阅读说明：本技术 硝酸铅加工用投料装置 (Feeding device for processing lead nitrate ) 是由 王志辉 姜亚军 于 2021-09-09 设计创作，主要内容包括：本发明涉及硝酸铅加工投料技术领域,具体为硝酸铅加工用投料装置。本技术方案所要解决的技术问题为：现有的硝酸铅加工用料体投送装置在使用的过程中不能够将料体根据使用的需要进行导向的输送,并且料体在输送的过程中不能够进行自动的筛分。硝酸铅加工用投料装置,包括送料控制机构、均匀给料控制装置和固定支撑底座,固定支撑底座固定连接在均匀给料控制装置的底端中部,所述送料控制机构包括导向送料装置和投料装置,所述投料装置固定安装在导向送料装置的上端中部。本技术方案的有益效果为：通过设置送料控制机构和均匀给料控制装置,利用送料控制机构可以完成对料体的搅拌拌和以及过滤输送。(The invention relates to the technical field of lead nitrate processing feeding, in particular to a feeding device for lead nitrate processing. The technical problem to be solved by the technical scheme is as follows: the prior feeding device for the lead nitrate processing material bodies cannot guide and convey the material bodies according to the use requirements in the use process, and the material bodies cannot automatically sieve in the conveying process. Lead nitrate processing is with throwing material device, including feeding control mechanism, even feed controlling means and fixed stay base, fixed stay base fixed connection is in even feed controlling means's bottom middle part, feeding control mechanism includes direction material feeding unit and throws the material device, throw material device fixed mounting at direction material feeding unit's upper end middle part. The beneficial effects of this technical scheme do: by arranging the feeding control mechanism and the uniform feeding control device, the stirring and mixing of the material body and the filtering and conveying can be completed by utilizing the feeding control mechanism.)

1. Lead nitrate processing is with throwing material device, its characterized in that: including pay-off control mechanism (1), even feed controlling means (2) and fixed bolster base (3), fixed bolster base (3) fixed connection is in the bottom middle part of even feed controlling means (2), pay-off control mechanism (1) fixed mounting is directly over even feed controlling means (2).

2. The feeding device for lead nitrate processing according to claim 1, characterized in that: the feeding control mechanism (1) comprises a guiding feeding device (4) and a feeding device (5), wherein the feeding device (5) is fixedly arranged in the middle of the upper end of the guiding feeding device (4).

3. The feeding device for lead nitrate processing according to claim 2, characterized in that: guide feeding unit (4) including leading send board (6), separate fender deflector (7), fasten and revolve wrong screw thread post (8), first fixed orifices (9) and support mount (10), support mount (10) symmetry setting, first fixed orifices (9) run through and set up in the both ends bottom of supporting mount (10), it is that mirror symmetry state rotation is installed inside supporting mount (10) to lead send board (6), separate fender deflector (7) fixed mounting at the up end of leading and sending board (6), the fastening is revolved wrong screw thread post (8) screw thread and is rotated and install on supporting mount (10) and leading send board (6).

4. The feeding device for lead nitrate processing according to claim 3, characterized in that: throw material device (5) including first motor (11), stirring wheel (12), fixed stay post (13), supporting seat (14), hold frame (15) and filter sieve (16), fixed stay post (13) fixed connection is at the both ends middle part that holds frame (15), the end at fixed stay post (13) is installed in supporting seat (14), just inside fixed stay post (13) rotate and peg graft in the upper end of supporting seat (14), first motor (11) fixed connection is located one side on supporting seat (14), just first motor (11) and fixed stay post (13) fixed connection, stirring wheel (12) fixed mounting is in the inside that holds frame (15), the equal fixed mounting in both sides that holds frame (15) has filter sieve (16).

5. The feeding device for lead nitrate processing according to claim 4, characterized in that: the uniform feeding control device (2) comprises a support plate (17), a storage barrel (18), a first rotating Buddha control panel (19), a limiting frame (20), a second fixing hole (21), a support main board (22), a drive adjusting rod (23), a second rotating Buddha control panel (24), a sliding adjusting plate (25) and an unloading slotted hole (26), wherein the limiting frame (20) is fixedly connected to the upper parts of the two ends of the support main board (22), the sliding adjusting plate (25) is installed inside the limiting frame (20) in a sliding manner, the unloading slotted hole (26) symmetrically penetrates through the front end of the sliding adjusting plate (25), the second fixing hole (21) uniformly penetrates through the two sides of the limiting frame (20), the support plate (17) is fixedly installed at the upper end of the limiting frame (20), the storage barrel (18) is fixedly connected to the upper end of the support plate (17), and the diameter of an inner cavity of the storage barrel (18) is smaller than the diameter of the unloading slotted hole (26), the second rotating Buddha control disc (24) is rotatably arranged in the middle of the upper end of the supporting main board (22), the first rotating Buddha control board (19) is fixedly connected with the upper end of the second rotating Buddha control board (24), a second motor (27) is fixedly arranged in the middle of the bottom end of the supporting main board (22), and the upper end of the second motor (27) is fixedly connected with the bottom end of the second rotating Buddha control disc (24), a driving adjusting rod (23) is rotatably arranged between the second rotating Buddha control disk (24) and the sliding adjusting plate (25) at one side and between the first rotating Buddha control disk (19) and the sliding adjusting plate (25) at the other side, two ends of the driving adjusting rod (23) are respectively and rotatably connected to the first rotating Buddha control disc (19), the second rotating Buddha control disc (24) and the sliding adjusting plate (25) through rotating shafts.

6. The feeding device for lead nitrate processing according to claim 5, characterized in that: the upper end of the storage barrel (18) is positioned right below the bottom of the guide plate (6), and the space between the bottom ends of the partition guide plates (7) is positioned right below the storage barrel (18).

7. The feeding device for lead nitrate processing according to claim 6, characterized in that: the stirring wheel (12) is evenly and fixedly provided with auxiliary stirring rods, and the auxiliary stirring rods are made of stainless steel.

8. The feeding device for lead nitrate processing according to claim 7, characterized in that: the material storage cylinder (18) is made of transparent glass.

Technical Field

The invention relates to the technical field of lead nitrate processing feeding, in particular to a feeding device for lead nitrate processing.

Background

Lead nitrate is a white cubic or monoclinic crystal, hard and shiny, and readily soluble in water. It is mainly used for manufacturing lead salt, mordant, fireworks, etc. Lead and its compounds damage hematopoietic, neurological, digestive and renal damage. Occupational poisoning is mainly chronic. The nervous system is mainly manifested by neurasthenia syndrome, peripheral neuropathy, and lead-toxic encephalopathy in severe cases. The method is strictly forbidden to be mixed with acids, inflammable matters, organic matters, reducing agents, spontaneous combustion articles, wet inflammable articles and the like in a vehicle.

The device comprises a feeding device, a conveying device and a screening device, wherein the feeding device is used for feeding various materials for processing, the feeding device is used for feeding the materials for processing, the materials for processing are conveyed by the feeding device, the feeding device is used for feeding the materials for processing, the materials for processing are conveyed by the feeding device, the feeding device is used for feeding the materials for processing, the processing efficiency is improved, and the quality of the lead nitrate is improved.

Disclosure of Invention

The technical problem to be solved by the technical scheme is as follows: the existing feeding device for the lead nitrate machining material body cannot convey the material body according to the use requirement in the use process, the material body cannot be automatically screened in the conveying process, the material with large particles is fed, the machining and the quality of the lead nitrate are not facilitated, and the existing feeding device cannot convey the material body uniformly in the use process, so that the machining is inconvenient.

In order to realize the purpose, the invention adopts the technical scheme that: the feeding device for processing the lead nitrate comprises a feeding control mechanism, an even feeding control device and a fixed support base, wherein the fixed support base is fixedly connected to the middle of the bottom end of the even feeding control device, and the feeding control mechanism is fixedly installed right above the even feeding control device.

The beneficial effects of this technical scheme do: the feeding control mechanism can be used for stirring and filtering the material body and conveying the material body, the uniform feeding control device can be used for uniformly conveying the material body, and the feeding direction and the position of the material body can be controlled and adjusted through the feeding control mechanism.

The technical problem to be solved by the improvement of the technical scheme is as follows: the guided transport and control of the material bodies for processing cannot be facilitated.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the feeding control mechanism comprises a guiding feeding device and a feeding device, and the feeding device is fixedly installed in the middle of the upper end of the guiding feeding device.

The beneficial effect after this technical scheme improves does: the feeding device can stir the material bodies in the feeding device and enable the material bodies to fall on the appointed side of the guiding and feeding device in a guiding and conveying mode, and therefore the guiding and feeding device is used for achieving the guiding and conveying of the material bodies falling on the guiding and feeding device in the appointed direction.

The technical problem to be solved by the improvement of the technical scheme is as follows: it is not possible to convey the work material in a side-by-side guided manner or in a concentrated manner.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the guide feeding device comprises a guide feeding plate, a blocking guide plate, a fastening screwing threaded column, a first fixing hole and a support fixing frame, wherein the support fixing frame is symmetrically arranged, the first fixing hole penetrates through the bottoms of the two ends of the support fixing frame, the guide feeding plate is in a mirror symmetry state and is rotatably installed inside the support fixing frame, the blocking guide plate is fixedly installed on the upper end face of the guide feeding plate, and the fastening screwing threaded column is rotatably installed on the support fixing frame and the guide feeding plate.

The beneficial effect after this technical scheme improves does: the guide plates are symmetrically distributed in the supporting and fixing frame in a mirror image mode, so that materials falling on the guide plate at one appointed side can be conveyed in an appointed sliding mode from one side of the supporting and fixing frame, and the materials falling on the guide plates can be discharged in a concentrated mode from appointed positions on the guide plates after being guided by the blocking guide plates.

The technical problem to be solved by the improvement of the technical scheme is as follows: the material bodies for machining cannot be discharged in a specified direction, and the material bodies cannot be stirred and sieved before being discharged and fed.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: throw the material device and include first motor, stirring wheel, fixed stay post, supporting seat, hold the frame and filter the sieve, fixed stay post fixed connection is at the both ends middle part of holding the frame, the end at fixed stay post is installed to the supporting seat, just inside the upper end of supporting seat was pegged graft in the fixed stay post rotation, first motor fixed connection is located one side on the supporting seat, just first motor and fixed stay post fixed connection, stirring wheel fixed mounting is in the inside that holds the frame, the equal fixed mounting in both sides that holds the frame has the filter sieve.

The beneficial effect after this technical scheme improves does: the material body falling in the containing frame drives the fixed support column to rotate by utilizing the first motor to drive the containing frame to rotate so as to realize stirring and mixing, and the stirring wheel can be used for separating and scattering the material body in the containing frame in the swinging and rotating process of the containing frame, so that the material bodies inside the containing frame can be fully stirred and mixed in the swinging process, when the first motor controls the containing frame to rotate to a larger offset to one side, the stirred material bodies in the containing frame are discharged from one side of the containing frame, thereby completing the feeding and the use of the designated direction and the designated position of the material bodies in the containing frame, and the material bodies can be screened through the partition of the filtering sieve plate when being discharged from the containing frame, the materials meeting the requirements can be discharged for use, and the larger particles are intercepted and kept in the containing frame for continuous smashing and mixing.

The technical problem to be solved by the improvement of the technical scheme is as follows: the delivery of the material bodies on demand cannot be controlled and the material bodies can be fed evenly on continuous delivery.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the uniform feeding control device comprises a support plate, a storage cylinder, a first rotating Buddha control panel, a limiting frame, a second fixing hole, a support mainboard, a drive adjusting rod, a second rotating Buddha control panel, a sliding adjusting plate and an unloading slotted hole, wherein the limiting frame is fixedly connected to the upper parts of the two ends of the support mainboard, the sliding adjusting plate is slidably mounted in the limiting frame, the unloading slotted hole is symmetrically penetrated through the front end of the sliding adjusting plate, the second fixing hole is uniformly penetrated through the two sides of the limiting frame, the support plate is fixedly mounted at the upper end of the limiting frame, the storage cylinder is fixedly connected to the upper end of the support plate, the diameter of an inner cavity of the storage cylinder is smaller than that of the unloading slotted hole, the second rotating Buddha control panel is rotatably mounted at the middle part of the upper end of the support mainboard, the first rotating Buddha control panel is fixedly connected to the upper end of the second rotating Buddha control panel, support the bottom middle part fixed mounting of mainboard there is the second motor, just the upper end and the second of second motor rotate the bottom fixed connection of Buddha control panel, the second rotates Buddha control panel and one side between the slide adjusting plate and first rotation Buddha control panel and opposite side all rotate between the slide adjusting plate and install the drive and adjust the pole, the both ends of drive and adjust the pole rotate respectively through the pivot and connect on first rotation Buddha control panel and second rotate Buddha control panel and slide adjusting plate.

The beneficial effect after this technical scheme improves does: can drive the second through the second motor and rotate Buddha control panel and carry out the rotation at the uniform velocity with first, consequently at the uniform velocity pivoted second rotates Buddha control panel and first rotation Buddha control panel utilize the drive to adjust the pole can control two slide adjusting plates in the inside of spacing frame at the uniform velocity carry out reciprocating sliding motion, consequently slide adjusting plate gliding in-process only when the slotted hole that unloads be located inside the material body just can be by discharge one side in the slotted hole of unloading, the bottom of random storage cylinder is sealed by the slide adjusting plate, thereby make the gliding in-process of slide adjusting plate can realize the continuous automatic even quantitative use of discharging the material body in the bottom of storage cylinder, and control first rotation Buddha control panel and second rotation Buddha control panel's slew velocity can control and adjust the frequency and the speed of arranging the material.

The technical problem to be solved by the improvement of the technical scheme is as follows: the concentration of the material body cannot be guided to the transport.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the upper end of the storage barrel is located under the bottom of the guide plate, and the space between the bottom ends of the separation guide plates is located under the storage barrel.

The beneficial effect after this technical scheme improves does: the material bodies discharged from the designated side in the containing frame can fall on the guide plates at the designated positions, then the material bodies can be conveyed to the interior of the storage barrel in a whole guiding mode under the blocking of the blocking guide plates, so that the conveying of the material bodies in the designated direction is completed, and the material bodies can fall in the storage barrel in a whole collecting and storing mode through the blocking and guiding of the blocking guide plates in the conveying process.

The technical problem to be solved by the improvement of the technical scheme is as follows: sufficient breaking up and mixing prior to delivery and dispensing of the material is not possible.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the stirring wheel is evenly and fixedly provided with auxiliary stirring rods, and the auxiliary stirring rods are made of stainless steel.

The beneficial effect after this technical scheme improves does: can drive inside stirring through holding the frame rotation and take turns to and stir and take turns to even fixed mounting the material and be stainless steel's supplementary stirring rod to make and to utilize stirring wheel and supplementary stirring rod to carry out abundant stirring to the material body that holds the frame inside and smash and mix the processing holding the frame swing pivoted in-process about holding the frame.

The technical problem to be solved by the improvement of the technical scheme is as follows: it is not convenient to observe whether the replenishment of the apparatus internal body is continuous and sufficient during the feeding process.

In order to realize the purposes, the invention creates the technical scheme adopted after improvement: the material storage cylinder is made of transparent glass.

The beneficial effect after this technical scheme improves does: the feeding device has the advantages that the fed material bodies in the appointed direction of the material bodies are fed into the storage barrel at the appointed position to be stored by falling one side of the containing frame on the guide plate at the appointed side, whether the material bodies in the storage barrel are sufficient or not can be conveniently observed in the continuous feeding process of the material bodies due to the fact that the material storage barrel is made of transparent glass, and the sufficient material bodies enable the bottom of the storage barrel at the appointed position to be subjected to continuous and automatic feeding.

Drawings

Fig. 1 is a schematic structural diagram of the product.

Fig. 2 is a schematic structural view of a feeding control mechanism.

Fig. 3 is a schematic structural view of a guiding and feeding device.

Fig. 4 is a schematic structural view of a feeding device.

Fig. 5 is a schematic structural diagram of the uniform feeding control device.

Fig. 6 is a schematic bottom structure diagram of the uniform feeding control device.

The text labels in the figure are as follows: 1. a feeding control mechanism; 2. a uniform feed control device; 3. a fixed support base; 4. a guiding and feeding device; 5. a feeding device; 6. a guide plate; 7. a blocking guide plate; 8. fastening and screwing the threaded column; 9. a first fixing hole; 10. supporting the fixed frame; 11. a first motor; 12. a stirring wheel; 13. fixing the support columns; 14. a supporting seat; 15. a containing frame; 16. filtering the sieve plate; 17. a support plate; 18. a storage cylinder; 19. a first rotating Buddha control panel; 20. a limiting frame; 21. a second fixing hole; 22. supporting the main board; 23. driving the adjusting rod; 24. a second rotating Buddha control panel; 25. a slide adjusting plate; 26. a discharge slot; 27. a second motor.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Example 1:

as shown in fig. 1-6, the feeding device for processing lead nitrate comprises a feeding control mechanism 1, a uniform feeding control device 2 and a fixed support base 3, wherein the fixed support base 3 is fixedly connected to the middle of the bottom end of the uniform feeding control device 2, and the feeding control mechanism 1 is fixedly installed right above the uniform feeding control device 2. By arranging the feeding control mechanism 1 and the uniform feeding control device 2, the feeding control mechanism 1 can be used for stirring and mixing the material body and filtering and conveying the material body, the uniform feeding control device 2 can be used for uniformly conveying the material body, and the feeding control mechanism 1 can be used for controlling and adjusting the conveying direction and position of the material body.

Example 2:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. The feeding device 5 can stir the materials in the feeding device and make the materials fall on a designated side of the guiding and feeding device 4, so that the guiding and feeding device 4 can be used for guiding and feeding the materials falling on the guiding and feeding device 4 in a designated direction.

Example 3:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Because the guide plates 6 are distributed in the supporting and fixing frame 10 in a mirror symmetry manner, materials falling on the guide plate 6 at a designated side can be subjected to designated sliding conveying from one side of the supporting and fixing frame 10, and the materials falling on the guide plate 6 can be intensively discharged from designated positions on the guide plate 6 after being blocked and guided by the blocking and guiding plates 7.

Example 4:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Throw material device 5 and include first motor 11, stirring wheel 12, fixed stay post 13, supporting seat 14, hold frame 15 and filter sieve 16, fixed stay post 13 fixed connection is at the both ends middle part that holds frame 15, the end at fixed stay post 13 is installed to supporting seat 14, just inside fixed stay post 13 rotates to peg graft in the upper end of supporting seat 14, 11 fixed connection of first motor is located one side on the supporting seat 14, just first motor 11 and fixed stay post 13 fixed connection, stirring wheel 12 fixed mounting is in the inside that holds frame 15, the equal fixed mounting in both sides that holds frame 15 has filter sieve 16. The material body falling in the containing frame 15 utilizes the first motor 11 to drive the fixed supporting column 13 to rotate and drive the containing frame 15 to rotate so as to realize stirring and mixing, and the stirring wheel 12 can be used for blocking and scattering the material body in the containing frame 15 in the process of swinging and rotating the containing frame 15, so that the materials inside the holding frame 15 can be sufficiently stirred and mixed during the swing, and when the first motor 11 controls the holding frame 15 to rotate to a larger offset to one side, the stirred material in the holding frame 15 is discharged from one side of the holding frame 15, thereby accomplishing the feeding and use of the designated direction and position of the material bodies located in the containing frame 15, and the material bodies can be screened through the barrier of the filtering screen plate 16 while being discharged from the containing frame 15, the materials meeting the requirements can be discharged for use, and the larger particles are intercepted and kept in the containing frame 15 for continuous smashing and mixing.

Example 5:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Throw material device 5 and include first motor 11, stirring wheel 12, fixed stay post 13, supporting seat 14, hold frame 15 and filter sieve 16, fixed stay post 13 fixed connection is at the both ends middle part that holds frame 15, the end at fixed stay post 13 is installed to supporting seat 14, just inside fixed stay post 13 rotates to peg graft in the upper end of supporting seat 14, 11 fixed connection of first motor is located one side on the supporting seat 14, just first motor 11 and fixed stay post 13 fixed connection, stirring wheel 12 fixed mounting is in the inside that holds frame 15, the equal fixed mounting in both sides that holds frame 15 has filter sieve 16. Even feed controlling means 2 includes backup pad 17, storage cylinder 18, the first rotation buddha control panel 19, spacing frame 20, second fixed orifices 21, support mainboard 22, drive adjusting lever 23, the second rotates buddha control panel 24, slide adjusting plate 25 and the slotted hole 26 of unloading, spacing frame 20 fixed connection is on the both ends upper portion of supporting mainboard 22, the equal slidable mounting of slide adjusting plate 25 is in the inside of spacing frame 20, the slotted hole 26 symmetry of unloading runs through the front end of seting up at slide adjusting plate 25, the second fixed orifices 21 evenly runs through the both sides of seting up at spacing frame 20, backup pad 17 fixed mounting is in the upper end of spacing frame 20, storage cylinder 18 fixed connection is in the upper end of backup pad 17, just the inner chamber diameter of storage cylinder 18 is less than the diameter of slotted hole 26 of unloading, the second rotates buddha control panel 24 and rotates and installs the upper end middle part at support mainboard 22, first rotation Buddha control panel 19 fixed connection rotates the upper end of Buddha control panel 24 at the second, support mainboard 22's bottom middle part fixed mounting has second motor 27, just second motor 27's upper end and second rotate the bottom fixed connection who Buddha control panel 24, the second rotates Buddha control panel 24 and one side between the sliding regulation board 25 and first rotation Buddha control panel 19 and opposite side all rotate between the sliding regulation board 25 and install drive adjusting rod 23, the drive adjusting rod 23 both ends rotate respectively through the pivot to be connected on first rotation Buddha control panel 19 and second rotate Buddha control panel 24 and sliding regulation board 25. The second rotating Buddha control board 24 and the first rotating Buddha control board 19 can be driven to rotate at a constant speed by the second motor 27, therefore, the second rotating Buddha control board 24 and the first rotating Buddha control board 19 which rotate at a constant speed can control the two sliding adjusting boards 25 to do reciprocating sliding motion at a constant speed in the limiting frame 20 by driving the adjusting rod 23, therefore, during the sliding process of the sliding adjusting plate 25, the material in the material storage barrel 18 is discharged from the discharging slot 26 only when the discharging slot 26 is positioned right below the discharging slot 28, the bottom of the material storage barrel 18 is sealed by the sliding adjusting plate 25, thereby realizing the continuous, automatic, uniform and quantitative discharging of the materials from the bottom of the storage barrel 18 for use in the sliding process of the sliding adjusting plate 25, and the frequency and speed of discharging can be controlled and adjusted by controlling the rotating speed of the first rotating Buddha control board 19 and the second rotating Buddha control board 24.

Example 6:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Throw material device 5 and include first motor 11, stirring wheel 12, fixed stay post 13, supporting seat 14, hold frame 15 and filter sieve 16, fixed stay post 13 fixed connection is at the both ends middle part that holds frame 15, the end at fixed stay post 13 is installed to supporting seat 14, just inside fixed stay post 13 rotates to peg graft in the upper end of supporting seat 14, 11 fixed connection of first motor is located one side on the supporting seat 14, just first motor 11 and fixed stay post 13 fixed connection, stirring wheel 12 fixed mounting is in the inside that holds frame 15, the equal fixed mounting in both sides that holds frame 15 has filter sieve 16. Even feed controlling means 2 includes backup pad 17, storage cylinder 18, the first rotation buddha control panel 19, spacing frame 20, second fixed orifices 21, support mainboard 22, drive adjusting lever 23, the second rotates buddha control panel 24, slide adjusting plate 25 and the slotted hole 26 of unloading, spacing frame 20 fixed connection is on the both ends upper portion of supporting mainboard 22, the equal slidable mounting of slide adjusting plate 25 is in the inside of spacing frame 20, the slotted hole 26 symmetry of unloading runs through the front end of seting up at slide adjusting plate 25, the second fixed orifices 21 evenly runs through the both sides of seting up at spacing frame 20, backup pad 17 fixed mounting is in the upper end of spacing frame 20, storage cylinder 18 fixed connection is in the upper end of backup pad 17, just the inner chamber diameter of storage cylinder 18 is less than the diameter of slotted hole 26 of unloading, the second rotates buddha control panel 24 and rotates and installs the upper end middle part at support mainboard 22, first rotation Buddha control panel 19 fixed connection rotates the upper end of Buddha control panel 24 at the second, support mainboard 22's bottom middle part fixed mounting has second motor 27, just second motor 27's upper end and second rotate the bottom fixed connection who Buddha control panel 24, the second rotates Buddha control panel 24 and one side between the sliding regulation board 25 and first rotation Buddha control panel 19 and opposite side all rotate between the sliding regulation board 25 and install drive adjusting rod 23, the drive adjusting rod 23 both ends rotate respectively through the pivot to be connected on first rotation Buddha control panel 19 and second rotate Buddha control panel 24 and sliding regulation board 25. The upper end of the storage barrel 18 is positioned right below the bottom of the guide plate 6, and the space between the bottom ends of the blocking guide plates 7 is positioned right below the storage barrel 18. The materials discharged through a designated side of the holding frame 15 can be dropped on the guide plate 6 at a designated position, and then the materials can be conveyed to the inside of the storage barrel 18 under the partition of the partition guide plate 7 in a full guide manner, so that the conveyance of the materials in a designated direction is completed, and the materials can be collected and stored in the inside of the storage barrel 18 in a full guide manner through the partition and the guide of the partition guide plate 7 during the conveyance.

Example 7:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Throw material device 5 and include first motor 11, stirring wheel 12, fixed stay post 13, supporting seat 14, hold frame 15 and filter sieve 16, fixed stay post 13 fixed connection is at the both ends middle part that holds frame 15, the end at fixed stay post 13 is installed to supporting seat 14, just inside fixed stay post 13 rotates to peg graft in the upper end of supporting seat 14, 11 fixed connection of first motor is located one side on the supporting seat 14, just first motor 11 and fixed stay post 13 fixed connection, stirring wheel 12 fixed mounting is in the inside that holds frame 15, the equal fixed mounting in both sides that holds frame 15 has filter sieve 16. Even feed controlling means 2 includes backup pad 17, storage cylinder 18, the first rotation buddha control panel 19, spacing frame 20, second fixed orifices 21, support mainboard 22, drive adjusting lever 23, the second rotates buddha control panel 24, slide adjusting plate 25 and the slotted hole 26 of unloading, spacing frame 20 fixed connection is on the both ends upper portion of supporting mainboard 22, the equal slidable mounting of slide adjusting plate 25 is in the inside of spacing frame 20, the slotted hole 26 symmetry of unloading runs through the front end of seting up at slide adjusting plate 25, the second fixed orifices 21 evenly runs through the both sides of seting up at spacing frame 20, backup pad 17 fixed mounting is in the upper end of spacing frame 20, storage cylinder 18 fixed connection is in the upper end of backup pad 17, just the inner chamber diameter of storage cylinder 18 is less than the diameter of slotted hole 26 of unloading, the second rotates buddha control panel 24 and rotates and installs the upper end middle part at support mainboard 22, first rotation Buddha control panel 19 fixed connection rotates the upper end of Buddha control panel 24 at the second, support mainboard 22's bottom middle part fixed mounting has second motor 27, just second motor 27's upper end and second rotate the bottom fixed connection who Buddha control panel 24, the second rotates Buddha control panel 24 and one side between the sliding regulation board 25 and first rotation Buddha control panel 19 and opposite side all rotate between the sliding regulation board 25 and install drive adjusting rod 23, the drive adjusting rod 23 both ends rotate respectively through the pivot to be connected on first rotation Buddha control panel 19 and second rotate Buddha control panel 24 and sliding regulation board 25. The upper end of the storage barrel 18 is positioned right below the bottom of the guide plate 6, and the space between the bottom ends of the blocking guide plates 7 is positioned right below the storage barrel 18. The stirring wheel 12 is evenly and fixedly provided with auxiliary stirring rods, and the auxiliary stirring rods are made of stainless steel. Can drive inside stirring through holding frame 15 rotation and take turns 12 rotations to stirring 12 go up even fixed mounting the material and be stainless steel's supplementary stirring rod, thereby make and utilize stirring wheel 12 and supplementary stirring rod to carry out abundant stirring to the material body that holds frame 15 inside and smash and mixing treatment holding frame 15 at the swing pivoted in-process that holds frame 15 and control.

Example 8:

as shown in fig. 1-6, as a further optimization of the above embodiment: lead nitrate processing is with throwing material device, including pay-off control mechanism 1, even feed controlling means 2 and fixed stay base 3, fixed stay base 3 fixed connection is in even feed controlling means 2's bottom middle part, pay-off control mechanism 1 fixed mounting is directly over even feed controlling means 2. The feeding control mechanism 1 comprises a guiding feeding device 4 and a feeding device 5, wherein the feeding device 5 is fixedly arranged in the middle of the upper end of the guiding feeding device 4. Guide material feeding unit 4 revolves spiral thread post 8, first fixed orifices 9 and supports mount 10 including leading and sending board 6, separating fender deflector 7, fastening soon, support mount 10 symmetry setting, first fixed orifices 9 runs through and sets up in the both ends bottom of supporting mount 10, it rotates inside supporting mount 10 to lead and send board 6 to be the mirror symmetry state, separate fender deflector 7 fixed mounting at the up end of leading and sending board 6, 8 screw threads of spiral thread post are revolved in the fastening and are installed on supporting mount 10 and leading and send board 6. Throw material device 5 and include first motor 11, stirring wheel 12, fixed stay post 13, supporting seat 14, hold frame 15 and filter sieve 16, fixed stay post 13 fixed connection is at the both ends middle part that holds frame 15, the end at fixed stay post 13 is installed to supporting seat 14, just inside fixed stay post 13 rotates to peg graft in the upper end of supporting seat 14, 11 fixed connection of first motor is located one side on the supporting seat 14, just first motor 11 and fixed stay post 13 fixed connection, stirring wheel 12 fixed mounting is in the inside that holds frame 15, the equal fixed mounting in both sides that holds frame 15 has filter sieve 16. Even feed controlling means 2 includes backup pad 17, storage cylinder 18, the first rotation buddha control panel 19, spacing frame 20, second fixed orifices 21, support mainboard 22, drive adjusting lever 23, the second rotates buddha control panel 24, slide adjusting plate 25 and the slotted hole 26 of unloading, spacing frame 20 fixed connection is on the both ends upper portion of supporting mainboard 22, the equal slidable mounting of slide adjusting plate 25 is in the inside of spacing frame 20, the slotted hole 26 symmetry of unloading runs through the front end of seting up at slide adjusting plate 25, the second fixed orifices 21 evenly runs through the both sides of seting up at spacing frame 20, backup pad 17 fixed mounting is in the upper end of spacing frame 20, storage cylinder 18 fixed connection is in the upper end of backup pad 17, just the inner chamber diameter of storage cylinder 18 is less than the diameter of slotted hole 26 of unloading, the second rotates buddha control panel 24 and rotates and installs the upper end middle part at support mainboard 22, first rotation Buddha control panel 19 fixed connection rotates the upper end of Buddha control panel 24 at the second, support mainboard 22's bottom middle part fixed mounting has second motor 27, just second motor 27's upper end and second rotate the bottom fixed connection who Buddha control panel 24, the second rotates Buddha control panel 24 and one side between the sliding regulation board 25 and first rotation Buddha control panel 19 and opposite side all rotate between the sliding regulation board 25 and install drive adjusting rod 23, the drive adjusting rod 23 both ends rotate respectively through the pivot to be connected on first rotation Buddha control panel 19 and second rotate Buddha control panel 24 and sliding regulation board 25. The upper end of the storage barrel 18 is positioned right below the bottom of the guide plate 6, and the space between the bottom ends of the blocking guide plates 7 is positioned right below the storage barrel 18. The stirring wheel 12 is evenly and fixedly provided with auxiliary stirring rods, and the auxiliary stirring rods are made of stainless steel. The material storage cylinder 18 is made of transparent glass. The fed material bodies which are appointed to the material bodies are fed into the storage barrel 18 at the appointed position to be stored by falling one side of the containing frame 15 on the guide plate 6 at the appointed side, whether the material bodies in the storage barrel 18 are sufficient or not can be conveniently observed in the continuous feeding process of the material bodies because the storage barrel 18 is made of transparent glass, and the material bodies in the storage barrel 18 at the appointed position can be continuously and automatically fed due to the sufficient material bodies.

The working principle of the technical scheme is as follows: the material bodies are placed in the containing frame 15, and the material bodies in the containing frame 15 can be rotated, smashed and mixed by the stirring wheel 12 through the rotation of the containing frame 15 at a small angle, then when the containing frame 15 rotates to a larger angle in a specified direction, the material bodies fall on the guide plate 6 after being filtered by the filter sieve plate 16 and then enter the storage barrel 18 through the partitions of the partition guide plate 7, then the second motor 27 is started to drive the second rotating Buddha control board 24 and the first rotating Buddha control board 19 to rotate at a uniform speed, the rotating second rotating Buddha control board 24 and the first rotating Buddha control board 19 can drive the adjusting rod 23 to make the sliding adjusting plate 25 transversely reciprocate in the limiting frame 20, so that the discharge slot 26 can slide regularly through the bottom of the storage barrel 18, and the materials in the storage barrel 18 can fall uniformly from the inside of the discharge slot 26 to be conveyed, and the quantitative and uniform feeding can be realized.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the above technical features may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.