CN111604267A

CN111604267A - Assembly line drying device

Info

Publication number: CN111604267A
Application number: CN202010498195.2A
Authority: CN
Inventors: 康桂兰
Original assignee: 康桂兰
Current assignee: Jiangsu Magsont New Material Technology Co.,Ltd.
Priority date: 2020-06-04
Filing date: 2020-06-04
Publication date: 2020-09-01
Anticipated expiration: 2040-06-04
Also published as: CN111604267B

Abstract

The invention discloses an assembly line drying device, which structurally comprises a display, a screening device, an operation panel, a conveying table, a hot air generator, a drying cavity, a scraping device, a discharge port and a support frame, wherein when the assembly line drying device is used after improvement, a tea leaf is classified by using a separating screen cylinder, the tea leaf in the separating screen cylinder is shaken by a vibrating spring, and then is rapidly screened by using a primary screen and a fine screen, so that broken tea, tea dust and tea leaf are prevented from being mixed and packaged, and the drinking taste and the drying quality of the tea leaf are improved; the scraper mutually supports with the arc scraper blade and strikes off the processing fast to tea dirt, the laminating of lock pin is at the scraper, adsorb tea dirt fast through dust absorption component, make tea dirt take over through the dust and adsorb the deposition incasement portion and store, prevent that the tea dirt of production can overflow and fly away in the air and fall long-pending on mechanical equipment, make mechanical equipment can guarantee stable work, improve mechanical equipment's life and the drying efficiency of tealeaves.

Description

Assembly line drying device

Technical Field

The invention relates to the technical field of production lines, in particular to a production line drying device.

Background

The tea is a beverage which is deeply popular with the masses and has the characteristics of nature, health, convenience for drinking and the like. With the continuous improvement of the living standard of people, the requirement of more and more people on tea leaves is continuously higher. Tea leaves are various in types, and can be roughly divided into: green tea, black tea, white tea, yellow tea, oolong tea, dark tea, etc. In processing tea leaves, improvements are needed:

1. present tealeaves when drying, tealeaves appears being heated unevenly easily, consequently need be at the continuous tealeaves that turns of stoving in-process, tealeaves can produce a large amount of disconnected garrulous tea and tea dust at the in-process that turns, can't handle disconnected garrulous tea and tea dust when drying, leads to disconnected garrulous tea and tea dust and tealeaves to mix and pack together, leads to the taste variation of tealeaves, reduces the oven-dry mass of tealeaves.

2. Tealeaves when the stoving that turns, the tea dust of production can drift scattered in the air and fall long-pending on mechanical equipment along with hot-blast follow drying-machine is escaped, leads to the inside jam phenomenon that appears of equipment easily, and the tea dust overflows when drifting in the air, causes the injury to operating personnel's healthy, indirectly influences mechanical equipment's life, and reduces the drying efficiency of tealeaves.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an assembly line drying device to solve the problems that when the existing tea is dried, the tea is easily heated unevenly, so that the tea needs to be continuously stirred in the drying process, a large amount of broken tea and tea dust are generated in the stirring process of the tea, and the broken tea and the tea dust cannot be treated in the drying process, so that the broken tea and the tea dust are mixed with the tea to be packaged, the taste of the tea is poor, and the drying quality of the tea is reduced; tealeaves when the stoving that turns, the tea dust of production can be along with hot-blast from the drying-machine in the effusion drift in the air with fall long-pending on mechanical equipment, lead to the inside jam phenomenon that appears of equipment easily, and the tea dust effusion drifts in the air when, cause the injury to operating personnel's healthy, indirectly influence mechanical equipment's life, and reduce the drying efficiency's of tealeaves problem.

In order to achieve the purpose, the invention is realized by the following technical scheme: an assembly line drying device structurally comprises a display, a screening device, a control panel, a conveying table, a hot air generator, a drying cavity, a scraping device, a discharge port and a support frame, wherein the display is arranged on the right side of the control panel, the control panel and the rear end of the display are connected with the conveying table, the bottom of the conveying table is provided with the support frame, the support frame is vertically embedded at the bottom of the conveying table, the middle position of the conveying table is fixedly provided with the drying cavity, the screening device is tightly attached to the bottom of the inside of the drying cavity, the drying cavity and the hot air generator are arranged on the same module, the hot air generator is embedded in the drying cavity in a penetrating manner, the rear end of the drying cavity is provided with the scraping device, the scraping device is embedded at the side edge of the inside of the drying cavity, the front end and the rear end of the drying cavity are respectively provided with the feed, the front end of the discharge port is provided with a display, and the display is communicated with the control panel and the drying cavity through a lead.

As a further improvement of the invention, the screening device comprises a rotating shaft, a screening component, a feeding hole, a rotating blade, a material collecting plate and a material guiding cavity, wherein the rotating blade is embedded in the rotating shaft in a penetrating manner, the top of the rotating shaft is opposite to the feeding hole, the feeding hole is arranged in the middle of the top of the material guiding cavity, the rotating blade and the material collecting plate are arranged on the same plane, the material collecting plate is embedded into the inner side of the top of the material guiding cavity in parallel, the rotating shaft is arranged in the middle of the material guiding cavity and is arranged at the front end of the screening component, and the bottom of the screening component is tightly attached to the top of the material guiding.

As a further improvement of the invention, the screening component comprises a shaking disk, a limiting seat, a guide sieve plate, a guide plate and a limiting column, wherein the shaking disk is arranged at the left end and the right end of the guide sieve plate, the guide sieve plate is vertically embedded in the middle of the guide plate, the bottom of the guide plate is attached to the limiting seat, the limiting column is arranged at the left side and the right side of the limiting seat, and the limiting column and the limiting seat are connected into a whole.

As a further improvement of the invention, the shaking disk comprises a vibration spring, a clamping block, a movable disk and a shaking supporting wheel, the vibration spring is fixed between the clamping block and the shaking supporting wheel, the shaking supporting wheels are annularly arranged on the movable disk at equal intervals, the top of each shaking supporting wheel is tightly buckled and connected with the bottom of the vibration spring, and the top of the vibration spring is embedded and embedded with the clamping block.

As a further improvement of the invention, the material guide plate consists of a fine screen, a fixed shaft, a material distribution screen cylinder, a primary screen and a treatment cavity, wherein the fine screen is arranged at the bottom of the primary screen, the fine screen and the primary screen are arranged in the treatment cavity, the material distribution screen cylinder is arranged at the top of the treatment cavity through the fixed shaft, the material distribution screen cylinder is embedded with the treatment cavity, and a material guide screen plate is arranged at the top of the treatment cavity.

As a further improvement of the invention, the scraping device comprises a limiting groove, guide rods, a dust absorption component, a pressing push block and arc-shaped scrapers, wherein the dust absorption component is installed at the top of the limiting groove, the pressing push block is arranged at the lower end of the dust absorption component, the pressing push block is embedded with the guide rods, the arc-shaped scrapers are arranged in the middle of the guide rods, the left end and the right end of each arc-shaped scraper are embedded on the two guide rods in a penetrating manner, and the arc-shaped scrapers and the pressing push block are connected into a whole through the guide rods.

The guide rod is composed of a chuck, a clamping rod, a sliding guide block and a traction plate, the clamping rod is arranged at the upper end of the chuck and vertically embedded on the chuck, the traction plate is arranged at the lower end of the chuck, the sliding guide block is arranged at the upper end of the traction plate and vertically embedded on the upper end of the traction plate, and the sliding guide block is fixedly clamped at the lower end of the chuck.

As a further improvement of the invention, the dust collection assembly comprises a sliding rod, a moving groove, dust collection pieces, dust collection chambers and scrapers, wherein the sliding rod is arranged at the left end and the right end of the moving groove, the top of the moving groove is opposite to the dust collection chambers, the dust collection pieces are arranged at the left side and the right side of the dust collection chambers, the dust collection pieces are connected into the dust collection chambers in a penetrating manner, the scrapers are arranged at the tops of the dust collection chambers, and the scrapers and the sliding rod are connected into a whole in a welding manner.

As a further improvement of the invention, the dust collection cavity is composed of a dust collection box, a buckling pin, a dust connection pipe and a dust collection element, the buckling pin is arranged at the top of the dust collection box, the bottom of the buckling pin is communicated with the top of the dust connection pipe, the lower end of the dust connection pipe is connected with the dust collection element, the dust collection element is fixedly arranged at the top of the dust collection box, and the dust connection pipe is communicated with the dust collection box through the dust collection element.

Advantageous effects of the invention

The invention relates to an assembly line drying device, which has the following beneficial effects:

inside the guide chamber is carried tealeaves to the feed inlet, carry out preliminary treatment with the board and the rotating vane that gather materials to tealeaves and divide the sieve, the reuse carries out classification treatment with dividing a material sieve section of thick bamboo to tealeaves, vibrate on the movable tray through vibrating spring, tremble the inside tealeaves of a material sieve section of thick bamboo, rethread just imitates screen cloth and meticulous screen cloth and carries out quick branch sieve processing, prevent disconnected garrulous tea and tea dust and tealeaves and mix and pack together, improve the taste and the oven-dry mass of drinking of tealeaves.

The scraper can cooperate mutually with the arc scraper blade and strike off the processing fast to tea dirt, reuse lock pin closely laminates at the scraper lower extreme, adsorb tea dirt fast through the dust absorption component, make tea dirt take over through the dust and adsorb the deposition incasement portion and store, the tea dirt that prevents to produce can overflow and fly away in the air and fall and amass on mechanical equipment, make mechanical equipment can guarantee stable work, improve mechanical equipment's life and the drying efficiency of tealeaves.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of an assembly line drying apparatus according to the present invention;

fig. 2 is a schematic view of the internal structure of the screening device of the present invention.

Figure 3 is a schematic view of the construction of the screen assembly of the present invention.

FIG. 4 is a schematic cross-sectional view of a shaker disk according to the present invention.

Fig. 5 is a schematic plan view of the material guiding plate of the present invention.

Fig. 6 is a schematic structural view of the scraping device of the present invention.

Fig. 7 is a schematic top view of the guide bar of the present invention.

Fig. 8 is a schematic view showing the internal structure of the dust suction assembly of the present invention.

Figure 9 is a schematic plan view of a dust collecting chamber according to the present invention.

In the figure: a display-1, a screening device-2, a control panel-3, a conveying platform-4, a hot air generator-5, a drying chamber-6, a scraping device-7, a discharge port-8, a support frame-9, a rotating shaft-21, a screening component-22, a feed port-23, a rotating blade-24, a material collecting plate-25, a material guiding chamber-26, a shaking disc-221, a limit seat-222, a material guiding sieve plate-223, a material guiding disc-224, a limit column-225, a vibrating spring-2211, a clamping block-2212, a movable disc-2213, a shaking support wheel-2214, a fine sieve-2241, a fixed shaft-2242, a material separating sieve cylinder-2243, a primary sieve-2244, a treatment chamber-2245, a limit groove-71, a guide rod-72, a guide rod-2244, a fine sieve-2241, the dust collector comprises a dust collection component-73, a pressing push block-74, an arc-shaped scraper-75, a chuck-721, a clamping rod-722, a sliding guide block-723, a pulling plate-724, a sliding rod-731, a moving groove-732, a dust collection part-733, a dust collection cavity-734, a scraper-735, a dust collection box-7341, a buckling pin-7342, a dust connection pipe-7343 and a dust collection element-7344.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: an assembly line drying device structurally comprises a display 1, a screening device 2, a control panel 3, a conveying platform 4, a hot air generator 5, a drying cavity 6, a scraping device 7, a discharge port 8 and a support frame 9, wherein the display 1 is arranged on the right side of the control panel 3, the control panel 3 and the rear end of the display 1 are both connected with the conveying platform 4, the support frame 9 is arranged at the bottom of the conveying platform 4, the support frame 9 is vertically embedded at the bottom of the conveying platform 4, the drying cavity 6 is fixedly arranged at the middle position of the conveying platform 4, the screening device 2 is tightly attached to the bottom inside the drying cavity 6, the drying cavity 6 and the hot air generator 5 are arranged on the same module, the hot air generator 5 is embedded inside the drying cavity 6 in a penetrating manner, the scraping device 7 is arranged at the rear end of the drying cavity 6, the scraping device 7 is embedded at the side edge inside the drying cavity 6, the front end and the rear end of the drying cavity 6 are respectively provided with, feed inlet and discharge gate 8 with carry 4 looks locks of platform, 8 front ends of discharge gate are equipped with display 1, display 1 with control panel 3 and dry chamber 6 and pass through the wire and put through mutually, carry the 6 insides in stoving chamber through carrying platform 4 with the tealeaves that will dry, with controlling the temperature of panel 3 control stoving chamber 6 insides, then carry out drying process with hot-blast generator 5 cooperation stoving chamber 6 to tealeaves, reuse display 1 looks over the stoving condition of tealeaves in real time, carries out quick branch sieve processing with tealeaves through dividing sieve device 2, improves the stoving effect of tealeaves.

Referring to fig. 2, the screening device 2 is composed of a rotating shaft 21, a screening component 22, a feeding port 23, a rotating blade 24, a material collecting plate 25 and a material guiding chamber 26, the rotating blade 24 is embedded in the rotating shaft 21, the top of the rotating shaft 21 faces the feeding port 23, the feeding port 23 is installed in the middle of the top of the material guiding chamber 26, the rotating blade 24 and the material collecting plate 25 are arranged on the same plane, the material collecting plate 25 is embedded in the inner side of the top of the material guiding chamber 26 in parallel, the rotating shaft 21 is arranged in the middle of the material guiding chamber 26, the rotating shaft 21 is arranged at the front end of the screening component 22, the bottom of the screening component 22 is closely attached to the top of the material guiding chamber 26, dried tea leaves are conveyed into the material guiding chamber 26 through the feeding port 23, and the rotating blade 24 and the material collecting plate 25 are matched with each other to.

Referring to fig. 3, the screening assembly 22 includes a shaking plate 221, a limiting seat 222, a material guiding screen plate 223, a guiding plate 224 and a limiting post 225, the shaking plate 221 is disposed at both left and right ends of the material guiding screen plate 223, the material guiding screen plate 223 is vertically embedded in the middle of the guiding plate 224, the bottom of the guiding plate 224 is attached to the limiting seat 222, the limiting posts 225 are disposed at both left and right sides of the limiting seat 222, the limiting posts 225 and the limiting seat 222 are connected into a whole, the primarily filtered material is guided onto the material guiding screen plate 223, and the shaking plate 221 is used for shaking the tea dregs on the material guiding screen plate 223, so that the taste of the tea is improved.

Referring to fig. 4, the shaking disk 221 is composed of a vibration spring 2211, a clamping block 2212, a movable disk 2213 and a shaking support wheel 2214, the vibration spring 2211 is fixed between the clamping block 2212 and the shaking support wheel 2214, the shaking support wheel 2214 is annularly installed on the movable disk 2213 at equal intervals, the top of the shaking support wheel 2214 is tightly buckled with the bottom of the vibration spring 2211, the top of the vibration spring 2211 is embedded with the clamping block 2212, the clamping block 2212 is tightly attached to the material guide sieve plate 223 through the clamping block 2212, the vibration spring 2211 is used for driving the clamping block 2212 to vibrate, a large amount of broken tea and tea dust generated in the tea leaf turning process are sieved, and the tea leaf processing efficiency is improved.

Please refer to fig. 5, the guide board 224 comprises meticulous screen mesh 2241, fixed axle 2242, branch screen cylinder 2243, first effect screen mesh 2244, process chamber 2245, meticulous screen mesh 2241 establishes in first effect screen mesh 2244 bottom, meticulous screen mesh 2241 establishes inside process chamber 2245 with first effect screen mesh 2244, the process chamber 2245 top is equipped with branch screen cylinder 2243, divide screen cylinder 2243 to install at process chamber 2245 top through fixed axle 2242, divide screen cylinder 2243 and process chamber 2245 gomphosis, the process chamber 2245 top is equipped with guide sieve 223, carries out hierarchical processing through dividing the tealeaves of a screen cylinder 2243 to drying, and the high efficiency filtration processing is carried out to tealeaves to the cooperation of reuse first effect screen mesh 2244 and meticulous screen mesh 2241 mutually, guarantees that the tealeaves taste after processing adds, improves the oven-dry quality of tealeaves.

Referring to fig. 6, the scraping device 7 is composed of a limiting groove 71, guide rods 72, a dust suction assembly 73, a pressing push block 74 and arc-shaped scrapers 75, the dust suction assembly 73 is mounted at the top of the limiting groove 71, the pressing push block 74 is arranged at the lower end of the dust suction assembly 73, the pressing push block 74 is embedded in the guide rods 72, the arc-shaped scrapers 75 are arranged at the middle positions of the guide rods 72, the left and right ends of the arc-shaped scrapers 75 are embedded in the two guide rods 72 in a penetrating manner, the arc-shaped scrapers 75 and the pressing push block 74 are connected into a whole through the guide rods 72, the tea dust is scraped through the arc-shaped scrapers 75, the scraped tea dust is quickly adsorbed by the dust suction assembly 73, the tea dust is prevented from being accumulated on mechanical equipment, and the mechanical equipment can stably.

Example two

Referring to fig. 7, the guide rod 72 is composed of a chuck 721, a clamping rod 722, a sliding guide block 723 and a pulling plate 724, the clamping rod 722 is arranged at the upper end of the chuck 721, the clamping rod 722 is vertically embedded on the chuck 721, the pulling plate 724 is arranged at the lower end of the chuck 721, the sliding guide block 723 is arranged at the upper end of the pulling plate 724, the sliding guide block 723 is vertically embedded at the upper end of the pulling plate 724, the sliding guide block 723 is fixedly clamped at the lower end of the chuck 721, the arc-shaped scraper 75 is clamped and fixed by the clamping rod 722, and the position of the arc-shaped scraper 75 is adjusted by the cooperation of the sliding guide block 723 and the pulling plate 724, so that the arc-shaped scraper 75 can carry out all-directional scraping treatment on equipment, the blocking phenomenon inside the equipment caused by tea dust is prevented, and the service life of the mechanical equipment.

Referring to fig. 8, the dust suction assembly 73 includes a sliding rod 731, a moving slot 732, a dust suction member 733, a dust collection chamber 734, and a scraper 735, the sliding rod 731 is disposed at both left and right ends of the moving slot 732, the top of the moving slot 732 faces the dust collection chamber 734, the dust suction member 733 is disposed at both left and right sides of the dust collection chamber 734, the dust suction member 733 is connected to the inside of the dust collection chamber 734 in a penetrating manner, the scraper 735 is disposed at the top of the dust collection chamber 734, the scraper 735 and the sliding rod 731 are connected into a whole by welding, the scraper 735 is connected to the sliding rod 731 in an embedded manner, the sliding rod 731 drives the scraper 735 to move inside the moving slot 732, so that the scraper 735 can cooperate with the arc-shaped scraper 75 to sweep the tea dust, and the dust suction member 733 is used to adsorb the tea dust, thereby preventing the tea dust from escaping and.

Referring to fig. 9, the dust collecting cavity 734 is composed of a dust collecting box 7341, a fastening pin 7342, a dust connecting pipe 7343, and a dust collecting element 7344, the top of the dust collecting box 7341 is provided with the fastening pin 7342, the bottom of the fastening pin 7342 is connected with the top of the dust connecting pipe 7343, the lower end of the dust connecting pipe 7343 is connected with the dust collecting element 7344, the dust collecting element 7344 is fixedly installed at the top of the dust collecting box 7341, the dust connecting pipe 7343 is connected with the dust collecting box 7341 through the dust collecting element 7344, and is connected with the fastening pin 7342 in a fastening manner, so that the dust collecting element 7344 quickly adsorbs tea dust, and the tea dust is adsorbed into the dust collecting box 7341 through the dust connecting pipe 7343, so that the tea dust can be quickly collected, the mechanical equipment can be ensured to stably operate, and the drying efficiency of tea.

The working principle of the above technical solution is explained as follows:

when the tea leaf drying machine is used, tea leaves to be dried are conveyed into the drying cavity 6 through the conveying table 4, the temperature in the drying cavity 6 is controlled through the control panel 3, then the hot air generator 5 is used for drying the tea leaves in cooperation with the drying cavity 6, the drying condition of the tea leaves is checked in real time through the display 1, the tea leaves are quickly screened through the screening device 2, the drinking taste of the tea leaves is improved, and tea dust in the machine is quickly treated through the scraping device 7, so that the machine can stably work.

After tea leaves are dried, the position of the guide plate 224 is adjusted and fixed by the mutual cooperation of the limiting seat 222 and the limiting column 225, the tea leaves are conveyed into the guide cavity 26 by the feed inlet 23, the rotating shaft 21 drives the rotating blades 24 to rotate, the tea leaves are subjected to primary treatment and screening by the material collecting plate 25 and the rotating blades 24, the tea leaves subjected to primary treatment are conveyed onto the guide screen plate 223, the tea leaves are subjected to classification treatment by the material separating screen cylinder 2243, the guide screen plate 223 is fixedly clamped by the clamping block 2212, the vibrating spring 2211 vibrates on the movable plate 2213, broken tea and tea dust generated in the shaking treatment process of the tea leaves in the material separating screen cylinder 2243 are subjected to rapid screening treatment by the primary screen 2244 and the fine screen 2241, the broken tea and tea dust generated in the tea leaves can be rapidly treated, the effect after the tea leaves are dried is ensured, and the broken tea dust is prevented from being mixed with the tea leaves and packaged together, the drinking taste and the drying quality of the tea are improved.

After tea leaves are sieved, the left end and the right end of the arc-shaped scraper 75 are clamped by the chuck 721, the arc-shaped scraper 75 is fixedly clamped on the chuck 721 through the matching of the two clamping rods 722, the angle position of the arc-shaped scraper 75 is adjusted through the matching of the sliding guide block 723 and the pulling plate 724, so that the arc-shaped scraper 75 can remove tea dust in all directions in the equipment, the sliding rod 731 is welded with the scraper 735, the sliding groove 732 is used for driving the sliding rod 731 to adjust the position of the scraper 735, the scraper 735 can be attached to the inner wall of the equipment, the scraper 735 and the arc-shaped scraper 75 can be matched with each other to carry out rapid scraping treatment on the tea dust, the buckling pin 7342 is tightly attached to the lower end of the scraper 735, the tea dust is rapidly adsorbed through the dust suction element 7344, the tea dust is adsorbed into the dust collection box 7341 through the dust connection pipe 7343 for storage, and the generated tea dust is prevented from escaping and scattering in the air and falling on the mechanical, the mechanical equipment can guarantee stable work, and the service life of the mechanical equipment and the drying efficiency of the tea leaves are prolonged.

The problem to be solved by the invention is that when the existing tea leaves are dried, the tea leaves are easily heated unevenly, so that the tea leaves need to be continuously stirred in the drying process, a large amount of broken tea and tea dust can be generated in the stirring process of the tea leaves, and the broken tea and the tea dust cannot be treated in the drying process, so that the broken tea and the tea dust are mixed with the tea leaves for packaging, the taste of the tea leaves is poor, and the drying quality of the tea leaves is reduced; when tea leaves are turned and dried, generated tea dust escapes from a dryer along with hot air and floats in the air and falls on mechanical equipment, so that the blocking phenomenon in the equipment is easily caused, and when poor dust escapes and floats in the air, the harm is caused to the health of operators, the service life of the mechanical equipment is indirectly influenced, and the drying efficiency of the tea leaves is reduced. The drinking taste and the drying quality of the tea are improved; the scraper can cooperate mutually with the arc scraper blade and strike off the processing fast to tea dirt, reuse lock pin closely laminates at the scraper lower extreme, adsorb tea dirt fast through the dust absorption component, make tea dirt take over through the dust and adsorb the deposition incasement portion and store, the tea dirt that prevents to produce can overflow and fly away in the air and fall and amass on mechanical equipment, make mechanical equipment can guarantee stable work, improve mechanical equipment's life and the drying efficiency of tealeaves.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an assembly line drying device, its structure includes display (1), divides sieve device (2), controls panel (3), carries platform (4), hot-blast generator (5), stoving chamber (6), scraping device (7), discharge gate (8), support frame (9), its characterized in that:

the control panel (3) and the display (1) are both connected with the conveying table (4), the screening device (2) is attached to the drying cavity (6), the support frame (9) is embedded at the bottom of the conveying table (4), the drying cavity (6) and the hot air generator (5) are arranged on the same module, the scraping device (7) is arranged in the drying cavity (6), and the discharge port (8) is buckled with the conveying table (4);

divide sieve device (2) to constitute by rotation axis (21), branch sieve subassembly (22), feed inlet (23), rotating vane (24), material collecting plate (25), guide chamber (26), rotation axis (21) are established at branch sieve subassembly (22), rotating vane (24) are connecting rotation axis (21), feed inlet (23) are installed in guide chamber (26), material collecting plate (25) embedding guide chamber (26).

2. The inline drying apparatus of claim 1, wherein: the screening component (22) is composed of a shaking disc (221), a limiting seat (222), a material guiding sieve plate (223), a material guiding disc (224) and a limiting column (225), wherein the shaking disc (221) is arranged on the material guiding sieve plate (223), the material guiding disc (224) is attached to the limiting seat (222), and the limiting column (225) is connected with the limiting seat (222) into a whole.

3. The inline drying apparatus of claim 2, wherein: the shaking disk (221) is composed of a vibrating spring (2211), a clamping block (2212), a movable disk (2213) and a shaking supporting wheel (2214), the vibrating spring (2211) is fixed between the clamping block (2212) and the shaking supporting wheel (2214), and the shaking supporting wheel (2214) is installed on the movable disk (2213).

4. The inline drying apparatus of claim 2, wherein: guide plate (224) comprise meticulous screen cloth (2241), fixed axle (2242), divide material sieve section of thick bamboo (2243), just imitate screen cloth (2244), process chamber (2245), meticulous screen cloth (2241) is established inside process chamber (2245) with just imitate screen cloth (2244), divide material sieve section of thick bamboo (2243) to install in process chamber (2245) through fixed axle (2242).

5. The inline drying apparatus of claim 1, wherein: the scraping device (7) is composed of a limiting groove (71), a guide rod (72), a dust collection assembly (73), a pressing push block (74) and an arc-shaped scraper (75), the dust collection assembly (73) is installed on the limiting groove (71), and the arc-shaped scraper (75) and the pressing push block (74) are connected into a whole through the guide rod (72).

6. The inline drying apparatus of claim 5, wherein: the guide rod (72) consists of a chuck (721), a clamping rod (722), a sliding guide block (723) and a pulling plate (724), the chuck (721) is provided with the clamping rod (722), and the sliding guide block (723) is embedded in the pulling plate (724).

7. The inline drying apparatus of claim 5, wherein: the dust collection assembly (73) is composed of a sliding rod (731), a moving groove (732), a dust collection piece (733), a dust collection cavity (734) and a scraper (735), the sliding rod (731) is arranged in the moving groove (732), the dust collection piece (733) is connected with the dust collection cavity (734) in a penetrating mode, and the scraper (735) is arranged at the top of the dust collection cavity (734).

8. The inline drying apparatus of claim 7, wherein: the dust collection cavity (734) is composed of a dust collection box (7341), a buckling pin (7342), a dust connection pipe (7343) and a dust collection element (7344), the dust collection box (7341) is provided with the buckling pin (7342), and the dust connection pipe (7343) is connected with the dust collection element (7344).