CN115318623A - High-efficient tealeaves sieve separator - Google Patents

Abstract

The invention relates to the technical field of tea processing, which comprises a feeding hopper, a motor II, a transmission belt baffle, a transmission belt, a support seat, a support plate II, support cross rods, a screen frame, a screen and positioning pin conveying belt shafts, wherein the feeding hopper is fixed on the transmission belt baffle; the tea screening machine can realize tea screening, can screen tea with high quality at high efficiency, and further effectively control the cost in the tea making process.

Description

High-efficient tealeaves sieve separator

Technical Field

The invention relates to the technical field of tea processing, in particular to a high-efficiency tea screening machine.

Background

Modern medicine proves that tea drinking is beneficial to body health, more and more people develop the habit of tea drinking, the supply of tea leaves becomes very important, the tea screening means in the past is manual tea screening, the tea screening enters the modern, mechanical tea screening starts to gradually replace manual tea screening, the main problem of the current tea screening machine is that the quality of the screened tea is uncontrollable, the produced tea is not good and good, secondary screening is usually needed to ensure the quality of the tea leaves, and therefore the economic cost and the time cost of the tea leaf production are increased.

Disclosure of Invention

The invention aims to provide an efficient tea screening machine which can screen tea with high quality and high efficiency, and further effectively control the cost in the tea making process.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a high-efficient tealeaves sieve separator, including feed hopper, motor II, drive belt baffle, the drive belt, a supporting seat, backup pad II, support the horizontal pole, the screen frame, the screen cloth, the locating pin, spring and conveying belt shaft, feed hopper fixes on drive belt baffle, drive mechanism installs on the supporting seat, backup pad II and supporting seat fixed connection, motor II installs on the supporting seat, drive belt baffle fixed connection is on the supporting seat, two conveying belt shafts all rotate in drive belt baffle, one of them conveying belt shaft is connected with the output shaft transmission of motor II, the drive belt rotates to be connected at two conveying belt shafts, two equal fixed connection of locating pin are on the supporting seat, two equal fixed connection of support horizontal pole are on backup pad II, sliding connection on two locating pins and two support horizontal poles, two screen cloth slopes from top to bottom are installed on the screen frame, the screen cloth mesh that is located the top is greater than the screen cloth that is located the below, the spring both ends respectively with screen frame and II fixed connection of backup pad, the spring is with screen frame tightly on drive mechanism with the top, the screen cloth that is located the top.

Motor III installs on the supporting seat, and transmission shaft I is fixed on motor III's output shaft, and I fixed connection of cam is on transmission shaft I, cam I and screen frame side sliding connection.

Storage box I, storage box II and storage box III all place in backup pad I, and storage box I is located the end of the screen cloth of gross porosity, and storage box II is located the end of fine porous screen cloth, and storage box III is placed in the below of fine porous screen cloth.

Drawings

FIG. 1 is a schematic view showing the overall structure of a high-efficiency tea screening machine;

FIG. 2 is a schematic view of the overall structure of a high-efficiency tea leaf screening machine;

FIG. 3 is a schematic view of a part of the structure of a high efficiency tea leaf sifter;

FIG. 4 is a schematic view of the vacuum cleaner;

FIG. 5 is a second schematic diagram of the screen configuration;

FIG. 6 is a schematic view of the structure of the screen frame

FIG. 7 is a schematic view of the structure of a feed hopper;

FIG. 8 is a schematic view of the cam;

FIG. 9 is a first schematic structural view of the elevator;

FIG. 10 is a second schematic structural view of the elevator;

FIG. 11 is a schematic view of the structure of the rotary gear plate;

fig. 12 is a schematic view of the structure of the transfer wheel.

In the figure:

a feed port cover 101; a feed hopper 102; a motor I103 and a motor II 104; a belt stop 105; a belt 106; a drive shaft 107; a cam I108; a supporting seat I109; a cleaner screen 110; a cleaner passage 111; a cleaner housing 112; a storage box I113; a storage box II 114; a storage box 115; a support plate I116; a support plate II 117; a support rail 118;

a dust storage box 201; a vacuum pump 202; a cleaner door 203; a cleaner door handle 204; a dust bin handle 205;

a screen frame 301; a screen 302; a positioning pin 303; a spring 304;

a conveyor belt shaft 401; an agitating shaft 402; a stirring rod 403;

a motor III 501;

a yoke 601; a hydraulic column 602; the elevator housing 603; a cam II 604; a drive gear shaft 605; a motor drive shaft 606; a motor IV; a motor V608; a motor drive shaft 609; a rotating gear plate 610; a transmission shaft II 611; a support bracket 612; a transfer wheel 613; a retention hole 614; a key 615; a key way 616;

a base plate 701; a track 702; a steering shaft 703; a base 704.

Detailed Description

As shown in fig. 1-3, 5, 6:

the utility model provides a high-efficient tealeaves sieve separator, includes feed hopper 102, motor II 104, drive belt baffle 105, drive belt 106, supporting seat 109, backup pad II 117, support horizontal pole 118, screen frame 301, screen cloth 302, locating pin 303, spring 304 and conveying belt axle 401, install feed hopper 102 on the supporting seat 109, backup pad II 117 and supporting seat 109 fixed connection are in the same place, install motor II 104 on the supporting seat 109, fixedly connected with drive belt baffle 105 on the supporting seat 109, drive belt baffle 105 is inside to rotate and be connected with two conveying belt axles 401, one of them conveying belt axle 401 rotates with the output shaft of motor II 104 and is connected, it is connected with drive belt 106 to rotate on the conveying belt axle 401, fixedly connected with two upper and lower locating pins 303 on the supporting seat 109, two upper and lower support horizontal poles 118 of fixedly connected with on backup pad II 117, screen frame 301 sliding connection is on locating pin 303 and support horizontal pole 118, two upper and lower slopes to install on screen frame 301 in screen cloth with different mesh sizes, spring 302 fixed connection is between screen frame 301 and backup pad II 117, screen frame 301 pushes up tightly on drive mechanism through spring 302, the terminal that is located screen cloth 106.

When the equipment needs to be used, the motor II 104 starts to work, the motor drives one of the conveying belt shafts 401 to rotate, the two conveying belt shafts 401 drive the conveying belt 106 to carry out transmission, the upper end face of the conveying belt 106 moves from high to low, tea leaves are poured into the equipment through the feeding hopper 101, unscreened tea leaves reach the obliquely placed conveying belt 106 through the bottom end of the feeding hopper 101, and the amount of the tea leaves reaching the screen mesh 302 can be effectively controlled through the conveying belt 106; be used for placing screen cloth 302's frame slope setting in screen frame 301, the one end that is close to I109 of supporting seat is high, the high one end side of screen cloth 302 is provided with the sliding tray, can let locating pin 303 slide in the sliding tray, the low one end of screen cloth 302 is effectively supported through supporting horizontal pole 118, locating pin 303 and supporting horizontal pole 122 can guarantee that screen shell 112 guarantees even running at the during operation, macroporous screen cloth is in the top among two screen cloths 302, the screen cloth 302 of aperture is in the below, provide reciprocal power through drive mechanism and spring 302 to screen frame 301, three kinds of different specifications can be selected with tealeaves to the screening of two kinds of screen cloths 302.

The support cross bar 116 is provided with a groove, so that the lower end of the screen shell 112 can be just clamped into the groove, and the stability is further improved.

As shown in fig. 8:

meshing is connected with transmission shaft I107 on motor III 501's output shaft, installs motor III 501 on the supporting seat 109, and the terminal fixedly connected with cam I108 of transmission shaft I107, cam I108 sliding connection are in the side of screen frame 301.

When motor III 503 starts, the motor drive shaft will drive transmission shaft I107 and rotate, and the rotation of transmission shaft I107 will drive the rotation of cam I108, and the elasticity of spring 302 will be tight on the surface of cam I108 screen frame 301 top, and the rotation through cam I108 and the tight effect in the top that lasts of spring 302 will continuously promote screen frame 301 and carry out reciprocating motion, reach the purpose of vibrations.

As shown in fig. 3:

storage tank I113, storage tank II 114 and storage tank III 115 are all placed on the upper end faces of three groups of support plates I106, storage tank I113 is placed at the tail end of a coarse-hole screen 302, storage tank II 114 is placed at the tail end of a fine-hole screen 302, and storage tank III 115 is placed below the fine-hole screen 302.

The tea that two different screens 302 of mesh were sieved will fall into three different case owing to the effect of slope, the coarse mesh 302 of screen frame 301 top is selected and is stayed on screen 302 during great tea can fall storage box I113, the tea that coarse mesh 302 was selected can fall on the fine porous screen 302 of below, the tea that stays on screen 302 through fine porous screen 302 is selected and is fallen in storage box II 114 in the size average, fine porous screen 302 screens remaining tea can fall storage box III 115 of below, in order to make things convenient for centralized processing, there is the activity that the space supplied yoke 601 in backup pad I106.

The baffles on both sides of the screen frame 301 effectively block tea leaves from flying off the apparatus and flowing over the other screen mesh 302 by the action of the vibrations on the mesh 302.

As shown in fig. 7:

rotate at feed hopper 102 and be connected with feed inlet lid 101, go up and have motor I103 at feed hopper 102's side-mounting, stirring shaft 402 fixed connection is on motor I103 output shaft, and stirring rod 403 is three a set of setting side by side on stirring shaft 402.

When tea leaves are poured into the feeding hopper 102, the tea leaves can be intensively accumulated at the bottom of the feeding hopper 101 and slowly fall down to the transmission belt 106, and the tea leaves can be effectively prevented from splashing outwards through the action of the transmission belt baffle 105 in the process; when tealeaves is too much piled up in feed hopper 101 bottom, motor I103 starts and can drive (mixing) shaft 402 and rotate to drive stirring rod 403 around the rotation of (mixing) shaft 402, stir accumulational tealeaves, make tealeaves normal fall on drive belt 106.

When the apparatus is not in use, the inlet cover 101 is closed to prevent the inside of the inlet hopper 102 from being directly exposed to generate floating ash, thereby preventing the tea leaves from being polluted by the floating ash when the apparatus is used next time.

As shown in fig. 3 and 4:

the two vacuum cleaner ducts 111 extend through the screen frame 301 and the support plate ii 117 to the inside of the screen frame 301 and are located above the two screens 302, respectively.

The dust collector filter screen 110 is fixedly mounted at the front ends of the two dust collector channels 111, the two dust collector channels 111 are fixedly connected to the dust collector shell 112, the dust collector channels 111 are connected with the upper end face of the dust storage box 201 inside, the dust storage box 201 is mounted inside the dust collector shell 112, the dust storage box handle 205 is fixedly connected to the side face of the dust storage box 201, the vacuumizer 202 is mounted below the dust storage box 201, the vacuumizer 202 is fixedly connected with the dust collector shell 112, the dust collector door 203 is rotatably connected with the dust collector shell 112 through hinges, and the dust collector door handle 204 is fixedly connected to the outer side of the dust collector door 203.

When the screen baffle I113 moves left and right under the rotation action of the cam I108, the two dust collector channels 111 slide in the screen frame 301 and the support plate II 117, and play a role in supporting and providing a moving space for the dust collector channels 111; when the dust collector is started, a pressure difference is created between the inside and the outside of the shell 112 of the dust collector through the vacuumizing action of the vacuumizing machine 202, and dust generated in the tea sieving process is sucked into the middle dust storage box 201, so that the generation of dust in the tea sieving process is inhibited, and the operating environment in a plant space is protected; the dust storage box 201 can be pulled out and cleaned regularly by opening the dust collector door 203, so that the service life of the dust collector equipment is prolonged; the vacuum cleaner screen 110 has a very small mesh size to pass fine dust, so that the vacuum cleaner screen 114 can prevent tea leaves from being sucked by suction force of the vacuum cleaner.

As shown in fig. 2, 8-11:

the front and the back of the elevator shell 603 are provided with a left limiting groove and a right limiting groove 614, two ends of the hydraulic column 602 are respectively fixedly connected with the inside of the elevator shell 603 and the fork arm 601, the fork arm 601 is connected in the limiting grooves 614 in a sliding manner, the lower end face of the elevator shell 603 is fixedly connected with a transmission shaft II 611, and the transmission shaft II 611 is fixedly connected with four keys 615.

The upper end face of the support frame 612 is provided with a motor IV 607 and a motor V608, an output shaft of the upper end face of the motor IV 607 is engaged with a motor transmission shaft I606, an output shaft of the upper end face of the motor V608 is engaged with a motor transmission shaft II 609, the motor transmission shaft II 609 is engaged on a transmission gear shaft 605, the big end of the cam II 604 is fixedly connected to the transmission gear shaft 605, the motor transmission shaft II 609 is engaged on a rotating gear plate 610, the support frame 612 is rotatably connected with the rotating gear plate 610, and the cam II 604 is in sliding connection with the transmission shaft II 611.

Four bases 704 are fixedly connected to the lower end surface of the support 612, a steering shaft 703 is rotatably connected to the bases 704, a transfer wheel 613 is longitudinally rotatably connected to the steering shaft 703, a rail 702 is provided on the bottom plate 701, and the transfer wheel 613 rolls on the rail 702.

When the tea amount in the storage box I113 meets the requirement and needs to be replaced, one side of a fork arm 601 forks an empty storage box I113, the other side of the fork arm enters the middle of two gaps in a supporting plate I116 under the driving of a conveying wheel 613, a motor IV 607 is started to drive a motor transmission shaft I606 to rotate, further, a transmission gear shaft 605 and a cam II 604 fixedly connected to the transmission gear shaft 605 are driven to rotate, the transmission shaft II 611 is jacked up through the rotation of the cam II 604, four keys 615 arranged on the side surface of the transmission shaft II 611 are driven to be in a key groove 616 in an inner ring of a rotating gear disc 610, the transmission shaft II 611 drives an elevator shell 603 to move upwards, further, the hydraulic column 602 and the fork arm 601 are driven to move upwards together, finally, the storage box I117 is lifted from the supporting plate I116 and is moved out of the supporting plate I120 through the conveying wheel 613, the motor 608 is started to drive the motor transmission shaft II 609 to rotate, further, the rotating gear disc 610 is driven to rotate, the rotating gear disc 610 further drives the other side of the transmission shaft II 611 through the matching of the key 615 and drives the rotating gear shell 603, and the supporting plate I601 is replaced on the supporting plate I120 through the conveying wheel 613;

when the storage box II 118 needs to be replaced, the fork arm 601 is enabled to move downwards to a designated position in the limiting groove 614 through the hydraulic column 602, and then the process of replacing the storage box I117 is repeated, so that the purpose of replacing the storage box II 118 is achieved;

when the storage box III 119 needs to be replaced, the supporting frame 612 is driven by the conveying wheels 613 in the track 702 to move to the left to one side of the storage box III 119, and then the process of replacing the storage box I117 is repeated, so that the purpose of replacing the storage box III 119 is achieved.

As shown in fig. 2: a base 704 is fixedly connected below the supporting seat 109.

The base 704 is disposed on the ground, and the fixed connection between the supporting base 109 and the base 704 can enhance the overall stability of the machine.

Claims (10)

1. The utility model provides a high-efficient tealeaves sieve separator which characterized in that: comprises a feeding funnel (102), a motor II (104), a transmission belt baffle (105), a transmission belt (106), a support seat (109), a support plate II (117), a support cross rod (118), a screen frame (301), a screen (302), a positioning pin (303), a spring (304) and a transmission belt shaft (401), wherein the feeding funnel (102) is fixed on the transmission belt baffle (105), a transmission mechanism is installed on the support seat (109), the support plate II (117) is fixedly connected with the support seat (109), the motor II (104) is installed on the support seat (109), the transmission belt baffle (105) is fixedly connected on the support seat (109), two transmission belt shafts (401) are both rotated in the transmission belt baffle (105), one of the transmission belt shafts (401) is rotatably connected with an output shaft of the motor II (104), the transmission belt (106) is rotatably connected on the two transmission belt shafts (401), the two positioning pins (303) are both fixedly connected on the support seat (109), the two support cross rods (118) are both fixedly connected on the support plate II (117), the screen frame (301) and the two support belt shafts (303) are installed above the screen frame (302), the screen frame (302) and the screen (302) are positioned above and below the screen mesh (302), two ends of the spring (304) are respectively fixedly connected with the screen frame (301) and the support plate II (117), the screen frame (301) is tightly pressed on the transmission mechanism by the spring (304), and the screen (302) above the spring is positioned at the tail end of the transmission belt (106).

2. A high efficiency tea screening machine as claimed in claim 1 wherein: drive mechanism includes transmission shaft I (107), cam I (108) and motor III (501), and install on supporting seat (109) motor III (501), and transmission shaft I (107) are fixed on the output shaft of motor III (501), and I (108) fixed connection of cam is on transmission shaft I (107), and I (108) of cam and screen frame (301) side sliding connection.

3. A high efficiency tea screening machine as claimed in claim 2 wherein: still include backup pad I (116), storage box I (113), storage box II (114) and storage box III (115) are all placed on backup pad I (116), and storage box I (113) are located the end of screen cloth (302) of gross porosity, and storage box II (114) are located the end of fine pored screen cloth (302), and storage box III (115) are located the below of fine pored screen cloth (302).

4. A high efficiency tea screening machine as claimed in claim 3 wherein: still include feed inlet lid (101), motor I (103), (mixing) shaft (402) and stirring rod (403), feed inlet lid (101) rotate to be connected on feed hopper (102), install on feed hopper (102) motor I (103), inside (mixing) shaft (402) rotate to be connected in feed hopper (102), motor I (103) output shaft and (mixing) shaft (402) fixed connection, set up a plurality of stirring rod (403) on (mixing) shaft (402).

5. The high efficiency tea screening machine of claim 4, wherein: the two dust collector channels (111) penetrate through the screen frame (301) and the support plate II (117) and are used for collecting dust on the two screens (302).

6. The high efficiency tea screening machine of claim 5, wherein: the novel vacuum cleaner is characterized by further comprising a dust collector filter screen (110), a dust collector shell (112), a dust storage box (201), a vacuum extractor (202), a dust collector door (203), a dust collector door handle (204) and a dust storage box handle (205), wherein the two dust collector filter screens (110) are respectively and fixedly installed at the front ends of the two dust collector channels (111), the two dust collector channels (111) are fixedly connected onto the dust collector shell (112), the dust storage box (201) is installed inside the dust collector shell (112), the dust storage box handle (205) is fixedly connected onto the side face of the dust storage box (201), the vacuum extractor (202) is installed below the dust storage box (201), the vacuum extractor (202) is fixedly connected with the dust collector shell (112), the dust collector door (203) is rotatably connected with the dust collector shell (112) through a hinge, and the dust collector door handle (204) is fixedly connected onto the dust collector door (203).

7. The high efficiency tea screening machine of claim 6, wherein: still include yoke (601), pneumatic cylinder (602), lift shell (603), transmission shaft II (611), spacing groove (614) and key (615), lift shell (603) both sides are provided with spacing groove (614), it has yoke (601) to slide in spacing groove (614), pneumatic cylinder (602) are installed between yoke (601) and lift shell (603), the lower extreme at lift shell (603) is fixed in transmission shaft II (611), four key (615) fixed connection are on transmission shaft II (611), transmission shaft II (611) are connected on removing the seat.

8. The high efficiency tea screening machine of claim 7, wherein: the motor driving device is characterized by further comprising a cam II (604), a transmission gear shaft (605), a motor driving shaft I (606), a motor IV (607), a motor V (608), a motor driving shaft II (609), a rotating gear disc (610) and key slots (616), wherein the motor IV (607) and the motor V (608) are both installed on a movable seat, the motor driving shaft I (606) is fixed on an output shaft of the motor IV (607), the motor driving shaft II (609) is fixed on an output shaft of the motor V (608), the transmission gear shaft (605) is rotatably connected on the movable seat, the motor driving shaft I (606) is in meshed connection with the transmission gear shaft (605), the cam II (604) is fixedly connected on the transmission gear shaft (605), the rotating gear disc (610) is rotatably connected on the movable seat, the motor driving shaft II (609) is in meshed connection with the rotating gear disc (610), four key slots (616) are formed in the rotating gear disc (610), and the cam II (604) is in sliding connection with the transmission shaft II (611).

9. The high efficiency tea screening machine of claim 8, wherein: the movable seat comprises a support frame (612), transmission wheels (613), a bottom plate (701), a track (702), a steering shaft (703) and a base (704), a rotating gear disc (610) is rotatably connected with the support frame (612), a transmission gear shaft (605) is rotatably connected onto the support frame (612), the base (704) is fixedly arranged at four corners of the lower end face of the support frame (612), the steering shaft (703) is rotatably arranged in the base (704), the transmission wheels (613) are rotatably arranged in the steering shaft (703), the track (702) is arranged in the bottom plate (701), and the four transmission wheels (613) roll in the track (702).

10. A high efficiency tea screening machine as claimed in claim 9 wherein: the bottom plate (701) is fixedly connected below the supporting seat (109).

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