CN204828325U - Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame - Google Patents

Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame Download PDF

Info

Publication number
CN204828325U
CN204828325U CN201520556924.XU CN201520556924U CN204828325U CN 204828325 U CN204828325 U CN 204828325U CN 201520556924 U CN201520556924 U CN 201520556924U CN 204828325 U CN204828325 U CN 204828325U
Authority
CN
China
Prior art keywords
driving rollers
ball press
conjuncted
main shaft
transmission main
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520556924.XU
Other languages
Chinese (zh)
Inventor
武光川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZHENGZHOU ZHONGZHOU MOLDED COAL MACHINERY PLANT
Original Assignee
ZHENGZHOU ZHONGZHOU MOLDED COAL MACHINERY PLANT
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ZHENGZHOU ZHONGZHOU MOLDED COAL MACHINERY PLANT filed Critical ZHENGZHOU ZHONGZHOU MOLDED COAL MACHINERY PLANT
Priority to CN201520556924.XU priority Critical patent/CN204828325U/en
Application granted granted Critical
Publication of CN204828325U publication Critical patent/CN204828325U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model relates to a press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame that can make product quality obtain improving by a wide margin and use on pressing the energy -conserving drive mechanism of ball machine, including rack -mounted integral bearing seat, have two dead eyes on this integral bearing seat, this integral bearing seat is by the left end lid, the midbody fastens integratively become with the right -hand member lid through the fastening bolt connection, be half initiative roll shaft hole and half transmission main shaft hole about the midbody respectively, initiative roll shaft hole has been seted up half to the left end lid, the transmission main shaft hole has been seted up half to the right -hand member lid, the left end lid, the midbody forms an integral bearing seat that has initiative roll shaft hole and transmission main shaft hole with the right -hand member lid together through the bolt -up, energy saving, load distribution is average, can eliminate deviation incline and microseism, increase the rigidity and the stability of machine, make product quality improved by a wide margin.

Description

The conjuncted twin shaft bearing support of ball press energy-saving transmission mechanism
Technical field
The utility model belongs to powder pressure ball machine field, relates to a kind ofly quality of product can being made to be largely increased and the conjuncted twin shaft bearing support of the ball press energy-saving transmission mechanism used on ball press energy-saving transmission mechanism.
Background technique
The driving mechanism that ball press field manufactures and designs for many years is work like this: motor drives speed reducer, power is passed to roll driving shaft by the coupling on speed reducer output shaft, driving shaft gear is driven while driving shaft drives king roller work, driving shaft gear drives driven shaft gear again, driven gear drives driven axle again, and driven axle drives passive roll relatively to work.This traditional kind of drive, there are less than three serious unreasonable problems: 1, moment of torsion is little, expend power serious, because power is applied to roll edge, force from roll centre, force position short (metaphor is that the handle of wrench is short mutually), drive mechanism not science is unreasonable; 2, power drives to driven axle again from driving shaft, and driving shaft subjects two kinds of pressure, and one is total driving force of equipment, and two is separately pressure and the tangential force of driving rollers; 3, because ball press is two roll relative tight cooperatings, it is uneven that this transmission can cause the transmission producing power to distribute, skewness can be produced, and deflection imbalance will produce vibrations and microseism, and this weakness of ball press and key just, microseism causes too low, the direct quality affecting finished product of balling ratio.
Summary of the invention
The purpose of this utility model is improve the irrational problem of transmission in prior art and provide a kind of obvious energy conservation, load distribution is average, deviation deflection and microseism can be eliminated, increase rigidity and the stability of machine, the conjuncted twin shaft bearing support of the ball press energy-saving transmission mechanism that quality of product is largely increased.
The utility model is achieved in that a kind of conjuncted twin shaft bearing support of ball press energy-saving transmission mechanism, comprise rack-mounted solid housing, it is characterized in that: with two bearing holes on this solid housing, this solid housing is by left end cap, intermediate and right end cap are connected by clamping bolt and are tightened to one, half driving rollers axis hole and half transmission main shaft hole is respectively about intermediate, left end cap offers half driving rollers axis hole, right end cap offers half transmission main shaft hole, left end cap, a solid housing with driving rollers axis hole and transmission main shaft hole is formed together with intermediate is fastened by bolts with right end cap.
The middle part upper-lower position of intermediate has lightening hole.
Described ball press energy-saving transmission mechanism comprises motor, the retarder be connected with electric motor drive, the transmission main shaft that one end is connected with reducer output shaft by transmission coupling, be fixedly mounted on the driving pinion on the transmission main shaft the other end, it is characterized in that: transmission main shaft is arranged on the conjuncted twin shaft bearing support of frame by drive bearing, on conjuncted twin shaft bearing support, also by drive bearing, driving rollers axle is installed equally, this driving rollers axle is provided with ball press driving rollers, the driving rollers gear be meshed with driving pinion is installed in the end of ball press driving rollers, in frame, by passive roll mandrel bearing and passive roll mandrel bearing support, passive roll mandrel is also installed simultaneously, passive roll mandrel is provided with the passive roll of ball press, the passive roller gear be meshed with driving rollers gear is installed in the end of passive roll mandrel, ball press driving rollers and the passive roll of ball press closely cooperate mutually.
The utility model has following good effect:
1, the energy-conservation aobvious heat of conjuncted twin shaft bearing support of this ball press energy-saving transmission mechanism, because the mean allocation of load, eliminates deviation deflection and microseism, adds rigidity and the stability of machine, quality of product can be made to be largely increased.
2, the conjuncted twin shaft bearing support of this ball press energy-saving transmission mechanism balances and alleviates the load of driving rollers axle, eliminates the risk of driving rollers axle.
Accompanying drawing explanation
Fig. 1 is existing ball press drive system structure schematic diagram.
Fig. 2 is the structural representation of ball press transmission system of the present utility model.
Fig. 3 is the structural representation of conjuncted twin shaft bearing support of the present utility model.
Fig. 4 is conjuncted twin shaft bearing support B-B sectional view of the present utility model.
Fig. 5 is conjuncted twin shaft bearing support A-A sectional view of the present utility model.
Fig. 6 is conjuncted twin shaft bearing support plan view of the present utility model.
Embodiment
As Fig. 3, 4, 5, shown in 6, the utility model discloses a kind of conjuncted twin shaft bearing support of ball press energy-saving transmission mechanism, comprise rack-mounted solid housing 5, it is characterized in that: with two bearing holes on this solid housing, this solid housing is by left end cap 14, intermediate 15 and right end cap 16 are connected by clamping bolt 13 and are tightened to one, intermediate about 15 is respectively half driving rollers axis hole and half transmission main shaft hole, left end cap 14 offers half driving rollers axis hole, right end cap 16 offers half transmission main shaft hole, left end cap 14, a solid housing with driving rollers axis hole 11 and transmission main shaft hole 12 is formed together with intermediate 15 is fastened by bolts with right end cap 16.The middle part upper-lower position of intermediate 15 has lightening hole 17.
As shown in Figure 1, ball press field for many years conventional drives is work like this: motor drives speed reducer, power is passed to roll driving shaft by the coupling on speed reducer output shaft, driving shaft gear is driven while driving shaft drives king roller work, driving shaft gear drives driven shaft gear again, driven gear drives driven axle again, and driven axle drives passive roll relatively to work.This traditional kind of drive, there are less than three serious unreasonable problems: 1, moment of torsion is little, expend power serious, because power is applied to roll edge, force from roll centre, force position short (metaphor is that the handle of wrench is short mutually), drive mechanism not science is unreasonable; 2, power drives to driven axle again from driving shaft, and driving shaft subjects two kinds of pressure, and one is total driving force of equipment, and two is separately pressure and the tangential force of driving rollers; 3, because ball press is two roll relative tight cooperatings, it is uneven that this transmission can cause the transmission producing power to distribute, skewness can be produced, and deflection imbalance will produce vibrations and microseism, and this weakness of ball press and key just, microseism causes too low, the direct quality affecting finished product of balling ratio.
As Fig. 2, shown in 3, specification of the present utility model also discloses a kind of ball press energy-saving transmission mechanism, comprise motor 1, the retarder 2 be connected with electric motor drive, the transmission main shaft 4 that one end is connected with reducer output shaft by transmission coupling 3, be fixedly mounted on the driving pinion 6 on the transmission main shaft the other end, it is characterized in that: transmission main shaft 4 is arranged on the conjuncted twin shaft bearing support 5 of frame by drive bearing, on conjuncted twin shaft bearing support 5, also by drive bearing, driving rollers axle is installed equally, this driving rollers axle is provided with ball press driving rollers 10, the driving rollers gear 7 be meshed with driving pinion 6 is installed in the end of ball press driving rollers 10, in frame, by passive roll mandrel bearing and passive roll mandrel bearing support 9, passive roll mandrel is also installed simultaneously, passive roll mandrel is provided with the passive roll 11 of ball press, the passive roller gear 8 be meshed with driving rollers gear 7 is installed in the end of passive roll mandrel, ball press driving rollers 10 and the passive roll 11 of ball press closely cooperate mutually, and it is right that ball press driving rollers 10 and the passive roll of ball press 11 relatively rotate, and carries out compacting balling-up to being difficult to shaping granular material, are characterized in that briquetting pressure is large, main frame revolution is adjustable.The gear diameter of driving pinion 6 is less than the gear diameter of driving rollers gear 7 and passive roller gear 8.
As Fig. 2, 3, 4, 5, shown in 6, described conjuncted twin shaft bearing support 5 refers to a rack-mounted solid housing, with two bearing holes on this solid housing, this solid housing is by left end cap, intermediate and right end cap are connected by clamping bolt and are tightened to one, be arranged symmetrically on the left and right sides of frame, half driving rollers axis hole and half transmission main shaft hole is respectively about intermediate, left end cap offers half driving rollers axis hole, right end cap offers half transmission main shaft hole, three merges by bolt the formation solid housing that tightens together.The middle part upper-lower position of intermediate has lightening hole.Transmission main shaft 4 is arranged on the conjuncted twin shaft bearing support 5 of frame by drive bearing.Described conjuncted twin shaft bearing support 5 refers to a rack-mounted overall bearing support, the bearing support of this entirety has two bearing holes, the bearing support of this entirety by left end cap, intermediate and right end cap with clamping bolt be connected and be tightened to one, be arranged symmetrically on the left and right sides of frame, half driving rollers axis hole 11 and half transmission main shaft hole 12 is respectively about intermediate, left end cap offers half driving rollers axis hole 12, and right end cap offers half transmission main shaft hole 12.Transmission main shaft 4 is just arranged in the transmission main shaft hole on the conjuncted twin shaft bearing support 5 of frame by drive bearing, after transmission main shaft 4 being installed two bearings, push half transmission main shaft hole on the right of intermediate, the right-hand member cover bolt offering half transmission main shaft hole is connected with intermediate, thus installs transmission main shaft 4.On conjuncted twin shaft bearing support 5, also by drive bearing, driving rollers axle is installed equally, this driving rollers axle is provided with ball press driving rollers 10, the driving rollers gear 7 be meshed with driving pinion 6 is installed in the end of ball press driving rollers 10; After driving rollers axle being installed two bearings, push half driving rollers axis hole on the intermediate left side, the left end cover bolt offering half driving rollers axis hole is connected with intermediate, thus installs driving rollers axle.In frame, by passive roll mandrel bearing and passive roll mandrel bearing support 9, passive roll mandrel is also installed simultaneously, passive roll mandrel is provided with the passive roll 11 of ball press, the passive roller gear 8 be meshed with driving rollers gear 7 is installed in the end of passive roll mandrel; Ball press driving rollers 10 and the passive roll 11 of ball press closely cooperate mutually.Passive roll mandrel bearing support 9 is provided separately with conjuncted twin shaft bearing support 5.The gear diameter of driving pinion 6 is less than the gear diameter of driving rollers gear 7 and passive roller gear 8.Driving rollers axle across between two conjuncted twin shaft bearing supports 5, and is arranged side by side on same conjuncted twin shaft bearing support with transmission main shaft 4; Driving rollers axle is provided with driving rollers 10, and driving rollers 10 is also across between two bearing supports; The driving rollers gear 7 be meshed with driving pinion 6 is installed in the end of driving rollers axle; Power is delivered on driving rollers gear 7 by motor 1, retarder 2, transmission coupling 3, transmission main shaft 4, driving pinion 6, and driving rollers gear 7 rotates and drives driving rollers 10 to work; In frame, be also provided with passive roll mandrel by bearing and bearing support, passive roll mandrel both sides are arranged between two bearing supports 9 by the bearing of both sides, and passive roll mandrel is arranged side by side with driving rollers axle across between two bearing supports simultaneously; Passive roll mandrel is provided with passive roll 11, the passive roller gear 8 be meshed with driving rollers gear 7 is installed in the end of passive roll mandrel; Driving rollers 10 and passive roll 11 are arranged side by side and mutually closely cooperate.Power is delivered on passive roller gear 8 through driving rollers gear 7, thus drives passive roll 11 to rotate.Therefore driving rollers 10 rotates and carries out pressure ball work together with passive roll 11.
The utility model increases transmission main shaft, transmission main shaft bearing support, driving pinion design on original basis, and transmission main shaft, driving rollers axle, passive roll mandrel are arranged side by side as integral design, are conducive to stability.Therefore drive mechanism of the present utility model is such (shown in Fig. 2); Motor drives speed reducer, power by the coupling on speed reducer output shaft, is passed to ball press transmission main shaft, transmission main shaft drives that driving pinion, driving pinion drive driving rollers gear, driving rollers gear drives passive roller gear again.

Claims (3)

1. the conjuncted twin shaft bearing support of a ball press energy-saving transmission mechanism, comprise rack-mounted solid housing (5), it is characterized in that: with two bearing holes on this solid housing, this solid housing is by left end cap (14), intermediate (15) and right end cap (16) are connected by clamping bolt (13) and are tightened to one, intermediate (15) left and right is respectively half driving rollers axis hole and half transmission main shaft hole, left end cap (14) offers half driving rollers axis hole, right end cap (16) offers half transmission main shaft hole, left end cap (14), intermediate (15) and right end cap (16) are fastened by bolts the solid housing together formed with driving rollers axis hole (11) and transmission main shaft hole (12).
2. the conjuncted twin shaft bearing support of ball press energy-saving transmission mechanism according to claim 1, is characterized in that: the middle part upper-lower position of intermediate (15) has lightening hole (17).
3. the conjuncted twin shaft bearing support of ball press energy-saving transmission mechanism according to claim 1, it is characterized in that: described ball press energy-saving transmission mechanism comprises motor (1), the retarder (2) be connected with electric motor drive, the transmission main shaft (4) that one end is connected with reducer output shaft by transmission coupling (3), be fixedly mounted on the driving pinion (6) on the transmission main shaft the other end, it is characterized in that: transmission main shaft (4) is arranged on the conjuncted twin shaft bearing support (5) of frame by drive bearing, on conjuncted twin shaft bearing support (5), also by drive bearing, driving rollers axle is installed equally, this driving rollers axle is provided with ball press driving rollers (10), the driving rollers gear (7) be meshed with driving pinion (6) is installed in the end of ball press driving rollers (10), in frame, by passive roll mandrel bearing and passive roll mandrel bearing support (9), passive roll mandrel is also installed simultaneously, passive roll mandrel is provided with the passive roll of ball press (11), the passive roller gear (8) be meshed with driving rollers gear (7) is installed in the end of passive roll mandrel, ball press driving rollers (10) and the passive roll of ball press (11) closely cooperate mutually.
CN201520556924.XU 2015-07-29 2015-07-29 Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame Expired - Fee Related CN204828325U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520556924.XU CN204828325U (en) 2015-07-29 2015-07-29 Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520556924.XU CN204828325U (en) 2015-07-29 2015-07-29 Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame

Publications (1)

Publication Number Publication Date
CN204828325U true CN204828325U (en) 2015-12-02

Family

ID=54685930

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520556924.XU Expired - Fee Related CN204828325U (en) 2015-07-29 2015-07-29 Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame

Country Status (1)

Country Link
CN (1) CN204828325U (en)

Similar Documents

Publication Publication Date Title
CN201200902Y (en) Pair roller type crushing device
CN204828325U (en) Press energy -conserving drive mechanism's of ball machine conjuncted biax bearing frame
CN201136015Y (en) Three-roller full-driving rolling machine
CN201693106U (en) Rolling mill forming machine
CN105015015A (en) Energy-saving transmission mechanism of ball press machine
CN204977548U (en) Energy -conserving drive mechanism of ball machine presses
CN206898128U (en) A kind of curved machine of heavy in section section bar
CN206405206U (en) H profile steel edge of a wing hydraulic straightening machine
CN201592617U (en) Strap five-roller synchronous embossing machine
CN102671937B (en) Active precision four-roll mill
CN201333475Y (en) Adjustable corrugated plate roller press
CN206598579U (en) A kind of novel corrugated board bar press
CN201376010Y (en) Pressing machine
CN205662818U (en) Vibration steel wheel of vertical vibration road roller
CN202555598U (en) Three-roller section mill pressing upwards device
CN205947026U (en) Flour pressing roller for noodle presses
CN201907222U (en) Servo feeder of full-automatic dry powder press
CN201943807U (en) Diesel engine by utilizing detachable crank pulleys
CN201405015Y (en) Worm roller press
CN102699034A (en) Push-up device assembly of three-roller section mill
CN201283665Y (en) Embossing roll with changeable roller sheath
CN205948830U (en) Novel pressing wheel mechanism of flat -die granulation machine
CN208995782U (en) It is a kind of applied to cotton piece production can heated calender
CN206935317U (en) A kind of granulator ring moulds power set of adjustable pinion positions
CN106040095A (en) Novel pressing wheel mechanism of flat die type granulation machine

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20151202

Termination date: 20180729