CN112554015A - Anti-skid line cutting mechanism moving support for cement road construction - Google Patents

Anti-skid line cutting mechanism moving support for cement road construction Download PDF

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Publication number
CN112554015A
CN112554015A CN202011358958.XA CN202011358958A CN112554015A CN 112554015 A CN112554015 A CN 112554015A CN 202011358958 A CN202011358958 A CN 202011358958A CN 112554015 A CN112554015 A CN 112554015A
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CN
China
Prior art keywords
pressure telescopic
liquid pressure
pulley
liquid
rod
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Withdrawn
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CN202011358958.XA
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Chinese (zh)
Inventor
杜海明
尹强国
顾硕
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Weifang Engineering Vocational College
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Weifang Engineering Vocational College
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Priority to CN202011358958.XA priority Critical patent/CN112554015A/en
Publication of CN112554015A publication Critical patent/CN112554015A/en
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C23/00Auxiliary devices or arrangements for constructing, repairing, reconditioning, or taking-up road or like surfaces
    • E01C23/06Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road
    • E01C23/08Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road for roughening or patterning; for removing the surface down to a predetermined depth high spots or material bonded to the surface, e.g. markings; for maintaining earth roads, clay courts or like surfaces by means of surface working tools, e.g. scarifiers, levelling blades
    • E01C23/085Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road for roughening or patterning; for removing the surface down to a predetermined depth high spots or material bonded to the surface, e.g. markings; for maintaining earth roads, clay courts or like surfaces by means of surface working tools, e.g. scarifiers, levelling blades using power-driven tools, e.g. vibratory tools
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R43/00Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Bridges Or Land Bridges (AREA)

Abstract

The invention discloses an anti-skid pattern cutting mechanism moving support for cement road construction, which comprises four main longitudinal support rods. The device is matched with an anti-skid pattern cutting device for cement construction, two supporting rods which can be supported by the device can be symmetrically placed on two sides of a cement road, so that the working stability and precision are improved, the next device can move in the direction of the center line of the cement road, and the cutting work can be carried out at a fixed distance during working, so that the distance between each group of anti-skid patterns is the same, the stability is improved, in addition, the device is provided with a pulley clamping type positive wire wiring mechanism, positive wires between a power supply and a driving motor can be contacted at equal intervals, the connection is realized, and the function of cutting grooves of the anti-skid patterns at equal intervals is achieved.

Description

Anti-skid line cutting mechanism moving support for cement road construction
Technical Field
The invention relates to the technical field of cement road construction, in particular to a moving support of an anti-skid pattern cutting mechanism for cement road construction.
Background
At present, after a cement road is formed, a cutting device is generally used for cutting anti-skid lines on the surface of the cement road, so that the friction force between a vehicle and the ground is improved, and potential safety hazards are reduced.
Disclosure of Invention
The invention aims to provide a moving support of an anti-skid pattern cutting mechanism for cement road construction, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a skid-proof line cutting mechanism motion support for cement road construction comprises four main longitudinal support rods, a main pulley and a pulley clamping type positive wire connection mechanism, wherein a bottom support base plate is installed at the bottom of each main longitudinal support rod, the four main longitudinal support rods are divided into two groups, a main transverse support rod is installed at the top of each main longitudinal support rod, two parallel auxiliary transverse support rods and a hollow transverse support rod are installed at the middle part of each main transverse support rod, a main conducting rod is installed inside each hollow transverse support rod, a main wiring terminal is installed at the bottom of each hollow transverse support rod, a plurality of inserting holes are formed in the top of each hollow transverse support rod at equal intervals, a liquid pressure telescopic expansion mechanism is installed at the bottom of each main longitudinal support rod on opposite end faces, and a three-way pipeline type liquid filling flow mechanism is installed between the two liquid pressure telescopic expansion mechanisms, the periphery of main pulley is provided with annular groove structure, main pulley and the anodal wire wiring mechanism of pulley joint formula block respectively in vice horizontal bracing piece and hollow horizontal bracing piece's top, main pulley and the anodal wire wiring mechanism of pulley joint formula pass through a base bearing installation main rotation axle at opposition terminal surface center, main pulley and the anodal wire wiring mechanism of pulley joint formula other one end center install respectively that first promotion axle and second promote the axle, the second promotes the center of axle and is provided with the main wire hole, a main longitudinal tie rod of mid-mounting of main rotation axle, a main connecting plate of main longitudinal tie rod bottom installation.
Further, the pulley clamping type positive wire wiring mechanism comprises a sliding plate for the pulley clamping type positive wire wiring mechanism, an annular clamping groove structure for the pulley clamping type positive wire wiring mechanism, a component mounting hole for the pulley clamping type positive wire wiring mechanism, a hollow structure for the pulley clamping type positive wire wiring mechanism, a through hole structure for the pulley clamping type positive wire wiring mechanism, a copper moving plate for the pulley clamping type positive wire wiring mechanism, a conductive rod for the pulley clamping type positive wire wiring mechanism, a wire embedding groove structure for the pulley clamping type positive wire wiring mechanism, a spiral spring for the pulley clamping type positive wire wiring mechanism and a copper push rod for the pulley clamping type positive wire wiring mechanism; the pulley joint formula anodal wire for the wiring mechanism periphery center of slide is provided with pulley joint formula anodal wire for the wiring mechanism annular joint groove structure, a terminal surface center of pulley joint formula anodal wire for the wiring mechanism slide is provided with pulley joint formula anodal wire for the wiring mechanism part mounting hole, the inside of pulley joint formula anodal wire for the wiring mechanism slide is provided with a pulley joint formula anodal wire for the wiring mechanism hollow structure, through-hole structure intercommunication for pulley joint formula anodal wire for the wiring mechanism between pulley joint formula anodal wire for the wiring mechanism hollow structure and the pulley joint formula anodal wire for the wiring mechanism part mounting hole, pulley joint formula anodal wire for the wiring mechanism hollow structure's internally mounted pulley joint formula anodal wire for the wiring mechanism copper movable plate, pulley joint formula anodal wire for the wiring mechanism copper movable plate's one end center mounting pulley joint formula anodal wire for the wiring mechanism copper movable plate leads the structure The utility model provides a positive wire for the mechanism of line connection, the positive wire for the mechanism of pulley joint formula conducting rod, install a compressed pulley joint formula positive wire for the mechanism of line connection on the barred body of the positive wire for the mechanism of pulley joint formula conducting rod, pulley joint formula positive wire for the mechanism of line connection conducting rod one end center is provided with pulley joint formula positive wire for the mechanism of line connection groove structure, pulley joint formula positive wire for the mechanism of line connection conducting rod other end center installation pulley joint formula positive wire for the mechanism of line connection copper push rod, the body of rod of pulley joint formula positive wire for the mechanism of line connection copper push rod runs through the pulley joint formula positive wire for the mechanism of line connection slide outside.
Furthermore, the pulley joint type positive wire wiring mechanism is embedded with one end of a wire inside the wire embedding groove structure, and the other end of the wire penetrates through the pulley joint type positive wire wiring mechanism part mounting hole, the pulley joint type positive wire wiring mechanism through-hole structure and the main wire hole.
Further, the anodal wire connection mechanism of pulley joint formula is with annular joint groove structure card on the body of rod of hollow horizontal bracing piece, the internally mounted of the anodal wire connection mechanism of pulley joint formula is with the one end axis body that the second promoted the axle, the anodal wire connection mechanism of pulley joint formula is with the distance of the rotatory a week of copper push rod and the distance between the two adjacent main patchholes the same.
Further, the liquid pressure telescopic telescoping mechanism comprises a sleeve for the liquid pressure telescopic telescoping mechanism, a sleeve hole for the liquid pressure telescopic telescoping mechanism, a hollow shell for the liquid pressure telescopic telescoping mechanism, a limit space for the liquid pressure telescopic telescoping mechanism, a liquid through hole for the liquid pressure telescopic telescoping mechanism, a hollow structure for the liquid pressure telescopic telescoping mechanism, a piston plate for the liquid pressure telescopic telescoping mechanism, a telescopic rod for the liquid pressure telescopic telescoping mechanism, a coil spring for the liquid pressure telescopic mechanism and a contact plate for the liquid pressure telescopic telescoping mechanism; the liquid pressure telescopic telescoping mechanism is characterized in that a sleeve hole for the liquid pressure telescopic telescoping mechanism is arranged at the center inside a sleeve for the liquid pressure telescopic telescoping mechanism, one side of the sleeve for the liquid pressure telescopic telescoping mechanism is provided with a hollow shell for the liquid pressure telescopic telescoping mechanism in an integrated structure, a limiting space for the liquid pressure telescopic telescoping mechanism is arranged at the center of one end of the hollow shell for the liquid pressure telescopic telescoping mechanism, a liquid through hole for the liquid pressure telescopic telescoping mechanism for communicating an external space with the limiting space for the liquid pressure telescopic telescoping mechanism is arranged inside the hollow shell for the liquid pressure telescopic telescoping mechanism, a hollow structure for the liquid pressure telescopic telescoping mechanism is arranged at one end of the limiting space for the liquid pressure telescopic telescoping mechanism, and a piston plate for the liquid pressure telescopic telescoping mechanism is arranged inside the hollow structure for the liquid pressure telescopic telescoping mechanism, the liquid pressure telescopic mechanism is characterized in that a telescopic rod for the liquid pressure telescopic mechanism is arranged at the center of one end of a piston plate for the liquid pressure telescopic mechanism, a rod body of the telescopic rod for the liquid pressure telescopic mechanism penetrates through a hollow shell for the liquid pressure telescopic mechanism, a compressed spiral spring for the liquid pressure telescopic mechanism is sleeved on the rod body located inside the telescopic rod for the liquid pressure telescopic mechanism, and a touch panel for the liquid pressure telescopic mechanism is arranged at one end, located outside, of the telescopic rod for the liquid pressure telescopic mechanism.
Furthermore, the liquid pressure telescopic mechanism is sleeved on the rod body of the main longitudinal support rod through a sleeving hole.
Furthermore, the liquid pressure telescopic mechanism is communicated with an exhaust part in the three-way pipeline type liquid filling and flowing mechanism through a liquid through hole.
Further, the three-way pipeline type liquid charging and flowing mechanism comprises a main hollow pipeline body for the three-way pipeline type liquid charging and flowing mechanism, an auxiliary hollow pipeline body for the three-way pipeline type liquid charging and flowing mechanism, a liquid discharging and inserting structure for the three-way pipeline type liquid charging and flowing mechanism, a liquid inlet hole for the three-way pipeline type liquid charging and flowing mechanism, a pipeline connecting port for the three-way pipeline type liquid charging and flowing mechanism and a liquid discharging hole for the three-way pipeline type liquid charging and flowing mechanism; the three-way pipeline type liquid filling and flowing mechanism is characterized in that an auxiliary hollow pipeline body of an integrated structure is arranged in the middle of a main hollow pipeline body of the three-way pipeline type liquid filling and flowing mechanism, a liquid discharge hole of the three-way pipeline type liquid filling and flowing mechanism and a liquid inlet hole of the three-way pipeline type liquid filling and flowing mechanism are respectively arranged inside the main hollow pipeline body of the three-way pipeline type liquid filling and flowing mechanism and the auxiliary hollow pipeline body of the three-way pipeline type liquid filling and flowing mechanism, a pipeline connecting port of the three-way pipeline type liquid filling and flowing mechanism is arranged at the top end of the liquid inlet hole of the three-way pipeline type liquid filling and flowing mechanism, and liquid discharge inserting structures of the integrated structure are arranged at two ends of the main hollow pipeline body of the three-way pipeline type liquid filling and flowing.
Furthermore, the three-way pipeline type liquid filling flowing mechanism is inserted into the liquid through hole for the liquid pressure telescopic mechanism through the liquid discharging insertion structure.
Compared with the prior art, the invention has the beneficial effects that: the invention is used in cooperation with an anti-skid pattern cutting device for cement construction, two supporting rods which can be supported by the device can be symmetrically placed at two sides of a cement road, so that the working stability and precision are improved, the next device can move along the direction of the center line of the cement road, and the cutting work can be carried out at a fixed distance during working, so that the distance between each group of anti-skid patterns is the same, the stability is improved, moreover, the device is provided with a pulley clamping type positive wire wiring mechanism, so that positive wires between a power supply and a driving motor can be contacted at equal intervals, the connection is realized, and the cutting function of the grooves of the anti-skid patterns at equal intervals is achieved, in addition, the device is provided with a liquid pressure telescopic type telescopic mechanism, the extension can be realized under the hydraulic action, so that the side surfaces of the cement road are contacted in an abutting mode, in addition, the equal-pressure liquid conveying can be realized, and the two telescopic mechanisms are arranged at equal intervals.
Drawings
FIG. 1 is a schematic view of a full-section structure of a moving support of an anti-skid pattern cutting mechanism for cement road construction, which is disclosed by the invention;
FIG. 2 is a schematic structural diagram of a pulley clamping type positive wire connection mechanism in a moving bracket of the anti-skid pattern cutting mechanism for cement road construction;
FIG. 3 is a schematic structural view of a liquid pressure telescopic mechanism in a moving support of the anti-skid cutting mechanism for cement road construction;
FIG. 4 is a schematic structural diagram of a three-way pipeline type liquid filling and flowing mechanism in a motion bracket of the anti-skid cutting mechanism for cement road construction, which is disclosed by the invention;
in the figure: 1, a main longitudinal support rod, 2, a main pulley, 3, a main transverse support rod, 4, an auxiliary transverse support rod, 5, a hollow transverse support rod, 6, a main conductive rod, 7, a main binding post, 8, an insertion hole, 9, a main pulley, 10, a pulley clamping type anode wire connection mechanism, 101, a sliding plate for the pulley clamping type anode wire connection mechanism, 102, an annular clamping groove structure for the pulley clamping type anode wire connection mechanism, 103, a component mounting hole for the pulley clamping type anode wire connection mechanism, 104, a hollow structure for the pulley clamping type anode wire connection mechanism, 105, a through hole structure for the pulley clamping type anode wire connection mechanism, 106, a copper moving plate for the pulley clamping type anode wire connection mechanism, 107, a conductive rod for the pulley clamping type anode wire connection mechanism, 108, a wire embedding groove structure for the pulley clamping type anode wire connection mechanism, 109, a coil spring for a pulley clamp type positive electrode lead wiring mechanism, 1010, a copper push rod for a pulley clamp type positive electrode lead wiring mechanism, 11, an annular groove structure, 12, a main rotating shaft, 13, a main longitudinal connecting rod, 14, a main connecting plate, 15, a first pushing shaft, 16, a second pushing shaft, 17, a main lead hole, 18, a liquid pressure telescopic mechanism, 181, a sleeve for a liquid pressure telescopic mechanism, 182, a sleeve hole for a liquid pressure telescopic mechanism, 183, a hollow shell for a liquid pressure telescopic mechanism, 184, a limit space for a liquid pressure telescopic mechanism, 185, a liquid through hole for a liquid pressure telescopic mechanism, 186, a hollow structure for a liquid pressure telescopic mechanism, 187, a piston plate for a liquid pressure telescopic mechanism, 188, a telescopic rod for a liquid pressure telescopic mechanism, 189, 1810 for a spiral spring for a liquid pressure telescopic telescoping mechanism, 19 for a contact plate for a liquid pressure telescopic telescoping mechanism, 191 for a three-way pipe type liquid charging flow mechanism, 192 for a main hollow pipe body for a three-way pipe type liquid charging flow mechanism, 193 for a sub hollow pipe body for a three-way pipe type liquid charging flow mechanism, 194 for a drainage insert structure for a three-way pipe type liquid charging flow mechanism, 195 for a liquid inlet hole for a three-way pipe type liquid charging flow mechanism, 196 for a pipe connecting port for a three-way pipe type liquid charging flow mechanism, and for a drainage hole for a three-way pipe type liquid charging flow mechanism.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the device comprises four main longitudinal support rods 1, a main pulley 9 and a pulley clamping type positive wire connection mechanism 10, wherein a bottom support substrate 2 is arranged at the bottom of each main longitudinal support rod 1, the four main longitudinal support rods 1 are divided into two groups, a main transverse support rod 3 is arranged at the top of each main longitudinal support rod 1, two parallel auxiliary transverse support rods 4 and a hollow transverse support rod 5 are arranged at the middle part of each main transverse support rod 3, a main conducting rod 6 is arranged in each hollow transverse support rod 5, a main wiring terminal 7 is arranged at the bottom of each hollow transverse support rod 5, a plurality of inserting holes 8 which are arranged at equal intervals are arranged at the top of each hollow transverse support rod 5, a liquid pressure telescopic expansion mechanism 18 is arranged at the bottom of each main longitudinal support rod 1 at opposite end faces, and a three-way pipe type liquid filling flow mechanism 19 is arranged between the two liquid pressure telescopic expansion mechanisms 18, the periphery of main pulley 9 is provided with annular groove structure 11, main pulley 9 and the anodal wire wiring mechanism 10 of pulley joint formula block respectively in vice horizontal bracing piece 4 and hollow horizontal bracing piece 5's top, main pulley 9 and the anodal wire wiring mechanism 10 of pulley joint formula pass through a main bearing installation main rotation axle 12 at opposition terminal surface center, main pulley 9 and the anodal wire wiring mechanism 10 of pulley joint formula other one end center install respectively that first promote axle 15 and second promote axle 16, the second promotes the center of axle 16 and is provided with main wire hole 17, a main vertical connecting rod 13 of mid-mounting of main rotation axle 12, a main connecting plate 14 of main vertical connecting rod 13 bottom installation.
Referring to fig. 2, the pulley clamping type positive wire connection mechanism 10 includes a sliding plate 101 for the pulley clamping type positive wire connection mechanism, an annular clamping groove structure 102 for the pulley clamping type positive wire connection mechanism, a component mounting hole 103 for the pulley clamping type positive wire connection mechanism, a hollow structure 104 for the pulley clamping type positive wire connection mechanism, a through hole structure 105 for the pulley clamping type positive wire connection mechanism, a copper moving plate 106 for the pulley clamping type positive wire connection mechanism, a conductive rod 107 for the pulley clamping type positive wire connection mechanism, a wire embedding groove structure 108 for the pulley clamping type positive wire connection mechanism, a spiral spring 109 for the pulley clamping type positive wire connection mechanism, and a copper push rod 1010 for the pulley clamping type positive wire connection mechanism; the pulley clamping type anode wire connecting mechanism is characterized in that an annular clamping groove structure 102 for the pulley clamping type anode wire connecting mechanism is arranged at the center of the circumferential surface of a sliding plate 101 for the pulley clamping type anode wire connecting mechanism, a pulley clamping type anode wire connecting mechanism component mounting hole 103 is arranged at the center of one end surface of the sliding plate 101 for the pulley clamping type anode wire connecting mechanism, a pulley clamping type hollow structure 104 for the anode wire connecting mechanism is arranged inside the sliding plate 101 for the pulley clamping type anode wire connecting mechanism, the pulley clamping type hollow structure 104 for the anode wire connecting mechanism and the pulley clamping type anode wire connecting mechanism component mounting hole 103 are communicated through a pulley clamping type through hole structure 105 for the anode wire connecting mechanism, and a pulley clamping type copper moving plate 106 for the anode wire connecting mechanism is arranged inside the pulley clamping type hollow structure 104 for the anode wire connecting mechanism, a pulley clamping type conductive rod 107 for the positive electrode wire connection mechanism is installed at the center of one end of the copper moving plate 106 for the pulley clamping type positive electrode wire connection mechanism, a compressed spiral spring 109 for the pulley clamping type positive electrode wire connection mechanism is installed on the rod body of the conductive rod 107 for the pulley clamping type positive electrode wire connection mechanism, a pulley clamping type lead wire embedding groove structure 108 for the positive electrode wire connection mechanism is arranged at the center of one end of the conductive rod 107 for the pulley clamping type positive electrode wire connection mechanism, a pulley clamping type copper push rod 1010 for the positive electrode wire connection mechanism is installed at the center of the other end of the conductive rod 107 for the pulley clamping type positive electrode wire connection mechanism, and the rod body of the pulley clamping type copper push rod 1010 for the positive electrode wire connection mechanism penetrates through the outer side of the sliding plate 101 for the pulley clamping type positive electrode wire connection mechanism; one end of a wire is embedded in the wire embedding groove structure 108 for the pulley clamping type positive wire wiring mechanism, and the other end of the wire penetrates through the component mounting hole 103 for the pulley clamping type positive wire wiring mechanism, the through hole structure 105 for the pulley clamping type positive wire wiring mechanism and the main wire hole 17; the utility model discloses a positive wire connection mechanism of pulley joint formula, including the body of rod of hollow horizontal bracing piece 5, pulley joint formula is anodal wire connection mechanism uses annular joint groove structure 102 card on the body of rod of hollow horizontal bracing piece 5, the internally mounted of pulley joint formula anodal wire connection mechanism uses part mounting hole 103 has the one end axis body that the second promoted axle 16, the distance of pulley joint formula anodal wire connection mechanism for the rotatory a week of copper push rod 1010 is the same with the distance between two adjacent main patchholes 8.
Referring to fig. 3, the liquid pressure telescopic mechanism 18 includes a sleeve 181 for a liquid pressure telescopic mechanism, a sleeve hole 182 for a liquid pressure telescopic mechanism, a hollow housing 183 for a liquid pressure telescopic mechanism, a limit space 184 for a liquid pressure telescopic mechanism, a liquid through hole 185 for a liquid pressure telescopic mechanism, a hollow structure 186 for a liquid pressure telescopic mechanism, a piston plate 187 for a liquid pressure telescopic mechanism, a telescopic rod 188 for a liquid pressure telescopic mechanism, a coil spring 189 for a liquid pressure telescopic mechanism, and a contact plate 1810 for a liquid pressure telescopic mechanism; a sleeve hole 182 for a liquid pressure telescopic telescoping mechanism is arranged at the center inside the sleeve 181 for the liquid pressure telescopic telescoping mechanism, a hollow shell 183 for the liquid pressure telescopic telescoping mechanism of an integrated structure is arranged at one side of the sleeve 181 for the liquid pressure telescopic telescoping mechanism, a limit space 184 for the liquid pressure telescopic telescoping mechanism is arranged at the center of one end of the hollow shell 183 for the liquid pressure telescopic telescoping mechanism, a liquid through hole 185 for the liquid pressure telescopic telescoping mechanism for communicating an external space with the limit space 184 for the liquid pressure telescopic telescoping mechanism is arranged inside the hollow shell 183 for the liquid pressure telescopic telescoping mechanism, a hollow structure 186 for the liquid pressure telescopic telescoping mechanism is arranged at one end of the limit space 184 for the liquid pressure telescopic telescoping mechanism, a piston plate 187 for the liquid pressure telescopic mechanism is arranged inside the hollow structure 186 for the liquid pressure telescopic telescoping mechanism, a telescopic rod 188 for a liquid pressure telescopic mechanism is arranged at the center of one end of the piston plate 187 for the liquid pressure telescopic mechanism, the rod body of the telescopic rod 188 for the liquid pressure telescopic mechanism penetrates through the hollow shell 183 for the liquid pressure telescopic mechanism, a compressed spiral spring 189 for the liquid pressure telescopic mechanism is sleeved on the rod body positioned inside the telescopic rod 188 for the liquid pressure telescopic mechanism, and a liquid pressure telescopic mechanism collision plate 1810 is arranged at one end, positioned outside the telescopic rod 188 for the liquid pressure telescopic mechanism; the liquid pressure telescopic mechanism is sleeved on the rod body of the main longitudinal support rod 1 through a sleeving hole 182; the liquid pressure telescopic mechanism is communicated with the exhaust part of the three-way pipeline type liquid filling flowing mechanism 19 through a liquid through hole 185.
Referring to fig. 4, the three-way pipe type liquid charging and flowing mechanism 19 includes a main hollow pipe body 191 for the three-way pipe type liquid charging and flowing mechanism, an auxiliary hollow pipe body 192 for the three-way pipe type liquid charging and flowing mechanism, a liquid discharging and inserting structure 193 for the three-way pipe type liquid charging and flowing mechanism, a liquid inlet hole 194 for the three-way pipe type liquid charging and flowing mechanism, a pipe connecting port 195 for the three-way pipe type liquid charging and flowing mechanism, and a liquid discharging hole 196 for the three-way pipe type liquid charging and flowing mechanism; the middle part of the main hollow pipeline body 191 for the three-way pipeline type liquid charging and flowing mechanism is provided with a three-way pipeline type auxiliary hollow pipeline body 192 for the liquid charging and flowing mechanism, the interiors of the main hollow pipeline body 191 for the three-way pipeline type liquid charging and flowing mechanism and the auxiliary hollow pipeline body 192 for the three-way pipeline type liquid charging and flowing mechanism are respectively provided with a three-way pipeline type liquid charging and flowing mechanism liquid discharge hole 196 and a three-way pipeline type liquid charging and flowing mechanism liquid inlet hole 194, the top end of the three-way pipeline type liquid charging and flowing mechanism liquid inlet hole 194 is provided with a three-way pipeline type liquid charging and flowing mechanism pipeline connecting port 195, and the two ends of the main hollow pipeline body 191 for the three-way pipeline type liquid charging and flowing mechanism are provided with three-way pipeline type liquid charging and flowing mechanism liquid discharging and inserting structures 193 of an integrated; the three-way pipe type liquid charging and flowing mechanism drain inserting structure 193 is inserted into the liquid passing hole 185 for the liquid pressure telescopic type telescopic mechanism.
The specific use mode is as follows: in the invention, a lead in a pulley clamping type positive lead wiring mechanism 10 is connected with the positive pole of a power supply, meanwhile, the lead connected with a main wiring terminal 7 is connected with the positive pole of a driving motor in an anti-skid pattern cutting device for cement construction, then a hydraulic pump is utilized, a liquid discharge port of the hydraulic pump is communicated with a three-way pipeline type liquid charging flowing mechanism 19, then two liquid pressure telescopic telescoping mechanisms 18 are positioned at two sides of a cement road, then the hydraulic pump works, at the moment, the liquid pressure telescopic telescoping mechanisms 18 are butted against the two sides of the cement road, the whole central line of the device is consistent with the central line of the cement road due to the same pressure, then a connecting plate in the anti-skid pattern cutting device for cement construction is fixedly connected with the bottom of a main connecting plate 14, and a first pushing shaft 15 and a second pushing shaft 16 are pushed during working, when the pulley clamping type positive wire connection mechanism contacts the main conductive rod 6 by the push rod 1010, the electrode is connected, so that the next mechanism works.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a cement road construction is with anti-skidding line cutting mechanism motion support, includes four main longitudinal support poles (1), main pulley (9) and anodal wire wiring mechanism of pulley joint formula (10), its characterized in that: the bottom of each main longitudinal support rod (1) is provided with a bottom support base plate (2), four main longitudinal support rods (1) are divided into two groups, a main transverse support rod (3) is arranged at the top of each main longitudinal support rod (1), two auxiliary transverse support rods (4) and a hollow transverse support rod (5) which are parallel are arranged in the middle of each main transverse support rod (3), a main conducting rod (6) is arranged in each hollow transverse support rod (5), a main wiring terminal (7) is arranged at the bottom of each hollow transverse support rod (5), a plurality of inserting holes (8) which are arranged at equal intervals are arranged at the top of each hollow transverse support rod (5), liquid pressure telescopic mechanisms (18) are arranged at the bottom of each main longitudinal support rod (1) at opposite end faces, and a three-way pipeline type liquid filling flow mechanism (19) is arranged between the two liquid pressure telescopic mechanisms (18), the circumferential surface of the main pulley (9) is provided with an annular groove structure (11), the main pulley (9) and the pulley clamping type positive wire connection mechanism (10) are respectively clamped at the tops of the auxiliary transverse supporting rod (4) and the hollow transverse supporting rod (5), the main pulley (9) and the pulley clamping type positive wire connection mechanism (10) are provided with a main rotating shaft (12) at the center of the opposite end surface through a main bearing, the centers of the other ends of the main pulley (9) and the pulley clamping type positive wire connection mechanism (10) are respectively provided with a first pushing shaft (15) and a second pushing shaft (16), a main wire guide hole (17) is arranged at the center of the second pushing shaft (16), a main longitudinal connecting rod (13) is arranged in the middle of the main rotating shaft (12), and a main connecting plate (14) is arranged at the bottom end of the main longitudinal connecting rod (13).
2. The cement road construction anti-skid line cutting mechanism moving support frame as claimed in claim 1, characterized in that: the pulley clamping type positive wire connection mechanism (10) comprises a sliding plate (101) for the pulley clamping type positive wire connection mechanism, an annular clamping groove structure (102) for the pulley clamping type positive wire connection mechanism, a part mounting hole (103) for the pulley clamping type positive wire connection mechanism, a hollow structure (104) for the pulley clamping type positive wire connection mechanism, a through hole structure (105) for the pulley clamping type positive wire connection mechanism, a copper moving plate (106) for the pulley clamping type positive wire connection mechanism, a conductive rod (107) for the pulley clamping type positive wire connection mechanism, a wire embedding groove structure (108) for the pulley clamping type positive wire connection mechanism, a spiral spring (109) for the pulley clamping type positive wire connection mechanism and a copper push rod (1010) for the pulley clamping type positive wire connection mechanism; the pulley clamping type anode wire connecting mechanism is characterized in that an annular clamping groove structure (102) for the pulley clamping type anode wire connecting mechanism is arranged at the center of the circumferential surface of a sliding plate (101) for the pulley clamping type anode wire connecting mechanism, a pulley clamping type anode wire connecting mechanism component mounting hole (103) is arranged at the center of one end surface of the sliding plate (101) for the pulley clamping type anode wire connecting mechanism, a pulley clamping type anode wire connecting mechanism hollow structure (104) is arranged inside the sliding plate (101) for the pulley clamping type anode wire connecting mechanism, the pulley clamping type anode wire connecting mechanism hollow structure (104) and the pulley clamping type anode wire connecting mechanism component mounting hole (103) are communicated through a pulley clamping type anode wire connecting mechanism through a through hole structure (105), and a pulley clamping type anode wire connecting mechanism copper moving plate (106) is arranged inside the pulley clamping type anode wire connecting mechanism hollow structure (104), a conductive rod (107) for the pulley clamping type positive wire connection mechanism is arranged at the center of one end of a copper moving plate (106) for the pulley clamping type positive wire connection mechanism, a compressed spiral spring (109) for the pulley clamping type positive wire connection mechanism is arranged on the rod body of the conductive rod (107) for the pulley clamping type positive wire connection mechanism, a conducting wire embedding groove structure (108) for the pulley clamping type positive conducting wire wiring mechanism is arranged at the center of one end of a conducting rod (107) for the pulley clamping type positive conducting wire wiring mechanism, the center of the other end of the conductive rod (107) for the pulley clamping type positive wire connection mechanism is provided with a copper push rod (1010) for the pulley clamping type positive wire connection mechanism, the rod body of the copper push rod (1010) for the pulley clamping type positive wire wiring mechanism penetrates through the outer side of the sliding plate (101) for the pulley clamping type positive wire wiring mechanism.
3. The cement road construction anti-skid line cutting mechanism moving support frame as claimed in claim 2, characterized in that: the pulley joint type positive wire wiring mechanism is internally embedded with one end of a wire by a wire embedding groove structure (108), and the other end of the wire penetrates through a pulley joint type positive wire wiring mechanism component mounting hole (103), a pulley joint type positive wire wiring mechanism through-hole structure (105) and a main wiring hole (17).
4. The cement road construction anti-skid line cutting mechanism moving support frame as claimed in claim 2, characterized in that: the utility model discloses a positive wire connection mechanism of pulley joint formula, including the body of rod of hollow horizontal bracing piece (5), the body of rod of pulley joint formula positive wire connection mechanism is with annular joint groove structure (102) card on the body of rod of hollow horizontal bracing piece (5), the internally mounted of pulley joint formula positive wire connection mechanism part mounting hole (103) has the second to promote the one end axis body of axle (16), pulley joint formula positive wire connection mechanism is with the distance of copper push rod (1010) rotation a week and the distance between two adjacent main insertion holes (8) is the same.
5. The cement road construction anti-skid line cutting mechanism moving support frame as claimed in claim 1, characterized in that: the liquid pressure telescopic telescoping mechanism (18) comprises a sleeve (181) for the liquid pressure telescopic telescoping mechanism, a sleeve hole (182) for the liquid pressure telescopic telescoping mechanism, a hollow shell (183) for the liquid pressure telescopic telescoping mechanism, a limit space (184) for the liquid pressure telescopic telescoping mechanism, a liquid through hole (185) for the liquid pressure telescopic telescoping mechanism, a hollow structure (186) for the liquid pressure telescopic telescoping mechanism, a piston plate (187) for the liquid pressure telescopic telescoping mechanism, a telescopic rod (188) for the liquid pressure telescopic telescoping mechanism, a coil spring (189) for the liquid pressure telescopic telescoping mechanism and a contact plate (1810) for the liquid pressure telescopic telescoping mechanism; a sleeve hole (182) for a liquid pressure telescopic telescoping mechanism is arranged at the center inside the sleeve (181) for the liquid pressure telescopic telescoping mechanism, a hollow shell (183) for the liquid pressure telescopic telescoping mechanism in an integrated structure is arranged at one side of the sleeve (181) for the liquid pressure telescopic telescoping mechanism, a limit space (184) for the liquid pressure telescopic telescoping mechanism is arranged at the center of one end of the hollow shell (183) for the liquid pressure telescopic telescoping mechanism, a liquid through hole (185) for the liquid pressure telescopic telescoping mechanism for communicating an external space with the limit space (184) for the liquid pressure telescopic telescoping mechanism is arranged inside the hollow shell (183) for the liquid pressure telescopic telescoping mechanism, and a hollow structure (186) for the liquid pressure telescopic telescoping mechanism is arranged at one end of the limit space (184) for the liquid pressure telescopic telescoping mechanism, the liquid pressure telescopic mechanism comprises a hollow structure (186) for the liquid pressure telescopic mechanism, wherein a piston plate (187) for the liquid pressure telescopic mechanism is arranged inside the hollow structure (186) for the liquid pressure telescopic mechanism, a telescopic rod (188) for the liquid pressure telescopic mechanism is arranged at the center of one end of the piston plate (187) for the liquid pressure telescopic mechanism, a rod body of the telescopic rod (188) for the liquid pressure telescopic mechanism penetrates through a hollow shell (183) for the liquid pressure telescopic mechanism, the telescopic rod (188) for the liquid pressure telescopic mechanism is sleeved with a compressed spiral spring (189) for the liquid pressure telescopic mechanism on the rod body located inside, and a butting plate (1810) for the liquid pressure telescopic mechanism is arranged at one end located outside the telescopic rod (188) for the liquid pressure telescopic mechanism.
6. The movement support of the anti-skid pattern cutting mechanism for cement road construction as claimed in claim 5, wherein: the liquid pressure telescopic mechanism is sleeved on the rod body of the main longitudinal support rod (1) through a sleeving hole (182).
7. The movement support of the anti-skid pattern cutting mechanism for cement road construction as claimed in claim 5, wherein: the liquid pressure telescopic mechanism is communicated with an exhaust part in the three-way pipeline type liquid filling flowing mechanism (19) through a liquid through hole (185).
8. The cement road construction anti-skid line cutting mechanism moving support frame as claimed in claim 1, characterized in that: the three-way pipeline type liquid charging and flowing mechanism (19) comprises a main hollow pipeline body (191) for the three-way pipeline type liquid charging and flowing mechanism, an auxiliary hollow pipeline body (192) for the three-way pipeline type liquid charging and flowing mechanism, a liquid discharging and inserting structure (193) for the three-way pipeline type liquid charging and flowing mechanism, a liquid inlet hole (194) for the three-way pipeline type liquid charging and flowing mechanism, a pipeline connecting port (195) for the three-way pipeline type liquid charging and flowing mechanism and a liquid discharging hole (196) for the three-way pipeline type liquid charging and flowing mechanism; the middle part of the main hollow pipeline body (191) for the three-way pipeline type liquid charging and flowing mechanism is provided with an auxiliary hollow pipeline body (192) for the three-way pipeline type liquid charging and flowing mechanism with an integrated structure, the three-way pipeline type main hollow pipeline body (191) for the liquid filling and flowing mechanism and the three-way pipeline type auxiliary hollow pipeline body (192) for the liquid filling and flowing mechanism are respectively provided with a three-way pipeline type liquid discharging hole (196) for the liquid filling and flowing mechanism and a three-way pipeline type liquid inlet hole (194) for the liquid filling and flowing mechanism, and the top end of the liquid inlet hole (194) for the three-way pipeline type liquid charging and flowing mechanism is provided with a pipeline connecting port (195) for the three-way pipeline type liquid charging and flowing mechanism, and the two ends of the main hollow pipeline body (191) for the three-way pipeline type liquid filling and flowing mechanism are provided with a drainage inserting structure (193) for the three-way pipeline type liquid filling and flowing mechanism in an integrated structure.
9. The movement support of the anti-skid pattern cutting mechanism for cement road construction as claimed in claim 8, wherein: the three-way pipeline type liquid charging and flowing mechanism liquid discharging and inserting structure (193) is inserted into the liquid passing hole (185) for the liquid pressure telescopic mechanism.
CN202011358958.XA 2020-11-27 2020-11-27 Anti-skid line cutting mechanism moving support for cement road construction Withdrawn CN112554015A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202011358958.XA CN112554015A (en) 2020-11-27 2020-11-27 Anti-skid line cutting mechanism moving support for cement road construction

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Application Number Priority Date Filing Date Title
CN202011358958.XA CN112554015A (en) 2020-11-27 2020-11-27 Anti-skid line cutting mechanism moving support for cement road construction

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2702814A1 (en) * 1977-01-25 1978-07-27 Marks Gmbh & Co Kg Bituminous road surface groove eradicating machine - has pulverising rods moving across direction of travel on continuous chain
JPH0489105U (en) * 1981-09-02 1992-08-04
CN2683692Y (en) * 2003-10-05 2005-03-09 黎宁生 Concrete pavement line cutting and groove carving machine
CN110219228A (en) * 2018-06-19 2019-09-10 韩玉锐 A kind of road repair grooving apparatus
CN111809491A (en) * 2020-08-13 2020-10-23 甘肃奇雅科技有限公司 Road administration is with effectual cement road surface router of dust fall

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2702814A1 (en) * 1977-01-25 1978-07-27 Marks Gmbh & Co Kg Bituminous road surface groove eradicating machine - has pulverising rods moving across direction of travel on continuous chain
JPH0489105U (en) * 1981-09-02 1992-08-04
CN2683692Y (en) * 2003-10-05 2005-03-09 黎宁生 Concrete pavement line cutting and groove carving machine
CN110219228A (en) * 2018-06-19 2019-09-10 韩玉锐 A kind of road repair grooving apparatus
CN111809491A (en) * 2020-08-13 2020-10-23 甘肃奇雅科技有限公司 Road administration is with effectual cement road surface router of dust fall

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