plate processing. The utility model provides a raw materials ration interpolation equipment that H62 brass board was processed, includes support frame, work frame and supporting disk etc. and the rigid coupling has the work frame between the inner of both sides around the support frame upper portion, and upper portion rigid coupling has the supporting disk along circumference in the work frame. According to the invention, the raw materials are poured into the discharging hopper, quantitative raw materials fall into the rotating assembly and are blocked by the blanking assembly, the blanking assembly sends a signal, the control module controls the rotating assembly to operate after receiving the signal to drive the quantitative raw materials to rotate reversely to a proper position, and the quantitative raw materials fall into the collecting container through the blanking assembly, so that the quantitative raw materials can fall off, a weighing machine is not required, and the weighing machine is more convenient.

Description

Raw material quantitative adding equipment for H62 brass plate processing

Technical Field

The invention relates to quantitative adding equipment, in particular to raw material quantitative adding equipment for processing an H62 brass plate.

Background

In the manufacturing process of H62 brass plate, generally need to use a large amount of materials and can accomplish final preparation, wherein just including the use of six raw materialss, but before the raw materials uses, all need distribute the volume of raw materials demand, carry out follow-up processing again and use, at present, most all people and the instrument cooperation distribute the volume of raw materials to the demand, need pour the raw materials on weighing machine, the phenomenon that so easily appears the raw materials and surpasss or not reach standard, lead to people to need to operate once more and make the raw materials reach the demand, it is troublesome.

Therefore, it is necessary to design and develop a convenient quantitative raw material adding device for H62 brass plate processing, which can replace manual work to quantitatively discharge raw materials and avoid exceeding or failing to reach standards.

Disclosure of Invention

In order to overcome the defect that the raw materials are required to be poured onto a weighing machine, so that the phenomenon that the raw materials exceed or do not reach the standard easily occurs, and people need to operate again to enable the raw materials to reach the required quantity, and the raw materials are troublesome, the invention provides the raw material quantitative adding equipment which can replace manpower to quantitatively discharge the raw materials, avoids the phenomenon that the raw materials exceed or do not reach the standard, and is convenient for the H62 brass plate processing.

The invention is realized by the following technical approaches:

the utility model provides a raw materials ration interpolation equipment that H62 brass plate adds man-hour, including the support frame, the work frame, the supporting disk, first start key, lower hopper, rotating assembly, connect material subassembly and blanking subassembly, the rigid coupling has the work frame between the inner of both sides around the support frame upper portion, upper portion has the supporting disk along circumference rigid coupling in the work frame, six lower hoppers have been worn to connect along the fixed of circumference evenly spaced on the supporting disk, first start key is installed on the right side in the middle of the outer trailing flank upper portion of support frame, install the rotating assembly who is used for driving quantitative raw materials reversal between supporting disk and the work frame, rotating assembly corresponds with lower hopper, the supporting disk outer bottom installs the material subassembly that connects that is used for blocking the raw materials in the hopper down, connect material subassembly and rotating assembly contact, install between work frame and the rotating assembly and be used for carrying out the blanking subassembly that leads to quantitative raw materials.

Optionally, the rotating assembly comprises a driving motor, a connecting frame, first connecting sleeves and a charging box, the driving motor penetrates through the circle center of the supporting disc fixedly, the connecting frame is fixedly connected to the upper portion of an output shaft of the driving motor along the circumferential direction, the six first connecting sleeves are fixedly connected to the outer end of the connecting frame at uniform intervals, the charging box used for charging and taking quantitative raw materials is connected into the six first connecting sleeves in a sliding mode, the charging box is in corresponding contact with a discharging hopper, and the charging box is connected with the discharging assembly.

Optionally, the material receiving assembly comprises guide rails, baffles, first connecting rods, arc springs, first pressure sensors and a vibration motor, six guide rails are fixedly connected to the outer bottom of the supporting plate along the circumferential direction at uniform intervals, the first pressure sensors are installed at the tail ends of the guide rails, two first connecting rods are slidably sleeved on the guide rails, the baffles used for blocking raw materials in the feeding hopper are fixedly connected between the tail ends of the two first connecting rods on each guide rail, the arc springs are connected between one side of the first connecting rods far away from the first pressure sensors and one side of the guide rails, the arc springs are wound on the guide rails, and the vibration motor is installed in the middle of the outer bottom of the supporting plate.

Optionally, the blanking assembly comprises a second pressure sensor, a sliding frame, a material guide pipe, a third pressure sensor, a fourth pressure sensor, support plates, second connecting rods, elastic pieces, first electromagnets, second electromagnets, iron blocks and a material limiting plate, the bottoms of the charging boxes are symmetrically and embedded in the circumferential direction and are slidably connected with the second connecting rods, the number of the second connecting rods on each charging box is two, the elastic pieces are connected between the top ends of the second connecting rods and the inner sides of the charging boxes, the first electromagnets are rotatably connected with the lower portions of the second connecting rods in a penetrating manner, the first electromagnets are in contact with the outer bottoms of the charging boxes, the support plates for supporting the raw materials are installed between the inner ends of the two first electromagnets on each side, the support plates are in contact with the openings at the bottoms of the charging boxes, the iron blocks are fixedly connected with the outer sides of the tops of the first electromagnets in an embedded manner, the second electromagnets are installed on the inner sides of the lower portions of the second connecting rods in an embedded manner, and the second electromagnets are in contact with the iron blocks, the middle part is installed along circumference in the work frame second pressure sensor, second pressure sensor overlaps on driving motor's output shaft, the slidable cover is equipped with the carriage on driving motor's the output shaft, the carriage contacts with second pressure sensor, the rigid coupling is limited the flitch between carriage top every side both ends, limit the flitch and correspond with the magazine, limit the flitch and contact with the backup pad, install fourth pressure sensor in the middle of the supporting disk outer bottom rear side, when the link corotation, the link can contact with fourth pressure sensor, work frame inner wall upper portion is connected with six stock guides along the even interval of circumference, the third pressure sensor is all installed to upper portion one side in six stock guides, when second connecting rod downstream, the second connecting rod can contact with third pressure sensor.

Optionally, the storage device further comprises a storage component for collecting quantitative raw materials, the storage component comprises a storage concave disc, an iron material blocking block, a third electromagnet, a first spring, a fourth electromagnet and a second starting key, the storage concave disc for collecting the raw materials is fixedly connected to the lower portion of the inner portion of the working frame along the circumferential direction, an output shaft of the driving motor penetrates through the middle portion of the storage concave disc, the fourth electromagnet is circumferentially installed at the outer bottom of the storage concave disc, the third electromagnet is fixedly connected to the outer bottom of the storage concave disc through two rods and sleeved on the output shaft of the driving motor, the iron material blocking block for blocking the raw materials in the storage concave disc is slidably sleeved on the output shaft of the driving motor, the iron material blocking block is in contact with the middle portion of the storage concave disc, the first spring is connected between the bottom of the iron material blocking block and the top of the third electromagnet, when the third electromagnet is started, the iron material blocking block can be sucked and moved downwards by the third electromagnet, and a second starting key is arranged on the left side of the middle of the upper part of the outer rear side surface of the support frame.

Optionally, the device also comprises a shielding assembly for blocking the interior of the discharging hopper, the shielding assembly comprises a circular plate, a V-shaped plate, wire guide wheels, a first connecting plate, a second spring, a pull wire and guide rods, the bottom of the supporting disk is fixedly connected with the circular plate for blocking foreign matters from falling into the discharging hopper through six support plates along the circumferential direction, the circular plate is positioned above the discharging hopper, six feed inlets are uniformly arranged on the circular plate along the circumferential direction at intervals, one side of each of the six feed inlets of the circular plate is rotatably connected with the V-shaped plate, the V-shaped plate can block the feed inlets of the circular plate, six wire guide wheels are uniformly arranged on the top of the circular plate along the circumferential direction at intervals, the first connecting plate is fixedly connected with the middle of the top of the circular plate, the guide rods are slidably sleeved with the second connecting plate, and the second spring is connected between the bottom of the second connecting plate and the top of the circular plate, the second spring is sleeved on the guide rod, the six ends of the second connecting plate are fixedly connected with pull wires, and the tail ends of the pull wires penetrate through the first connecting plate and then are fixedly connected with the middle of the top of the V-shaped plate by bypassing the wire guide wheel.

Optionally, still including the suggestion subassembly that is used for the suggestion people to descend the interior raw materials condition of hopper, the suggestion subassembly is including the fifth electro-magnet, fifth pressure sensor, the second adapter sleeve, L type connecting rod, pressure disc and third spring, install the fifth electro-magnet in the middle of the outer top of circular slab, fifth pressure sensor is installed along circumference at the top in the circular slab, one side rigid coupling of keeping away from the circular slab in the hopper down has the second adapter sleeve, the pressure disc has been placed of second adapter sleeve internal sliding formula, be connected with the third spring between pressure disc bottom and the second adapter sleeve bottom, the rigid coupling has L type connecting rod in the middle of the pressure disc top, when L type connecting rod moves down, L type connecting rod can contact with fifth pressure sensor.

Optionally, the supporting frame further comprises a control box, the control box is installed in the middle of the upper portion of the front side face outside the supporting frame, a switching power supply, a power supply module and a control module are included in the control box, the switching power supply supplies power for raw material quantitative adding equipment during processing of the H62 brass plate, a power supply main switch is connected to the power supply module through a circuit, the control module is electrically connected with the power supply module, a DS1302 clock circuit and a 24C02 circuit are connected to the control module, a first pressure sensor, a second pressure sensor, a third pressure sensor, a fourth pressure sensor, a fifth pressure sensor, a first starting key and a second starting key are electrically connected with the control module, and the first electromagnet, the second electromagnet, the third electromagnet, the fourth electromagnet, the fifth electromagnet, the vibration motor and the driving motor are all connected with the control module through peripheral circuits.

Compared with the prior art, the invention has the remarkable improvements that:

1. through pouring the raw materials into hopper down, quantitative raw materials drop and are blocked by blanking subassembly in the rotating assembly, blanking subassembly signals, and control module received signal back control rotating assembly function drives quantitative raw materials and reverses to suitable position, and quantitative raw materials drops to collection container in through blanking subassembly, so, can make quantitative raw materials drop, need not to use weighing machine, and is more convenient.

2. Under the effect of storing the subassembly, can collect six kinds of quantitative raw materialss for six kinds of quantitative raw materialss can mix together and carry out follow-up use, so, can collect according to the volume of demand raw materials, need not to carry out a lot of and collect, and it is more convenient.

3. Under the effect that shelters from the subassembly, can block in six hopper down, when needing to add the raw materials, can promote the second connecting plate and move down, just also make V-arrangement board luffing motion break away from with the feed inlet of circular slab, can add the raw materials, so, can avoid external debris to drop the use of influence raw materials in the hopper down.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a first partial cross-sectional structural schematic of the present invention.

FIG. 4 is a second partial cross-sectional structural schematic of the present invention.

Fig. 5 is a schematic perspective view of the rotating assembly of the present invention.

Fig. 6 is a schematic perspective view of a first receiving assembly according to the present invention.

Fig. 7 is a schematic perspective view of a second receiving assembly according to the present invention.

Fig. 8 is a third partial sectional structural schematic of the present invention.

Fig. 9 is a fourth partial sectional structural view of the present invention.

Fig. 10 is an enlarged schematic view of part a of the present invention.

FIG. 11 is a schematic view of a fifth partial sectional structure of the present invention.

FIG. 12 is a sixth partial sectional structural view of the present invention.

FIG. 13 is a schematic view of a shielding assembly of the present invention in partial cross-section.

Fig. 14 is a seventh partial sectional structural view of the present invention.

Fig. 15 is an enlarged view of part B of the present invention.

Fig. 16 is a circuit block diagram of the present invention.

Fig. 17 is a schematic circuit diagram of the present invention.

In the reference symbols: 1_ support frame, 2_ work frame, 3_ support plate, 4_ control box, 41_ first start key, 5_ blanking hopper, 6_ rotating assembly, 61_ driving motor, 62_ connecting frame, 63_ first connecting sleeve, 64_ loading box, 7_ receiving assembly, 71_ guide rail, 72_ baffle, 73_ first connecting rod, 74_ bow spring, 75_ first pressure sensor, 76_ vibrating motor, 8_ blanking assembly, 81_ second pressure sensor, 82_ carriage, 83_ guide tube, 84_ third pressure sensor, 85_ fourth pressure sensor, 86_ support plate, 87_ second connecting rod, 88_ elastic member, 89_ first electromagnet, 810_ second electromagnet, 811_ iron block, 812_ limiting plate, 9_ storage assembly, 91_ storage concave disk, 92_ iron block, 93_ third electromagnet, 94_ first spring, 95_ fourth electromagnet, 96_ second start key, 10_ shield component, 101_ circular plate, 102_ V-shaped plate, 103_ wire guide wheel, 104_ first connecting plate, 105_ second connecting plate, 106_ second spring, 107_ stay wire, 108_ guide rod, 11_ prompt component, 1101_ fifth electromagnet, 1102_ fifth pressure sensor, 1103_ second connecting sleeve, 1104_ L-shaped connecting rod, 1105_ pressure disc, 1106_ third spring.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example (b): a raw material quantitative adding device for processing an H62 brass plate.

Referring to fig. 1-7, the device comprises a support frame 1, a work frame 2, a support plate 3, a first start key 41, a blanking hopper 5, a rotating assembly 6, a material receiving assembly 7 and a blanking assembly 8, wherein the work frame 2 is installed between the inner ends of the front and rear sides of the upper portion of the support frame 1 in a welding connection mode, the support plate 3 is fixedly connected to the upper portion of the work frame 2 along the circumferential direction, six blanking hoppers 5 are fixedly penetrated and connected to the support plate 3 along the circumferential direction at uniform intervals, the first start key 41 is installed on the right side of the middle of the upper portion of the outer rear side surface of the support frame 1, the rotating assembly 6 is installed between the support plate 3 and the work frame 2, the rotating assembly 6 corresponds to the blanking hopper 5, when the rotating assembly 6 is started, the rotating assembly 6 can drive the quantitative material to reversely rotate, the material receiving assembly 7 is installed at the bottom of the support plate 3, the material receiving assembly 7 contacts with the rotating assembly 6, when the rotating assembly 6 operates to drive the quantitative material to reversely rotate, connect material subassembly 7 to realize blocking the raw materials in hopper 5 down, avoid the raw materials to drop out, install blanking subassembly 8 between work frame 2 and rotating assembly 6, when rotating assembly 6 drove quantitative raw materials and reverses to suitable position, blanking subassembly 8 can lead quantitative raw materials.

The rotating assembly 6 comprises a driving motor 61, a connecting frame 62, first connecting sleeves 63 and a charging box 64, the circle center of the supporting disc 3 is fixedly connected with the driving motor 61 in a penetrating mode through bolt connection, the upper portion of an output shaft of the driving motor 61 is provided with the connecting frame 62 in a circumferential direction through welding connection, six first connecting sleeves 63 are fixedly connected to the outer end of the connecting frame 62 at equal intervals, the charging box 64 is connected into the six first connecting sleeves 63 in a sliding mode, the charging box 64 is in corresponding contact with the lower hopper 5, when a proper amount of raw materials are filled in the lower hopper 5, the charging box 64 can be used for charging quantitative raw materials, and the charging box 64 is connected with the blanking assembly 8.

The material receiving assembly 7 comprises guide rails 71, baffles 72, first connecting rods 73, arc springs 74, first pressure sensors 75 and vibration motors 76, six guide rails 71 are arranged at the outer bottom of the supporting plate 3 at equal intervals along the circumferential direction in a welding connection mode, the first pressure sensors 75 are arranged at the tail ends of the guide rails 71, two first connecting rods 73 are slidably sleeved on the guide rails 71, the baffles 72 are arranged between the tail ends of the two first connecting rods 73 on each guide rail 71 in a welding connection mode, when the charging box 64 drives quantitative raw materials to reversely rotate, the baffles 72 can normally rotate to block the raw materials in the discharging hopper 5, the arc springs 74 are connected between one side of the first connecting rods 73 far away from the first pressure sensors 75 and one side of the inner side of the guide rails 71, the arc springs 74 are wound on the guide rails 71, and the vibration motors 76 are arranged in the middle of the outer bottom of the supporting plate 3.

People press a power supply main switch to electrify the device, firstly, an operator places a collecting container under a working frame 2, then, six raw materials for manufacturing H62 brass plates are poured into six blanking hoppers 5 respectively, partial raw materials in the blanking hoppers 5 fall into a rotating assembly 6 and are blocked by a blanking assembly 8, when quantitative raw materials are filled in the rotating assembly 6, the blanking assembly 8 sends a signal, the control module receives the signal and controls the rotating assembly 6 to operate so as not to limit a receiving assembly 7, the receiving assembly 7 operates so as to block the residual raw materials in the blanking hoppers 5, the rotating assembly 6 and the blanking assembly 8 are matched to drive quantitative raw materials to reversely rotate, when the rotating assembly 6 reversely rotates to a proper position, the blanking assembly 8 sends a signal, the control module receives the signal and controls the rotating assembly 6 to stop operating, meanwhile, the raw materials are not limited by the blanking assembly 8, and fall into the blanking assembly 8, the raw materials in the blanking subassembly 8 drop and collect in collecting the container, when the raw materials in the rotating assembly 6 all dropped to collecting the container in, can press first start key 41, first start key 41 signals, control rotating assembly 6 function behind the control module received signal, rotating assembly 6 functions and drives and connects the material subassembly 7 function to reset, connect the material subassembly 7 function to reset signals, control rotating assembly 6 after the control module received signal and close, connect material subassembly 7 to reset and do not block the raw materials in the hopper 5 down, the raw materials then continues to drop to rotating assembly 6 in, so relapse, can be continuous with six kinds of raw materials collection of ration together make into H62 yellow copper board.

When an operator pours a proper amount of raw materials into the blanking hopper 5, a certain amount of raw materials fall into the charging box 64 and are blocked by the blanking assembly 8, when a proper amount of raw materials are filled in the charging box 64, the blanking assembly 8 sends a signal, the control module receives the signal and controls the driving motor 61 to rotate reversely, the driving motor 61 rotates reversely to drive the connecting frame 62 to rotate reversely, the connecting frame 62 rotates reversely to drive the first connecting sleeve 63 to rotate reversely, the first connecting sleeve 63 rotates reversely to drive the charging box 64 to rotate reversely, the charging box 64 rotates reversely to drive the certain amount of raw materials to rotate reversely through the blanking assembly 8, the charging box 64 does not limit the receiving assembly 7 when rotating reversely, the receiving assembly 7 operates to block the residual raw materials in the blanking hopper 5, when the connecting frame 62 rotates reversely to touch the blanking assembly 8, the blanking assembly 8 sends a signal, the control module receives the signal and controls the driving motor 61 to close, and the driving motor 61 stops driving the connecting frame 62 to rotate reversely, the charging box 64 stops rotating reversely, meanwhile, the blanking component 8 enables six quantitative raw materials to drop into the collecting container for collection, when all six quantitative raw materials drop into the collecting container, the first start key 41 is pressed once, the first start key 41 sends a signal, the control module receives the signal and controls the driving motor 61 to rotate forward and reset, the driving motor 61 rotates forward and drives the connecting frame 62 to rotate forward, the connecting frame 62 rotates forward and drives the charging box 64 to rotate forward through the first connecting sleeve 63, the charging box 64 rotates forward and drives the receiving component 7 to operate and reset, the receiving component 7 operates and resets to send a signal, the control module receives the signal and controls the driving motor 61 to close, the charging box 64 stops rotating forward, the receiving component 7 operates and resets without blocking the raw materials in the blanking hopper 5, the quantitative raw materials in the blanking hopper 5 continuously drop into the charging box 64 to contact with the blanking component 8, and the operation is repeated, quantitative raw materials can be continuously driven to reversely fall into the blanking component 8, and the blanking component 8 enables the raw materials to fall into the collecting container.

When the device is powered on, the control module controls the first pressure sensor 75 to work, initially, the arc spring 74 is in a stretching state, when an operator presses the first start key 41, the first start key 41 sends a signal, the control module receives the signal and then controls the vibration motor 76 to start, the vibration motor 76 starts to vibrate the supporting plate 3, and then vibrates the blanking hopper 5, so that raw materials can better fall off, when the driving motor 61 starts to rotate reversely, the charging box 64 rotates reversely to be separated from the baffle plate 72, the baffle plate 72 is driven to rotate reversely by the reverse rotation of the first connecting rod 73, the first connecting rod 73 rotates reversely to be separated from the contact with the first pressure sensor 75, the first pressure sensor 75 sends a signal, the control module receives the signal and then controls the vibration motor 76 to be closed, the baffle plate 72 rotates reversely to block the residual raw materials in the blanking hopper 5, and thus the waste caused by the falling of the residual raw materials in the blanking hopper 5 can be avoided, when the driving motor 61 starts forward rotation, the charging box 64 rotates forward to contact with the baffle plate 72, the charging box 64 drives the baffle plate 72 to rotate forward and return, the baffle plate 72 rotates forward and returns to drive the first connecting rod 73 to rotate forward, the arc-shaped spring 74 is stretched, when the first connecting rod 73 rotates forward to contact with the first pressure sensor 75, the first pressure sensor 75 sends a signal, the control module receives the signal and controls the driving motor 61 to close, the charging box 64 stops rotating forward, and the control module receives the signal and controls the vibration motor 76 to start.

Referring to FIGS. 1, 2, 3, 8, 9, 10, 11, 12 and 13, the blanking assembly 8 includes a second pressure sensor 81, a sliding frame 82, a material guiding pipe 83, a third pressure sensor 84, a fourth pressure sensor 85, a supporting plate 86, a second connecting rod 87, an elastic member 88, a first electromagnet 89, a second electromagnet 810, an iron block 811 and a material limiting plate 812, the second connecting rod 87 is slidably connected to the bottom of the cartridge 64 along the circumferential direction, the number of the second connecting rods 87 on each cartridge 64 is two, the elastic member 88 is connected between the top end of the second connecting rod 87 and the inner side of the cartridge 64, the first electromagnet 89 is rotatably connected to the lower part of the second connecting rod 87 in a penetrating manner, the first electromagnet 89 is in contact with the outer bottom of the cartridge 64, the supporting plate 86 is installed between the inner ends of the two first electromagnets 89 on each side, the supporting plate 86 is in contact with the opening at the bottom of the cartridge 64, when a certain amount of raw materials fall into the charging box 64, the supporting plate 86 can support the raw materials, an iron block 811 is fixedly connected to the outer side of the top of the first electromagnet 89 in an embedded manner in a welding connection manner, a second electromagnet 810 is installed on the inner side of the lower portion of the second connecting rod 87 in an embedded manner, the second electromagnet 810 is in contact with the iron block 811, a second pressure sensor 81 is installed at the middle portion of the inner portion of the working frame 2 in a welding connection manner along the circumferential direction, the second pressure sensor 81 is sleeved on the output shaft of the driving motor 61, a sliding frame 82 is slidably sleeved on the output shaft of the driving motor 61, the sliding frame 82 is in contact with the second pressure sensor 81, material limiting plates 812 are installed between two ends of each side of the top of the sliding frame 82 in a welding connection manner, the material limiting plates 812 are six in total, the material limiting plates 812 correspond to the charging box 64, the material limiting plates 812 are in contact with the supporting plate 86, a fourth pressure sensor 85 is installed in the middle of the rear side of the outer bottom of the supporting plate 3, when the connecting frame 62 rotates forward, the connecting frame 62 can contact with the fourth pressure sensor 85, the upper portion of the inner wall of the work frame 2 is connected with six material guiding pipes 83 at uniform intervals along the circumferential direction, the third pressure sensors 84 are mounted on one sides of the inner upper portions of the six material guiding pipes 83, and when the second connecting rod 87 moves downward, the second connecting rod 87 can contact with the third pressure sensors 84.

The storage device comprises a storage component 9, the storage component 9 comprises a storage concave disc 91, an iron material blocking block 92, a third electromagnet 93, a first spring 94, a fourth electromagnet 95 and a second starting key 96, the storage concave disc 91 is arranged at the lower part in the working frame 2 along the circumferential direction in a welding connection mode, when raw materials fall off, the storage concave disc 91 can collect the raw materials, an output shaft of a driving motor 61 penetrates through the middle part of the storage concave disc 91, the fourth electromagnet 95 is arranged at the outer bottom part of the storage concave disc 91 along the circumferential direction, the outer bottom part of the storage concave disc 91 is fixedly connected with the third electromagnet 93 through two rods, the third electromagnet 93 is sleeved on the output shaft of the driving motor 61, the iron material blocking block 92 is slidably sleeved on the output shaft of the driving motor 61 and is in contact with the middle part of the storage concave disc 91, when the raw materials fall into the storage concave disc 91, the iron material blocking block 92 can block the raw materials in the storage concave disc 91, a first spring 94 is connected between the bottom of the iron material blocking block 92 and the top of the third electromagnet 93, when the third electromagnet 93 is started, the third electromagnet 93 can suck the iron material blocking block 92 to move downwards, and a second starting key 96 is installed on the left side in the middle of the upper portion of the outer rear side face of the support frame 1.

The novel garbage can is characterized by further comprising a shielding assembly 10, wherein the shielding assembly 10 comprises a circular plate 101, a V-shaped plate 102, a wire guide wheel 103, a first connecting plate 104, a second connecting plate 105, a second spring 106, a stay wire 107 and a guide rod 108, the circular plate 101 is fixedly connected to the bottom of the supporting disc 3 along the circumferential direction through six support plates, the circular plate 101 is located above the blanking hopper 5, foreign matters can be shielded and prevented from falling into the blanking hopper 5 by the circular plate 101, six feeding holes are uniformly formed in the circumferential direction of the circular plate 101 at intervals, the V-shaped plate 102 is rotatably connected to one side of the six feeding holes of the circular plate 101, the feeding holes of the circular plate 101 can be shielded by the V-shaped plate 102, the six wire guide wheels 103 are uniformly arranged at intervals along the circumferential direction at the outer top of the circular plate 101, the first connecting plate 104 is arranged in the middle of the outer top of the circular plate 101 in a welding connection mode, the guide rod 108 is arranged in the middle of the outer top of the circular plate 101 in a welding connection mode, a second connecting plate 105 is slidably sleeved on the guide rod 108, a second spring 106 is connected between the bottom of the second connecting plate 105 and the outer top of the circular plate 101, the second spring 106 is sleeved on the guide rod 108, pull wires 107 are fixedly connected to six ends of the second connecting plate 105, and the tail ends of the pull wires 107 penetrate through the first connecting plate 104 and then are fixedly connected with the middle of the top of the V-shaped plate 102 by bypassing the wire guide wheel 103.

When the device is powered on, the control module controls the second pressure sensor 81, the third pressure sensor 84 and the fourth pressure sensor 85 to work, when an operator pours a proper amount of raw materials into the lower hopper 5, a certain amount of raw materials in the lower hopper 5 fall into the charging box 64 to be contacted with the supporting plate 86, the raw materials drive the supporting plate 86 to move downwards due to the weight of the raw materials, the supporting plate 86 moves downwards to drive the material limiting plate 812 to move downwards, the material limiting plate 812 moves downwards to drive the sliding frame 82 to move downwards, the sliding frame 82 moves downwards to apply pressure to the second pressure sensor 81, when the second pressure sensor 81 senses a rated value set by the control module, the control module sends a signal to control the driving motor 61 to rotate reversely after receiving the signal, the charging box 64 also rotates reversely to drive the second connecting rod 87 to rotate reversely, the second connecting rod 87 rotates reversely to drive the first electromagnet 89 to rotate reversely, the first electromagnet 89 rotates reversely to drive the support plate 86 to rotate reversely, the support plate 86 rotates reversely to drive the raw material to rotate reversely with the charging box 64, when the connecting frame 62 rotates reversely to contact with the fourth pressure sensor 85, the fourth pressure sensor 85 sends a signal, the control module receives the signal to control the driving motor 61 to be turned off, the charging box 64 stops driving the raw material to rotate reversely through the support plate 86, the support plate 86 corresponds to the material guide pipe 83, meanwhile, the control module receives the signal to control the first electromagnet 89 to be powered off, the first electromagnet 89 is powered off and is not sucked on the charging box 64, the raw material drives the support plate 86 to move downwards due to the weight of the raw material, the support plate 86 moves downwards to drive the first electromagnet 89 to move downwards, the first electromagnet 89 moves downwards to drive the second connecting rod 87 to move downwards, the elastic piece 88 is stretched, when the support plate 86 moves downwards to the material guide pipe 83, the second connecting rod 87 contacts with the third pressure sensor 84, the third pressure sensor 84 sends a signal, the control module receives the signal and then controls the second electromagnet 810 to be powered off, the second electromagnet 810 stops sucking the iron block 811, the support plate 86 overturns for a certain angle to be in an inclined state under the action of gravity, the raw material falls into the material guide pipe 83 from the support plate 86, the raw material in the material guide pipe 83 falls into the collection container, when all the raw material on the support plate 86 falls, the second connecting rod 87 moves upwards to drive the first electromagnet 89 to move upwards under the action of the elastic piece 88, the first electromagnet 89 moves upwards to drive the support plate 86 to move upwards, the second connecting rod 87 moves upwards to be separated from the contact with the third pressure sensor 84, the third pressure sensor 84 sends a signal, the control module receives the signal and then controls the second electromagnet 810 to be started, and then when the support plate 86 moves upwards to be in contact with the charging box 64, the charging box 64 enables the support plate 86 to overturn and reset, the supporting plate 86 is overturned and reset to drive the first electromagnet 89 to overturn and reset, the first electromagnet 89 is overturned and reset to drive the iron block 811 to rotate and reset, the iron block 811 rotates and resets to be in contact with the first electromagnet 89, the first electromagnet 89 sucks and fixes the iron block 811, the supporting plate 86 is also sucked and fixed, the first starting key 41 can be pressed once, the first starting key 41 sends a signal, the control module controls the driving motor 61 to rotate forwards after receiving the signal, the charging box 64 rotates forwards and resets, the charging box 64 resets to drive the first electromagnet 89 to rotate forwards and reset through the second connecting rod 87, the first electromagnet 89 rotates forwards and resets to drive the supporting plate 86 to rotate and reset, the supporting plate 86 rotates forwards and resets to be in contact with the material limiting plate 812, and meanwhile, the connecting frame 62 rotates forwards and is out of contact with the fourth pressure sensor 85.

When the device is powered on, the control module controls the fourth electromagnet 95 to work, the fourth electromagnet 95 sucks the iron material blocking block 92, when quantitative raw materials fall into the material guide pipe 83, the raw materials in the material guide pipe 83 fall into the material storage concave disc 91, the iron material blocking block 92 blocks the raw materials in the material storage concave disc 91, when the required raw material amount is filled in the material storage concave disc 91, the second starting key 96 is pressed, the second starting key 96 sends a signal, the control module receives the signal and controls the third electromagnet 93 to be powered on and the fourth electromagnet 95 to be powered off, the fourth electromagnet 95 is powered off and does not suck the iron material blocking block 92, the third electromagnet 93 is powered on and sucks the iron material blocking block 92 downwards, the first spring 94 is compressed, the iron material blocking block 92 moves downwards and does not block the material storage concave disc 91, the raw materials in the material storage concave disc 91 fall into a collection container, and when all the raw materials in the material storage concave disc 91 fall into the collection container, the second starting key 96 can be loosened, the second starting key 96 sends a signal, the control module receives the signal and then controls the third electromagnet 93 to be powered off, the third electromagnet 93 stops sucking the iron material blocking block 92, the iron material blocking block 92 moves upwards to reset to seal the inner part of the material storage concave disc 91 under the action of the first spring 94, meanwhile, the control module also controls the fourth electromagnet 95 to be powered on, and the fourth electromagnet 95 is powered on to suck and fix the iron material blocking block 92. So, can collect according to the volume of demand raw materials, need not to carry out a lot of and collect, it is more convenient.

Firstly, an operator pushes the second connecting plate 105 to move downwards, the second spring 106 is compressed, the second connecting plate 105 moves downwards to drive the pull wire 107 to move downwards, the pull wire 107 moves downwards to drive the V-shaped plate 102 to swing upwards through the wire guide wheel 103, the V-shaped plate 102 swings upwards to not block the feeding hole of the circular plate 101, the second connecting plate 105 is stopped being pressed, the V-shaped plate 102 stops swinging upwards, raw materials can be poured into the discharging hopper 5 through the feeding hole of the circular plate 101, when a proper amount of raw materials are filled in the discharging hopper 5, the second connecting plate 105 is loosened, the second connecting plate 105 moves upwards to reset so that the pull wire 107 is loosened due to the action of the second spring 106, the V-shaped plate 102 swings downwards to reset to block the feeding hole of the circular plate 101 due to the action of gravity, and the V-shaped plate 102 is matched with the circular plate 101 to block the discharging hopper 5. Therefore, foreign matters can be prevented from falling into the lower hopper 5 to influence the use of the raw materials.

Referring to fig. 1, 14 and 15, the prompting device 11 further includes a prompting assembly 11, the prompting assembly 11 includes a fifth electromagnet 1101, a fifth pressure sensor 1102, a second connecting sleeve 1103, an L-shaped connecting rod 1104, a pressure disc 1105 and a third spring 1106, the fifth electromagnet 1101 is installed in the middle of the outer top portion of the circular plate 101, the fifth pressure sensor 1102 is installed in the circumferential direction of the inner top portion of the circular plate 101, the second connecting sleeve 1103 is installed on one side of the discharging hopper 5 away from the circular plate 101 in a welding connection manner, the pressure disc 1105 is slidably placed in the second connecting sleeve 1103, the third spring 1106 is connected between the bottom end of the pressure disc 1105 and the inner bottom portion of the second connecting sleeve 1103, the L-shaped connecting rod 1104 is installed in the middle of the top portion of the pressure disc 1105 in a welding connection manner, and when the L-shaped connecting rod 1104 moves downward, the L-shaped connecting rod 1104 can be in contact with the fifth pressure sensor 1102.

When the device is powered on, the control module controls the fifth pressure sensor 1102 to work, the control module also controls the fifth electromagnet 1101 to be started, the fifth electromagnet 1101 sucks the second connecting plate 105 to move downwards, so that the V-shaped plate 102 swings upwards and does not block the feeding hole of the circular plate 101, an operator can pour a proper amount of raw materials into the blanking hopper 5, the raw materials are in contact with the pressure disc 1105, the raw materials drive the pressure disc 1105 to move downwards, the third spring 1106 is compressed, the pressure disc 1105 moves downwards to drive the L-shaped connecting rod 1104 to move downwards, the L-shaped connecting rod 1104 moves downwards to be in contact with the fifth pressure sensor 1102, the fifth pressure sensor 1102 sends a signal, the control module receives the signal and controls the fifth electromagnet 1101 to be powered off, the fifth electromagnet 1101 is powered off to release and reset the second connecting plate 105, when the raw materials in the blanking hopper 5 are continuously discharged for quantitative use, the raw materials in the blanking hopper 5 are less and less, the raw materials stops limiting the pressure plate 1105, because of the action of the third spring 1106, the pressure plate 1105 moves upwards to reset and drives the L-shaped connecting rod 1104 to move upwards to reset, the L-shaped connecting rod 1104 moves upwards to reset and is separated from the contact with the fifth pressure sensor 1102, the fifth pressure sensor 1102 sends a signal, the control module receives the signal and then controls the fifth electromagnet 1101 to be electrified, the fifth electromagnet 1101 is electrified to suck the second connecting plate 105 to move downwards, the V-shaped plate 102 swings upwards to prevent the feed inlet of the circular plate 101, people are reminded that no raw materials exist in the discharging hopper 5, and a proper amount of raw materials can be poured into the discharging hopper 5. Therefore, people can be reminded of adding raw materials into the discharging hopper 5 in time.

Referring to fig. 1, 16 and 17, the device comprises a control box 4, the control box 4 is installed in the middle of the upper portion of the outer front side of a support frame 1, a switching power supply, a power supply module and a control module are included in the control box 4, the switching power supply supplies power to raw material quantitative adding equipment during processing of an H62 brass plate, the power supply module is connected with a power main switch through a circuit, the control module is electrically connected with the power supply module, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, a first pressure sensor 75, a second pressure sensor 81, a third pressure sensor 84, a fourth pressure sensor 85, a fifth pressure sensor 1102, a first start key 41 and a second start key 96 are all electrically connected with the control module, the first electromagnet 89, the second electromagnet 810, the third electromagnet 93, the fourth electromagnet 95, the fifth electromagnet 1101, the vibration motor 76 and the driving motor 61 are all connected with the control module through peripheral circuits.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. A raw material quantitative adding device for processing an H62 brass plate comprises a support frame (1), a working frame (2), a support plate (3), a first starting key (41) and a blanking hopper (5), wherein the inner ends of the front side and the rear side of the upper part of the support frame (1) are connected by welding to form the working frame (2), the upper part of the working frame (2) is fixedly connected with the support plate (3) along the circumferential direction, six blanking hoppers (5) are fixedly connected to the support plate (3) along the circumferential direction at uniform intervals in a penetrating manner, the first starting key (41) is arranged on the right side of the middle of the upper part of the outer rear side surface of the support frame (1), the quantitative adding device is characterized by further comprising a rotating assembly (6), a material receiving assembly (7) and a blanking assembly (8), a rotating assembly (6) for driving quantitative raw material to reversely rotate is arranged between the support plate (3) and the working frame (2), and the rotating assembly (6) corresponds to the blanking hopper (5), the outer bottom of the supporting disc (3) is provided with a material receiving assembly (7) for blocking raw materials in the discharging hopper (5), the material receiving assembly (7) is in contact with the rotating assembly (6), and a blanking assembly (8) for guiding quantitative raw materials is arranged between the working frame (2) and the rotating assembly (6).

2. The raw material quantitative adding equipment for the H62 brass plate processing as claimed in claim 1, wherein the rotating assembly (6) comprises a driving motor (61), a connecting frame (62), first connecting sleeves (63) and a charging box (64), the driving motor (61) is fixedly connected to the circle center position of the supporting disc (3) in a penetrating manner, the connecting frame (62) is fixedly connected to the upper portion of the output shaft of the driving motor (61) along the circumferential direction, six first connecting sleeves (63) are fixedly connected to the outer end of the connecting frame (62) at regular intervals, the charging box (64) used for charging quantitative raw materials is connected in the six first connecting sleeves (63) in a sliding manner, the charging box (64) is correspondingly contacted with the blanking hopper (5), and the charging box (64) is connected with the blanking assembly (8).

3. The equipment for quantitatively adding the raw materials in the processing of the H62 brass plate as claimed in claim 2, wherein the material receiving assembly (7) comprises a guide rail (71), a baffle (72), a first connecting rod (73), an arc spring (74), a first pressure sensor (75) and a vibration motor (76), six guide rails (71) are fixedly connected to the outer bottom of the support plate (3) at uniform intervals along the circumferential direction, the first pressure sensor (75) is mounted at the tail end of each guide rail (71), two first connecting rods (73) are slidably sleeved on the guide rails (71), the baffle (72) for blocking the raw materials in the blanking hopper (5) is fixedly connected between the tail ends of the two first connecting rods (73) on each guide rail (71), the arc spring (74) is connected between one side of the first connecting rod (73) far away from the first pressure sensor (75) and one side in the guide rails (71), the arc spring (74) is wound on the guide rail (71), and the middle of the outer bottom of the support plate (3) is provided with a vibration motor (76).

4. The device for quantitatively adding the raw materials in the machining of the H62 brass plate is characterized in that the blanking assembly (8) comprises a second pressure sensor (81), a sliding frame (82), a material guide pipe (83), a third pressure sensor (84), a fourth pressure sensor (85), a support plate (86), second connecting rods (87), elastic members (88), first electromagnets (89), second electromagnets (810), iron blocks (811) and a material limiting plate (812), the second connecting rods (87) are connected to the bottom of the charging box (64) in a circumferentially symmetrical embedded sliding manner, the number of the second connecting rods (87) on each charging box (64) is two, the elastic members (88) are connected between the top end of the second connecting rods (87) and the inner side of the charging box (64), the first electromagnets (89) are rotatably connected to the lower parts of the second connecting rods (87) in a penetrating manner, and the first electromagnets (89) are in contact with the outer bottom of the charging box (64), a supporting plate (86) used for supporting the raw materials is arranged between the inner ends of two first electromagnets (89) on each side, the supporting plate (86) is in contact with an opening at the bottom of the charging box (64), an iron block (811) is fixedly connected to the outer side of the top of the first electromagnets (89) in an embedded manner, a second electromagnet (810) is arranged on the inner side of the lower portion of a second connecting rod (87) in an embedded manner, the second electromagnet (810) is in contact with the iron block (811), a second pressure sensor (81) is arranged in the middle of the inner portion of the working frame (2) along the circumferential direction, the second pressure sensor (81) is sleeved on an output shaft of the driving motor (61), a sliding frame (82) is slidably sleeved on the output shaft of the driving motor (61), the sliding frame (82) is in contact with the second pressure sensor (81), a material limiting plate (812) is fixedly connected between the two ends of each side of the top of the sliding frame (82), the material limiting plates (812) are six in total, and the material limiting plates (812) correspond to the charging box (64), the material limiting plate (812) is in contact with the supporting plate (86), a fourth pressure sensor (85) is installed in the middle of the rear side of the outer bottom of the supporting plate (3), when the connecting frame (62) rotates forwards, the connecting frame (62) can be in contact with the fourth pressure sensor (85), six material guide pipes (83) are uniformly arranged on the upper portion of the inner wall of the working frame (2) at intervals along the circumferential direction, a third pressure sensor (84) is installed on one side of the upper portion in the six material guide pipes (83), and when the second connecting rod (87) moves downwards, the second connecting rod (87) can be in contact with the third pressure sensor (84).

5. The equipment is added to raw material ration during H62 brass plate processing of claim 4, characterized in that, still include the storage assembly (9) that is used for collecting quantitative raw materials, storage assembly (9) are including storage concave dish (91), iron material stopping block (92), third electro-magnet (93), first spring (94), fourth electro-magnet (95) and second start key (96), work frame (2) inner lower part is along circumference rigid coupling have be used for carrying out the storage concave dish (91) of collecting to the raw materials, the output shaft of driving motor (61) passes storage concave dish (91) middle part, fourth electro-magnet (95) are installed along circumference to storage concave dish (91) outer bottom, storage concave dish (91) outer bottom has third electro-magnet (93) through two pole rigid couplings, third electro-magnet (93) cover is on the output shaft of driving motor (61), the cover that slidable formula is equipped with on the output shaft of driving motor (61) is used for stopping the raw materials in storage concave dish (91) is equipped with Iron material stopping block (92), iron material stopping block (92) and material storage concave disk (91) middle part contact, are connected with first spring (94) between iron material stopping block (92) bottom and third electro-magnet (93) top, and when third electro-magnet (93) started, third electro-magnet (93) can stop material block (92) suction with iron and move down, and second start key (96) are installed in the middle of support frame (1) outside trailing flank upper portion left side.

6. The raw material quantitative adding equipment for the H62 brass plate processing according to claim 5, further comprising a shielding assembly (10) for shielding the inside of the blanking hopper (5), wherein the shielding assembly (10) comprises a circular plate (101), a V-shaped plate (102), a wire guide wheel (103), a first connecting plate (104), a second connecting plate (105), a second spring (106), a wire pull (107) and a guide rod (108), the bottom of the supporting disk (3) is fixedly connected with the circular plate (101) for shielding foreign matters from falling into the blanking hopper (5) through six support plates along the circumferential direction, the circular plate (101) is located above the blanking hopper (5), the circular plate (101) is provided with six feeding ports at uniform intervals along the circumferential direction, one side of the six feeding ports of the circular plate (101) is rotatably connected with the V-shaped plate (102), and the V-shaped plate (102) can shield the feeding ports of the circular plate (101), six wire wheels (103) are installed along the even interval of circumference in the outer top of circular plate (101), the rigid coupling has first connecting plate (104) in the middle of the outer top of circular plate (101), the rigid coupling has guide arm (108) in the middle of the outer top of circular plate (101), gliding cover is equipped with second connecting plate (105) on guide arm (108), be connected with second spring (106) between second connecting plate (105) bottom and the outer top of circular plate (101), second spring (106) cover is on guide arm (108), six ends of second connecting plate (105) all the rigid coupling have act as go-between (107), act as go-between (107) tail end run through first connecting plate (104) and walk around wire wheel (103) and V-shaped plate (102) top middle fixed connection again.

7. The H62 quantitative raw material adding equipment during processing of the brass plate according to claim 6, further comprising a prompting component (11) for prompting the raw material condition in the blanking hopper (5) by people, wherein the prompting component (11) comprises a fifth electromagnet (1101), a fifth pressure sensor (1102), a second connecting sleeve (1103), an L-shaped connecting rod (1104), a pressure disc (1105) and a third spring (1106), the fifth electromagnet (1101) is installed in the middle of the outer top of the circular plate (101), the fifth pressure sensor (1102) is installed on the inner top of the circular plate (101) along the circumferential direction, the second connecting sleeve (1103) is fixedly connected to one side of the blanking hopper (5) far away from the circular plate (101), the pressure disc (1105) is placed in the second connecting sleeve (1103) in a sliding manner, the third spring (1106) is connected between the bottom end of the pressure disc (1105) and the inner bottom of the second connecting sleeve (1103), an L-shaped connecting rod (1104) is fixedly connected to the middle of the top of the pressure plate (1105), and when the L-shaped connecting rod (1104) moves downwards, the L-shaped connecting rod (1104) can be in contact with the fifth pressure sensor (1102).

8. The equipment for quantitatively adding the raw materials during the processing of the H62 brass plate as claimed in claim 7, wherein the equipment further comprises a control box (4), the control box (4) is installed in the middle of the upper portion of the outer front side of the support frame (1), the control box (4) comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the equipment for quantitatively adding the raw materials during the processing of the H62 brass plate, the power supply module is connected with a power master switch through a circuit, the control module is electrically connected with the power supply module, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, the first pressure sensor (75), the second pressure sensor (81), the third pressure sensor (84), the fourth pressure sensor (85), the fifth pressure sensor (1102), the first start key (41) and the second start key (96) are electrically connected with the control module, the first electromagnet (89), the second electromagnet (810), the third electromagnet (93), the fourth electromagnet (95), the fifth electromagnet (1101), the vibration motor (76) and the driving motor (61) are all connected with the control module through peripheral circuits.

Images