CN105649049A - V-shaped connection pile stirring drilling machine - Google Patents

Abstract

The invention discloses a V-shaped connection pile stirring drilling machine. In the downward pressing process of a pressure rod, an H-shaped hole with two convex V shapes at the left end and two concave V shapes at the right end is formed, concrete is poured in the hole, and then an H-shaped concrete connection pile with two convex V shapes at the left end and two concave V shapes at the right end is formed. Another H-shaped connection pile is manufactured on the right side of the H-shaped connection pile at the interval of one H-shaped connection pile with the above method. A plurality of H-shaped connection piles are manufactured at the interval of one H-shaped connection pile with the above method. When the strength of the H-shaped connection piles on the two sides reaches a certain degree, one H-shaped connection pile is formed at the interval, and accordingly a plurality of H-shaped concrete connection piles in mutual V-shaped connection are formed for seepage preventing of a building foundation.

Description

V Y joint stake agitation driller

Technical field

The present invention relates in a kind of agitation driller, particularly a kind of building foundation engineering the V Y joint stake agitation driller used.

Background technology

At present, the V Y joint stake agitation driller used in building foundation engineering can only make the H cement-soil pile of mutual V Y joint.

Summary of the invention

The present invention compensate for above shortcoming, it provides the V Y joint stake agitation driller of a kind of H concrete pile that can manufacture mutual V Y joint.

The present invention is achieved through the following technical solutions:

A kind of V Y joint stake agitation driller, anterior cross bar one, the cross bar two at rear portion and the cross bar three of centre are fixed together, form a H-shaped framework, cross bar three middle upper portion is fixed with mobile jib, cross bar three middle lower portion is fixed with armstand seven, armstand seven times ends are fixed with electric motor, the lower end of electric motor is fixed with driving mechanism seven, the lower end in the centre of cross bar one is fixed with armstand one, the lower end of armstand one is fixed with driving mechanism one, the left end bottom of cross bar one is fixed with armstand two, the lower end of armstand two is fixed with driving mechanism two, the right-hand member bottom of cross bar one is fixed with armstand three, the lower end of armstand three is fixed with driving mechanism three, the lower end in the centre of cross bar two is fixed with armstand four, the lower end of armstand four is fixed with driving mechanism four, the left end bottom of cross bar two is fixed with armstand five, the lower end of armstand five is fixed with driving mechanism five, the right-hand member bottom of cross bar two is fixed with armstand six, the lower end of armstand six is fixed with driving mechanism six, the lower end of driving mechanism one, driving mechanism two, driving mechanism three, driving mechanism four, driving mechanism five, driving mechanism six, driving mechanism seven is respectively equipped with a drilling rod, and the lower end of each drilling rod is respectively equipped with a drill bit, between driving mechanism one and driving mechanism three, between driving mechanism one and driving mechanism two, between driving mechanism one and driving mechanism seven, between driving mechanism four and driving mechanism five, between driving mechanism four and driving mechanism six, between driving mechanism four and driving mechanism seven, it is respectively equipped with a rotary-cut axle one, a fixing arm is fixed on the middle both sides of every rotary-cut axle one respectively, and the outer end of each fixing arm fixes a rotary-cut cutter respectively, the right back portion of driving mechanism three and right front portion export a rotary-cut axle two respectively, and the right back portion of driving mechanism six and right front portion also export a rotary-cut axle two respectively, and it is first that the right-hand member of each rotary-cut axle two fixes a taper respectively, the left end of driving mechanism two and the left end of driving mechanism five export a rotary-cut axle three respectively, and the left end of each rotary-cut axle three fixes a taper two respectively.

The present invention has following feature:

The present invention can manufacture the H-shaped concrete pile wall of mutual V Y joint, for gear soil, the antiseep of building foundation.

Accompanying drawing explanation

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

Fig. 1 is the front view of the present invention;

Fig. 2 is the reverse view of the present invention;

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

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

Fig. 5 is the C-C direction view of Fig. 1;

Fig. 6 is the joint figure of multiple joint stake.

In figure: 1, press rods, 2, electric motor, 3, driving mechanism one, 4, driving mechanism two, 5, driving mechanism three, 6, cross bar one, 7, armstand one, 8, rotary-cut axle one, 9, rotary-cut cutter, 10, armstand two, 11, armstand three, 12, drilling rod, 13, drill bit, 14, rotary-cut axle two, 15, taper is first, 16, armstand seven, 17, driving mechanism seven, 18, cross bar two, 19, armstand four, 20, armstand five, 21, armstand six, 22, driving mechanism four, 23, driving mechanism five, 24, driving mechanism six, 25, fixing arm, 26, cross bar three, 27, rotary-cut axle three, 28, taper two.

Embodiment

Accompanying drawing is a kind of specific embodiment of the present invention, the cross bar 1 of this embodiment front portion, the cross bar 2 18 at rear portion and the cross bar 3 26 of centre are fixed together, form a H-shaped framework, cross bar three middle upper portion is fixed with press rods 1, cross bar three middle lower portion is fixed with armstand 7 16, armstand seven times ends are fixed with electric motor 2, the lower end of electric motor is fixed with driving mechanism 7 17, the lower end in the centre of cross bar one is fixed with armstand 1, the lower end of armstand one is fixed with driving mechanism 1, the left end bottom of cross bar one is fixed with armstand 2 10, the lower end of armstand two is fixed with driving mechanism 24, the right-hand member bottom of cross bar one is fixed with armstand 3 11, the lower end of armstand three is fixed with driving mechanism 35, the lower end in the centre of cross bar two is fixed with armstand 4 19, the lower end of armstand four is fixed with driving mechanism 4 22, the left end bottom of cross bar two is fixed with armstand 5 20, the lower end of armstand five is fixed with driving mechanism 5 23, the right-hand member bottom of cross bar two is fixed with armstand 6 21, the lower end of armstand six is fixed with driving mechanism 6 24, the lower end of driving mechanism one, driving mechanism two, driving mechanism three, driving mechanism four, driving mechanism five, driving mechanism six, driving mechanism seven is respectively equipped with a drilling rod 12, and the lower end of each drilling rod is respectively equipped with a drill bit 13, between driving mechanism one and driving mechanism three, between driving mechanism one and driving mechanism two, between driving mechanism one and driving mechanism seven, between driving mechanism four and driving mechanism five, between driving mechanism four and driving mechanism six, between driving mechanism four and driving mechanism seven, it is respectively equipped with a rotary-cut axle 1, a fixing arm 25 is fixed on the middle both sides of every rotary-cut axle one respectively, and the outer end of each fixing arm fixes a rotary-cut cutter 9 respectively, the right back portion of driving mechanism three and right front portion export a rotary-cut axle 2 14 respectively, and the right back portion of driving mechanism six and right front portion also export a rotary-cut axle two respectively, and the right-hand member of each rotary-cut axle two fixes a taper first 15 respectively, the left end of driving mechanism two and the left end of driving mechanism five export a rotary-cut axle three respectively, and the left end of each rotary-cut axle three fixes a taper two respectively.

Rotary-cut cutter on three rotary-cut axles one that driving mechanism one exports differs certain angle in rotation, is independent of each other mutually in rotation.

Rotary-cut cutter on three rotary-cut axles one that driving mechanism four exports differs certain angle in rotation, is independent of each other mutually in rotation.

The present invention is also provided with slush pump, during work, each drill bit is injected high pressure water by slush pump respectively, electric motor drives driving mechanism seven to operate, driving mechanism seven is operated by the rotating drive driving mechanism one of former and later two rotary-cut axles one, driving mechanism four respectively in operation process, driving mechanism one is operated by rotating drive driving mechanism two, the driving mechanism three of two the rotary-cut axles one in left and right respectively in running, and driving mechanism four is operated by rotating drive driving mechanism five, the driving mechanism six of two the rotary-cut axles one in left and right respectively in running;Driving mechanism three drives the rotary-cut axle two in right back portion and rotary-cut axle two synchronous axial system in opposite directions of right front portion respectively in operation process, and driving mechanism six drives the rotary-cut axle two in right back portion and rotary-cut axle two synchronous axial system in opposite directions of right front portion respectively in operation process, driving mechanism two, driving mechanism five drive a rotary-cut axle three-dimensional synchronous axial system of its left end respectively in operation process, driving mechanism one, driving mechanism two, driving mechanism three, driving mechanism four, driving mechanism five, driving mechanism six, driving mechanism seven drive drill bit rotational by the drilling rod of its lower end respectively, and the earth of its lower end is cut in rotation and stirs into mud with water by seven drill bits, six rotary-cut axles one drive the dynamic rotary-cut cutter of two fixing arm straps on each rotary-cut axle one around rotary-cut axle one rotation respectively in rotation, the part earth being less than drill bit diameter between every two drill bits is cut in rotation process and stirs into mud with water by rotary-cut cutter, and mud flows out into H-shaped hole from hole, two rotary-cut axles two on driving mechanism three drive the first rotation of the taper on rotary-cut axle two respectively in rotation, taper is first becomes recessed V shape by the soil cutting in right for driving mechanism three portion in rotation, rotary-cut axle three on driving mechanism two drives taper two rotation on rotary-cut axle three in rotation, and the soil cutting of driving mechanism two left part is become convex V shape by taper two in rotation, two rotary-cut axles two on driving mechanism six drive the first rotation of the taper on rotary-cut axle two respectively in rotation, taper is first becomes recessed V shape by the soil cutting in right for driving mechanism six portion in rotation, rotary-cut axle three on driving mechanism five drives taper two rotation on rotary-cut axle three in rotation, and the soil cutting of driving mechanism five left part is become convex V shape by taper two in rotation, the convex V shape of left end and the recessed V shape of right-hand member are coincide, press rods is pressed into process and forms left end with two convex V shapes downwards, right-hand member is with the H-shaped hole of two recessed V shapes, casting concrete in this hole, left end with two convex V shapes, right-hand member is with the H concrete joint stake of two recessed V shapes, on the right side of this H joint stake, the distance of the H joint stake in interval, another H joint stake is manufactured in order to top method, again at interval of the distance of a H joint stake, multiple H joint stake is manufactured in order to top method, when reaching certain intensity Deng the H joint stake to both sides, a H joint stake is manufactured again in the spacing at interval, so form the H-shaped concrete joint stake of multiple mutual V Y joint, for the antiseep of building foundation.

Claims (1)

1. a V Y joint stake agitation driller, anterior cross bar 1, the cross bar 2 18 at rear portion and the cross bar 3 26 of centre are fixed together, form a H-shaped framework, cross bar three middle upper portion is fixed with press rods 1, cross bar three middle lower portion is fixed with armstand 7 16, armstand seven times ends are fixed with electric motor 2, the lower end of electric motor is fixed with driving mechanism 7 17, the lower end in the centre of cross bar one is fixed with armstand 1, the lower end of armstand one is fixed with driving mechanism 1, the left end bottom of cross bar one is fixed with armstand 2 10, the lower end of armstand two is fixed with driving mechanism 24, the right-hand member bottom of cross bar one is fixed with armstand 3 11, the lower end of armstand three is fixed with driving mechanism 35, the lower end in the centre of cross bar two is fixed with armstand 4 19, the lower end of armstand four is fixed with driving mechanism 4 22, the left end bottom of cross bar two is fixed with armstand 5 20, the lower end of armstand five is fixed with driving mechanism 5 23, the right-hand member bottom of cross bar two is fixed with armstand 6 21, the lower end of armstand six is fixed with driving mechanism 6 24,The lower end of driving mechanism one, driving mechanism two, driving mechanism three, driving mechanism four, driving mechanism five, driving mechanism six, driving mechanism seven is respectively equipped with a drilling rod 12, and the lower end of each drilling rod is respectively equipped with a drill bit 13, between driving mechanism one and driving mechanism three, between driving mechanism one and driving mechanism two, between driving mechanism one and driving mechanism seven, between driving mechanism four and driving mechanism five, between driving mechanism four and driving mechanism six, between driving mechanism four and driving mechanism seven, it is respectively equipped with a rotary-cut axle 1, a fixing arm 25 is fixed on the middle both sides of every rotary-cut axle one respectively, and the outer end of each fixing arm fixes a rotary-cut cutter 9 respectively, the right back portion of driving mechanism three and right front portion export a rotary-cut axle 2 14 respectively, and the right back portion of driving mechanism six and right front portion also export a rotary-cut axle two respectively, and the right-hand member of each rotary-cut axle two fixes a taper first 15 respectively, the left end of driving mechanism two and the left end of driving mechanism five export a rotary-cut axle three respectively, and the left end of each rotary-cut axle three fixes a taper two respectively, it is characterized in that: when agitation driller works, each drill bit is injected high pressure water by slush pump respectively, electric motor drives driving mechanism seven to operate, driving mechanism seven is operated by the rotating drive driving mechanism one of former and later two rotary-cut axles one, driving mechanism four respectively in operation process, driving mechanism one is operated by rotating drive driving mechanism two, the driving mechanism three of two the rotary-cut axles one in left and right respectively in running, and driving mechanism four is operated by rotating drive driving mechanism five, the driving mechanism six of two the rotary-cut axles one in left and right respectively in running, driving mechanism three drives the rotary-cut axle two in right back portion and rotary-cut axle two synchronous axial system in opposite directions of right front portion respectively in operation process, and driving mechanism six drives the rotary-cut axle two in right back portion and rotary-cut axle two synchronous axial system in opposite directions of right front portion respectively in operation process, driving mechanism two, driving mechanism five drive rotary-cut axle three synchronous axial system in opposite directions of its left end respectively in operation process, driving mechanism one, driving mechanism two, driving mechanism three, driving mechanism four, driving mechanism five, driving mechanism six, driving mechanism seven drive drill bit rotational by the drilling rod of its lower end respectively, and the earth of its lower end is cut in rotation and stirs into mud with water by seven drill bits, six rotary-cut axles one drive the dynamic rotary-cut cutter of two fixing arm straps on each rotary-cut axle one around rotary-cut axle one rotation respectively in rotation, the part earth being less than drill bit diameter between every two drill bits is cut in rotation process and stirs into mud with water by rotary-cut cutter, and mud flows out into H-shaped hole from hole, two rotary-cut axles two on driving mechanism three drive the first rotation of the taper on rotary-cut axle two respectively in rotation, taper is first becomes recessed V shape by the soil cutting in right for driving mechanism three portion in rotation, rotary-cut axle three on driving mechanism two drives taper two rotation on rotary-cut axle three in rotation, and the soil cutting of driving mechanism two left part is become convex V shape by taper two in rotation, two rotary-cut axles two on driving mechanism six drive the first rotation of the taper on rotary-cut axle two respectively in rotation, taper is first becomes recessed V shape by the soil cutting in right for driving mechanism six portion in rotation, rotary-cut axle three on driving mechanism five drives taper two rotation on rotary-cut axle three in rotation, and the soil cutting of driving mechanism five left part is become convex V shape by taper two in rotation, the convex V shape of left end and the recessed V shape of right-hand member are coincide, press rods is pressed into process and forms left end with two convex V shapes downwards, right-hand member is with the H-shaped hole of two recessed V shapes, casting concrete in this hole, left end with two convex V shapes, right-hand member is with the H concrete joint stake of two recessed V shapes, on the right side of this H joint stake, the distance of the H joint stake in interval, another H joint stake is manufactured in order to top method, again at interval of the distance of a H joint stake, multiple H joint stake is manufactured in order to top method, when reaching certain intensity Deng the H joint stake to both sides, a H joint stake is manufactured again in the spacing at interval, so form the H-shaped concrete joint stake of multiple mutual V Y joint, for the antiseep of building foundation.