CN105133597A - Using method for kidney round stirring drilling machine - Google Patents

Abstract

The invention discloses a using method for a kidney round stirring drilling machine. When the kidney round stirring drilling machine works, a motor drives a first drilling rod, a third drilling rod and a fifth drilling rod to positively rotate through a main movable box and drives a second drilling rod and a fourth drilling rod to reversely rotate, so that the five drilling rods drive five drilling bits to carry out rotary cutting and stirring, and a soil body and water are mixed to form slurry; a second movable arm and a fourth movable arm jointly move in a right-and-left manner; first stirring teeth and second stirring teeth on a first movable arm, first stirring teeth and second stirring teeth on a third movable arm, first stirring teeth and second stirring teeth on the second movable arm and first stirring teeth and second stirring teeth on a fourth movable arm cut and stir a soil body outside the five drilling bits and inside the four movable arms so that the soil body and water can be mixed into slurry in the opposite and mutual movement; and the slurry flows out of a kidney round hole, and in the downward pushing process of a main drilling rod, the kidney round hole is formed.

Description

A kind of usage of oval agitation driller

Technical field

The present invention relates to a kind of agitation driller, a kind of usage of the oval agitation driller particularly applied in a kind of building foundation engineering.

Background technology

At present, oval agitation driller can only be used for manufacturing oval stirring concrete earth pile.

Summary of the invention

The present invention compensate for above shortcoming, provides a kind of a kind of usage of oval agitation driller.

The present invention is achieved through the following technical solutions:

A kind of oval agitation driller, main motor lower end, fixed electrical machinery upper end, bar lower end of creeping into is provided with total dynamic case, total dynamic case lower end is provided with side by side and creeps into bar one, creeps into bar two, creeps into bar three, creeps into bar four, creeps into bar five, and the lower end of the bar five that creeps into bar one, creeps into bar two, creeps into bar three, creeps into bar four, creeps into is respectively equipped with one and creeps into head; The right-hand member of transverse arm one and the left end of transverse arm two are individually fixed in master and creep into bar; Total dynamic case front left part is provided with a driving-disc one, eccentric fixing axis body one on driving-disc one, axis body one is located in square box one, the lower end of trailing arm one is fixed in the upper end of square box one, the left front portion of the upper end thereof transverse arm one of upper trailing arm one, the upper end of lower trailing arm one is fixed in the lower end of square box one, and swing arm one is fixed in the lower end of lower trailing arm one; Total dynamic case back left part is provided with a driving-disc three, eccentric fixing axis body three on driving-disc three, axis body three is located in square box three, the lower end of trailing arm three is fixed in the upper end of square box three, the left back portion of the upper end thereof transverse arm one of upper trailing arm three, the upper end of lower trailing arm three is fixed in the lower end of square box three, and swing arm three is fixed in the lower end of lower trailing arm three; Total dynamic case front right part is provided with a driving-disc two, eccentric fixing axis body two on driving-disc two, axis body two is located in square box two, the lower end of trailing arm two is fixed in the upper end of square box two, the right front portion of the upper end thereof transverse arm two of upper trailing arm two, the upper end of lower trailing arm two is fixed in the lower end of square box two, and swing arm two is fixed in the lower end of lower trailing arm two; Total dynamic case back right part is provided with a driving-disc four, eccentric fixing axis body four on driving-disc four, axis body four is located in square box four, the lower end of trailing arm four is fixed in the upper end of square box four, the right back portion of the upper end thereof transverse arm two of upper trailing arm four, the upper end of lower trailing arm four is fixed in the lower end of square box four, and swing arm four is fixed in the lower end of lower trailing arm four; Swing arm one and swing arm three are fixed together by two link arms, and the lower end of swing arm one and the lower end of swing arm three are fixed respectively and multiplely stirred tooth one, and swing arm one is provided with to the direction of swing arm three and multiplely stirs tooth two, and the direction of swing arm three-dimensional swing arm one is provided with multiplely stirs tooth two; Swing arm two and swing arm four are fixed together by two link arms, and the lower end of swing arm two and the lower end of swing arm four are fixed respectively and multiplely stirred tooth one, and swing arm two is provided with to the direction of swing arm four and multiplely stirs tooth two, and the direction of swing arm four-way swing arm two is provided with multiplely stirs tooth two.

A kind of a kind of usage of oval agitation driller, during the work of oval agitation driller, motor is driven by total dynamic case and creeps into bar one, creeps into bar three, creeps into bar five rotating forward, driving is crept into bar two, is crept into bar four reversion, creeps into bar thus drive five to creep into rotary cutting respectively to stir the soil body and water are mixed into mud by five; Motor drives driving-disc one and driving-disc three synchronously to rotate forward by total dynamic case, drives driving-disc two and driving-disc four synchronously to reverse; Driving-disc one drives axis body one rotation in rotation process, axis body one stirs square box one in rotation process, pass through on trailing arm one, lower trailing arm one drive swing arm one side-to-side movement, driving-disc three drives axis body three rotation in rotation process, axis body three stirs square box three in rotation process, pass through on trailing arm three, lower trailing arm three drive swing arm three side-to-side movement, because swing arm one and swing arm three are linked together by two link arms, thus, swing arm one side-to-side movement together with swing arm three; Driving-disc two drives axis body two rotation in rotation process, axis body two stirs square box two in rotation process, pass through on trailing arm two, lower trailing arm two drive the right left movement of swing arm two, driving-disc four drives axis body four rotation in rotation process, axis body four stirs square box four in rotation process, pass through on trailing arm four, lower trailing arm four drive the right left movement of swing arm four, because swing arm two and swing arm four are linked together by two link arms, thus, swing arm two right left movement together with swing arm four; Stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir tooth two the soil cutting crept into beyond head, within four swing arms stirs the soil body and water are mixed into mud by five in motion in opposite directions, mutually on tooth two and swing arm four on tooth two and swing arm two on tooth two and swing arm three on swing arm one, mud flows out from oval hole, and master creeps into bar and form oval hole in downward progradation.

The present invention has following feature:

In opposite directions, mutually, be synchronized with the movement, in opposite directions, mutually, be synchronized with the movement, thus, four swing arms mutually balance the active force of the soil body in motion process for swing arm three and swing arm four for swing arm of the present invention one and swing arm two.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention is further illustrated:

Fig. 1 is front elevation drawing of the present invention;

Fig. 2 is rear elevation of the present invention;

Fig. 3 is A-A view of Fig. 1;

Fig. 4 is B-B view of Fig. 1;

Fig. 5 is C-C view of Fig. 1.

In figure: 1, master creeps into bar, 2, motor, 3, total dynamic case, 4, transverse arm one, 5, transverse arm two, 6, upper trailing arm one, 7, upper trailing arm two, 8, square box one, 9, square box two, 10, driving-disc one, 11, driving-disc two, 12, axis body one, 13, axis body two, 14, lower trailing arm one, 15, lower trailing arm two, 16, swing arm one, 17, swing arm two, 18, stir tooth one, 19, creep into bar one, 20, creep into bar two, 21, creep into bar three, 22, creep into bar four, 23, creep into bar five, 24, creep into head, 25, upper trailing arm three, 26, upper trailing arm four, 27, square box three, 28, square box four, 29, driving-disc three, 30, driving-disc four, 31, axis body three, 32, axis body four, 33, lower trailing arm three, 34, lower trailing arm four, 35, swing arm three, 36, swing arm four, 37, link arm, 38, stir tooth two.

Detailed description of the invention

Accompanying drawing is a kind of specific embodiment of the present invention, this embodiment master creeps into fixed electrical machinery 2 upper end, bar 1 lower end, motor lower end is provided with total dynamic, 3, total dynamic case lower end is provided with side by side and creeps into bar 1, creeps into bar 2 20, creeps into bar 3 21, creeps into bar 4 22, creeps into bar 5 23, and the lower end of the bar five that creeps into bar one, creeps into bar two, creeps into bar three, creeps into bar four, creeps into is respectively equipped with one and creeps into 24; The right-hand member of transverse arm one and the left end of transverse arm two are individually fixed in master and creep into bar; Total dynamic case front left part is provided with a driving-disc 1, eccentric fixing axis body 1 on driving-disc one, axis body one is located in square box 1, the lower end of trailing arm 1 is fixed in the upper end of square box one, the left front portion of the upper end thereof transverse arm 1 of upper trailing arm one, the upper end of lower trailing arm 1 is fixed in the lower end of square box one, and swing arm 1 is fixed in the lower end of lower trailing arm one; Total dynamic case back left part is provided with a driving-disc 3 29, eccentric fixing axis body 3 31 on driving-disc three, axis body three is located in square box 3 27, the lower end of trailing arm 3 25 is fixed in the upper end of square box three, the left back portion of the upper end thereof transverse arm 1 of upper trailing arm three, the upper end of lower trailing arm 3 33 is fixed in the lower end of square box three, and swing arm 3 35 is fixed in the lower end of lower trailing arm three; Total dynamic case front right part is provided with a driving-disc 2 11, eccentric fixing axis body 2 13 on driving-disc two, axis body two is located in square box 29, the lower end of trailing arm 27 is fixed in the upper end of square box two, the right front portion of the upper end thereof transverse arm 25 of upper trailing arm two, the upper end of lower trailing arm 2 15 is fixed in the lower end of square box two, and swing arm 2 17 is fixed in the lower end of lower trailing arm two; Total dynamic case back right part is provided with a driving-disc 4 30, eccentric fixing axis body 4 32 on driving-disc four, axis body four is located in square box 4 28, the lower end of trailing arm 4 26 is fixed in the upper end of square box four, the right back portion of the upper end thereof transverse arm 25 of upper trailing arm four, the upper end of lower trailing arm 4 34 is fixed in the lower end of square box four, and swing arm 4 36 is fixed in the lower end of lower trailing arm four; Swing arm one and swing arm three are fixed together by two link arms 37, the lower end of swing arm one and the lower end of swing arm three are fixed respectively and are multiplely stirred tooth 1, swing arm one is provided with to the direction of swing arm three and multiplely stirs tooth 2 38, and the direction of swing arm three-dimensional swing arm one is provided with multiplely stirs tooth two; Swing arm two and swing arm four are fixed together by two link arms, and the lower end of swing arm two and the lower end of swing arm four are fixed respectively and multiplely stirred tooth one, and swing arm two is provided with to the direction of swing arm four and multiplely stirs tooth two, and the direction of swing arm four-way swing arm two is provided with multiplely stirs tooth two.

The present invention is also provided with water under high pressure feedway, feedway supplies water under high pressure respectively to each head that creeps into, during work, motor is driven by total dynamic case and creeps into bar one, creeps into bar three, creeps into bar five rotating forward, driving is crept into bar two, is crept into bar four reversion, creeps into bar thus drive five to creep into rotary cutting respectively to stir the soil body and water are mixed into mud by five; Motor drives driving-disc one and driving-disc three synchronously to rotate forward by total dynamic case, drives driving-disc two and driving-disc four synchronously to reverse; Driving-disc one drives axis body one rotation in rotation process, axis body one stirs square box one in rotation process, pass through on trailing arm one, lower trailing arm one drive swing arm one side-to-side movement, driving-disc three drives axis body three rotation in rotation process, axis body three stirs square box three in rotation process, pass through on trailing arm three, lower trailing arm three drive swing arm three side-to-side movement, because swing arm one and swing arm three are linked together by two link arms, thus, swing arm one side-to-side movement together with swing arm three; Driving-disc two drives axis body two rotation in rotation process, axis body two stirs square box two in rotation process, pass through on trailing arm two, lower trailing arm two drive the right left movement of swing arm two, driving-disc four drives axis body four rotation in rotation process, axis body four stirs square box four in rotation process, pass through on trailing arm four, lower trailing arm four drive the right left movement of swing arm four, because swing arm two and swing arm four are linked together by two link arms, thus, swing arm two right left movement together with swing arm four; Stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir tooth two the soil cutting crept into beyond head, within four swing arms stirs the soil body and water are mixed into mud by five in motion in opposite directions, mutually on tooth two and swing arm four on tooth two and swing arm two on tooth two and swing arm three on swing arm one, mud flows out from oval hole, and master creeps into bar and form oval hole in downward progradation.

Swing arm one and swing arm two are in opposite directions, mutually, be synchronized with the movement.

Swing arm three and swing arm four are in opposite directions, mutually, be synchronized with the movement.

Claims (3)

1. a kind of usage of an oval agitation driller, master creeps into fixed electrical machinery (2) upper end, bar (1) lower end, motor lower end is provided with total dynamic case (3), total dynamic case lower end is provided with side by side and creeps into bar one (19), creeps into bar two (20), creeps into bar three (21), creeps into bar four (22), creeps into bar five (23), and the lower end of the bar five that creeps into bar one, creeps into bar two, creeps into bar three, creeps into bar four, creeps into is respectively equipped with one and creeps into head (24); The right-hand member of transverse arm one and the left end of transverse arm two are individually fixed in master and creep into bar; Total dynamic case front left part is provided with a driving-disc one (10), eccentric fixing axis body one (12) on driving-disc one, axis body one is located in square box one (8), the lower end of trailing arm one (6) is fixed in the upper end of square box one, the left front portion of the upper end thereof transverse arm one (4) of upper trailing arm one, the upper end of lower trailing arm one (14) is fixed in the lower end of square box one, and swing arm one (16) is fixed in the lower end of lower trailing arm one; Total dynamic case back left part is provided with a driving-disc three (29), eccentric fixing axis body three (31) on driving-disc three, axis body three is located in square box three (27), the lower end of trailing arm three (25) is fixed in the upper end of square box three, the left back portion of the upper end thereof transverse arm one (4) of upper trailing arm three, the upper end of lower trailing arm three (33) is fixed in the lower end of square box three, and swing arm three (35) is fixed in the lower end of lower trailing arm three; Total dynamic case front right part is provided with a driving-disc two (11), eccentric fixing axis body two (13) on driving-disc two, axis body two is located in square box two (9), the lower end of trailing arm two (7) is fixed in the upper end of square box two, the right front portion of the upper end thereof transverse arm two (5) of upper trailing arm two, the upper end of lower trailing arm two (15) is fixed in the lower end of square box two, and swing arm two (17) is fixed in the lower end of lower trailing arm two; Total dynamic case back right part is provided with a driving-disc four (30), eccentric fixing axis body four (32) on driving-disc four, axis body four is located in square box four (28), the lower end of trailing arm four (26) is fixed in the upper end of square box four, the right back portion of the upper end thereof transverse arm two (5) of upper trailing arm four, the upper end of lower trailing arm four (34) is fixed in the lower end of square box four, and swing arm four (36) is fixed in the lower end of lower trailing arm four; Swing arm one and swing arm three are fixed together by two link arms (37), the lower end of swing arm one and the lower end of swing arm three are fixed respectively and are multiplely stirred tooth one (18), swing arm one is provided with to the direction of swing arm three and multiplely stirs tooth 2 38, and the direction of swing arm three-dimensional swing arm one is provided with multiplely stirs tooth two; Swing arm two and swing arm four are fixed together by two link arms, and the lower end of swing arm two and the lower end of swing arm four are fixed respectively and multiplely stirred tooth one, and swing arm two is provided with to the direction of swing arm four and multiplely stirs tooth two, and the direction of swing arm four-way swing arm two is provided with multiplely stirs tooth two; It is characterized in that: oval agitation driller is also provided with water under high pressure feedway, feedway supplies water under high pressure respectively to each head that creeps into, during work, motor is driven by total dynamic case and creeps into bar one, creeps into bar three, creeps into bar five rotating forward, driving is crept into bar two, is crept into bar four reversion, creeps into bar thus drive five to creep into rotary cutting respectively to stir the soil body and water are mixed into mud by five; Motor drives driving-disc one and driving-disc three synchronously to rotate forward by total dynamic case, drives driving-disc two and driving-disc four synchronously to reverse; Driving-disc one drives axis body one rotation in rotation process, axis body one stirs square box one in rotation process, pass through on trailing arm one, lower trailing arm one drive swing arm one side-to-side movement, driving-disc three drives axis body three rotation in rotation process, axis body three stirs square box three in rotation process, pass through on trailing arm three, lower trailing arm three drive swing arm three side-to-side movement, because swing arm one and swing arm three are linked together by two link arms, thus, swing arm one side-to-side movement together with swing arm three; Driving-disc two drives axis body two rotation in rotation process, axis body two stirs square box two in rotation process, pass through on trailing arm two, lower trailing arm two drive the right left movement of swing arm two, driving-disc four drives axis body four rotation in rotation process, axis body four stirs square box four in rotation process, pass through on trailing arm four, lower trailing arm four drive the right left movement of swing arm four, because swing arm two and swing arm four are linked together by two link arms, thus, swing arm two right left movement together with swing arm four; Stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir stirring tooth one, stir tooth two the soil cutting crept into beyond head, within four swing arms stirs the soil body and water are mixed into mud by five in motion in opposite directions, mutually on tooth two and swing arm four on tooth two and swing arm two on tooth two and swing arm three on swing arm one, mud flows out from oval hole, and master creeps into bar and form oval hole in downward progradation.

2. oval agitation driller according to claim 1, is characterized in that: swing arm one and swing arm two are in opposite directions, mutually, be synchronized with the movement.

3. oval agitation driller according to claim 1, is characterized in that: swing arm three and swing arm four are in opposite directions, mutually, be synchronized with the movement.