H
A kind of usage of shape mixing pile equipment
Technical field
The present invention relates to a kind of mixing pile equipment, a kind of usage of the H-shaped mixing pile equipment of application in a kind of building foundation engineering.
Background technology
At present, in building foundation engineering, the H-shaped mixing pile equipment of application is only used for manufacturing cement mixing method.
Summary of the invention
The present invention compensate for disadvantage mentioned above, it is provided that a kind of usage of a kind of H-shaped mixing pile equipment.
The present invention is achieved through the following technical solutions:
A kind of H-shaped mixing pile equipment, fixed motor upper end, mobile jib lower end, motor lower end is provided with driving box, the output of driving box lower end shaft one, shaft two, shaft three, shaft four, shaft five, shaft six, shaft one lower end is provided with stirring drill bit one, and shaft two lower end is provided with stirring drill bit two, shaft three lower end is provided with stirring drill bit three, shaft four lower end is provided with stirring drill bit four, and shaft five lower end is provided with stirring drill bit five, and shaft six lower end is provided with stirring drill bit six;The right-hand member of cross bar one and the left end of cross bar two are individually fixed in mobile jib;Driving box front left part is provided with a wheel circle one, on wheel circle one, bias is fixed with outrigger shaft one, outrigger shaft one inserts in the frame of little square frame one, the upper end of little square frame one is fixed with long armstand one, the left front portion of the upper end thereof cross bar one of long armstand one, the lower end of little square frame one is fixed with short armstand one, and the front portion of big square frame one is fixed in the lower end of short armstand one;Driving box back left part is provided with a wheel circle three, on wheel circle three, bias is fixed with outrigger shaft three, outrigger shaft three inserts in the frame of little square frame three, the upper end of little square frame three is fixed with long armstand three, the left back portion of the upper end thereof cross bar one of long armstand three, the lower end of little square frame three is fixed with short armstand three, and the rear portion of big square frame one is fixed in the lower end of short armstand three;Driving box front right part is provided with a wheel circle two, on wheel circle two, bias is fixed with outrigger shaft two, outrigger shaft two inserts in the frame of little square frame two, the upper end of little square frame two is fixed with long armstand two, the right front portion of the upper end thereof cross bar two of long armstand two, the lower end of little square frame two is fixed with short armstand two, and the front portion of big square frame two is fixed in the lower end of short armstand two;Driving box back right part is provided with a wheel circle four, on wheel circle four, bias is fixed with outrigger shaft four, outrigger shaft four inserts in the frame of little square frame four, the upper end of little square frame four is fixed with long armstand four, the right rear portion of the upper end thereof cross bar two of long armstand four, the lower end of little square frame four is fixed with short armstand four, and the rear portion of big square frame two is fixed in the lower end of short armstand four;Fixing a mixing arm respectively before and after the right part of big square frame one, these two mixing arms are respectively equipped with multiple cutter tooth two to the direction of shaft two, and the bottom of these two mixing arms is respectively equipped with multiple cutter tooth one;Fixing a mixing arm respectively before and after the left part of big square frame two, these two mixing arms are respectively equipped with multiple cutter tooth two to the direction of shaft three, and the bottom of these two mixing arms is respectively equipped with multiple cutter tooth one;Being provided with multiple cutter tooth two inside the framework of big square frame one, the framework bottom of big square frame one is provided with multiple cutter tooth one;Being provided with multiple cutter tooth two inside the framework of big square frame two, the framework bottom of big square frame two is provided with multiple cutter tooth one.
A kind of a kind of usage of H-shaped mixing pile equipment, H-shaped mixing pile equipment is additionally provided with water under high pressure device for casting, device for casting irrigates water under high pressure respectively to each stirring-head, during work, motor drives shaft one by driving box, shaft two, shaft four rotates forward, motor drives shaft three by driving box, shaft five, shaft six inverts, stirring drill bit one is driven from there through shaft one, stirring drill bit two is driven by shaft two, stirring drill bit three is driven by shaft three, stirring drill bit four is driven by shaft four, stirring drill bit five is driven by shaft five, stirring drill bit six circumgyration incision stirring soil layer respectively is driven by shaft six, the soil cut down is stirred into mud;Motor is rotated by driving box driving wheel circle one and wheel circle three synchronization positive direction, and driving wheel circle two and wheel circle four synchronization opposite direction rotate;Wheel circle one drives outrigger shaft one to rotate with the center of circle of wheel circle one for the center of circle in rotary course, and outrigger shaft one is stirred little square frame one in eccentric rotary and driven the side-to-side movement of big square frame one by long armstand one, short armstand one;Wheel circle three drives outrigger shaft three to rotate with the center of circle of wheel circle three for the center of circle in rotary course, and outrigger shaft three stirs the little long armstand of square frame threeway three in eccentric rotary, short armstand three drives the side-to-side movement of big square frame one;Wheel circle two drives outrigger shaft two to rotate with the center of circle of wheel circle two for the center of circle in rotary course, and outrigger shaft two stirs the little long armstand of square frame two-way two in eccentric rotary, short armstand two drives the big right left movement of square frame two;Wheel circle four drives outrigger shaft four to rotate with the center of circle of wheel circle four for the center of circle in rotary course, and outrigger shaft four stirs the little long armstand of square frame four-way four in eccentric rotary, short armstand four drives the big right left movement of square frame two;Thus, two mixing arms on big square frame one, big square frame one form synchronization with two mixing arms on big square frame two, big square frame two, move leftwards and rightwards mutually;The soil cut down by the soil layer cutting stirring beyond stirring drill bit one, stirring drill bit five, within big square frame one, is stirred into mud by cutter tooth one, cutter tooth two on big square frame one at the volley;The soil cut down by the soil layer cutting stirring beyond stirring drill bit four, stirring drill bit six, within big square frame two, is stirred into mud by cutter tooth one, cutter tooth two on big square frame two at the volley;Soil layer cutting beyond stirring drill bit two, stirring drill bit three, within four mixing arms is stirred by cutter tooth one, cutter tooth two on four mixing arms at the volley, the soil cut down is stirred into mud, mud flows out from hole, and mobile jib forms H-shaped hole during being pressed into downwards.
The present invention has a following feature:
The soil cut down by the soil layer cutting stirring beyond stirring drill bit one, stirring drill bit five, within big square frame one, is stirred into mud by cutter tooth one, cutter tooth two on the big square frame of the present invention one at the volley;The soil cut down by the soil layer cutting stirring beyond stirring drill bit four, stirring drill bit six, within big square frame two, is stirred into mud by cutter tooth one, cutter tooth two on big square frame two at the volley;Soil layer cutting beyond stirring drill bit two, stirring drill bit three, within four mixing arms is stirred by cutter tooth one, cutter tooth two on four mixing arms at the volley, the soil cut down is stirred into mud, mud flows out from hole, and mobile jib forms H-shaped hole during being pressed into downwards.
Accompanying drawing explanation
The present invention is further illustrated below in conjunction with the accompanying drawings:
Fig. 1 is the front view of the present invention;
Fig. 2 is the rearview of the present invention;
Fig. 3 is the A A view of Fig. 1;
Fig. 4 is the B B view of Fig. 1;
Fig. 5 is the C C view of Fig. 1.
nullIn figure: 1、Mobile jib,2、Motor,3、Driving box,4、Cross bar one,5、Cross bar two,6、Long armstand one,7、Long armstand two,8、Little square frame one,9、Little square frame two,10、Wheel circle one,11、Wheel circle two,12、Outrigger shaft one,13、Outrigger shaft two,14、Short armstand one,15、Short armstand two,16、Big square frame one,17、Big square frame two,18、Cutter tooth one,19、Shaft one,20、Shaft two,21、Shaft three,22、Shaft four,23、Stirring drill bit one,24、Stirring drill bit two,25、Stirring drill bit three,26、Stirring drill bit four,27、Long armstand three,28、Long armstand four,29、Little square frame three,30、Little square frame four,31、Wheel circle three,32、Wheel circle four,33、Outrigger shaft three,34、Outrigger shaft four,35、Short armstand three,36、Short armstand four,37、Shaft five,38、Shaft six,39、Stirring drill bit five,40、Stirring drill bit six,41、Mixing arm,42、Cutter tooth two.
Detailed description of the invention
Accompanying drawing is a kind of specific embodiment of the present invention, this fixed motor 2 upper end, embodiment mobile jib 1 lower end, motor lower end is provided with driving box 3, driving box lower end output shaft 1, shaft 2 20, shaft 3 21, shaft 4 22, shaft 5 37, shaft 6 38, shaft one lower end is provided with stirring drill bit 1, shaft two lower end is provided with stirring drill bit 2 24, shaft three lower end is provided with stirring drill bit 3 25, shaft four lower end is provided with stirring drill bit 4 26, shaft five lower end is provided with stirring drill bit 5 39, shaft six lower end is provided with stirring drill bit 6 40;The right-hand member of cross bar one and the left end of cross bar two are individually fixed in mobile jib;Driving box front left part is provided with a wheel circle 1, on wheel circle one, bias is fixed with outrigger shaft 1, outrigger shaft one inserts in the frame of little square frame 1, the upper end of little square frame one is fixed with long armstand 1, the left front portion of the upper end thereof cross bar 1 of long armstand one, the lower end of little square frame one is fixed with short armstand 1, and the front portion of big square frame 1 is fixed in the lower end of short armstand one;Driving box back left part is provided with a wheel circle 3 31, on wheel circle three, bias is fixed with outrigger shaft 3 33, outrigger shaft three inserts in the frame of little square frame 3 29, the upper end of little square frame three is fixed with long armstand 3 27, the left back portion of the upper end thereof cross bar one of long armstand three, the lower end of little square frame three is fixed with short armstand 3 35, and the rear portion of big square frame 1 is fixed in the lower end of short armstand three;Driving box front right part is provided with a wheel circle 2 11, on wheel circle two, bias is fixed with outrigger shaft 2 13, outrigger shaft two inserts in the frame of little square frame 29, the upper end of little square frame two is fixed with long armstand 27, the right front portion of the upper end thereof cross bar 25 of long armstand two, the lower end of little square frame two is fixed with short armstand 2 15, and the front portion of big square frame 2 17 is fixed in the lower end of short armstand two;Driving box back right part is provided with a wheel circle 4 32, on wheel circle four, bias is fixed with outrigger shaft 4 34, outrigger shaft four inserts in the frame of little square frame 4 30, the upper end of little square frame four is fixed with long armstand 4 28, the right rear portion of the upper end thereof cross bar 25 of long armstand four, the lower end of little square frame four is fixed with short armstand 4 36, and the rear portion of big square frame 2 17 is fixed in the lower end of short armstand four;Fixing a mixing arm 41 respectively before and after the right part of big square frame one, these two mixing arms are respectively equipped with multiple cutter tooth 2 42 to the direction of shaft two, and the bottom of these two mixing arms is respectively equipped with multiple cutter tooth 1;Fixing a mixing arm respectively before and after the left part of big square frame two, these two mixing arms are respectively equipped with multiple cutter tooth two to the direction of shaft three, and the bottom of these two mixing arms is respectively equipped with multiple cutter tooth one;Being provided with multiple cutter tooth two inside the framework of big square frame one, the framework bottom of big square frame one is provided with multiple cutter tooth one;Being provided with multiple cutter tooth two inside the framework of big square frame two, the framework bottom of big square frame two is provided with multiple cutter tooth one.
Described shaft one is arranged at the front end within big square frame one.
Described shaft five is arranged at the rear end within big square frame one.
Described shaft four is arranged at the front end within big square frame two.
Described shaft six is arranged at the rear end within big square frame two.
Described shaft two is arranged between two mixing arms on big square frame one.
Described shaft three is arranged between two mixing arms on big square frame two.
The present invention is additionally provided with water under high pressure device for casting, device for casting irrigates water under high pressure respectively to each stirring-head, during work, motor drives shaft one by driving box, shaft two, shaft four rotates forward, motor drives shaft three by driving box, shaft five, shaft six inverts, stirring drill bit one is driven from there through shaft one, stirring drill bit two is driven by shaft two, stirring drill bit three is driven by shaft three, stirring drill bit four is driven by shaft four, stirring drill bit five is driven by shaft five, stirring drill bit six circumgyration incision stirring soil layer respectively is driven by shaft six, the soil cut down is stirred into mud;Motor is rotated by driving box driving wheel circle one and wheel circle three synchronization positive direction, and driving wheel circle two and wheel circle four synchronization opposite direction rotate;Wheel circle one drives outrigger shaft one to rotate with the center of circle of wheel circle one for the center of circle in rotary course, and outrigger shaft one is stirred little square frame one in eccentric rotary and driven the side-to-side movement of big square frame one by long armstand one, short armstand one;Wheel circle three drives outrigger shaft three to rotate with the center of circle of wheel circle three for the center of circle in rotary course, and outrigger shaft three stirs the little long armstand of square frame threeway three in eccentric rotary, short armstand three drives the side-to-side movement of big square frame one;Wheel circle two drives outrigger shaft two to rotate with the center of circle of wheel circle two for the center of circle in rotary course, and outrigger shaft two stirs the little long armstand of square frame two-way two in eccentric rotary, short armstand two drives the big right left movement of square frame two;Wheel circle four drives outrigger shaft four to rotate with the center of circle of wheel circle four for the center of circle in rotary course, and outrigger shaft four stirs the little long armstand of square frame four-way four in eccentric rotary, short armstand four drives the big right left movement of square frame two;Thus, two mixing arms on big square frame one, big square frame one form synchronization with two mixing arms on big square frame two, big square frame two, move leftwards and rightwards mutually;The soil cut down by the soil layer cutting stirring beyond stirring drill bit one, stirring drill bit five, within big square frame one, is stirred into mud by cutter tooth one, cutter tooth two on big square frame one at the volley;The soil cut down by the soil layer cutting stirring beyond stirring drill bit four, stirring drill bit six, within big square frame two, is stirred into mud by cutter tooth one, cutter tooth two on big square frame two at the volley;Soil layer cutting beyond stirring drill bit two, stirring drill bit three, within four mixing arms is stirred by cutter tooth one, cutter tooth two on four mixing arms at the volley, the soil cut down is stirred into mud, mud flows out from hole, and mobile jib forms H-shaped hole during being pressed into downwards.