Continuous and uninterrupted automatic construction device for anti-skid coating
Technical Field
The invention relates to a continuous and uninterrupted automatic construction device for an anti-skid coating, in particular to a device for carrying out blade coating and roller coating construction on the anti-skid coating.
Background
The anti-skid coating is widely applied to decks of various public places and ships and factory floors, and has the advantages of good adhesion, roughness and effective anti-skid; the most successful application of the anti-slip coating is on aircraft carriers and ship-borne decks, the anti-slip coating increases the friction coefficient of the decks and avoids sliding, and due to the special purposes, the development of the anti-slip coating is leapfrog, but the construction of the anti-slip coating still adopts manual construction at present, so that the efficiency is low and the labor intensity is high.
Disclosure of Invention
In order to achieve the purpose, the invention discloses a continuous and uninterrupted automatic construction device for an anti-skid coating, which has the advantages of stable work and convenient use.
The invention adopts the following technical scheme:
the invention relates to a continuous and uninterrupted automatic construction device for anti-skid coatings, which comprises: the device comprises a supporting device, a traction transmission device, a transverse moving device and a construction device; the supporting device is fixedly arranged on the omnibearing moving platform and is contacted with the ground through a universal wheel; the traction transmission device is arranged on the supporting device; the transverse moving device is arranged in the sliding track to realize reciprocating movement on the sliding track; the construction device is arranged in the supporting device and is driven by the transverse moving device to move transversely.
Further, the supporting device includes: the device comprises a front bracket, a rear bracket, a shock absorber and a universal wheel; the rear bracket includes: a sliding track; the front bracket is hinged on the omnibearing movable platform, and the rear bracket is fixed with the front bracket through a bolt; the universal wheel is arranged below the front bracket and used for supporting the front bracket and the rear bracket; one end of the shock absorber is fixedly arranged on the side edge of the omnidirectional mobile platform, and the other end of the shock absorber is hinged above the front support and is used for inhibiting the vibration of the spring during rebound after vibration absorption and the vibration in the roller coating process; the sliding track is a V-shaped track and is fixedly arranged inside the rear support.
Further, the traction drive includes: the device comprises a speed reducer, a motor I, a winding drum, a roller I and a steel cable; the winding drum is a cylinder, the surface of the winding drum is provided with a groove, the winding drum is fixedly arranged below the speed reducer through a bolt and is connected with the speed reducer through a coupler; four rollers I are respectively welded at four corners of a rear bracket of the supporting device; the 8' -shaped steel cable winds around the winding drum and the roller I and is connected with a roller bracket of the transverse moving device; the motor I rotates forwards and reversely to drive the winding drum to rotate in two directions, and reciprocating traction on the steel cable is achieved.
Further, the traverse device includes: the device comprises a roller bracket, a roller II, a speed reducer, a motor II, a worm wheel and a worm; the two transverse moving devices are coaxially arranged on two sides of a conversion roller of the construction device and realize reciprocating movement in a sliding track of the supporting device through the roller II; four rollers II are arranged and are uniformly arranged on the roller bracket from top to bottom; the speed reducer is fixedly arranged on the roller bracket through a bolt, the motor II is fixedly arranged on the speed reducer through a bolt, the worm wheel is fixedly arranged on the roller bracket through a bearing, and a conversion roller of the construction device is coaxially and fixedly arranged on the worm wheel and rotates along with the worm wheel; the worm is arranged below the worm wheel through a bearing; and the motor II rotates to drive the worm and the worm wheel to rotate, so that the conversion roller of the construction device is driven to rotate around the axis of the conversion roller, the roller and the scraper of the construction device rotate around the axis of the conversion roller of the construction device and are respectively contacted with the ground, the conversion of scraping and roller coating construction is realized, and self-locking is realized through the worm.
Further, the construction apparatus includes: the device comprises a conversion roller, a movable bracket, a roller and a scraper; the conversion roller is a cylindrical long roller, is coaxially arranged on a worm gear of the transverse moving device and rotates along with the worm gear; the two movable supports are coaxially and fixedly arranged on the conversion roller, the surfaces of the two movable supports are wrapped by polytetrafluoroethylene to prevent paint from being bonded; the two transverse moving devices are respectively arranged in the sliding tracks of the supporting device; a motor I of the traction transmission device rotates in a reciprocating mode, the transverse moving device is pulled in the same direction, and blade coating and roller coating construction is achieved; the roller wheels are coaxially arranged on one side of the movable support, and the scraper is coaxially arranged on the other side of the movable support; the motor II drives the worm and the worm wheel to rotate, so that the conversion roller is driven to rotate around the axis of the conversion roller, the roller and the scraper rotate around the axis of the conversion roller and are respectively contacted with the ground, and the conversion of blade coating and roller coating construction is realized.
Further, the invention also relates to a test method of the continuous uninterrupted automatic construction device for the anti-skid coating, which comprises the following specific steps: pouring anti-skid coating on the ground, enabling the motor I to rotate in a reciprocating mode, pulling the steel cable through the winding drum, enabling the traversing device to move in a reciprocating mode in the sliding track through the steel cable, and carrying out blade coating and roller coating on the ground through the scraper and the roller; the motor II drives the worm and the worm wheel to rotate, so that the conversion roller is driven to rotate around the axis of the conversion roller, the roller and the scraper rotate around the axis of the conversion roller and are respectively contacted with the ground, and the conversion of blade coating and roller coating construction is realized.
The anti-skid coating continuous uninterrupted automatic construction device has the beneficial effects that:
(1) the invention relates to a continuous and uninterrupted automatic construction device for an anti-skid coating, wherein a traction transmission device drives a winding drum to rotate through a motor, a steel cable is wound on the winding drum and a roller I in a shape like the Chinese character '8', and a transverse moving device is dragged through the steel cable; the transverse moving device drives the worm and the worm wheel to rotate through the motor II, so that the conversion roller rotates around the axis, and the switching of construction states is realized.
(2) The invention relates to a continuous and uninterrupted automatic construction device for an anti-skid coating, which is characterized in that a motor I is controlled to rotate to drive a winding drum and a steel cable to realize the traction of a transverse moving device; the worm and worm wheel is driven by the motor II to rotate, so that the switching between roller coating and blade coating construction is realized.
Drawings
FIG. 1 is a front view of an automatic continuous anti-slip coating construction apparatus according to the present invention;
FIG. 2 is a front view of a support device of an automatic continuous non-stop anti-slip coating system according to the present invention;
FIG. 3 is a front view of a traction drive of an automatic continuous non-stop anti-slip coating system according to the present invention;
FIG. 4 is a front view of a traverse device of an automatic continuous anti-slip coating installation of the present invention;
FIG. 5 is a front view of a construction apparatus of an automatic continuous non-stop construction apparatus for anti-slip coating according to the present invention;
in the figure: 1-supporting device, 2-traction driving device, 3-traversing device, 4-construction device, 11-front support, 12-rear support, 13-shock absorber, 14-universal wheel, 121-sliding track, 21-speed reducer, 22-motor I, 23-winding drum, 24-roller I, 25-steel cable, 31-roller support, 32-roller II, 33-speed reducer, 34-motor II, 35-worm wheel, 36-worm, 41-conversion roller, 42-movable support, 43-roller and 44-scraper.
Detailed Description
Specific implementations of the present invention are further described below in conjunction with the following figures.
Referring to fig. 1, 2, 3, 4 and 5, an automatic continuous anti-slip coating material construction device includes: the device comprises a supporting device 1, a traction transmission device 2, a transverse moving device 3 and a construction device 4; the supporting device 1 is fixedly arranged on an omnibearing moving platform and is contacted with the ground through a universal wheel 14; the traction transmission device 2 is arranged on the supporting device 1; the traversing device 3 is arranged in the sliding track 121 and realizes reciprocating movement on the sliding track 121; the construction device 4 is arranged in the supporting device 1 and is driven by the transverse moving device 3 to move transversely; the support device 1 comprises: a front bracket 11, a rear bracket 12, a shock absorber 13 and a universal wheel 14; the rear bracket 12 includes: a slip track 121; the front bracket 11 is hinged on an omnidirectional mobile platform, and the rear bracket 12 is fixed with the front bracket 11 through a bolt; the universal wheels 14 are mounted below the front bracket 11 and support the front bracket 11 and the rear bracket 12; one end of the shock absorber 13 is fixedly arranged on the side edge of the omnidirectional moving platform, and the other end of the shock absorber is hinged above the front bracket 11 and is used for inhibiting the vibration of the spring during rebound after vibration absorption and the vibration in the roller coating process; the sliding rail 121 is a V-shaped rail and is fixedly installed inside the rear bracket 12; the traction drive 2 comprises: the device comprises a speed reducer 21, a motor I22, a winding drum 23, a roller I24 and a steel cable 25; the speed reducer 21 is fixedly installed in front of the rear support 12 of the supporting device 1 through bolts, the motor I22 is fixedly installed above the speed reducer 21 through bolts, the winding drum 23 is a cylinder, a groove is formed in the surface of the winding drum, the winding drum is fixedly installed below the speed reducer 21 through bolts, and the winding drum is connected with the speed reducer 21 through a coupling; four rollers I24 are respectively welded at four corners of the rear support 12 of the supporting device 1; the steel cable 25 '8' is wound around the winding drum 23 and the roller I24 and is connected with a roller bracket 31 of the traverse device 3; the motor I22 rotates forwards and reversely to drive the winding drum 23 to rotate in two directions, and the steel cable 25 is pulled in a reciprocating mode. The traverse device 3 includes: the device comprises a roller bracket 31, a roller II 32, a speed reducer 33, a motor II 34, a worm wheel 35 and a worm 36; the two traversing devices 3 are coaxially arranged at two sides of a conversion roller 41 of the construction device 4 and realize reciprocating movement in the sliding track 121 of the supporting device 1 through the rollers II 32; four rollers II 32 are uniformly arranged on the roller bracket 31 from top to bottom; the speed reducer 33 is fixedly installed on the roller bracket 31 through bolts, the motor II 34 is fixedly installed on the speed reducer 33 through bolts, the worm wheel 35 is fixedly installed on the roller bracket 31 through a bearing, and the conversion roller 41 of the construction device 4 is coaxially and fixedly installed on the worm wheel 35 and rotates along with the worm wheel 35; the worm 36 is mounted below the worm wheel 35 through a bearing; the motor II 34 rotates to drive the worm 36 and the worm wheel 35 to rotate, so as to drive the conversion roller 41 of the construction device 4 to rotate around the axis of the conversion roller, so that the roller 43 and the scraper 44 of the construction device 4 rotate around the axis of the conversion roller 41 of the construction device 4 and are respectively contacted with the ground, thus realizing the conversion between the scraping construction and the roller coating construction and realizing self-locking through the worm 36; the construction apparatus 4 includes: a change-over roller 41, a movable bracket 42, a roller 43, a scraper 44; the conversion roller 41 is a cylindrical long roller, and the conversion roller 41 is coaxially arranged on the worm gear 35 of the traverse device 3 and rotates along with the worm gear 35; the two movable supports 42 are coaxially and fixedly arranged on the conversion roller 41, the surfaces of the two movable supports are wrapped by polytetrafluoroethylene to prevent coating from being bonded; the two traverse devices 3 are respectively arranged in the sliding tracks 121 of the supporting device 1; a motor I22 of the traction transmission device 2 rotates in a reciprocating mode, the transverse moving device 3 is pulled in the same direction, and blade coating and roller coating construction is achieved; the roller 43 is coaxially arranged on one side of the movable bracket 42, and the scraper 44 is coaxially arranged on the other side of the movable bracket 42; the motor II 34 drives the worm 36 and the worm wheel 35 to rotate, so as to drive the conversion roller 41 to rotate around the axis of the conversion roller, so that the roller 43 and the scraper 44 rotate around the axis of the conversion roller 41 and are respectively contacted with the ground, and the conversion of the scraping construction and the roller coating construction is realized.
As shown in fig. 1, 2, 3, 4 and 5, the test method of the continuous uninterrupted automatic construction device for the anti-skid coating comprises the following specific steps: pouring anti-skid coating on the ground, enabling the motor I22 to rotate in a reciprocating mode, pulling the steel cable 25 through the winding drum 23, enabling the steel cable 25 to pull the traversing device 3 to move in a reciprocating mode in the sliding track 121, and carrying out blade coating and roller coating on the ground through the scraper 44 and the roller 43; the motor II 34 drives the worm 36 and the worm wheel 35 to rotate, so as to drive the conversion roller 41 to rotate around the axis of the conversion roller, so that the roller 43 and the scraper 44 rotate around the axis of the conversion roller 41 and are respectively contacted with the ground, and the conversion of the scraping construction and the roller coating construction is realized.
The scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.