CN213740987U - Automatic construction device for conducting base drill rod detection - Google Patents

Automatic construction device for conducting base drill rod detection Download PDF

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Publication number
CN213740987U
CN213740987U CN202022548460.1U CN202022548460U CN213740987U CN 213740987 U CN213740987 U CN 213740987U CN 202022548460 U CN202022548460 U CN 202022548460U CN 213740987 U CN213740987 U CN 213740987U
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China
Prior art keywords
inner cavity
bearing
wire rope
steel wire
rod
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CN202022548460.1U
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Chinese (zh)
Inventor
段伟伟
韩晓阳
代鹏鹏
孟淑军
赵玲玲
宋乃博
刘宁苹
秦晓敏
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Shanxi Installation Group Co Ltd
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Shanxi Industrial Equipment Installation Group Co Ltd
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Abstract

The utility model discloses an automatic construction device for carrying out foundation drill detection, which comprises a movable underframe, wherein stabilizing tripods are welded on the left side wall and the right side wall of the movable underframe, a square steel portal frame is welded between the two groups of stabilizing tripods, the upper end of the inner cavity of the square steel portal frame is connected with a bearing rack in a sliding way, the left side and the right side of the top of the bearing rack are both provided with movable pulleys, the right side of the top of the inner cavity of the square steel portal frame is provided with two groups of first fixed pulleys, the front side of the bottom of the inner cavity of the bearing rack is provided with a second winding component, the front side and the rear side of the top of the inner cavity of the bearing rack are both provided with second fixed pulleys, the left side and the right side of the inner cavity of the bearing rack are both fixedly connected with slide bars, the slide bars are sleeved on the slide bars in a sliding way, the front sides of the heavy weights are provided with second steel wire ropes, and the probe bar is arranged in the middle of the top of the movable underframe, the utility model has reasonable structural design, and can be operated by one constructor, the operation is visited to the automatic hammering borer that carries on, improves the efficiency of construction and the factor of safety that basement borer was visited.

Description

Automatic construction device for conducting base drill rod detection
Technical Field
The utility model relates to a construction technical field, concretely relates to carry out automatic construction equipment that basement borer was visited.
Background
The foundation pit is a soil pit excavated at a foundation design position according to a base elevation and a foundation plane size, the foundation pit has three levels, the first level is a foundation pit with an important engineering or supporting structure as a part of a main structure, the excavation depth is more than 10 meters, the distance between the foundation pit and an adjacent building or an important facility is within the excavation depth, the foundation pit with historical relics, modern excellent buildings, important pipelines and the like needing to be strictly protected is arranged in the range of the foundation pit, the second level is a foundation pit between the first level and the third level, and the third level is a foundation pit with the excavation depth of less than 7 meters and no special requirement on the surrounding environment.
At present, in the construction process of foundation pit drill rod detection, constructors must perform self-control probe rod operation, the safety coefficient is low, two constructors must move a construction device to perform matched operation, the operation is slow, the working efficiency is low, and therefore the automatic construction device for foundation drill rod detection is provided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome the above-mentioned problem that exists among the prior art, provide an automatic construction equipment who carries out basement borer and visit, can accomplish the operation by a constructor, carry out the hammering borer automatically and visit the operation, improve the efficiency of construction and the factor of safety that the basement borer was visited.
In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme:
an automatic construction device for conducting base drill rod detection comprises a movable underframe, wherein stabilizing triangular supports are welded on the left side wall and the right side wall of the movable underframe, a square steel portal is welded between the two stabilizing triangular supports, the bottom of the square steel portal is welded with the movable underframe, the upper end of the inner cavity of the square steel portal is connected with a bearing rack in a sliding mode, movable pulleys are arranged on the left side and the right side of the top of the bearing rack, and two groups of first fixed pulleys are arranged on the right side of the top of the inner cavity of the square steel portal;
the front side of the bottom of the inner cavity of the bearing rack is provided with a second winding assembly, the front side and the rear side of the middle of the top of the inner cavity of the bearing rack are provided with second fixed pulleys, the left side and the right side of the inner cavity of the bearing rack are fixedly connected with slide bars, the slide bars are sleeved with heavy hammers in a sliding manner, the front side of the heavy hammers is provided with second steel wire ropes, one ends of the second steel wire ropes are connected with the second winding assembly, the other ends of the second steel wire ropes sequentially pass through the tops of the two groups of second fixed pulleys from front to back and are fixedly connected with the centers of the tops of the heavy hammers, the middle of the top of the movable underframe is provided with a probe rod, the top of the probe rod movably extends into the inner cavity of the bearing rack and is in threaded connection with the bottoms of the heavy hammers, the front side and the rear side of the lower end of the outer wall of the probe rod are symmetrically provided with guide mechanisms, the right side of the top of the movable underframe is provided with a first winding assembly, and the right side of the heavy hammers is provided with first steel wire ropes, the bottom end of the first steel wire rope movably penetrates through the bottom of the bearing rack and is connected with the first winding assembly, the top of the first steel wire rope movably penetrates through the top of the bearing rack, and one end of the first steel wire rope movably penetrating through the top of the bearing rack sequentially bypasses the tops of the right group of first fixed pulleys, the bottoms of the right group of movable pulleys, the tops of the left group of first fixed pulleys and the bottoms of the left group of movable pulleys and is fixedly connected with the left side of the top of the inner cavity of the square steel portal;
the right side wall of the stabilizing tripod is welded with a push-pull handle frame, and electric control switches are arranged on the front side and the rear side of the top of the push-pull handle frame.
Preferably, in the automatic construction device for substrate drill rod detection, the first winding assembly includes a first forward and reverse rotation motor, a left power output end of the first forward and reverse rotation motor is connected with a first shaft rod, the left and right sides of the outer wall of the first shaft rod are rotatably connected with first supporting blocks, the lower surface of each first supporting block is fixedly connected with the movable underframe, and the bottom end of the first steel wire rope is fixedly connected with the first shaft rod, so that the first steel wire rope can be wound, contracted and lengthened conveniently.
Preferably, among the above-mentioned automatic construction equipment for carrying out basement borer is visited, guiding mechanism includes the carrier bar, the right side of carrier bar is provided with semi-conductive to the section of thick bamboo post, the equal rigid coupling in both ends has the bracing piece about the left side wall of semi-conductive section of thick bamboo post, and is two sets of the equal rigid coupling in left side of bracing piece has the support ring, and the support ring slides and cup joints on the carrier bar, the outer wall rigid coupling of carrier bar has the dog, and the dog is located the bottom of lower extreme support ring, the outer wall spiro union of carrier bar has the annular knurl nut knob, and the annular knurl nut knob is located the top of upper end support ring, twists the regulation on the carrier bar through the annular knurl nut knob, is convenient for spacing fixed and dismantle between semi-conductive section of thick bamboo post and the carrier bar.
Preferably, in the automatic construction device for substrate drill rod detection, the upper end and the lower end of the outer wall of the bearing rod are both provided with external threads, and the bearing rod is in threaded connection with the movable underframe through the external threads at the lower end, so that the guide mechanism can be conveniently mounted, fixed and detached on the movable underframe.
Preferably, in the automatic application device for substrate drilling, the semi-conducting cylinder column is in clearance fit with the probe rod, so that the possibility of interference on the probe rod during working is avoided.
Preferably, in the automatic construction device for substrate drill rod detection, the second winding assembly includes a second forward and reverse rotation motor, a right power output end of the second forward and reverse rotation motor is connected with a second shaft rod, the left and right ends of the outer wall of the second shaft rod are rotatably connected with second supporting blocks, the bottoms of the second supporting blocks are fixedly connected with the bottom of the inner cavity of the bearing rack, and one end of the second steel wire rope is fixedly connected with the second shaft rod, so that the second steel wire rope can be wound, contracted and lengthened conveniently.
Compared with the prior art, the beneficial effects of the utility model are as follows:
the utility model has the advantages of reasonable design, on the one hand, a constructor controls the second forward and reverse rotation motor to do forward and reverse rotation motion through a set of electric control switch to drive the second shaft lever to rotate to wind, contract and lengthen the second steel wire rope, so that the heavy hammer moves up and down, and further drives the probe rod to move up and down, thereby being convenient for automatically carrying out hammering drill rod detection operation, and improving the construction efficiency and the safety factor of the substrate drill rod detection; on the other hand, through the sliding fit of the bearing rack and the square steel portal, the first forward and reverse rotating motor is controlled to do forward and reverse rotation through the other group of electric control switches to drive the first shaft rod to rotate to wind, contract and lengthen the first steel wire rope, so that the bearing rack can be conveniently lifted and adjusted, and the second forward and reverse rotating motor can be conveniently overhauled and maintained.
Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic view of the structure of the utility model in use;
fig. 2 is a right side view of fig. 1 of the present invention;
fig. 3 is a schematic structural diagram of a first winding assembly of the present invention;
fig. 4 is a schematic structural view of the guide mechanism of the present invention;
fig. 5 is a schematic structural view of a second winding assembly of the present invention;
in the drawings, the components represented by the respective reference numerals are listed below:
1-a moving underframe, 2-a stabilizing tripod, 3-a square steel gantry, 4-a bearing rack, 5-a movable pulley, 6-a first fixed pulley, 7-a first winding component, 701-a first shaft rod, 702-a first supporting block, 703-a first forward and reverse rotation motor, 8-a guide mechanism, 801-a knurled nut knob, 802-a supporting rod, 803-a semi-steering cylinder, 804-a bearing rod, 805-a supporting ring, 806-a stop, 9-a second winding component, 901-a second forward and reverse rotation motor, 902-a second shaft rod, 903-a second supporting block, 10-a sliding rod, 11-a heavy hammer, 12-a second fixed pulley, 13-a first steel wire rope, 14-a second steel wire rope, 15-a probe rod, 16-a push-pull handle rack, 17-electrically controlled switch.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.
Referring to fig. 1-5, an automatic construction device for drilling a foundation comprises a movable underframe 1, stabilizing tripods 2 are welded on the left and right side walls of the movable underframe 1, a square steel portal 3 is welded between two groups of stabilizing tripods 2, the bottom of the square steel portal 3 is welded with the movable underframe 1, a bearing rack 4 is connected with the upper end of the inner cavity of the square steel portal 3 in a sliding manner, movable pulleys 5 are arranged on the left and right sides of the top of the bearing rack 4, two groups of first fixed pulleys 6 are arranged on the right side of the top of the inner cavity of the square steel portal 3, a second winding assembly 9 is arranged on the front side of the bottom of the inner cavity of the bearing rack 4, second fixed pulleys 12 are arranged on the front and rear sides of the middle of the top of the inner cavity of the bearing rack 4, slide bars 10 are fixedly connected on the left and right sides of the inner cavity of the bearing rack 4, a heavy hammer 11 is sleeved on the slide bars 10 in a sliding manner, and a second steel wire rope 14 is arranged on the front side of the heavy hammer 11, one end of a second steel wire rope 14 is connected with a second winding assembly 9, the second winding assembly 9 comprises a second forward and reverse rotation motor 901, the right power output end of the second forward and reverse rotation motor 901 is connected with a second shaft rod 902, the left and right ends of the outer wall of the second shaft rod 902 are rotatably connected with second supporting blocks 903, the bottoms of the second supporting blocks 903 are fixedly connected with the bottom of the inner cavity of the bearing rack 4, one end of the second steel wire rope 14 is fixedly connected with the second shaft rod 902, so that the second steel wire rope 14 can be wound, contracted and lengthened conveniently, the other end of the second steel wire rope 14 sequentially rounds the tops of two groups of second fixed pulleys 12 from front to back to be fixedly connected with the center of the top of the heavy hammer 11, a probe rod 15 is arranged in the middle of the top of the movable underframe 1, the top of the probe rod 15 movably extends into the inner cavity of the bearing rack 4 to be screwed with the bottom of the heavy hammer 11, guide mechanisms 8 are symmetrically arranged on the front and back sides of the lower end of the outer wall of the probe rod 15, the guide mechanism 8 comprises a bearing rod 804, a semi-guiding cylinder column 803 is arranged on the right side of the bearing rod 804, supporting rods 802 are fixedly connected to the upper end and the lower end of the left side wall of the semi-guiding cylinder column 803, supporting rings 805 are fixedly connected to the left sides of the two groups of supporting rods 802, the supporting rings 805 are slidably sleeved on the bearing rod 804, a stop block 806 is fixedly connected to the outer wall of the bearing rod 804, the stop block 806 is located at the bottom of the lower end supporting ring 805, a knurled nut knob 801 is screwed on the outer wall of the bearing rod 804, the knurled nut knob 801 is located at the top of the upper end supporting ring 805, the stop fixing and the disassembly between the semi-guiding cylinder column 803 and the bearing rod 804 are facilitated through the threaded adjustment of the knurled nut knob 801 on the bearing rod 804, external threads are arranged on the upper end and the lower end of the outer wall of the bearing rod 804, the bearing rod 804 is in threaded connection with the movable underframe 1 through the external threads on the lower end, the installation fixing and the disassembly of the guide mechanism 8 on the movable underframe 1 are facilitated, clearance fit between half direction cylinder 803 and probe rod 15, avoid probe rod 15 during operation to cause the possibility of interference to it, the top right side of removal chassis 1 is provided with first winding subassembly 7, the right side of weight 11 is provided with first wire rope 13, the bottom activity of first wire rope 13 runs through the bottom of bearing rack 4 and is connected with first winding subassembly 7, first winding subassembly 7 includes first positive and negative motor 703, the left side power take off end of first positive and negative motor 703 is connected with first axostylus axostyle 701, the outer wall left and right sides of first axostylus axostyle 701 is all rotated and is connected with first supporting block 702, and the lower surface of first supporting block 702 and removal chassis 1 looks rigid coupling, the bottom of first wire rope 13 and first axostylus axostyle 701 looks rigid coupling, be convenient for the winding shrink and the grow of first wire rope 13, the top activity of first wire rope 13 runs through the top of bearing rack 4, and the one end that first wire rope 13 activity runs through the top of bearing rack 4 top walks around the first fixed pulley 6 of a set of right side in proper order The bottom of a set of movable pulley 5 in top, right side, the top of a set of first fixed pulley 6 in left side and the bottom of a set of movable pulley 5 in left side and the inner chamber top left side looks rigid coupling of square steel portal 3 stabilize the right side wall welding of tripod 2 and have push-and-pull handle frame 16, both sides all are provided with electrical control switch 17 around push-and-pull handle frame 16's the top.
One specific application of this embodiment is: the utility model has the advantages of reasonable design, constructor moves on the ground through moving chassis 1, the device is moved to the foundation pit drill rod detection position by hand-held push-pull handle frame 16, simultaneously, the feeler lever 15 is aimed at the lofting drill rod detection point, one constructor controls the second forward and reverse rotation motor 901 to do forward and reverse rotation movement through a set of electric control switch 17 to drive the second shaft lever 902 to rotate to wind, contract and lengthen the second steel wire rope 14, when the second steel wire rope 14 is wound and contracted, the weight 11 is driven to slide upwards on the slide bar 10 through the guide of the second fixed pulley 12, the weight 11 is lifted to the standard height, then the second steel wire rope 14 is paid off and extended, the weight 11 slides downwards on the slide bar 10 under the action of gravity, thereby the hammering drill rod detection operation is automatically carried out, the construction efficiency and the safety factor of the foundation drill rod detection are improved, the semi-conducting cylinder column 803 in two sets of guide mechanisms 8 is merged outside the feeler lever 15, the guide is convenient for guiding the detecting rod 15 during working, the stability of the detecting rod 15 during working is improved, the first forward and reverse rotating motor 703 is controlled to move forward and reverse through the other set of electric control switch 17 to drive the first shaft rod 701 to rotate, the models of the first forward and reverse rotating motor 703 and the second forward and reverse rotating motor 901 are TCH (v)28-200-3-1800, the first steel wire rope 13 is wound, contracted and lengthened through the rotation of the first shaft rod 701, the first steel wire rope 13 is guided through the first fixed pulley 6 and the movable pulley 5, the sliding lifting adjustment of the bearing rack 4 on the square steel door frame 3 is convenient, and therefore the overhauling and maintenance of the second forward and reverse rotating motor 901 are convenient.
In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides an automatic construction equipment who carries out basement borer and visit, includes removal chassis (1), its characterized in that: stabilizing triangular supports (2) are welded on the left side wall and the right side wall of the movable underframe (1), a square steel portal (3) is welded between the two groups of stabilizing triangular supports (2), the bottom of the square steel portal (3) is welded with the movable underframe (1), the upper end of the inner cavity of the square steel portal (3) is connected with a bearing table frame (4) in a sliding manner, movable pulleys (5) are arranged on the left side and the right side of the top of the bearing table frame (4), and two groups of first fixed pulleys (6) are arranged on the right side of the top of the inner cavity of the square steel portal (3);
the front side of the bottom of the inner cavity of the bearing rack (4) is provided with a second winding assembly (9), the front side and the rear side of the top of the inner cavity of the bearing rack (4) are respectively provided with a second fixed pulley (12), the left side and the right side of the inner cavity of the bearing rack (4) are respectively fixedly connected with a sliding rod (10), the sliding rod (10) is sleeved with a heavy hammer (11) in a sliding manner, the front side of the heavy hammer (11) is provided with a second steel wire rope (14), one end of the second steel wire rope (14) is connected with the second winding assembly (9), the other end of the second steel wire rope (14) sequentially bypasses the tops of the two groups of second fixed pulleys (12) from front to back and is fixedly connected with the center of the top of the heavy hammer (11), the middle of the top of the movable underframe (1) is provided with a probe rod (15), the top of the probe rod (15) movably extends into the inner cavity of the bearing rack (4) and is screwed with the bottom of the heavy hammer (11), the front side and the rear side of the lower end of the outer wall of the feeler lever (15) are symmetrically provided with guide mechanisms (8), the right side of the top of the movable underframe (1) is provided with a first winding assembly (7), the right side of the heavy hammer (11) is provided with a first steel wire rope (13), the bottom end of the first steel wire rope (13) movably penetrates through the bottom of the bearing rack (4) to be connected with the first winding assembly (7), the top of the first steel wire rope (13) movably penetrates through the top of the bearing rack (4), and one end of the first steel wire rope (13) movably penetrates through the top of the bearing rack (4) to sequentially bypass the top of the right group of first fixed pulleys (6), the bottom of the right group of movable pulleys (5), the top of the left group of first fixed pulleys (6) and the bottom of the left group of movable pulleys (5) to be fixedly connected with the left side of the top of the inner cavity of the square steel portal (3);
the right side wall of the stabilizing tripod (2) is welded with a push-pull handle frame (16), and electric control switches (17) are arranged on the front side and the rear side of the top of the push-pull handle frame (16).
2. The automatic construction apparatus for performing foundation penetration of claim 1, wherein: the first winding assembly (7) comprises a first forward and reverse rotating motor (703), the left power output end of the first forward and reverse rotating motor (703) is connected with a first shaft rod (701), the left side and the right side of the outer wall of the first shaft rod (701) are rotatably connected with first supporting blocks (702), the lower surface of each first supporting block (702) is fixedly connected with the corresponding movable underframe (1), and the bottom end of each first steel wire rope (13) is fixedly connected with the corresponding first shaft rod (701).
3. The automatic construction apparatus for performing foundation penetration of claim 1, wherein: guiding mechanism (8) are including bearing pole (804), the right side that bears pole (804) is provided with semi-conductive cylinder post (803), the equal rigid coupling in both ends has bracing piece (802) about the left side wall of semi-guide cylinder post (803), and is two sets of the equal rigid coupling in left side of bracing piece (802) has support ring (805), and support ring (805) slip cup joint on bearing pole (804), the outer wall rigid coupling of bearing pole (804) has dog (806), and dog (806) are located the bottom of lower extreme support ring (805), the outer wall spiro union of bearing pole (804) has knurled nut knob (801), and knurled nut knob (801) is located the top of upper end support ring (805).
4. The automatic construction apparatus for performing foundation penetration of claim 3, wherein: the upper end and the lower end of the outer wall of the bearing rod (804) are provided with external threads, and the bearing rod (804) is in threaded connection with the movable underframe (1) through the external threads at the lower end.
5. The automatic construction apparatus for performing foundation penetration of claim 3, wherein: the semi-conductive cylinder column (803) is in clearance fit with the probe rod (15).
6. The automatic construction apparatus for performing foundation penetration of claim 1, wherein: the second winding assembly (9) comprises a second forward and reverse rotating motor (901), the right power output end of the second forward and reverse rotating motor (901) is connected with a second shaft rod (902), the left end and the right end of the outer wall of the second shaft rod (902) are both rotatably connected with a second supporting block (903), the bottom of the second supporting block (903) is fixedly connected with the bottom of the inner cavity of the bearing rack (4), and one end of a second steel wire rope (14) is fixedly connected with the second shaft rod (902).
CN202022548460.1U 2020-11-06 2020-11-06 Automatic construction device for conducting base drill rod detection Active CN213740987U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022548460.1U CN213740987U (en) 2020-11-06 2020-11-06 Automatic construction device for conducting base drill rod detection

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022548460.1U CN213740987U (en) 2020-11-06 2020-11-06 Automatic construction device for conducting base drill rod detection

Publications (1)

Publication Number Publication Date
CN213740987U true CN213740987U (en) 2021-07-20

Family

ID=76821120

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022548460.1U Active CN213740987U (en) 2020-11-06 2020-11-06 Automatic construction device for conducting base drill rod detection

Country Status (1)

Country Link
CN (1) CN213740987U (en)

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Address after: 030032 No. 8, Xinhua Road, Taiyuan Tanghuai Industrial Park, Shanxi transformation and comprehensive reform demonstration zone, Taiyuan City, Shanxi Province

Patentee after: Shanxi Installation Group Co.,Ltd.

Address before: 030032 No.8, Xinhua Road, Tanghuai Park, Taiyuan comprehensive reform demonstration zone, Taiyuan City, Shanxi Province

Patentee before: SHANXI INDUSTRIAL EQUIPMENT INSTALLATION GROUP Co.,Ltd.