CN2907203Y - Right driving two-direction balancing rotary cultivator - Google Patents

Abstract

The utility model relates to a right-driving two-way balancing rotary tiller comprising a power take-off gear box, a driving gear box, a bracket, a rotary blade, a rotary blade shaft, and a plurality of driving shafts and bearings. A series of the rotary blades are positioned on the shaft; the driving gear box is arranged on the right side of the rotary tiller while the power take-off gear box on the left side, which make the rotary tiller subject to balancing forces on left and right sides during working and till equally, thus smoothing the way for growing up of crops. The utility model resolves the problem that unbalanced forces are applied to the existing rotary tiller while driving, and has the advantages of applying equal forces on both left and right sides, decreasing the energy consumption for power take-off, reducing friction of driving gears and bearings, and extending service life of the equipment. The model can be used not only to cultivate the farm but also for tilling and seeding combined activity in conjunction with the seeding machine.

Description

The bidirectional balanced rotovator of right transmission

Technical field

The utility model belongs to agricultural mechanical field, relates to the bidirectional balanced rotovator of a kind of right transmission.

Background technology

Existing rotovator, its gear drive operated by rotary motion be at the left end of rotovator, because machine two ends weight difference, the left and right sides is subjected to force unbalance when causing machine works, and it is inconsistent to revolve the depth left and right sides, ground, is unfavorable for the equilibrium growth of crops; The operate as normal that problem will influence the travelling gear and the bearing of machine is laid particular stress in this ubiquitous side transmission, not only reduces operating efficiency, and can increase the power output energy consumption of machine, shortens the service life of machine.

Summary of the invention

The purpose of this utility model is to provide a kind of left and right sides stress balance, revolves unanimity about the ground depth, reduces power output energy consumption, the bidirectional balanced rotovator of right transmission that increases the service life.

The technical solution adopted in the utility model: the bidirectional balanced rotovator of a kind of right transmission, comprise power output gear case, travelling gear casing, support, rotary blade, rotary ploughing cutter shaft, each power transmission shaft and bearing, serial rotary blade is installed on the rotary ploughing cutter shaft, described travelling gear casing is arranged on the rotovator right side, and the power output gear case is arranged on the rotovator left side.

Described power output gear case connects by connecting tube and tie-plate and uni-drive gear box sports association.

Described power output gear case connects with support by connecting tube and tie-plate.

Described support is provided with rotary blade guard shield and bearing box, and the bearing box two ends are provided with Wa Hegai.

Described rotary ploughing cutter shaft one end connects the travelling gear casing, and the other end is arranged in the bearing box, and the bearing box two ends are provided with Wa Hegai.

Driven bevel gear on the active conical gear engagement line shaft on the splined shaft in the described power output gear case, driving gear set is installed on the line shaft, first travelling gear downwards successively engagement be installed on each gear shaft second and third, four travelling gears, the gear shaft of the 5th travelling gear connects rotary ploughing cutter shaft.

Described power output gear case is rack-mount, or is connected with the gear-box seat on the support, and the power output gear case is arranged on the gear block.

Described line shaft is arranged in the connecting tube.

Be connected with external frame on the described rotary blade guard shield.

The positive beneficial effect that the utility model had:

1. the travelling gear casing is arranged on the right side, the power output gear case is arranged on the left side, makes to keep left and right sides stress balance in the rotovator work, revolves unanimity about the ground depth, helps the equilibrium growth of crops;

2. solved the problem that the transmission of existing rotary tillage pusher side is laid particular stress on, the stressed unanimity in the left and right sides reduces power output energy consumption and travelling gear, bearing wear, prolongs the service life of machine;

3. compact conformation, running is steadily increased work efficiency, and both can be used for farming operation, can be used for rotary tillage sowing integration of operation with sower is supporting again.

Description of drawings

Fig. 1 is the utility model embodiment 1 structural representation;

Fig. 2 is the cutaway view of Fig. 1;

Fig. 3 is the utility model embodiment 2 structural representations;

Fig. 4 is the cutaway view of Fig. 3.

Embodiment

Embodiment 1

Consult Fig. 1, shown in Figure 2, the bidirectional balanced rotovator of a kind of right transmission, mainly comprise travelling gear casing 1, connecting tube 2, power output gear case 3, external frame 4, support 5, rotary blade guard shield 6, rotary ploughing cutter shaft 7, bearing box 8, rotary blade 9, bearing 10, watt close cover 11, gear shaft 12, driving gear set 13, tie-plate 14, line shaft 15, parts such as conical gear 16, driven bevel gear 17, splined shaft 18 initiatively; Its travelling gear casing 1 is arranged on rotovator right side (from the rotovator back side), power output gear case 3 is arranged on the rotovator left side, power output gear case 3 connects with travelling gear casing 1 and support 5 by connecting tube 2 and tie-plate 14, be connected with rotary blade guard shield 6 and bearing box 8 on the support 5, bearing box 8 two ends are equipped with watt to close covers 11; Rotary ploughing cutter shaft 7 one ends connect travelling gear casing 1, and the other end is arranged in the bearing box 8, and serial rotary blade 9 is installed on the rotary ploughing cutter shaft 7; Be connected with external frame 4 on the rotary blade guard shield 6, be used for connecting with tractor or sower.

Splined shaft 18 in the described power output gear case 3 is used to connect the power take-off of tractor, active conical gear 16 engagement driven bevel gears 17 on the splined shaft 18, driven bevel gear 17 is installed on the line shaft 15, line shaft 15 is arranged in the connecting tube 2, the driving gear set 13 that is arranged in the travelling gear casing 1 is installed on the line shaft 15, first travelling gear meshes successively downwards and is installed in second on each gear shaft 12, three, four travelling gears, the gear shaft 12 of the 5th travelling gear connects rotary ploughing cutter shaft 7, described rotary ploughing cutter shaft 7, line shaft 15, each axle bearing 10 is installed on splined shaft 18 and each gear shaft 12.

Embodiment 2

Consult Fig. 3, shown in Figure 4, described rotovator left side can connect with support 5 without connecting tube 2 and tie-plate 14, but the gear-box 3 that outputs power is directly installed on the support 5, or is connected with gear-box seat 19 on the support 5, and power output gear case 3 is installed on the gear block 19.All the other structures are with example 1

Claims (9)

1. bidirectional balanced rotovator of right transmission, comprise power output gear case, travelling gear casing, support, rotary blade, rotary ploughing cutter shaft, each power transmission shaft and bearing, serial rotary blade is installed on the rotary ploughing cutter shaft, it is characterized in that described travelling gear casing (1) is arranged on the rotovator right side, power output gear case (3) is arranged on the rotovator left side.

2. the bidirectional balanced rotovator of right transmission according to claim 1 is characterized in that described power output gear case (3) connects with travelling gear casing (1) by connecting tube (2) and tie-plate (14).

3. the bidirectional balanced rotovator of right transmission according to claim 2 is characterized in that described power output gear case (3) connects with support (5) by connecting tube (2) and tie-plate (14).

4. the bidirectional balanced rotovator of right transmission according to claim 1 is characterized in that described support (5) is provided with rotary blade guard shield (6) and bearing box (8), and bearing box (8) two ends are provided with Wa Hegai (11).

5. the bidirectional balanced rotovator of right transmission according to claim 1 is characterized in that described rotary ploughing cutter shaft (7) one ends connect travelling gear casing (1), and the other end is arranged in the bearing box (8), and bearing box (8) two ends are provided with Wa Hegai (11).

6. the bidirectional balanced rotovator of right transmission according to claim 1, it is characterized in that the driven bevel gear (17) on active conical gear (16) the engagement line shaft (15) on the splined shaft (18) in the described power output gear case (3), driving gear set (13) is installed on the line shaft (15), first travelling gear downwards successively engagement be installed on each gear shaft (12) second and third, four travelling gears, the gear shaft (12) of the 5th travelling gear connects rotary ploughing cutter shaft (7).

7. the bidirectional balanced rotovator of right transmission according to claim 1, it is characterized in that described power output gear case (3) is installed on the support (5), or being connected with gear-box seat (19) on the support (5), power output gear case (3) is arranged on the gear block (19).

8. the bidirectional balanced rotovator of right transmission according to claim 6 is characterized in that described line shaft (15) is arranged in the connecting tube (2).

9. the bidirectional balanced rotovator of right transmission according to claim 4 is characterized in that being connected with on the described rotary blade guard shield (6) external frame (4).

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