CN204442942U - A kind of powder ridge header structure - Google Patents

Abstract

The utility model discloses a kind of powder ridge header structure, comprise casing, be positioned at the some drill bits outside described casing, input component and be separately installed with the master driver of drill bit and some from driving member, described input component is partially housed in described casing, and comprise input bevel gear, master driver is installed on described casing, and comprise output bevel gear wheel and take turns coaxial active spur gear with described output bevel gear, described input bevel gear is taken turns with described output bevel gear and engages, and described output bevel gear can be driven rotation is taken turns when input component rotates, described active spur gear with wherein one engage from driving member or engage respectively from driving member with adjacent, and can rotate with described output bevel gear wheel, to drive described somely to rotate from driving member, thus rotate corresponding drill bit.The utility model powder ridge header structure is directly rotated by input bevel gear driving output bevel gear wheel, and initiatively spur gear rotates and rotates with output bevel gear wheel, thus drives described driving member to rotate, and just rotatable described drill bit, structure is simple.

Description

A kind of powder ridge header structure

Technical field

The utility model relates to a kind of farm machinery, particularly relates to a kind of powder ridge header structure.

Background technology

Song Gengji is mainly used in soil, powder ridge of deep ploughing, and can be located on tractor or other walking arrangement.There is a lot of Song Gengji now, be in the patent document of 2012.11.21, disclose a kind of high speed double helix deep ploughing machine as be 201220013529.3 applyings date at application number being 2012.1.13 authorized announcement date, specifically disclose a gearbox and, auger stem and universal shaft coupling device, one end and the gearbox of described Hooks coupling universal coupling are adjacent, described gearbox is connected with described auger stem, equipment dynamic is spread out of by the output shaft of tractor, through Hooks coupling universal coupling the power shaft of power transmission parameter case, pass on main driven bevel pinion by power shaft, driving bevel gear is driven through jackshaft, driving bevel gear is driven through jackshaft, via passive bevel gear, power is passed to auger stem work again, complex structure, and this process uses bevel gear in a large number, increase cost.

Summary of the invention

In view of above content, be necessary to provide a kind of structure simple powder ridge header structure.

A kind of powder ridge header structure, comprise casing, be positioned at the some drill bits outside described casing, input component and be separately installed with the master driver of drill bit and some from driving member, described input component is partially housed in described casing, and comprise input bevel gear, described master driver is installed on described casing, and comprise output bevel gear wheel and take turns coaxial active spur gear with described output bevel gear, described input bevel gear is taken turns with described output bevel gear and engages, and can described output bevel gear be driven to take turns rotation when described input component rotates, described active spur gear with wherein one engage from driving member or engage respectively from driving member with adjacent, and can rotate with described output bevel gear wheel, to drive described somely to rotate from driving member, thus rotate corresponding drill bit.

Preferably, described input component includes power shaft, and described input bevel gear is enclosed within described power shaft one end, and has identical central shaft with described power shaft.

Preferably, described master driver includes final drive shaft, and described output bevel gear wheel and described active spur gear are enclosed within described final drive shaft respectively, and have identical central shaft with described final drive shaft.

Preferably, the central shaft of described input bevel gear is substantially vertical with the central shaft that described output bevel gear is taken turns.

Preferably, each includes driven spur gear from driving member, and described active spur gear engages with a wherein driven spur gear or engages respectively with adjacent driven spur gear and between adjacent driven spur gear.

Preferably, described some driven spur gears from driving member and described active spur gear are on the straight line perpendicular to described input component central shaft and described master driver central shaft.

Preferably, each also includes from power transmission shaft and mounting flange from driving member, and described driven spur gear is positioned at described from power transmission shaft one end, and described mounting flange is positioned at described from the power transmission shaft other end, and in order to fix a drill bit.

Preferably, each drill bit includes adpting flange, drilling rod, drill body and helical blade, and described adpting flange is positioned at described drilling rod one end, and fixes with described mounting flange, described drill body is positioned at the described drilling rod other end, and described helical blade is arranged on the periphery of described drilling rod.

Preferably, described output bevel gear wheel is positioned at the scope of operation side near described drill bit.

Preferably, described powder ridge header structure also includes transition piece, described transition piece adjacent between driving member or adjacent between driving member and master driver.

Compared with prior art, in the header structure of above-mentioned powder ridge, directly rotated by input bevel gear driving output bevel gear wheel, initiatively spur gear rotates and rotates with output bevel gear wheel, thus drives described driving member to rotate, just rotatable corresponding drill bit, realize pulverizing soil, structure is simple.In addition, by bevel gear driving, increase gear torque, be applicable to the occasion that runs up.

Accompanying drawing explanation

Fig. 1 is a three-dimensional assembly diagram of the utility model powder ridge header structure.

Fig. 2 is a three-dimensional exploded view of powder ridge header structure in Fig. 1.

Main element symbol description

Powder ridge header structure	100
		Casing	10
Top board	11
		Through hole	111
Cover plate	12
		Base plate	13
Side plate	15
		Bonnet	16
Header board	17
		Rear plate	19
Sleeve	191
		Reinforced sheet	193
Input component	20
		Power shaft	21

Input bevel gear	23
		Master driver	30
Final drive shaft	31
		Output bevel gear is taken turns	33
Initiatively spur gear	35
		From driving member	40
From power transmission shaft	41
		Driven spur gear	43
Bearing	45、39
		Mounting flange	47、37
Transition piece	50
		Transition axis	51
Transition gear	53
		Drill bit	60
Adpting flange	61
		Drilling rod	63
Drill body	65
		Helical blade	67

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1 and Fig. 2, in a better embodiment of the present utility model, one powder ridge header structure 100, is applied to a pine and ploughs on machine, and includes casing 10, input component 20, master driver 30, some from driving member 40, some transition pieces 50 and some drill bits 60.Described some drill bits 60 plant various crop for powder ridge, as the field of paddy rice, corn, sugarcane, soybean etc. or soil, in the present embodiment, described field or soil are defined as the scope of operation of described some drill bits 60.In the present embodiment, described transition piece 50 is three, and the quantity of described master driver 30 and described some total quantitys from driving member 40 and described some drill bits 60 is suitable.

Described casing 10 includes top board 11, base plate 13, biside plate 15, header board 17 and a rear plate 19.Described top board 11, described base plate 13, described biside plate 15, described header board 17 and described rear plate 19 surround a hexahedron jointly.Described top board 11 is parallel to each other with described base plate 13, and connects described header board 17 and described rear plate 19 respectively.Described biside plate 15 is parallel to each other, and connects described top board 11, described base plate 13, described header board 17 and described rear plate 19 respectively.Described header board 17 and described rear plate 19 are parallel to each other.The corresponding described master driver 30 of described top board 11, describedly somely offer a through hole 111 respectively from driving member 40 and described some transition pieces 50.In the present embodiment, the corresponding described input component 20 of described rear plate 19 offers a sleeve 191, and the surrounding of described sleeve 191 is provided with some leg-of-mutton reinforced sheets 193, and in addition, described sleeve 191 is roughly positioned at the center of described rear plate 19.Described casing 10 also includes some cover plates 12, and described some cover plates 12 are in order to close described some through holes 111.

Described input component 20 is installed in the rear on plate 19, and includes power shaft 21 and an input bevel gear 23.Described power shaft 21 partial receipt is in described sleeve 191, described sleeve 191 is exposed in its one end, to connect a drive system (not shown), this drive system can adopt the forms such as hydraulic pressure, electronic, pneumatic or fluid power to drive described power shaft 21 to rotate.Described input bevel gear 23 is located at other one end of described power shaft 21, and is housed in described casing 10.In the present embodiment, the central shaft of described power shaft 21 overlaps with the central shaft of described input angular wheel 23.Further, when described input component 20 is arranged on after on described casing 10, described casing 10 also includes a bonnet 16, and described bonnet 16 covers described sleeve 193.

Described master driver 30 is arranged in described casing 10, and with wherein one engage from driving member 40 or engage from driving member 40 with adjacent.In the present embodiment, described master driver 30 is positioned at described some centre positions from driving member 40, and both sides have three respectively from driving member 40 relatively.Described master driver 30 includes final drive shaft 31, output bevel gear wheel 33, and takes turns 33 coaxial active spur gear 35, mounting flanges 37 and a bearing 39 with described output bevel gear.Described output bevel gear wheel 33 and described active spur gear 35 are enclosed within the upper end of described final drive shaft 31, and have identical central shaft with described final drive shaft 31.In the present embodiment, described output bevel gear wheel 33 is positioned at the below of described active spur gear 35, namely near the scope of operation side of described drill bit 60.Described bearing 39 is arranged on the centre position of described final drive shaft 31, and described mounting flange 37 is fixed on the lower end of described final drive shaft 31, and in order to fix a drill bit 60.

Described somely have roughly the same structure from driving member 40, and include one respectively from power transmission shaft 41, driven spur gear 43, bearing 45 and a mounting flange 47.Described driven spur gear 43, described bearing 45 and described mounting flange 47 are enclosed within described from power transmission shaft 41 respectively.Described driven spur gear 41 is positioned at the described upper end from power transmission shaft 41, and is positioned at described casing 10 and engages with adjacent driven spur gear 41 or active spur gear 32.Described bearing 45 is positioned at the described centre position from power transmission shaft 41, and is arranged on the base plate 13 of described casing 10, and described mounting flange 47 is arranged on the described lower end from power transmission shaft 41, and is positioned at the lower end of described casing 10.

Please continue to refer to Fig. 2, each transition piece 50 includes transition axis 51 and a transition gear 53.Described transition axis 51 rotates to be installed in described casing 10, and described transition gear 53 is positioned at the upper end of described transition axis 51, and between adjacent one driven spur gear 43 and described active spur gear 32.The diameter of described transition gear 53 is less than the diameter of described driven spur gear 43 and described active spur gear 32.Each transition piece 50 can be arranged on arbitrary neighborhood between driving member 40 or adjacent master driver 30 and wherein from passing between driving member 40, to make adjacent with from driving member 40, there is identical rotation direction from driving member 40 or adjacent master driver 30, and increase adjacent between driving member 40 or adjacent master driver 30 and from the distance between driving member 40, adapt in the process of powder ridge, the structure that in the middle of soil, high both sides are short.In addition, adjacent between driving member 40 or adjacent master driver 30 and wherein can be provided with multiple transition piece 50 from passing between driving member 40, to make adjacent with from driving member 40, there is contrary rotation direction from driving member 40 or adjacent master driver 30, and increase.In the present embodiment, wherein a transition piece 50 one engages from driving member 40 with described master driver 30 respectively with wherein, and other two transition pieces 50 engage each other and engage from driving member 40 and described master driver 30 with other one respectively.

Each drill bit 60 includes adpting flange 61, drilling rod 63, drill body 65 and a helical blade 67.Described adpting flange 61 is locked by screw or welding manner is connected with described mounting flange 47, and is positioned at the upper end of described drilling rod 63.Described drill body 65 is positioned at the lower end of described drilling rod 63, and triangular in shape, cross etc.Described helical blade 67 is located at the periphery of described drilling rod 63, and its lower end is near described drill body 65.Described drilling rod 63 has identical central shaft with described from power transmission shaft 41, and this central shaft is substantially vertical with the central shaft of described power shaft 21.

During use, after described some drill bits 60 stretch into soil, described in described drive systems, power shaft 21 rotates, to rotate described input bevel gear 23.Described input bevel gear 23 is rotated and drives described output bevel gear wheel 33 to rotate, described output bevel gear wheel 33 rotates described final drive shaft 31, described active spur gear 35 rotates with described final drive shaft 31, thus drive described transition gear 53 to rotate, the rotation of described transition gear 53 drives described some driven spur gears 43 from driving member 40 to rotate, and make the driven spur gear 43 of described active spur gear 35 both sides have contrary rotation direction, the moment of torsion to side brought to prevent helical blade 67, described driven spur gear 43 drives and rotates from power transmission shaft 41 accordingly, like this, the power of horizontal direction is become vertical output to described some drill bits 60, described some drill bits 60 obtain the rotating speed be applicable to, to pulverize soil.

Above-mentioned powder ridge header structure 100 is by power shaft 21 and walking arrangement, and the drive system as tractor directly connects, and without the need to changing the structure of casing 10, very convenient.In addition, by cooperatively interacting of described input angular wheel 23 and described output angular wheel 33, increase gear torque, make described some drill bits 60 obtain rotating speed at a high speed, realize soil and pulverize, and structure is simple, cost-saving.

Claims (10)

1. a powder ridge header structure, include casing and be positioned at the some drill bits outside described casing, it is characterized in that: described powder ridge header structure also includes input component and is separately installed with the master driver of described drill bit and some from driving member, described input component is partially housed in described casing, and include input bevel gear, described master driver is installed on described casing, and include output bevel gear wheel and take turns coaxial active spur gear with described output bevel gear, described input bevel gear is taken turns with described output bevel gear and engages, and can described output bevel gear be driven to take turns rotation when described input component rotates, describedly somely be arranged on described casing from driving member, and engage each other, described active spur gear with wherein one engage from driving member or engage respectively from driving member with adjacent, and can rotate with described output bevel gear wheel, to drive described somely to rotate from driving member, thus rotate described drill bit.

2. powder ridge as claimed in claim 1 header structure, it is characterized in that: described input component includes power shaft, described input bevel gear is enclosed within described power shaft one end, and has identical central shaft with described power shaft.

3. powder ridge as claimed in claim 2 header structure, is characterized in that: described master driver includes final drive shaft, and described output bevel gear wheel and described active spur gear are enclosed within described final drive shaft respectively, and have identical central shaft with described final drive shaft.

4. powder ridge as claimed in claim 3 header structure, is characterized in that: the central shaft of described input bevel gear is substantially vertical with the central shaft that described output bevel gear is taken turns.

5. powder ridge as claimed in claim 1 header structure, is characterized in that: each includes driven spur gear from driving member, and described active spur gear engages with a wherein driven spur gear or engages respectively with adjacent driven spur gear and between adjacent driven spur gear.

6. powder ridge as claimed in claim 5 header structure, is characterized in that: described some driven spur gears from driving member and described active spur gear are on the straight line perpendicular to described input component central shaft and described master driver central shaft.

7. powder ridge as claimed in claim 5 header structure, it is characterized in that: each also includes from power transmission shaft and mounting flange from driving member, described driven spur gear is positioned at described from power transmission shaft one end, and described mounting flange is positioned at described from the power transmission shaft other end, and in order to fix a drill bit.

8. powder ridge as claimed in claim 7 header structure, it is characterized in that: each drill bit includes adpting flange, drilling rod, drill body and helical blade, described adpting flange is positioned at described drilling rod one end, and fix with described mounting flange, described drill body is positioned at the described drilling rod other end, and described helical blade is arranged on the periphery of described drilling rod.

9. powder ridge as claimed in claim 1 header structure, is characterized in that: described output bevel gear wheel is positioned at the scope of operation side near described drill bit.

10. powder ridge as claimed in claim 1 header structure, is characterized in that: described powder ridge header structure also includes transition piece, described transition piece adjacent between driving member or adjacent between driving member and master driver.