CN115540533B - A drain sump for matrimony vine processing - Google Patents

Abstract

The invention relates to the technical field of Chinese wolfberry processing, in particular to a dewatering box for Chinese wolfberry processing. The invention provides a dewatering box for processing medlar, which can separate and dry medlar and avoid the accumulation and damage of medlar. A dewatering box for processing medlar comprises a dryer; the upper left side of the dryer is rotatably connected with the supporting barrel; the inside of the supporting barrel is rotatably connected with the dewatering barrel; the switch door is connected with the left rear side of the dewatering cylinder in a rotating mode. According to the invention, the medlar enters the isolation barrel and then enters the separation plates, and the isolation barrel can limit the medlar, so that the movement range of the medlar is reduced, and the medlar is prevented from being violently collided and rubbed with the isolation barrel during rotation, thereby preventing the medlar from being damaged during dehydration and influencing the quality phase of the medlar.

Description

A drain sump for matrimony vine processing

Technical Field

The invention relates to the technical field of Chinese wolfberry processing, in particular to a dewatering box for Chinese wolfberry processing.

Background

The wolfberry is a traditional Chinese medicinal material with a plurality of efficacies, which is beneficial to health care and a tonic, the wolfberry is picked, in order to prolong the storage time, generally, the wolfberry needs to be dehydrated, the wolfberry is made into dry wolfberry, in the prior art, when fresh wolfberry is dehydrated, the wolfberry can be generally dried by a dehydration box to realize dehydration, and because the moisture of the wolfberry is more, when a large amount of wolfberry rotates in the dehydration box, the peel of the wolfberry is broken due to the friction between the wolfberry and the inner wall of the dehydration box, so that the sugar in the wolfberry is analyzed and adhered to the complete wolfberry, the finally processed wolfberry is poor, the dehydration effect of the wolfberry adhered together is poor, the preservation is influenced, the wolfberry is accumulated together, the phenomenon of uneven drying is easy to occur, and the dehydration effect of the wolfberry is poor.

To sum up, need research and develop one kind and can separate the stoving to the matrimony vine, avoid matrimony vine pile and damaged dehydration box that is used for matrimony vine processing.

Disclosure of Invention

Aiming at overcoming the defects that in the prior art, when the medlar is dried, the medlar is easy to be unevenly dried in a stacking way, and the medlar is easy to generate friction with the inner wall of a dewatering box to cause the cracking of the outer skin of the medlar in a rolling way, the invention provides the dewatering box for processing the medlar, which can separate and dry the medlar, and avoid the stacking and damage of the medlar.

In order to realize the purpose, the invention is realized by the following scheme: a dewatering box for processing medlar, comprising:

the drying machine is rotatably connected with the supporting barrel at the upper left side;

the inside of the supporting barrel is rotatably connected with the dewatering barrel;

the switch door is connected with the left rear side of the dewatering cylinder in a rotating way;

the power mechanism is arranged on the right side of the support barrel and on the dewatering barrel and used for driving the dewatering barrel to rotate, the power mechanism drives the dewatering barrel to rotate, and the dewatering barrel drives the Chinese wolfberry to rotate and dewater;

the separation mechanism is arranged on the right lower side of the support barrel and the dewatering barrel and used for separating the medlar and separating and dewatering the medlar;

the partition mechanism includes:

the right lower side of the supporting barrel is connected with a supporting arm;

the isolation barrel is connected to the left upper side of the supporting arm and used for limiting the wolfberry fruits, the isolation barrel is located inside the dewatering barrel and rotatably connected with the dewatering barrel, the lower side of the isolation barrel is in an open shape, and the isolation barrel is used for changing the falling height difference of the wolfberry fruits;

the right side of the isolation barrel is provided with a feeding component;

the inner wall of the dewatering cylinder is evenly connected with the partition plates for partitioning the medlar at intervals, and the inner sides of the partition plates are in contact with the outer wall of the isolation barrel to form at least two independent small spaces.

More preferably, the power mechanism comprises:

the right upper part of the supporting barrel is connected with the double-shaft motor;

the output shaft on the left side of the double-shaft motor is connected with the pinion;

the inner gear is connected with the right inner wall of the dewatering cylinder, and the pinion is meshed with the inner gear and used for driving the dewatering cylinder to rotate.

More preferably, the feeding assembly comprises:

the feeder hopper, isolation bucket right side are connected with the feeder hopper, and the feeder hopper comprises conical feed inlet and cylindrical inlet pipe, and cylindrical inlet pipe on the feeder hopper passes the isolation bucket and is located directly over the opening of isolation bucket downside.

More preferably, the feed hopper is inclined for guiding the medlars.

More preferably, the water-absorbing device further comprises an absorbing mechanism for absorbing water seeped from the medlar, and the absorbing mechanism comprises:

the rear side of the lower part in the supporting barrel is connected with a supporting frame;

an absorbing cylinder is rotationally connected to the supporting frame and is made of sponge, and the absorbing cylinder is in contact with the dewatering cylinder and is used for absorbing moisture and juice separated from the Chinese wolfberry in time.

More preferably, still including being used for carrying out automatic ration material loading's dosing mechanism to the matrimony vine, dosing mechanism includes:

the bottom of the feed hopper is connected with a fulcrum column;

the lower side of the fulcrum column is rotatably connected with the lever frame;

the left side and the right side of the lever frame are connected with the baffle in a sliding manner, and the baffle is connected with the feed hopper in a sliding manner;

the guide sleeve is connected with the right upper side of the support barrel;

the sliding frame is connected in the guide sleeve in a sliding manner, and the lower part of the sliding frame is connected with the middle part of the lever frame in a sliding manner;

the upper part of the sliding frame is sleeved with the first spring, and two ends of the first spring are respectively connected with the upper part of the sliding frame and the bottom of the guide sleeve;

the cam is connected with on the output shaft on biax motor right side, and the cam rotates and is used for extrudeing the carriage and up-moving, and the carriage reciprocates and drives the lever frame and swing, and the lever frame drives the baffle of the left and right sides and reciprocates in turn, and the baffle reciprocates in turn and carries on spacingly and the ration to the matrimony vine.

More preferably, the apparatus further comprises a separating means for squeezing out moisture in the absorption cylinder, the separating means comprising:

the left side and the right side of the bottom of the support frame are both connected with guide rods;

the lower parts of the guide rods are connected with the sliding blocks in a sliding manner;

the inner side of the sliding block is rotatably connected with a separating cylinder for extruding the absorption cylinder, and the separating cylinder is uniformly provided with leakage holes;

the lower part of the guide rod is sleeved with the second spring, two ends of the second spring are respectively connected with the bottom of the sliding block and the lower part of the guide rod, the absorption cylinder is in contact with the separation cylinder, the absorption cylinder gradually expands along with the gradual increase of the moisture absorbed in the absorption cylinder, and the separation cylinder extrudes the moisture in the absorption cylinder.

More preferably, the dewatering device further comprises an anti-sticking mechanism used for knocking the dewatering cylinder, and the anti-sticking mechanism comprises:

the rear side of the upper part in the support barrel is connected with a connecting block;

the front side of the connecting block is rotationally connected with a knocking frame for knocking the dewatering cylinder;

the left side of the rear part of the knocking frame is sleeved with a torsion spring;

the both ends of torsional spring are connected with knocking frame left rear side and connecting block left side respectively, and the dehydration section of thick bamboo left side is connected with the lug frame, and the dehydration section of thick bamboo rotates and drives the lug frame and rotate, and the lug frame drives and beats the continuous luffing motion of frame and strike the dehydration section of thick bamboo.

The invention has the following advantages: according to the invention, the medlar enters the isolation barrel and then enters the separation plate, the isolation barrel can limit the medlar, so that the movement range of the medlar is reduced, the medlar is prevented from being violently collided and rubbed with the isolation barrel when rotating, the medlar is prevented from being damaged when dehydrating, the medlar can be separated and dried under the action of the separation plate, excessive medlar is prevented from being accumulated together, the friction force between the medlar and the dehydration barrel is increased when the dehydration barrel rotates, and the outer skin of the medlar is prevented from being damaged, so that the condition of the medlar is prevented from being influenced; the dewatering cylinder is in contact with the absorption cylinder, and the absorption cylinder absorbs moisture of the medlar adhered to the dewatering cylinder, so that the medlar is prevented from being adhered due to the moisture, the dehydration of the medlar is not uniform, and the dehydration effect of the medlar is improved; the two baffle plates are driven to alternately move up and down through the swinging of the lever frame, so that the intermittent automatic quantitative feeding of the medlar can be realized, and the phenomenon that the medlar is too much between the baffle plates due to the fact that a large amount of medlar enters the falling cylinder at one time, and the dehydration effect of the medlar is influenced is avoided; under the squeezing action of the separation drum, the water absorbed in the absorption drum is squeezed out, so that the absorption drum can continuously absorb the water on the dewatering drum conveniently, and the absorption efficiency is improved; drive the boss frame through the dehydration section of thick bamboo rotation and rotate for the boss frame will strike the jack-up of a frame intermittent type formula, thereby make to strike the frame and be continuous strike the dehydration section of thick bamboo, shake the landing with the matrimony vine of adhesion on the dehydration section of thick bamboo and card, avoid the matrimony vine to glue on the dehydration section of thick bamboo, influence the dehydration effect of matrimony vine.

Drawings

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

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

Fig. 3 is a schematic perspective view of the power mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a first perspective view of the partition mechanism of the present invention.

Fig. 5 is a perspective view of a second perspective view of the partition mechanism of the present invention.

Fig. 6 is a schematic perspective view of the absorbing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the dosing mechanism of the present invention.

Fig. 8 is a first perspective view of the separating mechanism of the present invention.

Fig. 9 is a perspective view of a second perspective view of the separating mechanism of the present invention.

Fig. 10 is a schematic perspective view of the anti-sticking mechanism of the present invention.

Fig. 11 is an enlarged perspective view of the invention at a.

The parts are numbered as follows: 1. the dryer comprises a dryer, 2, a supporting barrel, 3, a dewatering barrel, 4, a switch door, 5, a power mechanism, 51, a double-shaft motor, 52, a pinion, 53, an internal gear, 6, a separation mechanism, 61, a supporting arm, 62, a separation barrel, 63, a feed hopper, 64, a separation plate, 7, an absorption mechanism, 71, a supporting frame, 72, an absorption barrel, 8, a quantitative mechanism, 81, a supporting point column, 82, a lever frame, 83, a baffle, 84, a sliding frame, 85, a guide sleeve, 86, a first spring, 87, a cam, 9, a separation mechanism, 91, a guide rod, 92, a sliding block, 93, a second spring, 94, a separation barrel, 10, an anti-sticking mechanism, 101, a connecting block, 102, a knocking frame, 103, a torsion spring, 104 and a lug frame.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

example 1

A dewatering box for processing medlar, which is shown in figures 1-5 and comprises a dryer 1, a supporting barrel 2, a dewatering barrel 3 and a switch door 4, the device comprises a power mechanism 5 and a separation mechanism 6, a support barrel 2 is hinged on the upper left side of a dryer 1, an exhaust hole is formed in the upper part of the support barrel 2, a dewatering barrel 3 is rotatably connected in the support barrel 2, an opening and closing door 4 is hinged on the rear left side of the dewatering barrel 3, the power mechanism 5 is arranged on the right side of the support barrel 2 and on the dewatering barrel 3, the separation mechanism 6 is arranged on the lower right side of the support barrel 2 and on the dewatering barrel 3, the separation mechanism 6 is used for separating medlar, the separation mechanism 6 comprises a support arm 61, an isolation barrel 62, a feeding assembly and a separation plate 64, the support arm 61 is welded on the lower right side of the support barrel 2, the isolation barrel 62 is fixedly connected on the upper left side of the support arm 61, the isolation barrel 62 is used for limiting medlar, the isolation barrel 62 is positioned in the dewatering barrel 3, the isolation barrel 62 is rotatably connected with the dewatering barrel 3, and the lower side of the isolation barrel 62 is open, keep apart 62 right sides of bucket and be equipped with the feeding subassembly, the even interval welding of 3 inner walls of dehydration section of thick bamboo has round division board 64, division board 64 is used for separating the matrimony vine, division board 64 inboard all with the contact of the 62 outer walls of isolation bucket, power unit 5 is including double-shaft motor 51, pinion 52 and internal gear 53, it has double-shaft motor 51 to support 2 upper right portions of bucket through the bolt rigid coupling, there is pinion 52 through the key-type connection on the left output shaft of double-shaft motor 51, 3 right sides of dehydration section of thick bamboo inboard connections have internal gear 53, pinion 52 and internal gear 53 mesh, the feeding subassembly is including feeder hopper 63, it is connected with feeder hopper 63 to keep apart 62 right sides of bucket, feeder hopper 63 comprises conical feed inlet and cylindrical inlet pipe, cylindrical inlet pipe on the feeder hopper 63 passes and keeps apart bucket 62 and is located directly over the opening of keeping apart 62 downside.

When the wolfberry fruit drying machine is used, the drying machine 1 and the double-shaft motor 51 are started, an output shaft on the left side of the double-shaft motor 51 drives the pinion 52 to rotate, the dewatering cylinder 3 is driven by the internal gear 53 to rotate, the dewatering cylinder 3 drives the partition plates 64 to rotate, then, wolfberry fruits are poured into the feed hopper 63, the wolfberry fruits can slide into the isolation barrel 62 through the feed hopper 63 due to the inclined arrangement of the feed hopper 63, the wolfberry fruits can enter the dewatering cylinder 3 and are positioned between the partition plates 64 due to the opening of the lower side of the isolation barrel 62, the partition plates 64 separate the wolfberry fruits, the drying machine 1 dries and dehydrates the wolfberry fruits in the dewatering cylinder 3, the dewatering cylinder 3 drives the partition plates 64 and the wolfberry fruits to rotate, so that the wolfberry fruits can be dried and dehydrated more uniformly, the dewatering effect is better, the wolfberry fruits can be separated and dried under the action of the partition plates 64, and the adhesion of the wolfberry fruits caused by the excessive accumulation of the wolfberry fruits together is avoided, thereby influencing the drying effect of the medlar, and under the limiting action of the isolation barrel 62, the accumulation of excessive medlar can be avoided, the friction force between the medlar and the dewatering barrel 3 can be increased when the dewatering barrel 3 rotates, thereby avoiding the excessive friction impact between the medlar and the dewatering barrel 3, further avoiding the damage of the outer skin of the medlar, further leading to the sugar analysis to adhere other medlar, further influencing the dewatering effect of the medlar, and influencing the final phase of the medlar, after the dewatering is finished, the drying machine 1 and the double-shaft motor 51 are closed, then the switch door 4 is manually opened, the support barrel 2 is lifted up, the support barrel 2 rotates along the hinge joint with the drying machine 1, the support barrel 2 drives the dewatering barrel 3 to rotate and lift up, thereby the medlar dehydrated in the dewatering barrel 3 is poured out, after the material is returned, the support barrel 2 is rotated and reset, the dewatering cylinder 3 is driven to rotate downwards for resetting, and then the switch door 4 is closed.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2 and 6, the device further comprises an absorption mechanism 7 for absorbing moisture seeped from the medlar, the absorption mechanism 7 comprises a support frame 71 and an absorption cylinder 72, the support frame 71 is welded on the rear side of the lower part in the support barrel 2, the absorption cylinder 72 is rotatably connected on the support frame 71, the absorption cylinder 72 is made of sponge, and the absorption cylinder 72 is in contact with the dewatering cylinder 3. When dewatering cylinder 3 drives the rotatory dehydration of matrimony vine, the moisture adhesion that oozes in the matrimony vine is on dewatering cylinder 3, if not handle in time, moisture then makes the matrimony vine adhesion easily to the matrimony vine that leads to the adhesion dewaters inhomogeneously, consequently, when dewatering cylinder 3 drives the rotatory dehydration of matrimony vine, absorbing cylinder 72 can in time absorb the moisture of adhesion on dewatering cylinder 3, avoids moisture to make the matrimony vine adhesion, guarantees the dry and comfortable degree of matrimony vine, thereby can further increase the dewatering effect of matrimony vine.

As shown in fig. 1, 2 and 7, the device further includes a quantifying mechanism 8, the quantifying mechanism 8 is used for automatically quantifying and feeding the medlar, the quantifying mechanism 8 includes a fulcrum column 81, a lever frame 82, a baffle 83, a sliding frame 84, a guide sleeve 85, a first spring 86 and a cam 87, the fulcrum column 81 is welded at the bottom of the feeding hopper 63, the lower side of the fulcrum column 81 is rotatably connected with the lever frame 82 through a pin shaft, the baffle 83 is slidably connected at both left and right sides of the lever frame 82, the two baffles 83 are slidably connected with the feeding hopper 63, the two baffles 83 divide the feeding hopper 63 into three areas, the baffle 83 alternately moves up and down to limit and quantify the medlar, the guide sleeve 85 is welded at the upper right side of the supporting barrel 2, the sliding frame 84 is connected in the guide sleeve 85, the lower portion of the sliding frame 84 is slidably connected with the middle portion of the lever frame 82, the first spring 86 is sleeved at the upper portion of the sliding frame 84, both ends of the first spring 86 are respectively connected with the upper portion of the sliding frame 84 and the bottom of the guide sleeve 85, the cam 87 is connected on the output shaft at the right side of the biaxial motor 51, and the cam 87 rotates to extrude the sliding frame 84 to move the sliding frame 84. The manual work is earlier poured the matrimony vine into in feeder hopper 63, baffle 83 on right side carries on spacingly to the matrimony vine, when biax motor 51 starts, the output shaft on double-axis motor 51 right side drives cam 87 and rotates, cam 87 intermittent type formula extrusion carriage 84 up-shifting, first spring 86 intermittent type is compressed, make carriage 84 continuous reciprocate, thereby drive the left and right sides of lever frame 82 and carry out the luffing motion, make two baffle 83 reciprocate in turn, baffle 83 on right side down-shifting, when left baffle 83 up-shifting, the inside matrimony vine on right side of feeder hopper 63 can partly slide to the feeder hopper 63 middle part, left baffle 83 is spacing to the matrimony vine in middle part, baffle 83 on right side up-shifting, when left baffle 83 down-shifting, subsequent matrimony vine is blocked to baffle 83 on right side, left baffle 83 no longer blocks the matrimony vine in the middle part of feeder hopper 63, make the matrimony vine to slide to the dehydration section of thick bamboo 3 left, so, alright-batch automatic ration material loading can be realized, avoid once only getting into a large amount of matrimony vine to the section of falling in the section of thick bamboo, lead to the matrimony vine excessively, thereby influence the dehydration effect of matrimony vine.

As shown in fig. 2, 8 and 9, the absorbing device further comprises a separating mechanism 9, the separating mechanism 9 is used for extruding moisture in the absorbing cylinder 72, the separating mechanism 9 comprises a guide rod 91, a slider 92, a second spring 93 and a separating cylinder 94, the guide rod 91 is welded on the left side and the right side of the bottom of the supporting frame 71, the slider 92 is connected on the lower portion of each guide rod 91 in a sliding manner, the separating cylinder 94 is connected on the inner side of each slider 92 in a rotating manner, the separating cylinder 94 is used for extruding the absorbing cylinder 72, leak holes are uniformly formed in the separating cylinder 94, the second spring 93 is sleeved on the lower portion of each guide rod 91, and two ends of the second spring 93 are respectively connected with the bottom of the slider 92 and the lower portion of the guide rod 91. Along with the absorptive moisture of absorption section of thick bamboo 72 is more and more, absorption section of thick bamboo 72 expands gradually and the contact of separator 94, under the effect of second spring 93, it rotates to drive separator 94 along with the rotation of absorption section of thick bamboo 72, make separator 94 extrude the moisture in the absorption section of thick bamboo 72, dewater absorption section of thick bamboo 72, because evenly open on the separator 94 has the small opening, consequently, separator 94 is when extrusion absorption section of thick bamboo 72, moisture in the absorption section of thick bamboo 72 can flow through the small opening on the separator 94, the extrusion effect is better, so, make things convenient for absorption section of thick bamboo 72 to continue to absorb the moisture on the dehydration section of thick bamboo 3, improve absorption efficiency.

As shown in fig. 2, fig. 10 and fig. 11, further comprising an anti-sticking mechanism 10, the anti-sticking mechanism 10 is used for knocking the dewatering cylinder 3, the anti-sticking mechanism 10 comprises a connecting block 101, a knocking frame 102, a torsion spring 103 and a lug frame 104, the connecting block 101 is welded on the rear side of the upper part in the supporting cylinder 2, the knocking frame 102 is hinged on the front side of the connecting block 101, the knocking frame 102 is used for knocking the dewatering cylinder 3, the torsion spring 103 is sleeved on the left side of the rear part of the knocking frame 102, two ends of the torsion spring 103 are respectively connected with the left rear side of the knocking frame 102 and the left side of the connecting block 101, and the lug frame 104 is fixedly connected on the left side of the dewatering cylinder 3. When the dewatering cylinder 3 is rotated, the lug frame 104 is driven to rotate, the lug frame 104 is used for intermittently jacking the knocking frame 102, lugs on the lug frame 104 rotate to be in contact with the knocking frame 102, the knocking frame 102 jacks up, the torsion spring 103 deforms, when the lugs on the lug frame 104 rotate to be separated from the knocking frame 102, the torsion spring 103 resets, the knocking frame 102 is driven to rotate downwards to reset, the operation is repeated, the knocking rod can continuously knock the dewatering cylinder 3, the adhesion between the dewatering cylinder 3 and the medlar clamped on the dewatering cylinder 3 can be shaken off, the medlar is prevented from being adhered to the dewatering cylinder 3, the dewatering cylinder 3 is blocked, the flowability of hot air is influenced, and the dewatering effect of the medlar is influenced.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (4)

1. The utility model provides a dewatering box for matrimony vine processing which characterized in that, including:

the dryer comprises a dryer (1) and a support barrel (2), wherein the support barrel (2) is rotatably connected to the upper left side of the dryer (1);

the inside of the supporting barrel (2) is rotatably connected with the dewatering barrel (3);

the switch door (4), the left back side of the dewatering cylinder (3) is connected with the switch door (4) in a rotating way;

the power mechanism (5) is arranged on the right side of the support barrel (2) and the dewatering cylinder (3) and used for driving the dewatering cylinder (3) to rotate, the power mechanism (5) drives the dewatering cylinder (3) to rotate, and the dewatering cylinder (3) drives the Chinese wolfberry to rotate and dewater;

the separating mechanism (6) is arranged on the right lower side of the supporting barrel (2) and the dewatering barrel (3) and used for separating the medlar, and the medlar is separated and dewatered by the separating mechanism (6);

the partition mechanism (6) includes:

the supporting arm (61) is connected with the right lower side of the supporting barrel (2);

the upper left side of the supporting arm (61) is connected with an isolation barrel (62) used for limiting the wolfberry, the isolation barrel (62) is located inside the dewatering cylinder (3), the isolation barrel (62) is rotatably connected with the dewatering cylinder (3), the lower side of the isolation barrel (62) is in an open shape, and the isolation barrel (62) is used for changing the falling height difference of the wolfberry;

the feeding component is arranged on the right side of the isolation barrel (62);

the inner wall of the dewatering cylinder (3) is uniformly connected with partition plates (64) at intervals for partitioning the medlar, and the inner sides of the partition plates (64) are in contact with the outer wall of the isolation barrel (62) to form at least two independent small spaces;

the power mechanism (5) comprises:

the right upper part of the supporting barrel (2) is connected with the double-shaft motor (51);

a pinion (52), wherein the pinion (52) is connected to the output shaft on the left side of the double-shaft motor (51);

the inner gear (53) is connected with the inner wall of the right side of the dewatering cylinder (3), and the pinion (52) is meshed with the inner gear (53) and used for driving the dewatering cylinder (3) to rotate;

the feeding component comprises:

the right side of the isolation barrel (62) is connected with the feed hopper (63), the feed hopper (63) consists of a conical feed port and a cylindrical feed pipe, and the cylindrical feed pipe on the feed hopper (63) penetrates through the isolation barrel (62) and is positioned right above the opening on the lower side of the isolation barrel (62);

the feed hopper (63) is obliquely arranged and used for guiding the medlar;

still including being used for carrying out quantitative automatic feeding's dosing mechanism (8) to the matrimony vine, dosing mechanism (8) including:

the bottom of the feed hopper (63) is connected with a fulcrum column (81);

the lower side of the fulcrum column (81) is rotatably connected with the lever frame (82);

the left side and the right side of the lever frame (82) are both connected with the baffle (83) in a sliding manner, and the baffle (83) is both connected with the feed hopper (63) in a sliding manner;

the guide sleeve (85) is connected with the right upper side of the support barrel (2);

the sliding frame (84) is connected with the guide sleeve (85) in an inner sliding manner, and the lower part of the sliding frame (84) is connected with the middle part of the lever frame (82) in a sliding manner;

the upper part of the sliding frame (84) is sleeved with the first spring (86), and two ends of the first spring (86) are respectively connected with the upper part of the sliding frame (84) and the bottom of the guide sleeve (85);

the wolfberry fruit quantitative filling machine comprises a cam (87), wherein the cam (87) is connected to an output shaft on the right side of a double-shaft motor (51), the cam (87) rotates to extrude a sliding frame (84) to move upwards, the sliding frame (84) moves up and down to drive a lever frame (82) to swing, the lever frame (82) drives baffle plates (83) on the left side and the right side to alternately move up and down, and the baffle plates (83) alternately move up and down to limit and quantify the wolfberry fruit.

2. The dewatering box for processing Chinese wolfberry according to claim 1, further comprising a absorbing mechanism (7) for absorbing moisture seeping from the Chinese wolfberry, wherein the absorbing mechanism (7) comprises:

the rear side of the lower part in the supporting barrel (2) is connected with the supporting frame (71);

an absorbing cylinder (72) is rotatably connected to the supporting frame (71), the absorbing cylinder (72) is made of sponge, and the absorbing cylinder (72) is in contact with the dewatering cylinder (3) and is used for absorbing moisture and juice removed from the Chinese wolfberry in time.

3. The dewatering box for processing Lycium barbarum according to claim 2, further comprising a separating mechanism (9) for squeezing out moisture in the absorbing drum (72), wherein the separating mechanism (9) comprises:

the left side and the right side of the bottom of the support frame (71) are connected with the guide rods (91);

the lower parts of the guide rods (91) are all connected with the sliding blocks (92) in a sliding manner;

the inner side of the sliding block (92) is rotatably connected with a separating cylinder (94) used for extruding the absorbing cylinder (72), and leakage holes are uniformly formed in the separating cylinder (94);

the lower part of the guide rod (91) is sleeved with the second spring (93), two ends of the second spring (93) are respectively connected with the bottom of the sliding block (92) and the lower part of the guide rod (91), the absorption cylinder (72) is in contact with the separation cylinder (94), the absorption cylinder (72) gradually expands along with the gradual increase of moisture absorbed in the absorption cylinder (72), and the separation cylinder (94) extrudes the moisture in the absorption cylinder (72).

4. The dewatering box for wolfberry processing according to claim 1, further comprising an anti-sticking mechanism (10) for knocking the dewatering drum (3), wherein the anti-sticking mechanism (10) comprises:

the rear side of the upper part in the supporting barrel (2) is connected with the connecting block (101);

the front side of the connecting block (101) is rotatably connected with a knocking frame (102) used for knocking the dewatering cylinder (3);

the torsion spring (103) is sleeved on the left side of the rear part of the knocking frame (102);

the dewatering device comprises a convex block frame (104), wherein two ends of a torsion spring (103) are respectively connected with the left rear side of a knocking frame (102) and the left side of a connecting block (101), the left side of the dewatering cylinder (3) is connected with the convex block frame (104), the dewatering cylinder (3) rotates to drive the convex block frame (104) to rotate, and the convex block frame (104) drives the knocking frame (102) to continuously swing up and down to knock the dewatering cylinder (3).

Images