阅读说明：本技术 一种多功能甘蔗榨汁机 (Multifunctional sugarcane juicer ) 是由 刘嘉裕 于 2021-08-03 设计创作，主要内容包括：一种多功能甘蔗榨汁机,包括外壳机构、削皮机构、切段榨汁机构和放杯机构；所述削皮机构转动安装在外壳机构上,实现了将甘蔗送入装置并对其进行削皮的功能；所述切段榨汁机构包括切段机构和榨汁机构；所述切段机构活动安装在外壳机构上,通过两个带有齿条的切段刀片与齿轮啮合实现了对甘蔗的切段处理；所述榨汁机构转动安装在外壳机构上；通过两个压榨辊和榨汁板将甘蔗段进行榨汁,使榨汁更加充分,提高榨汁率；所述放杯机构固定安装在外壳机构的右端面,通过齿轮与齿条的啮合运动实现了取榨汁杯的自动化。(A multifunctional sugarcane juicer comprises a shell mechanism, a peeling mechanism, a segment juicing mechanism and a cup placing mechanism; the peeling mechanism is rotatably arranged on the shell mechanism, so that the function of feeding the sugarcane into the device and peeling the sugarcane is realized; the cutting and juicing mechanism comprises a cutting mechanism and a juicing mechanism; the cutting mechanism is movably arranged on the shell mechanism, and the cutting processing of the sugarcane is realized through the meshing of two cutting blades with racks and the gear; the juicing mechanism is rotatably arranged on the shell mechanism; the sugarcane sections are squeezed by the two squeezing rollers and the squeezing plates, so that the juice is more fully squeezed, and the juice squeezing rate is improved; the cup placing mechanism is fixedly arranged on the right end face of the shell mechanism, and the automation of taking and squeezing the juice cup is realized through the meshing motion of the gear and the rack.)

1. A multifunctional sugarcane juicer is characterized by comprising a shell mechanism (1), a peeling mechanism (2), a cutting and juicing mechanism (3) and a cup placing mechanism (4); the peeling mechanism (2) is rotatably arranged on the shell mechanism (1), so that the function of feeding the sugarcane into the device and peeling the sugarcane is realized; the cutting and juicing mechanism (3) comprises a cutting mechanism and a juicing mechanism; the cutting mechanism is movably arranged on the shell mechanism (1), and the cutting treatment of the sugarcane is realized through the meshing of two cutting blades with racks and gear wheels; the juicing mechanism is rotatably arranged on the shell mechanism (1); juicing the sugar cane segments by two squeezing rollers and a juicing plate (319); the cup placing mechanism (4) is fixedly arranged on the right end face of the shell mechanism (1), and the function of taking out the juicing cup (121) is realized through the meshing motion of the gear and the rack; the peeling mechanism comprises a motor A (201), a half gear (202), a gear set A (203), a belt A (204), a gear set B (205), a gear set C (206), a gear set D (207), a transmission wheel (208), a feeding rotating set (209), a gear set E (210), a gear set F (211), a cylindrical gear A (212), a cylindrical gear B (213) and a gear set G (214); the motor A (201) is fixedly arranged on the motor fixing frame A (103); a half gear (202), a gear set A (203), a gear set B (205), a gear set C (206), a gear set D (207), a transmission wheel (208), a feeding rotating set (209), a gear set E (210), a gear set F (211), a cylindrical gear A (212), a cylindrical gear B (213) and a gear set G (214) are rotatably arranged on a gear fixing frame A (102); a rotating shaft at the rear end of the motor A (201) is fixedly connected with the half gear (202); the belt A (204) covers a driving wheel (208) at the rear end of the gear set A (203) and a driving wheel (208) at the rear end of the gear set B (205); the juice squeezing mechanism comprises a belt F (310), a gear set J (311), a belt G (312), a conveying shaft A (313), a conveying shaft B (314), a conveying belt (315), a gear set K (316), a cylindrical gear E (317), a squeezing roller A (325) and a squeezing roller B (326); the gear set J (311) is rotatably arranged on the gear fixing frame D (111); the belt F (310) covers the driving wheel (208) at the rear end of the gear set H (302) and the driving wheel (208) at the front end of the gear set J (311); the transmission shaft A (313) and the transmission shaft B (314) are rotatably arranged in circular holes at two sides of the transmission groove (118); a belt G (312) covers a driving wheel (208) in the middle of the gear set J (311) and the driving wheel (208) at the right end of the transmission shaft A (313); the conveyor belt (315) covers the gear set J (311) and the conveying shaft B (314); the press roll A (325) and the press roll B (326) are rotatably arranged in circular holes at two sides of the juice extracting box (114); the gear train K (316) and the cylindrical gear E (317) are fixedly connected with a press roll A (325) and a press roll B (326), respectively.

2. The multifunctional sugarcane juicer according to claim 1, wherein the housing mechanism (1) comprises a support plate (101), a gear fixing frame A (102), a motor fixing frame A (103), a spring fixing frame (104), a rack fixing frame A (105), a slide bar A (106), a gear fixing frame B (107), a rack fixing frame B (108), a gear fixing frame C (109), a peeling plate A (110), a gear fixing frame D (111), a motor fixing frame B (112), a slide bar B (113), a juicing box (114), a peeling plate B (115), a bark containing box (116), a sugarcane box (117), a conveying groove (118), a rack fixing frame C (119), a support plate (120) and a juicing cup (121);

the gear fixing frame A (102) is fixedly connected with the upper end face of the supporting plate (101); the motor fixing frame A (103) and the spring fixing frame (104) are fixedly connected with the front end face of the gear fixing frame A (102); a rack fixing frame A (105), a gear fixing frame B (107), a rack fixing frame B (108), a gear fixing frame C (109), a peeling plate A (110), a gear fixing frame D (111), a juicing box (114) and a peeling plate B (115) are fixedly arranged on the upper end face of the supporting plate (101); the left end of the sliding rod A (106) is fixedly connected with the peeling plate B (115), and the right end of the sliding rod A is fixedly connected with the peeling plate A (110); the motor fixing frame B (112) is fixedly connected with the right end face of the gear fixing frame D (111); the left end of the sliding rod B (113) is fixedly connected with the peeling plate A (110), and the right end is fixedly connected with the juicing box (114); the bark containing box (116) and the sugarcane box (117) are fixedly connected with the lower end surface of the supporting plate (101); the upper end of the supporting plate (101) is provided with a conveying groove (118); the rack fixing frame C (119) and the support plate (120) are fixedly connected with the right end face of the support plate (101); the juice extracting cup (121) is placed on the support plate (120).

3. The multifunctional sugarcane juicer of claim 1, wherein the peeling mechanism (2) further comprises a cam moving block A (215), a spring A (216), a rack A (217), a peeling blade (218), a belt B (219), a belt C (220) and a belt D (221);

the cam movable block A (215) is slidably arranged in a chute on the gear fixing frame A (102); one end of the spring A (216) is fixedly connected with the cam movable block A (215), and the other end of the spring A is fixedly connected with the spring fixing frame (104); the rack A (217) is slidably arranged on the rack fixing frame A (105); the peeling blade (218) is slidably arranged on the sliding rod A (106) and is rotatably arranged in a groove at the right end of the rack A (217); the belt B (219) covers a driving wheel (208) at the rear end of the gear set E (210) and a driving wheel (208) at the rear end of the gear set F (211); the belt C (220) coats a driving wheel (208) at the front end of the gear set C (206) and a driving wheel (208) at the front end of the gear set D (207); the belt D (221) wraps a driving wheel (208) and a driving wheel (208) at the rear end of the gear set D (207).

4. The multifunctional sugarcane juicer of claim 1, wherein the cutting mechanism comprises a motor B (301), a gear set H (302), a belt E (303), a cylindrical gear C (304), a gear set I (305), a cam movable block B (306), a cylindrical gear D (307), a cutting blade A (308), a cutting blade B (309), a gear set L (327) and a spring B (328);

the motor B (301) is fixedly arranged on the motor fixing frame B (112); the gear set H (302) and the gear set L (327) are rotatably arranged on the gear fixing frame C (109); the left end rotating shaft of the motor B (301) is fixedly connected with the right end of the rotating shaft of the gear set H (302); the belt E (303) covers a transmission wheel (208) in the middle of the gear set H (302) and a transmission wheel (208) at the right end of the gear set L (327); the cam movable block B (306) is slidably arranged on the gear fixing frame C (109); the cylindrical gear C (304) and the gear set I (305) are rotatably arranged on the gear fixing frame B (107); a cylindrical gear D (307) is rotatably arranged on a shaft of a cam movable block B (306); the cutting blade A (308) and the cutting blade B (309) are respectively installed in the grooves of the gear fixing frame B (107) and the rack fixing frame B (108) in a sliding manner; the upper end of the spring B (328) is fixedly connected with the cam movable block B (306), and the lower end is fixedly connected with the gear fixing frame C (109).

5. The multifunctional sugarcane juicer of claim 1, wherein the juicing mechanism further comprises an electric cylinder A (318), a juicing plate (319), a clamp fixing plate (320), an electric cylinder B (321), an electric cylinder fixing frame (322), a rack B (323) and a clamp group (324);

the electric cylinder A (318) is fixedly arranged on an electric cylinder fixing frame (322) on the left side of the juicing box (114); the clamp fixing plate (320) is slidably arranged on the sliding rod B (113); the juicing plate (319) is fixedly connected with the clip fixing plate (320) through a connecting rod; the front end telescopic rod of the electric cylinder A (318) is fixedly connected with the connecting rod between the juicing plate (319) and the clamp fixing plate (320); the electric cylinder fixing frame (322) is fixedly connected with the front end of the clamp fixing plate (320); the electric cylinder B (321) is fixedly arranged in the electric cylinder fixing frame (322); the rack B (323) is slidably arranged on the sliding chute of the clamp fixing plate (320); the telescopic sleeve rod at the lower end of the electric cylinder B (321) is fixedly connected with the upper end of the rack B (323); the clip set (324) is rotatably mounted to the clip securing plate (320).

6. The multifunctional sugarcane juicer according to claim 1, wherein the cup placing mechanism (4) comprises a chute frame (401), an electric cylinder C (402), a rack C (403), a cylindrical gear F (404), a cup moving arc plate (405) and a cup pushing plate (406);

the chute frame (401) is fixedly arranged on the right end face of the supporting plate (101); the electric cylinder C (402) is fixedly arranged in the cylinder groove at the lower end of the sliding groove frame (401); the rack C (403) is slidably mounted on the rack fixing frame C (119); a telescopic sleeve rod at the front end of the electric cylinder C (402) is fixedly connected with the rack C (403); the cup moving arc plate (405) is rotatably arranged in a circular hole of the sliding groove frame (401); the cylindrical gear F (404) is fixedly connected with the lower end of the cup moving arc plate (405); the cup pushing plate (406) is fixedly connected with the front end face of the rack C (403).

Technical Field

The invention relates to the field of cane juicers, in particular to a multifunctional cane juicer.

Background

The sugarcane is high in nutritive value, is a pure natural green drink, is deeply loved by consumers, and gradually increases along with the improvement of economic conditions and the demand of people on the sugarcane. At present, manual juicing is time-consuming and labor-consuming, and nutrient components of sugarcane are easily damaged; and the existing cane crusher is generally formed by one-time pressing by a group of pressing rollers, the pressing rate is low, and the function is single. Therefore, a multifunctional sugarcane juicer needs to be invented to solve the technical problems.

Disclosure of Invention

Aiming at the problems, the invention provides the multifunctional sugarcane juicer which can select the sugarcane to be cut into sections for direct eating or to be juiced by a motor driving device, thereby providing multiple choices for the sugarcane, and expanding the application range of the equipment; the squeezing roller and the squeezing plate are respectively driven by a motor and an electric cylinder to enable the squeezing to be more sufficient; the electric cylinder drives the gear and the rack to realize automatic taking out of the juicing cup, and compared with manual cup taking, the juicing cup is time-saving and labor-saving.

The technical scheme adopted by the invention is as follows: a multifunctional sugarcane juicer comprises a shell mechanism, a peeling mechanism, a segment juicing mechanism and a cup placing mechanism; the peeling mechanism is rotatably arranged on the shell mechanism, so that the function of feeding the sugarcane into the device and peeling the sugarcane is realized; the cutting and juicing mechanism comprises a cutting mechanism and a juicing mechanism; the cutting mechanism is movably arranged on the shell mechanism, and the cutting processing of the sugarcane is realized through the meshing of two cutting blades with racks and the gear; the juicing mechanism is rotatably arranged on the shell mechanism; juicing the sugarcane sections by two squeezing rollers and a juicing plate; the cup placing mechanism is fixedly arranged on the right end face of the shell mechanism, and the function of taking out the juicing cup is realized through the meshing motion of the gear and the rack.

Further, the shell mechanism comprises a supporting plate, a gear fixing frame A, a motor fixing frame A, a spring fixing frame, a rack fixing frame A, a slide bar A, a gear fixing frame B, a rack fixing frame B, a gear fixing frame C, a peeling plate A, a gear fixing frame D, a motor fixing frame B, a slide bar B, a juicing box, a peeling plate B, a peel containing box, a sugarcane box, a conveying groove, a rack fixing frame C, a supporting plate and a juicing cup; the gear fixing frame A is fixedly connected with the upper end face of the supporting plate; the motor fixing frame A and the spring fixing frame are fixedly connected with the front end face of the gear fixing frame A; the rack fixing frame A, the gear fixing frame B, the rack fixing frame B, the gear fixing frame C, the peeling plate A, the gear fixing frame D, the juicing box and the peeling plate B are fixedly arranged on the upper end face of the supporting plate; the left end of the sliding rod A is fixedly connected with the peeling plate B, and the right end of the sliding rod A is fixedly connected with the peeling plate A; the motor fixing frame B is fixedly connected with the right end face of the gear fixing frame D; the left end of the sliding rod B is fixedly connected with the peeling plate A, and the right end of the sliding rod B is fixedly connected with the juicing box; the leather containing box and the sugarcane box are fixedly connected with the lower end face of the supporting plate; the upper end of the supporting plate is provided with a conveying groove; the rack fixing frame C and the support plate are fixedly connected with the right end face of the support plate; the juice extracting cup is placed on the support plate.

Further, the peeling mechanism comprises a motor A, a half gear, a gear set A, a belt A, a gear set B, a gear set C, a gear set D, a transmission wheel, a feeding rotating set, a gear set E, a gear set F, a cylindrical gear A, a cylindrical gear B, a gear set G, a cam movable block A, a spring A, a rack A, a peeling blade, a belt B, a belt C and a belt D; the motor A is fixedly arranged on the motor fixing frame A; the half gear, the gear set A, the gear set B, the gear set C, the gear set D, the transmission wheel, the feeding rotating group, the gear set E, the gear set F, the cylindrical gear A, the cylindrical gear B and the gear set G are rotatably arranged on the gear fixing frame A; a rotating shaft at the rear end of the motor A is fixedly connected with the half gear; the belt A wraps a driving wheel at the rear end of the gear set A and a driving wheel at the rear end of the gear set B; the cam movable block A is slidably arranged in a chute on the gear fixing frame A; one end of the spring A is fixedly connected with the cam movable block A, and the other end of the spring A is fixedly connected with the spring fixing frame; the rack A is slidably arranged on the rack fixing frame A; the peeling blade is slidably arranged on the sliding rod A and rotatably arranged in a groove at the right end of the rack A; the belt B wraps a driving wheel at the rear end of the gear set E and a driving wheel at the rear end of the gear set F; the belt C wraps a driving wheel at the front end of the gear set C and a driving wheel at the front end of the gear set D; the belt D wraps the driving wheel and the driving wheel at the rear end of the gear set D.

Further, the cutting mechanism comprises a motor B, a gear set H, a belt E, a cylindrical gear C, a gear set I, a cam movable block B, a cylindrical gear D, a cutting blade A, a cutting blade B, a gear set L and a spring B; the motor B is fixedly arranged on the motor fixing frame B; the gear set H and the gear set L are rotatably arranged on the gear fixing frame C; the left end rotating shaft of the motor B is fixedly connected with the right end of the rotating shaft of the gear set H; a belt E coats a driving wheel in the middle of the gear set H and a driving wheel at the right end of the gear set L; the cam movable block B is slidably arranged on the gear fixing frame C; the cylindrical gear C and the gear set I are rotatably arranged on the gear fixing frame B; the cylindrical gear D is rotatably arranged on a shaft of the cam movable block B; the cutting blade A and the cutting blade B are respectively arranged in the grooves of the gear fixing frame B and the rack fixing frame B in a sliding manner; the upper end of the spring B is fixedly connected with the cam movable block B, and the lower end of the spring B is fixedly connected with the gear fixing frame C.

Further, the juicing mechanism comprises a belt F, a gear group J, a belt G, a conveying shaft A, a conveying shaft B, a conveying belt, a gear group K, a cylindrical gear E, an electric cylinder A, a juicing plate, a clamp fixing plate, an electric cylinder B, an electric cylinder fixing frame, a rack B, a clamp group, a squeezing roller A and a squeezing roller B; the gear set J is rotatably arranged on the gear fixing frame D; the belt F wraps the driving wheel at the rear end of the gear set H and the driving wheel at the front end of the gear set J; the conveying shaft A and the conveying shaft B are rotatably arranged in circular holes at two sides of the conveying groove; a belt G wraps a driving wheel in the middle of the gear set J and a driving wheel at the right end of the transmission shaft A; the conveying belt covers the gear set J and the conveying shaft B; the squeezing roller A and the squeezing roller B are rotatably arranged in circular holes at two sides of the juicing box; the gear set K and the cylindrical gear E are fixedly connected with the squeezing roller A and the squeezing roller B respectively; the electric cylinder A is fixedly arranged on an electric cylinder fixing frame on the left side of the juicing box; the clamp fixing plate is slidably mounted on the sliding rod B; the juicing plate is fixedly connected with the clip fixing plate through a connecting rod; the front end telescopic rod of the electric cylinder A is fixedly connected with the connecting rod between the juice squeezing plate and the clamp fixing plate; the electric cylinder fixing frame is fixedly connected with the front end of the clamp fixing plate; the electric cylinder B is fixedly arranged in the electric cylinder fixing frame; the rack B is slidably arranged on the chute of the clamp fixing plate; the telescopic sleeve rod at the lower end of the electric cylinder B is fixedly connected with the upper end of the rack B; the clamp group is rotatably arranged on the clamp fixing plate.

Further, the cup placing mechanism comprises a sliding groove frame, an electric cylinder C, a rack C, a cylindrical gear F, a cup moving arc plate and a cup pushing plate; the chute frame is fixedly arranged on the right end face of the supporting plate; the electric cylinder C is fixedly arranged in the electric cylinder groove at the lower end of the sliding groove frame; the rack C is slidably arranged on the rack fixing frame C; a telescopic sleeve rod at the front end of the electric cylinder C is fixedly connected with the rack C; the cup moving arc plate is rotatably arranged in the circular hole of the chute frame; the cylindrical gear F is fixedly connected with the lower end of the cup moving arc plate; the cup pushing plate is fixedly connected with the front end face of the rack C.

Due to the adoption of the technical scheme, the invention has the following advantages:

(1) the sugarcane is driven by the motor to select cutting into pieces to be directly eaten or juicing, so that convenience is brought to a user using the device, and various choices are provided for the user;

(2) according to the invention, the squeezing roller and the squeezing plate are respectively driven by the motor and the electric cylinder, so that the juice is squeezed more fully, the raw material for squeezing the juice is saved, and the juice squeezing rate is improved;

(3) the automatic juice extracting cup realizes automatic juice extracting by driving the gear and the rack through the electric cylinder, and is time-saving and labor-saving compared with manual juice extracting.

Drawings

Fig. 1-3 are schematic diagrams of the overall structure of the present invention.

Fig. 4-6 are schematic structural views of the housing mechanism of the present invention.

Fig. 7-8 are schematic views of the peeling mechanism of the present invention.

FIGS. 9-12 are schematic views of the segmented juicing mechanism of the invention.

FIG. 13 is a schematic structural diagram of the cup placing mechanism of the present invention.

Reference numerals: 1-a housing mechanism; 2-peeling mechanism; 3-a segment cutting and juicing mechanism; 4-a cup placing mechanism; 101-a support plate; 102-gear holder a; 103-motor fixing frame A; 104-spring fixing frame; 105-rack mount a; 106-slide bar A; 107-gear holder B; 108-rack holder B; 109-gear holder C; 110-peeling board a; 111-gear holder D; 112-motor fixing frame B; 113-slide bar B; 114-a juice box; 115-peeling board B; 116-leather goods container; 117-sugarcane box; 118-a transfer slot; 119-rack fixing frame C; 120-support plate; 121-a juice extracting cup; 201-motor a; 202-half gear; 203-gear set a; 204-Belt A; 205-gear set B; 206-gear set C; 207-gear set D; 208-a transmission wheel; 209-feeding and grouping; 210-gear set E; 211-gear set F; 212-cylindrical gear A; 213-cylindrical gear B; 214-gear set G; 215-cam active mass a; 216-spring a; 217-rack a; 218-peeling blade; 219-Belt B; 220-belt C; 221-Belt D; 301-motor B; 302-gear set H; 303-belt E; 304-cylindrical gear C; 305-gear set I; 306-cam moving block B; 307-cylindrical gear D; 308-a cutting blade A; 309-cutting blade B; 310-belt F; 311-gear set J; 312-belt G; 313-transport shaft a; 314-transport shaft B; 315-a conveyor belt; 316-gear set K; 317-cylindrical gear E; 318-electric cylinder A; 319-juicing plate; 320-clamp fixing plate; 321-electric cylinder B; 322-electric cylinder fixing frame; 323-rack B; 324-clip group; 325-press roll A; 326-press roll B; 327-gear set L; 328-spring B; 401-a chute frame; 402-electric cylinder C; 403-rack C; 404-cylindrical gear F; 405-moving a cup arc plate; 406-cup pusher plate.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Embodiment, as shown in fig. 1-13, a multifunctional sugarcane juicer comprises a shell mechanism 1, a peeling mechanism 2, a segment juicing mechanism 3 and a cup placing mechanism 4; the peeling mechanism 2 is rotatably arranged on the shell mechanism 1, so that the function of feeding the sugarcane into the device and peeling the sugarcane is realized; the cutting and juicing mechanism 3 comprises a cutting mechanism and a juicing mechanism; the cutting mechanism is movably arranged on the shell mechanism 1, and the cutting treatment of the sugarcane is realized by meshing two cutting blades with racks and a gear; the juicing mechanism is rotatably arranged on the shell mechanism 1; the sugar cane segments are juiced by two squeezing rollers and a juicing plate 319; the cup placing mechanism 4 is fixedly arranged on the right end face of the shell mechanism 1, and the function of taking out the juice extracting cup 121 is achieved through the meshing movement of the gear and the rack.

In an optional implementation manner of the embodiment of the present invention, the housing mechanism 1 includes a supporting plate 101, a gear fixing frame a102, a motor fixing frame a103, a spring fixing frame 104, a rack fixing frame a105, a sliding rod a106, a gear fixing frame B107, a rack fixing frame B108, a gear fixing frame C109, a peeling plate a110, a gear fixing frame D111, a motor fixing frame B112, a sliding rod B113, a juicing box 114, a peeling plate B115, a peel containing box 116, a cane box 117, a conveying trough 118, a rack fixing frame C119, a supporting plate 120, and a juicing cup 121; the gear fixing frame A102 is fixedly connected with the upper end face of the supporting plate 101; the motor fixing frame A103 and the spring fixing frame 104 are fixedly connected with the front end face of the gear fixing frame A102; a rack fixing frame A105, a gear fixing frame B107, a rack fixing frame B108, a gear fixing frame C109, a peeling plate A110, a gear fixing frame D111, a juicing box 114 and a peeling plate B115 are fixedly arranged on the upper end face of the supporting plate 101; the left end of the sliding rod A106 is fixedly connected with the peeling plate B115, and the right end of the sliding rod A106 is fixedly connected with the peeling plate A110; the motor fixing frame B112 is fixedly connected with the right end face of the gear fixing frame D111; the left end of the sliding rod B113 is fixedly connected with the peeling plate A110, and the right end is fixedly connected with the juicing box 114; the bark containing box 116 and the sugarcane box 117 are fixedly connected with the lower end surface of the supporting plate 101; wherein the leather containing box 116 and the sugarcane box 117 are made of alloy steel; the upper end of the supporting plate 101 is provided with a conveying groove 118; the rack fixing frame C119 and the support plate 120 are fixedly connected with the right end face of the support plate 101; the juice extracting cup 121 is placed on the strip 120.

In an optional implementation manner of the embodiment of the invention, the peeling mechanism 2 comprises a motor A201, a half gear 202, a gear set A203, a belt A204, a gear set B205, a gear set C206, a gear set D207, a transmission wheel 208, a feeding rotary set 209, a gear set E210, a gear set F211, a cylindrical gear A212, a cylindrical gear B213, a gear set G214, a cam movable block A215, a spring A216, a rack A217, a peeling blade 218, a belt B219, a belt C220 and a belt D221; the motor A201 is fixedly arranged on the motor fixing frame A103; a half gear 202, a gear set A203, a gear set B205, a gear set C206, a gear set D207, a transmission wheel 208, a feeding rotating set 209, a gear set E210, a gear set F211, a cylindrical gear A212, a cylindrical gear B213 and a gear set G214 are rotatably arranged on the gear fixing frame A102; a rotating shaft at the rear end of the motor A201 is fixedly connected with the half gear 202; wherein motor a201 is an ac motor; the belt A204 wraps the driving wheel 208 at the rear end of the gear set A203 and the driving wheel 208 at the rear end of the gear set B205; the cam movable block A215 is slidably arranged in a chute on the gear fixing frame A102; one end of the spring A216 is fixedly connected with the cam movable block A215, and the other end of the spring A is fixedly connected with the spring fixing frame 104; the rack A217 is slidably arranged on the rack fixing frame A105; the peeling blade 218 is slidably mounted on the sliding rod A106 and rotatably mounted in a groove at the right end of the rack A217; the belt B219 covers the driving wheel 208 at the rear end of the gear set E210 and the driving wheel 208 at the rear end of the gear set F211; the belt C220 wraps the driving wheel 208 at the front end of the gear set C206 and the driving wheel 208 at the front end of the gear set D207; the belt D221 covers the driving wheel 208 and the driving wheel 208 at the rear end of the gear set D207; specifically, the motor a201 drives the half gear 202; when the teeth of the half gear 202 are meshed with the gear at the front end of the gear set A203, the half gear 202 drives the gear at the front end of the gear set A203; the driving wheel 208 at the rear end of the gear set A203 drives the driving wheel 208 at the rear end of the gear set B205 through a belt A204; the cylindrical gear at the front end of the gear set B205 drives the cylindrical gear at the rear end of the gear set C206; the driving wheel 208 at the front end of the gear set C206 drives the driving wheel 208 at the front end of the gear set D207 through a belt C220; the driving wheel 208 at the rear end of the gear set D207 drives the driving wheel 208 through a belt D221; the gear set A203, the gear set B205, the gear set D207 and the driving wheel 208 drive the feeding rotary set 209 to feed the sugarcane into the device; when the teeth of half-gear 202 are in mesh with gear set E210; the motor A201 drives the half gear 202; the half gear 202 drives a cylindrical gear at the front end of the gear set E210; the driving wheel 208 at the rear end of the gear set E210 drives the driving wheel 208 at the rear end of the gear set F211 through a belt B219; the half gear 202 in the middle of the gear set F211 drives a cylindrical gear B213; the cylindrical gear B213 drives a cylindrical gear at the rear end of the gear group G214; the cylindrical gear at the front end of the gear set F211 drives a cylindrical gear A212; the cam at the front end of the gear group G214 rotates to drive the cam movable block A215 to move left and right; when the cam movable block A215 moves leftwards, the cylindrical gear movably arranged on the cam movable block A215 at the rear end of the cam movable block A215 is meshed with the cylindrical gear at the front end of the gear set F211; the cylindrical gear at the front end of the gear set F211 drives the cylindrical gear on the cam movable block A215; a cylindrical gear on the cam movable block A215 drives the rack A217 to move rightwards; the rack a217 drives the peeling blade 218 to move rightward; when the cam movable block A215 moves rightwards, the cylindrical gear at the rear end of the cam movable block A215 is meshed with the cylindrical gear A212; the cylindrical gear A212 drives a cylindrical gear at the rear end of the cam movable block A215; a cylindrical gear at the rear end of the cam movable block A215 drives the rack A217 to move leftwards; the rack A217 drives the peeling blade 218 to move leftwards; the left and right movement of the peeling blade 218 accomplishes the peeling function of the device on the cane.

In an optional implementation manner of the embodiment of the present invention, the cutting mechanism includes a motor B301, a gear set H302, a belt E303, a cylindrical gear C304, a gear set I305, a cam moving block B306, a cylindrical gear D307, a cutting blade a308, a cutting blade B309, a gear set L327, and a spring B328; the motor B301 is fixedly arranged on the motor fixing frame B112; the gear set H302 and the gear set L327 are rotatably arranged on the gear fixing frame C109; the left end rotating shaft of the motor B301 is fixedly connected with the right end of the rotating shaft of the gear set H302; the belt E303 covers the transmission wheel 208 in the middle of the gear set H302 and the transmission wheel 208 at the right end of the gear set L327; the cam movable block B306 is slidably arranged on the gear fixing frame C109; the cylindrical gear C304 and the gear set I305 are rotatably arranged on a gear fixing frame B107; the cylindrical gear D307 is rotatably arranged on a shaft of the cam movable block B306; the cutting blade A308 and the cutting blade B309 are respectively installed in the grooves of the gear fixing frame B107 and the rack fixing frame B108 in a sliding manner; wherein the cutting blade A308 and the cutting blade B309 are made of stainless steel; the upper end of the spring B328 is fixedly connected with the cam movable block B306, and the lower end is fixedly connected with the gear fixing frame C109; specifically, the motor B301 drives the gear set H302; the driving wheel 208 at the left end of the gear set H302 drives the driving wheel 208 at the right end of the gear set L327 through a belt E303; the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear C304; a cam at the left end of the gear set H302 drives the cam movable block B306 to move up and down; when the cam movable block B306 moves upwards, the cam movable block B306 drives the cylindrical gear D307 to move upwards, so that the cylindrical gear D307 is meshed with the cylindrical gear at the left end of the gear set L327 and the gear set I305, and the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear D307; the cylindrical gear D307 drives a gear set I305; the gear set I305 drives racks below the cutting blade A308 and the cutting blade B309 to enable the cutting blade A308 to move downwards and the cutting blade B309 to move upwards, and the sugarcane is cut into sections by the downward movement of the cutting blade A308 and the upward movement of the cutting blade B309; after the section is cut, a cam at the left end of the gear set H302 drives the cam movable block B306 to move downwards; the cam movable block B306 drives the cylindrical gear D307 to move downwards so that the cylindrical gear D307 is meshed with the cylindrical gear C304 and the gear set I305; the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear C304; the cylindrical gear C304 drives a cylindrical gear D307; the cylindrical gear D307 drives a gear set I305; the gear set I305 drives the racks below the cutting blade a308 and the cutting blade B309, so that the cutting blade a308 moves upwards and the cutting blade B309 moves downwards to return to the original position.

In an optional implementation manner of the embodiment of the invention, the juicing mechanism comprises a belt F310, a gear set J311, a belt G312, a conveying shaft A313, a conveying shaft B314, a conveying belt 315, a gear set K316, a cylindrical gear E317, an electric cylinder A318, a juicing plate 319, a clamp fixing plate 320, an electric cylinder B321, an electric cylinder fixing frame 322, a rack B323, a clamp group 324, a squeezing roller A325 and a squeezing roller B326; the gear set J311 is rotatably arranged on the gear fixing frame D111; the belt F310 wraps the driving wheel 208 at the rear end of the gear set H302 and the driving wheel 208 at the front end of the gear set J311; the transmission shaft A313 and the transmission shaft B314 are rotatably arranged in circular holes at two sides of the transmission groove 118; the belt G312 covers the transmission wheel 208 in the middle of the gear set J311 and the transmission wheel 208 at the right end of the transmission shaft A313; the transmission belt 315 covers the gear set J311 and the transmission shaft B314; the press roller A325 and the press roller B326 are rotatably arranged in circular holes at two sides of the juice extracting box 114; the gear set K316 and the cylindrical gear E317 are fixedly connected with a press roll A325 and a press roll B326 respectively; the electric cylinder A318 is fixedly arranged on an electric cylinder fixing frame 322 on the left side of the juicing box 114; the clamp fixing plate 320 is slidably mounted on the sliding rod B113; the juicing plate 319 is fixedly connected with the clip fixing plate 320 through a connecting rod; the telescopic rod at the front end of the electric cylinder A318 is fixedly connected with the connecting rod between the juicing plate 319 and the clamp fixing plate 320; the electric cylinder fixing frame 322 is fixedly connected with the front end of the clamp fixing plate 320; the electric cylinder B321 is fixedly arranged in the electric cylinder fixing frame 322; the rack B323 is slidably arranged on the sliding chute of the clamp fixing plate 320; the telescopic sleeve rod at the lower end of the electric cylinder B321 is fixedly connected with the upper end of the rack B323; the clip set 324 is rotatably mounted on the clip fixing plate 320; specifically, when the juice is not required to be squeezed and only the segments are cut, the motor B301 drives the driving wheel 208 at the right end of the gear set H302; the driving wheel 208 at the right end of the gear set H302 drives the driving wheel 208 at the left end of the gear set J311 through a belt F310; the driving wheel 208 at the right end of the gear set J311 drives the driving wheel 208 at the right end of the gear set J311 through a belt G312; the gear set J311 drives the transmission shaft B314 through the transmission belt 315; the cut cane is fed into the cane bin 117 by the movement of the conveyor belt 315; when the sugarcane sections need to be juiced, the electric cylinder A318 drives the clamp fixing plate 320 to move to a certain position leftwards, and the electric cylinder B321 drives the rack B323 to move upwards; the rack B323 moves upwards to drive the clamp group 324 to clamp the sugarcane sections, the electric cylinder A318 drives the clamp fixing plate 320 to move rightwards, and the sugarcane sections are placed in the juice squeezing box 114; the motor B301 drives the driving wheel 208 at the right end of the gear set H302; a driving wheel 208 at the right end of the gear set H302 drives a conical gear at the right end of a gear set J311 through a belt F310; the bevel gear at the right end of the gear set J311 drives the bevel gear at the front end of the gear set K316; the cylindrical gear at the rear end of the gear set K316 drives the press roll A325 and the cylindrical gear E317; the cylindrical gear E317 drives a press roller B326; the rotation of the press roll A325 and the press roll B326 realizes the juice squeezing function of the sugarcane sections; the electric cylinder A318 drives the juice squeezing plate 319 to move leftwards to squeeze juice for the second time, so that the sugarcane is fully utilized, and raw materials are saved.

In an optional implementation manner of the embodiment of the present invention, the cup placing mechanism 4 includes a chute frame 401, an electric cylinder C402, a rack C403, a cylindrical gear F404, a cup moving arc plate 405, and a cup pushing plate 406; the chute frame 401 is fixedly arranged on the right end face of the supporting plate 101; the electric cylinder C402 is fixedly arranged in a cylinder groove at the lower end of the sliding groove frame 401; the electric cylinder C402 is a linear electric cylinder; the rack C403 is slidably arranged on the rack fixing frame C119; a telescopic sleeve rod at the front end of the electric cylinder C402 is fixedly connected with a rack C403; the cup moving arc plate 405 is rotatably arranged in a circular hole of the sliding groove frame 401; the cylindrical gear F404 is fixedly connected with the lower end of the cup moving arc plate 405; the cup pushing plate 406 is fixedly connected with the front end face of the rack C403; specifically, the electric cylinder C402 drives the rack C403 to move leftwards to the leftmost end, an automatic cup discharging mechanism arranged on the inner side of the support plate 120 discharges cups, when the cups are filled with sugarcane juice, the electric cylinder C402 drives the rack C403 to move rightwards, and the cups are moved to the support plate 120; the rack C403 drives the cylindrical gear F404; the cylindrical gear F404 drives a cup moving arc plate 405; the cup moving arc plate 405 moves the cup onto the chute frame 401.

The working principle of the invention is as follows: the invention drives the half gear 202 by the motor A201; when the teeth of the half gear 202 are meshed with the gear at the front end of the gear set A203, the half gear 202 drives the gear at the front end of the gear set A203; the driving wheel 208 at the rear end of the gear set A203 drives the driving wheel 208 at the rear end of the gear set B205 through a belt A204; the cylindrical gear at the front end of the gear set B205 drives the cylindrical gear at the rear end of the gear set C206; the driving wheel 208 at the front end of the gear set C206 drives the driving wheel 208 at the front end of the gear set D207 through a belt C220; the driving wheel 208 at the rear end of the gear set D207 drives the driving wheel 208 through a belt D221; the gear set A203, the gear set B205, the gear set D207 and the driving wheel 208 drive the feeding rotary set 209 to feed the sugarcane into the device; when the teeth of half-gear 202 are in mesh with gear set E210; the motor A201 drives the half gear 202; the half gear 202 drives a cylindrical gear at the front end of the gear set E210; the driving wheel 208 at the rear end of the gear set E210 drives the driving wheel 208 at the rear end of the gear set F211 through a belt B219; the half gear 202 in the middle of the gear set F211 drives a cylindrical gear B213; the cylindrical gear B213 drives a cylindrical gear at the rear end of the gear group G214; the cylindrical gear at the front end of the gear set F211 drives a cylindrical gear A212; the cam at the front end of the gear group G214 rotates to drive the cam movable block A215 to move left and right; when the cam movable block A215 moves leftwards, the cylindrical gear movably arranged on the cam movable block A215 at the rear end of the cam movable block A215 is meshed with the cylindrical gear at the front end of the gear set F211; the cylindrical gear at the front end of the gear set F211 drives the cylindrical gear on the cam movable block A215; a cylindrical gear on the cam movable block A215 drives the rack A217 to move rightwards; the rack a217 drives the peeling blade 218 to move rightward; when the cam movable block A215 moves rightwards, the cylindrical gear at the rear end of the cam movable block A215 is meshed with the cylindrical gear A212; the cylindrical gear A212 drives a cylindrical gear at the rear end of the cam movable block A215; a cylindrical gear at the rear end of the cam movable block A215 drives the rack A217 to move leftwards; the rack A217 drives the peeling blade 218 to move leftwards; the left-right movement of the peeling blade 218 achieves the peeling function of the device on the sugarcane;

the motor B301 drives the gear set H302; the driving wheel 208 at the left end of the gear set H302 drives the driving wheel 208 at the right end of the gear set L327 through a belt E303; the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear C304; a cam at the left end of the gear set H302 drives the cam movable block B306 to move up and down; when the cam movable block B306 moves upwards, the cam movable block B306 drives the cylindrical gear D307 to move upwards, so that the cylindrical gear D307 is meshed with the cylindrical gear at the left end of the gear set L327 and the gear set I305, and the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear D307; the cylindrical gear D307 drives a gear set I305; the gear set I305 drives racks below the cutting blade A308 and the cutting blade B309 to enable the cutting blade A308 to move downwards and the cutting blade B309 to move upwards, and the sugarcane is cut into sections by the downward movement of the cutting blade A308 and the upward movement of the cutting blade B309; after the section is cut, a cam at the left end of the gear set H302 drives the cam movable block B306 to move downwards; the cam movable block B306 drives the cylindrical gear D307 to move downwards so that the cylindrical gear D307 is meshed with the cylindrical gear C304 and the gear set I305; the cylindrical gear at the left end of the gear set L327 drives the cylindrical gear C304; the cylindrical gear C304 drives a cylindrical gear D307; the cylindrical gear D307 drives a gear set I305; the gear group I305 drives racks below the cutting blade A308 and the cutting blade B309, so that the cutting blade A308 moves upwards and the cutting blade B309 moves downwards to return to the original position;

when the juice is not required to be squeezed and only the segments are cut, the motor B301 drives the driving wheel 208 at the right end of the gear set H302; the driving wheel 208 at the right end of the gear set H302 drives the driving wheel 208 at the left end of the gear set J311 through a belt F310; the driving wheel 208 at the right end of the gear set J311 drives the driving wheel 208 at the right end of the gear set J311 through a belt G312; the gear set J311 drives the transmission shaft B314 through the transmission belt 315; the cut cane is fed into the cane bin 117 by the movement of the conveyor belt 315; when the sugarcane sections need to be juiced, the electric cylinder A318 drives the clamp fixing plate 320 to move to a certain position leftwards, and the electric cylinder B321 drives the rack B323 to move upwards; the rack B323 moves upwards to drive the clamp group 324 to clamp the sugarcane sections, the electric cylinder A318 drives the clamp fixing plate 320 to move rightwards, and the sugarcane sections are placed in the juice squeezing box 114; the motor B301 drives the driving wheel 208 at the right end of the gear set H302; a driving wheel 208 at the right end of the gear set H302 drives a conical gear at the right end of a gear set J311 through a belt F310; the bevel gear at the right end of the gear set J311 drives the bevel gear at the front end of the gear set K316; the cylindrical gear at the rear end of the gear set K316 drives the press roll A325 and the cylindrical gear E317; the cylindrical gear E317 drives a press roller B326; the rotation of the press roll A325 and the press roll B326 realizes the juice squeezing function of the sugarcane sections; the electric cylinder A318 drives the juice squeezing plate 319 to move leftwards to squeeze juice for the second time, so that the sugarcane is fully utilized, and raw materials are saved;

the electric cylinder C402 drives the rack C403 to move leftwards to the leftmost end, an automatic cup discharging mechanism arranged on the inner side of the support plate 120 discharges cups, when the cups are filled with sugarcane juice, the electric cylinder C402 drives the rack C403 to move rightwards, and the cups are moved to the support plate 120; the rack C403 drives the cylindrical gear F404; the cylindrical gear F404 drives a cup moving arc plate 405; the cup moving arc plate 405 moves the cup onto the chute frame 401.