CN116164512B

CN116164512B - Many water ferric phosphate heating drying equipment

Info

Publication number: CN116164512B
Application number: CN202310392759.8A
Authority: CN
Inventors: 高志强; 符晓良; 秦波; 邝昕; 范敏静
Original assignee: Guangdong Jinsheng New Energy Co ltd
Current assignee: Guangdong Jinsheng New Energy Co ltd
Priority date: 2023-04-13
Filing date: 2023-04-13
Publication date: 2023-08-18
Anticipated expiration: 2043-04-13
Also published as: CN116164512A

Abstract

The invention relates to the technical field of iron phosphate drying processes, in particular to iron phosphate heating and drying equipment, which comprises a barrel, wherein a drying mechanism is arranged inside the barrel, the drying mechanism comprises an air outlet pipe, a connecting pipe, a breaking rod, an air vent pipe, a mounting assembly and a driving assembly, the air outlet pipe is rotationally connected in the barrel through the mounting assembly, the driving assembly is used for driving the air outlet pipe to rotate, the air inlet pipe extends from the outside of the barrel to the inside of the barrel and is communicated with the air outlet pipe, a plurality of air outlet holes along the pipe diameter direction are formed in the outer wall of the air outlet pipe, the connecting pipe and the connecting pipe are obliquely arranged outside the air outlet pipe, and the breaking rod is rotationally connected on the outer wall of the air outlet pipe and is arranged a plurality of air outlet pipes along the pipe diameter direction.

Description

Many water ferric phosphate heating drying equipment

Technical Field

The invention relates to the technical field of iron phosphate drying processes, in particular to a heating and drying device for a multi-water iron phosphate.

Background

Iron phosphate, an inorganic compound, is a white or pale red crystalline powder, soluble in hydrochloric acid, sulfuric acid, insoluble in cold water and nitric acid, and is mainly used as a nutritional supplement in the food industry, particularly for bread, and also as a feed additive.

The iron phosphate in the form of a poly-water has a lot of moisture, and if the poly-water is directly stored, caking phenomenon can occur, and the use effect is affected, so that the poly-water needs to be heated and dried, and the existing drying arrangement generally leads hot air into a container filled with the iron phosphate to dry the iron phosphate.

Because the iron phosphate in the container is piled up together, the drying effect of the iron phosphate positioned at the outside is inconsistent with that of the iron phosphate positioned at the inside, and the iron phosphate with more water content is easy to agglomerate, and the agglomerated iron phosphate is difficult to crush only by the driving of air flow, so that the drying effect is difficult to ensure; in addition, the dried material needs a long time to be completely cooled, so that a long waiting time is needed to take the following steps for the dried material.

Disclosure of Invention

Aiming at the technical problems of the existing iron phosphate heating and drying equipment in application, the invention provides the iron phosphate heating and drying equipment.

The utility model provides a many water ferric phosphate heating drying equipment, includes the barrel, the inside of barrel is provided with stoving mechanism, stoving mechanism includes outlet duct, connecting pipe, smashes pole, intake pipe, installation component and drive assembly, the outlet duct passes through installation component and rotates to be connected in the barrel, drive assembly is used for driving the outlet duct and rotates, the intake pipe extends to in the barrel and communicates with the outlet duct from the barrel outside, a plurality of ventholes along the pipe diameter direction have been seted up on the outer wall of outlet duct, the externally mounted of venthole has connecting pipe and connecting pipe to be the slope setting with the outlet duct, smash the pole and rotate to be connected on the outer wall of outlet duct and set up a plurality ofly along the pipe diameter direction of outlet duct.

Further, the installation component includes guide cover and bracing piece, bracing piece sliding connection is on the inner wall of barrel, the guide cover sets up in the inside central point of barrel and with bracing piece fixed connection, guide cover and outlet duct rotate to be connected.

Further, the driving assembly comprises a driving motor, a driving bevel gear and a driven bevel gear, wherein the driven bevel gear is fixedly connected to the outer wall of the air outlet pipe, the driving motor is arranged on the surface of the guide cover, and the output end of the driving motor is fixedly connected with the driving bevel gear.

Further, be provided with the rotary vibration mechanism that is used for cooling down and anti-caking to the iron phosphate that increases water between barrel and the outlet duct, rotary vibration mechanism includes third motor, connecting cover, connecting cylinder, hits post, spring, cam and connects the charging tray, the bottom at the barrel is installed to the third motor, the output fixedly connected with cam of third motor, connecting cover fixed connection is in the bottom of barrel, connecting cover's tip and connecting cylinder fixed connection, connecting cylinder and outlet duct sliding connection, hit post sliding connection in the inside of connecting cylinder, spring fixed connection is between hitting post and outlet duct, cam and hit the cooperation of post, connect charging tray circumference fixed connection on the outer wall of outlet duct and be provided with the multilayer.

Further, the bottom of barrel has seted up annular discharge gate, annular discharge gate is located the outside of connecting the cover, the bar groove has been seted up on the inner wall of barrel, bracing piece sliding connection is in the bar inslot, the fixed surface who connects the charging tray is connected with the screen cloth.

Further, the inside of barrel is provided with even feed divider, feed divider includes connecting plate, first motor, push rod, first bearing board, second bearing board and drive assembly, first bearing board fixed connection is at the top of barrel, first bearing board is hollow structure, the second bearing board rotates to be connected in first bearing board, a plurality of fan-shaped holes that are circumference and distribute have been seted up on the surface of first bearing board, the opening with fan-shaped hole complex has been seted up on the surface of second bearing board, first motor is installed at the top of barrel, the output of first motor extends to the inside and push rod fixed connection of barrel, the surface sliding connection of push rod and first bearing board, drive assembly is used for driving the second bearing board and rotates in first bearing board.

Further, the transmission assembly comprises a connecting rod, a swinging rod, a bevel gear set, a rotating rod and a second motor, wherein the connecting rod is fixedly connected to the surface of the second supporting plate, the connecting rod extends to the outside of the cylinder, a first arc-shaped groove corresponding to the connecting rod is formed in the top of the cylinder, a second arc-shaped groove corresponding to the connecting rod is formed in the surface of the first supporting plate, the second motor is arranged at the top of the cylinder, the rotating rod is rotationally connected to the top of the cylinder, the swinging rod is fixedly connected to the end of the rotating rod, a U-shaped groove is formed in the surface of the swinging rod, the connecting rod is slidably connected in the U-shaped groove, one bevel gear in the bevel gear set is fixedly connected to the outer wall of the rotating rod, and the other bevel gear in the bevel gear set is fixedly connected to the output end of the second motor.

Further, a scraping plate is connected between the breaking rods, the scraping plate is connected with the breaking rods in a rotating mode, and the top of the cylinder body is communicated with a feeding pipe.

The invention has the beneficial effects that:

1. the stoving mechanism that sets up utilizes the air duct to introduce the outlet duct with the steam in, a plurality of ventholes of seting up on the outlet duct are with the even distribution of steam in the barrel, dry the material, utilize drive assembly to drive the outlet duct simultaneously and rotate, with the air current, the air current drives the material and rolls from top to bottom, thereby abundant stoving to the material, the breaking rod that sets up on the outlet duct breaks up the material of caking simultaneously, breaking rod and outlet duct rotate simultaneously and connect, not only have crushing effect to the material in the axial, and have crushing effect to the material along breaking rod pivoted direction, break up and the steam stoving to the material through the mode that above-mentioned pneumatic principle and mechanical principle combined together.

2. After drying the material, connect charging tray and rotary vibration mechanism through the multilayer that sets up to the material cooling handle, connect the charging tray to receive the material through the multilayer, then utilize vibration mechanism to drive and connect the charging tray vibration, make the material vibrate from top to bottom for the material heat dissipation prevents the material secondary caking simultaneously to the rotary vibration is charging tray simultaneously, plays the effect of carrying out the centrifugation to the material, has further accelerated the cooling of material.

Drawings

FIG. 1 is an external schematic view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

FIG. 4 is a side cross-sectional view of the present invention;

FIG. 5 is a schematic view of a feed mechanism;

fig. 6 is an enlarged schematic view at B in fig. 4.

Reference numerals: 1. a cylinder; 2. a connecting rod; 201. a connecting plate; 202. a first motor; 203. a first arc-shaped groove; 204. a push rod; 205. a first support plate; 206. a second support plate; 207. a second arc-shaped groove; 208. a swinging rod; 209. a bevel gear set; 210. a rotating lever; 211. a second motor; 3. a feed pipe; 4. an air outlet pipe; 5. a driven bevel gear; 6. a connecting pipe; 7. breaking the rod; 8. a scraper; 9. a third motor; 91. a connection cover; 92. a connecting cylinder; 93. a column is bumped; 94. a spring; 95. a cam; 10. a receiving tray; 11. an air inlet pipe; 12. a guide cover; 13. a support rod; 14. and a drive bevel gear.

Description of the embodiments

The invention will now be described in further detail with reference to the drawings and to specific examples. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

The utility model provides a many water ferric phosphate heating drying equipment, as shown in fig. 2, 4, including barrel 1, the inside of barrel 1 is provided with drying mechanism, drying mechanism includes outlet duct 4, connecting pipe 6, smash pole 7, intake pipe 11, installation component and actuating component, outlet duct 4 is rotated through installation component and is connected in barrel 1, actuating component is used for driving outlet duct 4 and rotates, intake pipe 11 extends to barrel 1 from barrel 1 in and with outlet duct 4 intercommunication, a plurality of ventholes along the pipe diameter direction have been seted up on the outer wall of outlet duct 4, the externally mounted of venthole has connecting pipe 6 and outlet duct 4 to be the slope setting, the purpose that the slope set up avoids the ferric phosphate powder to get into in the outlet duct 4, smash pole 7 rotation and connect on the outer wall of outlet duct 4 and set up a plurality ofly along the pipe diameter direction of outlet duct 4, smash pole 7 and be used for crushing the many water ferric phosphate powder of caking, not only smash the ferric phosphate powder of caking in the axial direction and can also break in other positions.

The stoving mechanism that sets up utilizes intake pipe 11 to draw in hot-blast outlet duct 4, then in hot-blast through venthole and connecting pipe 6 entering barrel 1, dries the iron phosphate powder that falls in the barrel 1, then utilizes drive assembly to drive outlet duct 4 and rotates, and outlet duct 4 further drives and smashes the material of pole 7 to the caking, in sum, adopts the mode that pneumatic principle and mechanical principle combined together to break up the hot gas stoving of material to prevent the material caking, it is more comprehensive to dry.

As shown in fig. 4, the installation component comprises a guide cover 12 and a supporting rod 13, the supporting rod 13 is slidably connected on the inner wall of the cylinder 1, the guide cover 12 is arranged at the inner center of the cylinder 1 and fixedly connected with the supporting rod 13, and the guide cover 12 is rotatably connected with the air outlet pipe 4.

As shown in fig. 4, the driving assembly comprises a driving motor, a driving bevel gear 14 and a driven bevel gear 5, wherein the driven bevel gear 5 is fixedly connected to the outer wall of the air outlet pipe 4, the driving motor is installed on the surface of the guide cover 12, and the output end of the driving motor is fixedly connected with the driving bevel gear 14.

As shown in fig. 3 and 4, a rotary vibration mechanism for cooling and anti-caking of the iron phosphate in water is arranged between the cylinder body 1 and the air outlet pipe 4, the rotary vibration mechanism comprises a third motor 9, a connecting cover 91, a connecting cylinder 92, a collision post 93, a spring 94, a cam 95 and a receiving disc 10, the third motor 9 is arranged at the bottom of the cylinder body 1, the output end of the third motor 9 is fixedly connected with the cam 95, the connecting cover 91 is fixedly connected at the bottom of the cylinder body 1, the end of the connecting cover 91 is fixedly connected with the connecting cylinder 92, the connecting cylinder 92 is slidably connected with the air outlet pipe 4, the collision post 93 is slidably connected inside the connecting cylinder 92, the spring 94 is fixedly connected between the collision post 93 and the air outlet pipe 4, the cam 95 is matched with the collision post 93, the receiving disc 10 is circumferentially fixedly connected on the outer wall of the air outlet pipe 4 and is provided with a plurality of layers, and gaps are arranged between the receiving discs 10, and the receiving discs are arranged on the axial directions to form a surface which completely covers the cross section of the cylinder body 1, so that all iron phosphate powder is ensured to be received.

After drying iron phosphate powder, the material is received through the multilayer receiving tray 10, then the cam 95 is driven to rotate by means of the third motor 9, the cam 95 further drives the collision column 93 to move up and down, the collision column 93 further drives the air outlet pipe 4 to vibrate up and down, and meanwhile, under the action of the driving component, the air outlet pipe 4 rotates simultaneously, the heated material is subjected to cooling treatment through the multilayer receiving tray 10 in a screening vibration and rotating centrifugal mode, and meanwhile, the heated material is prevented from being subjected to secondary agglomeration.

As shown in fig. 4, the bottom of the barrel 1 is provided with an annular discharge hole, the annular discharge hole is located outside the connecting cover 91, the connecting cover 91 is not only used for fixedly connecting the barrel 92, but also can guide materials, so that the materials fall from the annular discharge hole, the inner wall of the barrel 1 is provided with a bar-shaped groove, the support rod 13 is slidably connected in the bar-shaped groove, the bar-shaped groove is used for providing a stroke when the air outlet pipe 4 vibrates up and down, and the surface of the receiving tray 10 is fixedly connected with a screen.

As shown in fig. 5 and 6, a uniform distributing mechanism is arranged in the barrel 1, the distributing mechanism comprises a connecting plate 201, a first motor 202, a push rod 204, a first supporting plate 205, a second supporting plate 206 and a transmission component, the first supporting plate 205 is fixedly connected to the top of the barrel 1, the first supporting plate 205 is of a hollow structure, the second supporting plate 206 is rotationally connected to the inside of the first supporting plate 205, a plurality of circumferentially distributed fan-shaped holes are formed in the surface of the first supporting plate 205, openings matched with the fan-shaped holes are formed in the surface of the second supporting plate 206, the first motor 202 is arranged at the top of the barrel 1, the output end of the first motor 202 extends to the inside of the barrel 1 and is fixedly connected with the push rod 204, the push rod 204 is slidingly connected with the surface of the first supporting plate 205, and the transmission component is used for driving the second supporting plate 206 to rotate in the first supporting plate 205.

Through spiral feeder feeding, after the feeding, start first motor 202 and drive push rod 204 and rotate, push rod 204 is evenly spread out the material, then utilize drive assembly to drive second bearing plate 206 and rotate, form the space between second bearing plate 206 and the first bearing plate 205 gradually, the material falls along the space to can even unloading, guarantee that the material can not appear piling up, cause the bad influence of stoving effect.

As shown in fig. 6, the transmission assembly includes a connecting rod 2, a swinging rod 208, a bevel gear set 209, a rotating rod 210 and a second motor 211, the connecting rod 2 is fixedly connected to the surface of the second supporting plate 206, the connecting rod 2 extends to the outside of the cylinder 1, a first arc-shaped groove 203 corresponding to the connecting rod 2 is formed in the top of the cylinder 1, a second arc-shaped groove 207 corresponding to the connecting rod 2 is formed in the surface of the first supporting plate 205, the second motor 211 is mounted on the top of the cylinder 1, the rotating rod 210 is rotationally connected to the top of the cylinder 1, the swinging rod 208 is fixedly connected to the end of the rotating rod 210, a U-shaped groove is formed in the surface of the swinging rod 208, the connecting rod 2 is slidingly connected in the U-shaped groove, one bevel gear in the bevel gear set 209 is fixedly connected to the outer wall of the rotating rod 210, and the other bevel gear in the bevel gear set 209 is fixedly connected to the output end of the second motor 211.

The transmission assembly is driven by the second motor 211, and drives the rotating rod 210 to rotate through the transmission of the bevel gear set 209, the rotating rod 210 further drives the swinging rod 208 to rotate, and the connecting rod 2 moves in the second arc-shaped groove 207 under the driving of the swinging rod 208 so as to drive the second bearing plate 206 to rotate.

As shown in fig. 4, scraping plates 8 are connected between the breaking rods 7, the scraping plates 8 are rotationally connected with the breaking rods 7, the scraping plates 8 scrape adhered materials on the inner wall of the cylinder body 1, and the top of the cylinder body 1 is communicated with the feed pipe 3.

It will be apparent to those skilled in the art that the described embodiments are merely some, but not all, of the embodiments of the invention and that various modifications or additions may be made to the specific embodiments described or substituted in a similar way without deviating from the spirit of the invention or beyond the scope of the invention as defined in the appended claims. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention.

Claims

1. The utility model provides a many water ferric phosphate heating drying equipment, includes barrel (1), its characterized in that: the drying mechanism is arranged in the cylinder body (1) and comprises an air outlet pipe (4), a connecting pipe (6), a breaking rod (7), an air inlet pipe (11), a mounting assembly and a driving assembly;

the air outlet pipe (4) is rotationally connected in the cylinder body (1) through the installation component, the driving component is used for driving the air outlet pipe (4) to rotate, the air inlet pipe (11) extends into the cylinder body (1) from the outside of the cylinder body (1) and is communicated with the air outlet pipe (4), a plurality of air outlet holes along the pipe diameter direction are formed in the outer wall of the air outlet pipe (4), the connecting pipe (6) is installed outside the air outlet holes, the connecting pipe (6) and the air outlet pipe (4) are obliquely arranged, and the breaking rod (7) is rotationally connected on the outer wall of the air outlet pipe (4) and is arranged in a plurality of air outlet holes along the pipe diameter direction of the air outlet pipe (4);

the installation assembly comprises a guide cover (12) and a supporting rod (13), the supporting rod (13) is connected to the inner wall of the cylinder body (1) in a sliding mode, the guide cover (12) is arranged at the center of the inside of the cylinder body (1) and is fixedly connected with the supporting rod (13), and the guide cover (12) is rotationally connected with the air outlet pipe (4);

the driving assembly comprises a driving motor, a driving bevel gear (14) and a driven bevel gear (5), the driven bevel gear (5) is fixedly connected to the outer wall of the air outlet pipe (4), the driving motor is arranged on the surface of the guide cover (12), and the output end of the driving motor is fixedly connected with the driving bevel gear (14);

the rotary vibration mechanism comprises a third motor (9), a connecting cover (91), a connecting cylinder (92), a collision column (93), a spring (94), a cam (95) and a material receiving disc (10), wherein the rotary vibration mechanism used for cooling and preventing agglomeration of the ferric phosphate dehydrate is arranged between the cylinder (1) and the air outlet pipe (4), the third motor (9) is arranged at the bottom of the cylinder (1), the output end of the third motor (9) is fixedly connected with the cam (95), the connecting cover (91) is fixedly connected at the bottom of the cylinder (1), the end part of the connecting cover (91) is fixedly connected with the connecting cylinder (92), the connecting cylinder (92) is in sliding connection with the air outlet pipe (4), the collision column (93) is in sliding connection with the inside of the connecting cylinder (92), the spring (94) is fixedly connected between the collision column (93) and the air outlet pipe (4), the cam (95) is matched with the collision column (93), and the material receiving disc (10) is circumferentially fixedly connected with the outer wall of the air outlet pipe (4) and is provided with multiple layers;

an annular discharge hole is formed in the bottom of the barrel body (1), the annular discharge hole is located outside the connecting cover (91), a strip-shaped groove is formed in the inner wall of the barrel body (1), the supporting rod (13) is slidably connected in the strip-shaped groove, and a screen is fixedly connected to the surface of the material receiving disc (10);

the inside of barrel (1) is provided with even feed divider, feed divider includes connecting plate (201), first motor (202), push rod (204), first supporting plate (205), second supporting plate (206) and drive assembly, first supporting plate (205) fixed connection is at the top of barrel (1), first supporting plate (205) is hollow structure, second supporting plate (206) rotate to be connected in first supporting plate (205), a plurality of fan-shaped holes that are circumference and distribute are seted up on the surface of first supporting plate (205), the opening with fan-shaped hole complex is seted up on the surface of second supporting plate (206), the top at barrel (1) is installed to first motor (202), the output of first motor (202) extends to the inside and fixed connection with push rod (204) of barrel (1), the surface sliding connection of push rod (204) and first supporting plate (205), drive assembly is used for driving second supporting plate (206) in first supporting plate (205) rotation.

2. The iron phosphate dehydrate heating and drying apparatus of claim 1, wherein: the transmission assembly comprises a connecting rod (2), a swinging rod (208), a bevel gear set (209), a rotating rod (210) and a second motor (211), wherein the connecting rod (2) is fixedly connected to the surface of a second supporting plate (206), the connecting rod (2) extends to the outside of the cylinder body (1), a first arc-shaped groove 203 corresponding to the connecting rod (2) is formed in the top of the cylinder body (1), a second arc-shaped groove 207 corresponding to the connecting rod (2) is formed in the surface of the first supporting plate (205), the second motor (211) is mounted at the top of the cylinder body (1), the rotating rod (210) is rotationally connected to the top of the cylinder body (1), the swinging rod (208) is fixedly connected to the end of the rotating rod (210), a U-shaped groove is formed in the surface of the swinging rod (208), one bevel gear in the bevel gear set (209) is fixedly connected to the outer wall of the rotating rod (210), and the other bevel gear in the bevel gear set (209) is fixedly connected to the output end of the second bevel gear (211).

3. The iron phosphate dehydrate heating and drying apparatus of claim 1, wherein: the crushing rod (7) is connected with a scraping plate (8), the scraping plate (8) is rotationally connected with the crushing rod (7), and the top of the cylinder body (1) is communicated with a feeding pipe (3).