CN206651341U - Juice extractor transmission mechanism - Google Patents

Abstract

The utility model discloses a kind of juice extractor transmission mechanism, it is related to juice extractor technical field, it is unstable to solve the transmission of existing press mechanism, the problem of influenceing juice-extracting process.The technical solution adopted in the utility model is：Juice extractor transmission mechanism, including upper squeezing bowl driving structure, coring squeezing pipe driving structure, upper squeezing bowl driving structure includes upper drive gear, coring squeezing pipe driving structure includes lower drive gear, transition gear is set between upper drive gear and lower drive gear, and transition gear engages with upper drive gear and lower drive gear；The output shaft installation drive sprocket of motor, drive sprocket are connected by chain with transition sprocket wheel, and transition sprocket wheel and transition gear are fixed on the first power transmission shaft by key, increase the cornerite of chain, avoid jumping the vibration problem in chain and transmission process.The upper driving for squeezing bowl, coring squeezing pipe is initially not present offset during assembling, can accurately keep the mechanical relative position in initial position and motion process by the engaged transmission of three gears.

Description

Juice extractor transmission mechanism

Technical field

Juice extractor technical field is the utility model is related to, specifically a kind of transmission mechanism of juice extractor.

Background technology

Bowl formula principle of squeezing the juice is mainly used in squeezing for orange juice, and juicing effect is high, and crushing juice rate is high, carries peeling function, without Peeling process is separately provided again, is used widely in terms of industry is squeezed the juice.Because intelligent automatic vending equipment is risen in recent years, This bowl formula is squeezed the juice, and principle is more and more to be employed for existing squeezing orange juice automatic vending equipment.And with health of people idea and consumption The change of idea, now squeezing orange juice automatic vending equipment has wide market prospects.

By bowl formula squeeze the juice principle be transplanted in business small equipment need to squeezing bowl, fruit juice collecting pipe etc. re-starts structure Design.The existing small-sized orange juice that now squeezes sells the juicing structure of equipment more by the automatic squeezing of mechanical transmission mechanism realization.Publication No. A kind of one cup juice extractor is disclosed for the patent document that the A of CN 105231799 and publication No. are the A of CN 105231798 to use Press mechanism, motor is by chain-driving first rotating shaft and the second axis of rotation, then completes expressing process.In the program, due to The cornerite of chain is inadequate, easily occurs jumping chain, and chain is partially long, is vibrated in transmission process obvious.Chain using when need to be tensioned, by Belong to polygonized structure in chain, chain is again longer, when assembling production on squeeze bowl squeezed with coring pipe initial mechanical it is relative Position is not easy to ensure, influences juice-extracting process.

Utility model content

The utility model provides a kind of juice extractor transmission mechanism, and it is unstable to solve existing press mechanism transmission, influences to squeeze The problem of juice process.

Technical scheme is used by the utility model solves its technical problem：Juice extractor transmission mechanism, including upper squeezing bowl Driving structure, coring squeezing pipe driving structure, upper squeezing bowl driving structure include upper drive gear, coring squeezing pipe driving structure bag Include lower drive gear, transition gear be set between upper drive gear and lower drive gear, and transition gear respectively with upper sliding tooth Wheel and the engagement of lower drive gear, transition gear are installed on the first power transmission shaft, and the first power transmission shaft is installed on clutch shaft bearing bearing；First On power transmission shaft, transition sprocket wheel, the inner side installation flange bearing of transition gear is fixedly mounted in the outside of transition gear；For with motor The connected drive sprocket of output shaft be connected by chain with transition sprocket wheel.

Specifically, the clutch shaft bearing bearing is installed on frame, the gearratio between upper drive gear and lower drive gear It is 1：2.

It is further：The upper upper drive gear for squeezing bowl driving structure is installed on power transmission shaft, upper power transmission shaft installation In second bearing bearing, second bearing bearing is fixed on the crossbeam of frame by upper mounted plate and bottom plate；Second bearing branch Vertically installed between seat and frame and squeeze bowl guide rod, worn on upper squeezing bowl guide rod and squeeze bowl actuating arm；One end of upper power transmission shaft The upper drive gear is connected, the other end extends to second bearing carrier exterior and by described in the connection of the first slider-crank mechanism Upper squeezing bowl actuating arm.

It is further：The upper squeezing bowl guide rod is two, and upper squeezing bowl actuating arm is sheathed in two upper squeezing bowl guide rods.

It is further：The lower drive gear of the coring squeezing pipe driving structure is installed on lower drive shaft, lower drive shaft 3rd bearing bearing is installed on, 3rd bearing bearing is installed on bottom fixed plate, and bottom fixed plate is fixed on the bottom of frame；Bottom is fixed Coring squeezing pipe guide rod is vertically installed on plate, coring squeezing pipe actuating arm is worn on coring squeezing pipe guide rod；Lower drive shaft The lower drive gear is installed in one end, and the other end connects the coring by the second slider-crank mechanism and squeezes pipe actuating arm.

It is further：The bottom of the coring squeezing pipe guide rod is connected to bottom fixed plate, and coring squeezes the top of pipe guide rod End is connected to second bearing bearing.

The beneficial effects of the utility model are：The transition sprocket wheel of juice extractor transmission mechanism by chain directly and drive sprocket It is connected, wherein drive sprocket is used for the output shaft for being installed on motor, and transition sprocket wheel and transition gear are fixed on the first biography by key Moving axis, the cornerite of chain is added, avoid jumping the vibration problem in chain and transmission process.Transition sprocket wheel passes through the first power transmission shaft Switch to gear drive, drive upper drive gear and lower drive gear respectively by transition gear, make the drive for squeezing bowl, coring squeezing pipe The dynamic engaged transmission by three gears, offset initially is not present during assembling, accurately can keep in initial position and motion process Mechanical relative position.

Brief description of the drawings

Fig. 1 is the overall structure diagram of the utility model juice extractor transmission mechanism.

Fig. 2 is the explosive view of the power-transmission system of juice extractor transmission mechanism shown in Fig. 1.

Parts, position and numbering in figure：Upper drive gear 1, upper power transmission shaft 11, second bearing bearing 12, upper mounted plate 13rd, bottom plate 14, upper squeezing bowl guide rod 15, upper squeezing bowl actuating arm 16, the first slider-crank mechanism 17, lower drive gear 2, pass down Moving axis 21,3rd bearing bearing 22, bottom fixed plate 23, coring squeezing pipe guide rod 24, coring squeezing pipe actuating arm 25, the second crank Slide block mechanism 26, transition gear 3, the first power transmission shaft 31, clutch shaft bearing bearing 32, transition sprocket wheel 33, flange bearing 34, drive chain Wheel 35, motor 4, frame 5, crossbeam 51.

Embodiment

The utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Fig. 1~2, the utility model juice extractor transmission mechanism, including upper squeezing bowl driving structure and coring squeezing pipe Driving structure, upper squeezing bowl driving structure include upper drive gear 1, and coring squeezing pipe driving structure includes lower drive gear 2, upper drive Between moving gear 1 and lower drive gear 2 set transition gear 3, transition gear 3 respectively with upper drive gear 1 and lower drive gear 2 Engagement, transition gear 3 are connected by power-transmission system with motor 4.Transition gear 3 is installed on the first power transmission shaft 31, and first passes Moving axis 31 is installed on clutch shaft bearing bearing 32, and clutch shaft bearing bearing 32 is installed in frame 5.On the first power transmission shaft 31, transition Transition sprocket wheel 33 is fixedly mounted in the outside of gear 3, for the drive sprocket 35 that is connected with the output shaft of motor 4 by chain and mistake Sprocket wheel 33 is crossed to be connected.The inner side installation flange bearing 34 of transition gear 3, turns over and is located at all over bearing 34 on clutch shaft bearing bearing 32.It is main Movable sprocket 35 is installed on the output shaft of motor 4, and power is transferred to transition sprocket wheel 33, transition sprocket wheel 33 by motor 4 by Chain conveyer First power transmission shaft 31 is fixed on by key with transition gear 3.Transition sprocket wheel 33 is directly connected by chain with drive sprocket 35, is increased The cornerite of chain is added, has avoided jumping the vibration problem in chain and transmission process.Transition gear 3 drives drive gear 1 respectively With lower drive gear 2, the driving for making to squeeze bowl, coring squeezing pipe is initially not present by the engaged transmission of three gears during assembling Offset, it can accurately keep the mechanical relative position in initial position and motion process.

The upper upper drive gear 1 for squeezing bowl driving structure is installed on power transmission shaft 11, and upper power transmission shaft 11 is installed on second bearing Bearing 12, second bearing bearing 12 are fixed between upper mounted plate 13 and bottom plate 14, upper mounted plate 13 and bottom plate 14 The crossbeam 51 of frame 5 is individually fixed in by bolt.Two upper squeezing bowls are vertically installed between second bearing bearing 12 and frame 5 Guide rod 15, upper squeeze wear squeezing bowl actuating arm 16 on bowl guide rod 15, squeezing bowl actuating arm 16 in guarantee vertically moves up and down.Upload One end of moving axis 11 connects the upper drive gear 1, and the other end extends to the outside of second bearing bearing 12 and by the first crank Slide block mechanism 17 connects the upper squeezing bowl actuating arm 16.First slider-crank mechanism 17 includes going crank and connecting rod, crank connection In one end of second bearing bearing 12, crank connection connecting rod, connecting rod connects and squeezes bowl actuating arm 16, and connecting rod two end is respectively joint Bearing.

The lower drive gear 2 of coring squeezing pipe driving structure is installed on lower drive shaft 21, and lower drive shaft 21 is installed on the 3rd Bearing spider 22,3rd bearing bearing 22 are fixed on bottom fixed plate 23, and bottom fixed plate 23 is fixed on the bottom of frame 5.Bottom is fixed Coring squeezing pipe guide rod 24 is vertically installed, the bottom of coring squeezing pipe guide rod 24 is connected to bottom fixed plate 23, coring on plate 23 The top of squeezing pipe guide rod 24 is connected to second bearing bearing 12.Coring squeezing pipe actuating arm is worn on coring squeezing pipe guide rod 24 25, coring squeezes the bayonet socket for being provided for being connected on pipe actuating arm 25 with coring squeezing pipe.One end installation institute of lower drive shaft 21 Lower drive gear 2 is stated, the other end is by extending to the outside of 3rd bearing bearing 22 and being connected by the second slider-crank mechanism 26 The coring squeezing pipe actuating arm 25.Second slider-crank mechanism 26 equally includes removing crank and connecting rod, and crank is connected to the 3rd One end of bearing spider 22, crank connection connecting rod, connecting rod connection coring squeezing pipe actuating arm 25, connecting rod two end is respectively joint shaft Hold.Second slider-crank mechanism 26 is similar to the structure of the first slider-crank mechanism 17, and specific size is variant.

Specifically, bowl is squeezed in control on the driven Design of juice extractor and the coring of bottom squeezes the time about 7 of pipe closure once Second, the speed reducing ratio of motor 4 is set to 1: 40.Being in step with for pipe, and the abundant pressure to the fruit stalks of rice, wheat, etc. are squeezed to squeeze bowl and coring in control Squeeze, be designed as squeezing bowl and pump once, coring squeezing pipe moves back and forth twice, institute's above drive gear 1 and lower drive Gearratio between moving gear 2 is 1: 2.

Claims (6)

1. juice extractor transmission mechanism, including upper squeezing bowl driving structure, coring squeezing pipe driving structure, upper squeezing bowl driving structure include Upper drive gear (1), coring squeezing pipe driving structure include lower drive gear (2), it is characterised in that：Upper drive gear (1) and Between lower drive gear (2) set transition gear (3), and transition gear (3) respectively with upper drive gear (1) and lower drive gear (2) engage, transition gear (3) is installed on the first power transmission shaft (31), and the first power transmission shaft (31) is installed on clutch shaft bearing bearing (32)； On first power transmission shaft (31), transition sprocket wheel (33), the inner side installation of transition gear (3) is fixedly mounted in the outside of transition gear (3) Flange bearing (34)；Drive sprocket (35) for being connected with the output shaft of motor (4) passes through chain and transition sprocket wheel (33) phase Even.

2. juice extractor transmission mechanism as claimed in claim 1, it is characterised in that：The clutch shaft bearing bearing (32) is installed on machine Frame (5), the gearratio between upper drive gear (1) and lower drive gear (2) is 1：2.

3. juice extractor transmission mechanism as claimed in claim 1, it is characterised in that：The upper upper sliding tooth for squeezing bowl driving structure Wheel (1) is installed on power transmission shaft (11), and upper power transmission shaft (11) is installed on second bearing bearing (12), and second bearing bearing (12) is logical Cross upper mounted plate (13) and bottom plate (14) is fixed on the crossbeam (51) of frame (5)；Second bearing bearing (12) and frame (5) Between vertically install and squeeze bowl guide rod (15), worn on upper squeezing bowl guide rod (15) and squeeze bowl actuating arm (16)；Upper power transmission shaft (11) one end connects the upper drive gear (1), and it is outside and bent by first that the other end extends to second bearing bearing (12) Handle slide block mechanism (17) the connection upper squeezing bowl actuating arm (16).

4. juice extractor transmission mechanism as claimed in claim 3, it is characterised in that：The upper squeezing bowl guide rod (15) is two, on Bowl actuating arm (16) is squeezed to be sheathed in two upper squeezing bowl guide rods (15).

5. the juice extractor transmission mechanism as described in claim 1 or 3, it is characterised in that：The coring squeezing pipe driving structure Lower drive gear (2) is installed on lower drive shaft (21), and lower drive shaft (21) is installed on 3rd bearing bearing (22), 3rd bearing branch Seat (22) is installed on bottom fixed plate (23), and bottom fixed plate (23) is fixed on the bottom of frame (5)；In bottom fixed plate (23) vertically Coring squeezing pipe guide rod (24) is installed, coring squeezing pipe actuating arm (25) is worn on coring squeezing pipe guide rod (24)；Lower drive shaft (21) the lower drive gear (2) is installed in one end, and the other end connects the coring pressure by the second slider-crank mechanism (26) Squeeze pipe actuating arm (25).

6. juice extractor transmission mechanism as claimed in claim 3, it is characterised in that：The bottom of the coring squeezing pipe guide rod (24) Bottom fixed plate (23) is connected to, the top of coring squeezing pipe guide rod (24) is connected to second bearing bearing (12).