The present disclosure generally relates to pulldown apparatus for drills, and more particularly, to pulldown apparatus for rotary drills.
Pulldown cylinder assemblies are installed on drill machines. Such pulldown cylinder assemblies are often over twenty meters, making them difficult to ship and difficult to store. Material handling of these rods is also challenging.
U.S. Pat. No. 7,163,069, issued Jan. 16, 2007, (the '069 Patent) describes a telescopable boring rod mechanism with at least two mutually displaceable Kelly rods, which are equipped with means for transmitting a torque to the adjacent Kelly rod. At least one of the Kelly rods is constructed from at least two rod segments, which are made from a different material.
In one aspect of the present disclosure, a pulldown apparatus for a rotary drill machine is disclosed. The pulldown apparatus comprises a main stage and a secondary stage. The main stage may comprise a cylinder, a main head, a main gland, a piston and a main rod. The cylinder defines a chamber that extends lengthwise through the cylinder. The cylinder includes a first end and a second end. The main head may be disposed on the second end of the cylinder and includes an aperture extending therethrough. The main gland is disposed in the chamber and is adjacent to the main head. The piston is disposed in the chamber adjacent to the first end. The main rod is disposed in the chamber between the piston and the second end. The main rod has a fluid channel that extends lengthwise therethrough. The secondary stage includes a secondary head, a secondary gland, a secondary rod and a flange. The secondary head is disposed on the first end of the cylinder. The secondary head includes an opening extending therethrough. The secondary gland is disposed in the chamber and is adjacent to the secondary head. The secondary rod is disposed in the opening and is coupled to a flange. The secondary rod includes a fluid passageway that extends lengthwise through. The flange is coupled to the main stage and disposed inside the cylinder between the piston and the secondary rod. The cylinder is slidable over the main rod, the piston and the secondary rod.
In another aspect of the disclosure, a method of assembling a pulldown apparatus, which includes a main stage and a secondary stage, is disclosed. The main stage is configured to receive at least a portion of the secondary stage. The main stage includes a cylinder, a main head, a main gland, a piston and a main rod. The cylinder defines a chamber that extends lengthwise through the cylinder. The cylinder includes a first end and a second end. The main head is disposed on the second end of the cylinder. The main head includes an aperture that extends therethrough. The main gland is disposed in the chamber and is adjacent to the main head. The piston is disposed in the chamber adjacent to the first end. The main rod is disposed in the chamber between the piston and the second end. The main rod has a fluid channel that extends lengthwise through the main rod. The secondary stage includes a secondary head, a secondary gland, a secondary rod and a flange. The secondary head includes an opening extending therethrough. The secondary gland adjacent to the secondary head. The secondary rod coupled to the flange. The secondary rod including a fluid passageway that extends lengthwise through the secondary rod. The secondary rod extends through the secondary gland and secondary head. The method may comprise: disposing the flange in the chamber between the piston and the first end of the cylinder; coupling the flange to the main stage, wherein after the flange is coupled to the main stage, the cylinder is slidable over the flange and the secondary rod; disposing the secondary gland in the chamber; and coupling the secondary head to the first end of the cylinder. Wherein the secondary rod is disposed in the opening. Wherein the cylinder is slidable over the main rod, the piston and the secondary rod.
In yet another aspect of the disclosure, a pulldown apparatus disposed on a rotary drill machine is disclosed. The rotary drill machine includes a deck frame and a drilling mast. The drilling mast includes a mast frame and a crown. The mast frame includes a first mast end and a second mast end. The second mast end of the mast frame is mounted on the deck frame. The crown is coupled to the mast frame adjacent to the first mast end. The pulldown apparatus comprises a main stage and a secondary stage. The main stage includes a cylinder, a main head, a main gland, a piston, and a main rod. The cylinder defines a chamber that extends lengthwise therethrough. The cylinder includes a first end and a second end. The main head is disposed on the second end of the cylinder. The main head includes an aperture extending therethrough. The main gland is disposed in the chamber and is adjacent to the main head. The piston is disposed in the chamber adjacent to the first end. The main rod is disposed in the chamber between the piston and the second end. The main rod includes a fluid channel that extends lengthwise therethrough. The secondary stage includes a secondary head, a secondary gland, a secondary rod, and a flange. The secondary head is disposed on the first end of the cylinder. The secondary head includes an opening extending therethrough. The secondary gland is disposed in the chamber and is adjacent to the secondary head. The secondary rod is disposed in the opening and is coupled to the flange. The secondary rod includes a fluid passageway that extends lengthwise therethrough. The flange is coupled to the main stage and is disposed inside the cylinder between the piston and the secondary rod. Wherein the cylinder is slidable over the main rod, the piston and the secondary rod. Wherein the main rod is coupled to the deck frame, and the secondary rod is coupled to the crown.
Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Generally, corresponding reference numbers will be used throughout the drawings to refer to the same or corresponding parts, unless otherwise specified.
The exemplary rotary drill machine 102 may include a deck frame 104 supported on the ground by ground engaging members 106 such as crawler tracks or the like. In an embodiment, the deck frame 104 may include a mounting member 105 (
The drilling mast 108 may include a mast frame 116 and a crown 118. The mast frame 116 has a first mast end 120 and a second mast end 122 opposite to the first mast end 120. The first mast end 120 is disposed on the deck frame 104. The crown 118 is coupled to the mast frame 116 adjacent to the second mast end 122. Turning now to
The cable feed system 124 may include a pullback cable 132, a pulldown cable 134, one or more pulldown pulleys 136 coupled to a cylinder 138 of the pulldown apparatus 110, one or more crown pulleys 140 coupled to the crown 118 or to the second mast end 122, and one or more floor pulleys 142 coupled to the deck frame 104. A drill motor (not shown) may be operationally coupled to the cable feed system 124 and configured to slide the cylinder 138 of the pulldown apparatus 110 in a first direction 144 and a second direction 146 across a piston 148 and at least a portion of the main rod 150 and at least a portion of the secondary rod 152. The first direction 144 is opposite to the second direction 146. In operation, movement of the cylinder 138 in the first direction 144 will, via the cable feed system 124, drive the drill bit 128 toward and/or into the surface 107 (
As shown in
Turning now to
The main head 158 is disposed adjacent to or on the second end 166 of the cylinder 138 and includes an aperture 168 extending therethrough. The aperture 168 is configured to slidingly receive the main rod 150. In an embodiment, the main head 158 is coupled to the second end 166 of the cylinder 138.
The main gland 160 is disposed in the chamber 162 and may be adjacent or directly adjacent to the main head 158. The main gland 160 may be coupled to the main head 158. The main gland 160 includes a main bore 170 extending therethrough. The main bore 170 is configured to slidingly receive the main rod 150.
The piston 148 is disposed in the chamber 162 adjacent to the first end 164 of the cylinder 138. In an embodiment, the piston 148 may be stationary and disposed between the main rod 150 and a secondary rod 152 (
The main rod 150 is disposed in the chamber 162 between the piston 148 and the second end 166 of the cylinder 138. The main rod 150 includes a first main end 172 (
As shown in
As shown in
The secondary gland 190 is disposed in the chamber 162 (
The secondary rod 152 is disposed in the opening 194 and in the secondary bore 196 and is coupled to the flange 192. In operation of the pulldown apparatus 110, at least a portion of the secondary rod 152 (see
As shown in
The cylinder 138 is configured to be slidable over the main rod 150, the piston 148 and the secondary rod 152.
Also disclosed is a method of assembling the pulldown apparatus 110, the method comprising: disposing the flange 192 in the chamber 162 between the piston 148 and the first end 164 of the cylinder 138; coupling the flange 192 to the main stage 154, wherein, after the flange 192 is coupled to the main stage 154, the cylinder 138 is slidable over the flange 192 and the secondary rod 152; disposing the secondary gland 190 in the chamber 162; and coupling the secondary head 188 to the first end 164 of the cylinder 138, the secondary head 188 including an opening 194 extending therethrough, wherein the secondary rod 152 is disposed in the opening 194, the secondary rod 152 including a fluid passageway 204 that extends lengthwise through, wherein the cylinder 138 is slidable over the main rod 150, the piston 148 and the secondary rod 152.
In general, the foregoing disclosure finds utility in machines 100, especially rotary drill machines. Disclosed herein is pulldown apparatus 110 that may be efficiently transported, handled and/or stored until needed. To assemble, the flange 192 is disposed in the chamber 162 between the piston 148 and the first end 164 of the cylinder 138. The flange 192 may then be coupled to the main stage 154, wherein after the flange 192 is coupled to the main stage 154, the cylinder 138 is slidable over the flange 192 and the secondary rod 152. The secondary gland 190 may be disposed in the chamber 162, and the secondary head 188 coupled to the first end 164 of the cylinder 138. The secondary head 188 includes an opening 194 extending therethrough, wherein the secondary rod 152 is disposed in the opening 194. The secondary rod 152 includes a fluid passageway 204 that extends lengthwise through, wherein the cylinder 138 is slidable over the main rod 150, the piston 148 and the secondary rod 152.
In operation, the drill motor (not shown) that is operationally coupled to the cable feed system 124 slides the cylinder 138 of the pulldown apparatus 110 in a first direction 144 (toward the crown 118) across the piston 148 and at least a portion of the main rod 150 and at least a portion of the secondary rod 152 via the cable feed system 124. The movement of the cylinder 138 in the first direction 144 will, via the cable feed system 124, drive the drill bit 128 toward and/or into the surface 107 (
Unless explicitly excluded, the use of the singular to describe a component, structure, or operation does not exclude the use of plural such components, structures, or operations or their equivalents. The use of the terms “a” and “an” and “the” and “at least one” or the term “one or more,” and similar referents in the context of describing the invention (especially in the context of the following claims) are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. The use of the term “at least one” followed by a list of one or more items (for example, “at least one of A and B” or one or more of A and B″) is to be construed to mean one item selected from the listed items (A or B) or any combination of two or more of the listed items (A and B; A, A and B; A, B and B), unless otherwise indicated herein or clearly contradicted by context. Similarly, as used herein, the word “or” refers to any possible permutation of a set of items. For example, the phrase “A, B, or C” refers to at least one of A, B, C, or any combination thereof, such as any of: A; B; C; A and B; A and C; B and C; A, B, and C; or multiple of any item such as A and A; B, B, and C; A, A, B, C, and C; etc.
From the foregoing, it will be appreciated that while only certain embodiments have been set forth for the purposes of illustration, alternatives and modifications will be apparent from the above description to those skilled in the art. These and other alternatives are considered equivalents and within the spirit and scope of this disclosure and the appended claims.
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Written Opinion and International Search Report for Int'l. Patent Appln. No. PCT/US2023/016804, dated Jun. 6, 2023 (12 pgs). |
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20230340839 A1 | Oct 2023 | US |