CN218829031U - Rock gangway is combined and is dug cable and moves structure - Google Patents
Rock gangway is combined and is dug cable and moves structure Download PDFInfo
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- CN218829031U CN218829031U CN202222116523.5U CN202222116523U CN218829031U CN 218829031 U CN218829031 U CN 218829031U CN 202222116523 U CN202222116523 U CN 202222116523U CN 218829031 U CN218829031 U CN 218829031U
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Abstract
The application provides a rock gangway is combined and is dug cable and moves structure belongs to the mining equipment field. This rock gangway is combined and is excavated cable and move structure, including slide rail, actuating mechanism and fixture, slide rail internally mounted has and is used for combining the actuating mechanism who digs the effective sideslip of cable clamping component to the rock gangway, the actuating mechanism lower extreme is installed and is used for combining the quick spacing fixture of cable to the rock gangway, actuating mechanism includes the track groove, the inside slider that is equipped with that inlays of track groove, the inside groove of having seted up of slider, the inside rotation of inside groove installs the gear, the side channel has been seted up to lateral wall around the track groove, side channel lateral wall fixed mounting has the tooth piece, gear upper end fixedly connected with motor. The utility model discloses an actuating mechanism, fixture and single track hang the pulley, will combine to dig quick-witted cable and hang on single track hanging beam pulley, realize the cable along with combine to dig the purpose that the machine removed and removed, raised the cable height of hanging, guaranteed the safe usage space of cable.
Description
Technical Field
The application relates to the technical field of excavating equipment, particularly, relates to a rock gangway is combined and is dug cable and move structure.
Background
The integrated digging construction roadway frequently moves back and forth during cutting of the integrated digging machine, the cable needs to move simultaneously along with the integrated digging machine, a hanging mode of a traditional cable moving behind the integrated digging machine adopts a chain block to match with a steel strand, the cable is hung on one side of the roadway, the cable is inconvenient to move due to space limitation, the roadway side is easy to scrape, manual matching is needed during cutting to move, and meanwhile, the cable is extremely easy to be worn by the roadway side to influence construction progress.
SUMMERY OF THE UTILITY MODEL
In order to compensate for above not enough, this application provides a rock gangway is combined and is excavated cable and move structure, aims at improving and adopts chain block cooperation steel strand wires at present combine to move cable hanging mode behind the machine of digging, hangs the cable at a tunnel group, and the cable receives the space restriction to remove inconveniently, scrapes the lane group easily, needs the manual cooperation to remove during the cutting, and the cable is very easily worn and torn by the lane group simultaneously, influences the problem of construction progress.
The embodiment of the application provides a rock gangway is combined and is dug cable and move structure, including slide rail, actuating mechanism and fixture, slide rail internally mounted has and is used for combining the actuating mechanism who digs the effective sideslip of cable clamping component to the rock gangway, the actuating mechanism lower extreme is installed and is used for combining the quick spacing fixture of cable to the rock gangway, actuating mechanism includes the track groove, the inside slider that is equipped with that inlays of track groove, the inside groove of having seted up of slider, the inside rotation of inside groove installs the gear, the side wall has been seted up to the lateral wall around the track groove, side wall fixed mounting has the tooth piece, gear upper end fixedly connected with motor.
In the implementation process, the clamping plates are pulled downwards to drive the front and rear side sliding sleeves to slide downwards on the outer walls of the sliding rods, the springs are pulled upwards to generate elastic potential energy, the clamping plates move downwards in the clamping grooves, cables to be moved are inserted into the clamping grooves, the tension on the clamping plates is loosened, the springs release the potential energy to pull the sliding sleeves upwards to drive the clamping plates to move upwards to clamp and fix the cables, the outer end control motor operates to drive the gears to rotate and be meshed with the tooth blocks through the side wall teeth, the gears are meshed and rotate on the surfaces of the tooth blocks, the sliding blocks are driven to move left and right in the track grooves, the cables in the rock roadway comprehensive digging process of the lower side clamping are driven to move left and right, the cable hanging height is raised, the safe use space of the cables is ensured, and the problem that the cables influence construction due to abrasion is solved.
In a specific embodiment, fixture is including hanging down the frame, hang down frame fixed mounting at slider lower extreme outer wall, hang down the frame center and seted up the clamp groove, the spacing groove has been seted up to the lateral wall around the clamp groove, the inside fixed mounting of spacing groove has the slide bar, slide bar lateral wall cover is equipped with the sliding sleeve, sliding sleeve upper end fixed mounting has the spring, fixed mounting has splint between the sliding sleeve.
In the implementation process, the clamping plates are pulled downwards to drive the front and rear side sliding sleeves to slide downwards on the outer walls of the sliding rods, the springs are pulled upwards to generate elastic potential energy, the clamping plates move downwards in the clamping grooves, cables to be moved are inserted into the clamping grooves, the tension on the clamping plates is loosened, and the springs release potential energy to pull the sliding sleeves upwards to drive the clamping plates to move upwards to clamp and fix the cables.
In a specific embodiment, the gear side wall is provided with teeth which are meshed with the tooth block.
In the implementation process, the motor is controlled by the outer end to operate to drive the gear to rotate and to be meshed with the tooth block through the side wall tooth thorn, so that the gear is meshed and rotated on the surface of the tooth block, and the sliding block is driven to move left and right in the track groove.
In a specific embodiment, the gear has a thickness dimension that is coincident with a thickness dimension of the side groove.
At above-mentioned realization in-process, the cable that drives the rock gangway of downside centre gripping and combine the process of digging is controlled and is removed, has raised the cable and has hung the height, has guaranteed the safe handling space of cable, has solved the cable and has influenced the problem of construction because of wearing and tearing.
In a specific embodiment, the sliding sleeve is internally provided with a sliding hole with the same diameter as the sliding rod.
In the implementation process, the clamping component is more stable in clamping.
In a specific embodiment, the sliding sleeve is fixedly connected with one end of the spring, and the other end of the spring is fixedly connected with the inner wall of the limiting groove.
In the implementation process, efficient clamping and fixing can be conveniently carried out on cables of different sizes.
In a specific embodiment, the front and rear dimensions of the clamping plate and the front and rear dimensions of the clamping groove are matched with each other.
In the implementation process, the clamping process is more stable and efficient.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some examples of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also derive other related drawings based on these drawings without inventive effort.
Fig. 1 is a perspective view of a structure according to an embodiment of the present application;
FIG. 2 is a side sectional view of an embodiment of the present application;
fig. 3 is a partial enlarged view of a in fig. 2 according to an embodiment of the present disclosure.
In the figure: 100. a slide rail; 2001. a track groove; 2002. a slider; 2003. an inner tank; 2004. a gear; 2005. a side groove; 2006. a tooth block; 2007. a motor; 3001. a vertical frame; 3002. a clamping groove; 3003. a limiting groove; 3004. a slide bar; 3005. a sliding sleeve; 3006. a spring; 3007. and (4) clamping the plate.
Detailed Description
The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.
Referring to fig. 1 and 2, the application provides a rock roadway fully-mechanized excavation cable moving structure, which includes a slide rail 100, a driving mechanism and a clamping mechanism, the driving mechanism for effectively traversing the rock roadway fully-mechanized excavation cable clamping assembly is installed in the slide rail 100, the clamping mechanism for quickly limiting the rock roadway fully-mechanized excavation cable is installed at the lower end of the driving mechanism, the driving mechanism includes a rail groove 2001, a slider 2002 is embedded in the rail groove 2001, an inner groove 2003 is formed in the slider 2002, a gear 2004 is rotatably installed in the inner groove 2003, side grooves 2005 are formed in front and rear side walls of the rail groove 2001, a tooth block 2006 is fixedly installed on side walls of the side grooves 2005, and a motor 2007 is fixedly connected to the upper end of the gear 2004.
As shown in fig. 3, the clamping mechanism includes a vertical frame 3001, the vertical frame 3001 is fixedly installed on an outer wall of a lower end of the sliding block 2002, a clamping slot 3002 is formed in a center of the vertical frame 3001, limiting slots 3003 are formed in front and rear side walls of the clamping slot 3002, a sliding rod 3004 is fixedly installed in the limiting slot 3003, a sliding sleeve 3005 is sleeved on a side wall of the sliding rod 3004, a spring 3006 is fixedly installed at an upper end of the sliding sleeve 3005, a clamping plate 3007 is fixedly installed between the sliding sleeve 3005, the clamping plate 3007 is pulled downward to drive the front and rear sliding sleeves 3005 to slide downward on an outer wall of the sliding rod 3004, the spring 3006 is pulled upward to generate elastic potential energy, so that the clamping plate 3007 moves downward in the clamping slot 3002, a cable to be moved is inserted into the clamping slot 3002, a tensile force applied to the clamping plate 3007 is released, and the spring 3006 releases potential energy to pull the sliding sleeve 3005 upward to drive the clamping plate 3007 to move upward to clamp the cable to clamp and fix the cable.
The side wall of the gear 2004 is provided with teeth which are meshed with the teeth 2006, the gear 2004 is driven to rotate through the operation of the outer end control motor 2007, the teeth are meshed with the teeth 2006 relatively through the side wall teeth, so that the gear 2004 is meshed and rotated on the surface of the teeth 2006, the slider 2002 is driven to move left and right in the track groove 2001, the thickness dimension of the gear 2004 is matched with that of the side groove 2005, a cable in the comprehensive digging process of the rock roadway clamped at the lower side is driven to move left and right, the cable hanging height is raised, the safe use space of the cable is guaranteed, and the problem that the construction is influenced by the abrasion of the cable is solved.
The inside slide opening that has seted up with slide bar 3004 diameter the same of sliding sleeve 3005 makes the centre gripping subassembly centre gripping more stable, sliding sleeve 3005 fixed connection spring 3006's one end, spring 3006's other end fixed connection is at the spacing groove 3003 inner wall, is convenient for carry out the efficient centre gripping to not unidimensional cable fixed, and splint 3007 is preceding back size and is pressed from both sides the front and back size of groove 3002 and coincide each other, makes the process of centre gripping more stable high-efficient.
Specifically, this rock gangway is fully digged cable and is moved theory of operation of structure: the clamping plate 3007 is pulled downwards to drive the front and rear side sliding sleeves 3005 to slide downwards on the outer wall of the sliding rod 3004, the spring 3006 is pulled upwards to generate elastic potential energy, so that the clamping plate 3007 moves downwards in the clamping groove 3002, a cable needing to move is inserted into the clamping groove 3002, the tension on the clamping plate 3007 is released, the spring 3006 releases the potential energy to pull the sliding sleeve 3005 upwards to drive the clamping plate 3007 to move upwards to clamp and fix the cable, the outer end control motor 2007 operates to drive the gear 2004 to rotate and be meshed with the tooth blocks 2006 through the side wall tooth stabs, so that the gear 2004 is meshed and rotated on the surfaces of the tooth blocks 2006, the sliding block 2002 is driven to move left and right in the track groove 2001 to drive the cable to move left and right in the roadway rock mining process clamped at the lower side, the cable hanging height is raised, the safe use space of the cable is guaranteed, and the problem that the construction is influenced by the abrasion of the cable is solved.
The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.
Claims (7)
1. The utility model provides a rock gangway is combined and is dug cable and move structure, its characterized in that includes slide rail (100), actuating mechanism and fixture, slide rail (100) internally mounted has and is used for the effective sideslip actuating mechanism who digs cable clamping component to the rock gangway, the actuating mechanism lower extreme is installed and is used for the rock gangway to combine to dig the quick spacing fixture of cable, actuating mechanism includes track groove (2001), the inside slider (2002) that inlays of track groove (2001), inside inner groove (2003) of having seted up of slider (2002), inside rotation of inner groove (2003) installs gear (2004), side channel (2005) have been seted up to track groove (2001) front and back lateral wall, side channel (2005) lateral wall fixed mounting has tooth piece (2006), gear (2004) upper end fixed connection has motor (2007).
2. The utility model provides a rock gangway is fully excavated cable and is moved structure of claim 1, characterized in that, fixture includes and hangs down frame (3001), hang down frame (3001) fixed mounting at slider (2002) lower extreme outer wall, hang down frame (3001) center and seted up double-layered groove (3002), spacing groove (3003) have been seted up to the lateral wall around double-layered groove (3002), inside fixed mounting in spacing groove (3003) has slide bar (3004), slide bar (3004) lateral wall cover is equipped with sliding sleeve (3005), sliding sleeve (3005) upper end fixed mounting has spring (3006), fixed mounting has splint (3007) between sliding sleeve (3005).
3. The structure is characterized in that, the side wall of the gear (2004) is provided with teeth which are meshed with the tooth blocks (2006).
4. The structure for removing a fully mechanized excavation cable in a rock roadway according to claim 1, wherein a thickness dimension of the gear (2004) and a thickness dimension of the side groove (2005) are matched with each other.
5. The structure for moving the fully mechanized excavation cable of the rock roadway according to claim 2, wherein a sliding hole with the same diameter as the sliding rod (3004) is formed in the sliding sleeve (3005).
6. The rock roadway fully mechanized excavation cable moving structure according to claim 2, wherein the sliding sleeve (3005) is fixedly connected with one end of a spring (3006), and the other end of the spring (3006) is fixedly connected with the inner wall of the limiting groove (3003).
7. The structure for moving the fully mechanized excavation cable of the rock roadway according to claim 2, wherein a front-back dimension of the clamping plate (3007) and a front-back dimension of the clamping groove (3002) are matched with each other.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222116523.5U CN218829031U (en) | 2022-08-11 | 2022-08-11 | Rock gangway is combined and is dug cable and moves structure |
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CN202222116523.5U CN218829031U (en) | 2022-08-11 | 2022-08-11 | Rock gangway is combined and is dug cable and moves structure |
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CN218829031U true CN218829031U (en) | 2023-04-07 |
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CN202222116523.5U Active CN218829031U (en) | 2022-08-11 | 2022-08-11 | Rock gangway is combined and is dug cable and moves structure |
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2022
- 2022-08-11 CN CN202222116523.5U patent/CN218829031U/en active Active
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