Water spray cleaning device for touch screen glass
Technical Field
The utility model belongs to the technical field of the touch-sensitive screen production, mainly relate to a touch-sensitive screen glass water spray belt cleaning device.
Background
Touch-sensitive screen glass washs and is a process that uses many times in the touch-sensitive screen processing, and some touch-sensitive screen glass belt cleaning device now are like: 201821423757.1A cleaning device for touch screen, which can only clean one piece of glass at a time; 201820739201.7A cleaning machine for touch screen cover plate can clean multiple pieces of glass at one time, but only soak and clean; 201820100671.9A glass touch screen cleaning rack, which can clean one piece of glass at a time and has air drying function after cleaning.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a touch-sensitive screen glass water spray belt cleaning device is one kind and once can wash polylith touch-sensitive screen glass's water spray belt cleaning device.
A touch screen glass water spray cleaning device comprises: wash case (1), wash water spray linkage mechanism, wash rack (3), a plurality of touch-sensitive screen (4), water tank (5), place on wash rack (3) touch-sensitive screen (4), then put into water tank baffle (11) in wasing case (1), be provided with in wasing case (1) and wash water spray linkage mechanism, wash water spray linkage mechanism and include: a plurality of cleaning brushes (201), a forward and reverse rotation motor (202), a screw rod (203), a sliding block (204), a sliding rod (205), a sliding groove (206), a rotating motor (207), a vertical connecting rod (208), a water pipe fixing rod (209), a water pipe (210) and a spray head (211), wherein the cleaning brushes (201) comprise rollers (2011) and bristles (2012), the sliding groove (206) comprises a first chute (2061) and a second chute (2062), each cleaning brush (201) is driven to rotate by the rotating motor (207), the cleaning brushes (201) are inserted into a gap between the touch screens (4), the rotating motor (207) is installed on the sliding rod (205), one end of the sliding rod (205) is fixedly connected to the sliding block (204), the sliding block (204) slides on the screw rod (203), the screw rod (203) is driven to rotate by the forward and reverse rotation motor (202) so as to control the sliding of the sliding block (204), the other end of the sliding rod (205) is connected to a first sliding groove (2061) of the sliding groove (206), the sliding rod (205) is connected with a water pipe fixing rod (209) through a vertical connecting rod (208), the water pipe fixing rod (209) and the sliding rod (205) keep synchronous motion through a second sliding groove (2062), the water pipe fixing rod (209) and the vertical connecting rod (208) are hinged and can be opened upwards, the water pipe (210) is fixed on the water pipe fixing rod (209), a spray head (211) is installed below the water pipe (210), and the water pipe (210) is connected with a water tank water pipe (51) to take water from the water tank (5).
Furthermore, the touch screen glass water spray cleaning device is characterized in that a drainage surface (12) and a water outlet (13) are arranged at the lower part of the cleaning box (1) to facilitate water drainage.
The utility model has the advantages that can wash polylith touch-sensitive screen (4) once.
Drawings
FIG. 1 is a schematic three-dimensional structure diagram of a water-jet cleaning device for touch screen glass;
FIG. 2 is a front view of a water-spraying cleaning device for touch screen glass;
FIG. 3 is a schematic view of an internal structure of a water-jet cleaning device for touch screen glass;
FIG. 4 is a schematic view of the front view of the inside of a water-jet cleaning device for touch screen glass;
FIG. 5 is a schematic structural view of a washing and water-spraying linkage mechanism of the water-spraying cleaning device for touch screen glass;
FIG. 6 is a schematic view of a cleaning rack and a glass structure of a water-jet cleaning device for touch screen glass;
FIG. 7 is a schematic structural view of a cleaning frame of a water-jet cleaning device for touch screen glass;
FIG. 8 is a schematic diagram of an end plate structure of a cleaning frame of a water-jet cleaning device for touch screen glass 1;
FIG. 9 is a schematic diagram of an end plate structure of a cleaning frame of a water-jet cleaning device for touch screen glass 2;
FIG. 10 is a schematic diagram of a side plate structure of a cleaning frame of a water-jet cleaning device for touch screen glass 1;
FIG. 11 is a schematic diagram of a side plate structure of a cleaning frame of a water-jet cleaning device for touch screen glass 2;
FIG. 12 is a schematic top view of a cleaning apparatus for soaking touch screen glass;
FIG. 13 is a schematic view of a front view of a touch screen glass soaking and cleaning device;
FIG. 14 is a schematic structural view of a washing mechanism of a touch screen glass soaking and cleaning device;
FIG. 15 is a schematic three-dimensional structure diagram of a transverse washing and cleaning device for touch screen glass;
FIG. 16 is a schematic view of an internal structure of a lateral washing and cleaning device for touch screen glass;
FIG. 17 is a schematic view of an internal top view of a lateral washing and cleaning device for touch screen glass;
FIG. 18 is a schematic structural view of a washing mechanism of a transverse washing and cleaning device for touch screen glass;
FIG. 19 is a schematic view of a structure of a cleaning frame of a transverse washing and cleaning device for touch screen glass;
FIG. 20 is a schematic three-dimensional structure diagram of a touch screen glass drying device;
FIG. 21 is a schematic diagram of a front view of a touch screen glass drying apparatus;
FIG. 22 is a schematic view of an air drying mechanism of a touch screen glass drying device;
FIG. 23 is a schematic view of a touch panel glass frame;
in the figure: cleaning box (1), cleaning frame (3), touch screen (4), water tank (5), fan (6), water tank partition plate (11), drainage surface (12), water outlet (13), heater (14), ultrasonic generator (15), cleaning brush (201), roller (2011), brush hair (2012), forward and reverse rotation motor (202), screw rod (203), sliding block (204), sliding rod (205), sliding groove (206), first sliding groove (2061), second sliding groove (2062), rotating electrical machines (207), vertical connecting rod (208), water pipe fixing rod (209), water pipe (210), spray head (211), end plate (31), transverse adjusting groove (311), inner side supporting surface (312), outer side supporting surface (313), handle (314), groove (315), side plate (32), insert groove (321), bearing bottom surface (322), bottom groove (323), side hole (324), Nut (325), threaded rod (326), water tank water pipe (51), bottom case (1 '), baffle (11'), drainage face (12 '), delivery port (13'), air-dry section of thick bamboo (201 '), just reverse motor (202'), outer layer (2011 ') that absorbs water, inner tube (2012'), lead screw (203 '), sliding block (204'), sliding rod (205 '), sliding tray (206'), first spout (2061 '), tuber pipe (207').
Detailed Description
The present invention will be further described with reference to the accompanying drawings so as to facilitate the understanding of the present invention by those skilled in the art.
Example 1: a water spray cleaning device for touch screen glass is shown in the attached figures 1-4 and comprises: wash case (1), wash water spray linkage mechanism, wash rack (3), a plurality of touch-sensitive screen (4), water tank (5), place on wash rack (3) touch-sensitive screen (4), then put into water tank baffle (11) in wasing case (1), be provided with in wasing case (1) and wash water spray linkage mechanism, wash water spray linkage mechanism and include: a plurality of cleaning brushes (201), a forward and reverse rotation motor (202), a screw rod (203), a sliding block (204), a sliding rod (205), a sliding groove (206), a rotating motor (207), a vertical connecting rod (208), a water pipe fixing rod (209), a water pipe (210) and a spray head (211), wherein the cleaning brushes (201) comprise rollers (2011) and bristles (2012), the sliding groove (206) comprises a first chute (2061) and a second chute (2062), each cleaning brush (201) is driven to rotate by the rotating motor (207), the cleaning brushes (201) are inserted into a gap between the touch screens (4), the rotating motor (207) is installed on the sliding rod (205), one end of the sliding rod (205) is fixedly connected to the sliding block (204), the sliding block (204) slides on the screw rod (203), the screw rod (203) is driven to rotate by the forward and reverse rotation motor (202) so as to control the sliding of the sliding block (204), the other end of the sliding rod (205) is connected to a first sliding groove (2061) of the sliding groove (206), the sliding rod (205) is connected with a water pipe fixing rod (209) through a vertical connecting rod (208), the water pipe fixing rod (209) and the sliding rod (205) keep synchronous motion through a second sliding groove (2062), the water pipe fixing rod (209) and the vertical connecting rod (208) are hinged and can be opened upwards, a water pipe (210) is fixed on the water pipe fixing rod (209), a spray head (211) is installed below the water pipe (210), the water pipe (210) is connected with a water tank water pipe (51) to take water from a water tank (5), and a drainage surface (12) and a water outlet (13) are arranged at the lower part of the cleaning tank (1) to facilitate drainage.
Example 2: a brushing water spray linkage mechanism, as shown in fig. 5, comprising: a plurality of cleaning brushes (201), a forward and reverse rotation motor (202), a screw rod (203), a sliding block (204), a sliding rod (205), a sliding groove (206), a rotating motor (207), a vertical connecting rod (208), a water pipe fixing rod (209), a water pipe (210) and a spray head (211), wherein the cleaning brushes (201) comprise rollers (2011) and bristles (2012), the sliding groove (206) comprises a first sliding groove (2061) and a second sliding groove (2062), each cleaning brush (201) is driven to rotate by the rotating motor (207), the rotating motor (207) is installed on the sliding rod (205), one end of the sliding rod (205) is fixedly connected to the sliding block (204), the sliding rod (204) slides on the screw rod (203), the screw rod (203) is driven to rotate by the forward and reverse rotation motor (202) so as to control the sliding of the sliding block (204), and the other end of the sliding rod (205) is connected to the first sliding groove (2061) of the sliding groove (206), the water pipe fixing rod (209) is connected with the sliding rod (205) through a vertical connecting rod (208), the water pipe fixing rod (209) and the sliding rod (205) keep synchronous motion through a second sliding groove (2062), the water pipe fixing rod (209) and the vertical connecting rod (208) are hinged and can be opened upwards, the water pipe (210) is fixed on the water pipe fixing rod (209), a spray head (211) is installed below the water pipe (210), and the water pipe (210) is connected with a water tank water pipe (51) to take water from the water tank (5).
Example 3: a touch screen glass cleaning rack (3) as shown in the attached figures 6-11, comprising: 2 end plates (31) and 2 side plates (32), the end plates (31) comprising: a lateral adjustment slot (311), an inner support surface (312), an outer support surface (313), a handle (314), the side plate (32) comprising: insert piece groove (321), bear bottom surface (322), kerve (323), side opening (324), nut (325), threaded rod (326), curb plate (32) insert horizontal adjustment groove (311) through threaded rod (326) and pass through nut (325) fixed position, bear bottom surface (322) and place on inboard holding surface (312), the inserted sheet position that inserted sheet groove (321) formed corresponds with kerve (323), the inserted sheet position all is trapezoidal with kerve (323).
Example 4: a touch screen glass soaks belt cleaning device, as shown in fig. 12-13, includes: wash case (1), washing mechanism, wash frame (3), a plurality of touch-sensitive screen (4), place the washing liquid in wasing case (1), it includes to wash the case: water tank baffle (11), heater (14), supersonic generator (15), wash the bottom that brushing mechanism set up in washing case (1), include: a plurality of cleaning brushes (201), positive reverse motor (202), lead screw (203), sliding block (204), litter (205), sliding tray (206), rotating electrical machines (207), cleaning brush (201) includes: roller bearing (2011) and brush hair (2012), sliding tray (206) are including first spout (2061), cleaning brush (201) are connected to and are driven the rotation on rotating electrical machines (207), rotating electrical machines (207) are installed on litter (205), the one end fixed connection of litter (205) is on sliding block (204), sliding block (204) slide on lead screw (203), lead screw (203) are rotated and are controlled the slip of sliding block (204) by positive and negative motor (202) drive, the other end of litter (205) is connected to first spout (2061) of sliding tray (206), a plurality of cleaning brushes (201) insert the clearance between a plurality of touch-sensitive screens (4), through rotating electrical machines (207) rotatory washing touch-sensitive screen (4) glass, through following lead screw (203) motion, whole glass is washd.
Example 5: a touch screen glass washing mechanism, as shown in fig. 14, comprising: a plurality of cleaning brushes (201), positive reverse motor (202), lead screw (203), sliding block (204), litter (205), sliding tray (206), rotating electrical machines (207), cleaning brush (201) includes: roller bearing (2011) and brush hair (2012), sliding tray (206) are including first spout (2061), the cleaning brush (201) is connected to and is driven rotatoryly on rotating electrical machines (207), rotating electrical machines (207) are installed on litter (205), the one end fixed connection of litter (205) is on slider (204), slider (204) slide on lead screw (203), lead screw (203) are by just reversing motor (202) drive rotation and so control the slip of slider (204), the other end of litter (205) is connected to first spout (2061) of sliding tray (206).
Example 6: a transverse washing and cleaning device for touch screen glass is shown in the attached figures 15-17 and comprises: wash case (1), wash mechanism, wash frame (3), touch-sensitive screen (4), the rear end of wasing case (1) is high, the front end is low, both sides form the inclined plane, wash the rear end that the mechanism set up in wasing case (1), wash the mechanism and include: a plurality of cleaning brushes (201), positive reverse motor (202), lead screw (203), sliding block (204), litter (205), sliding tray (206), rotating electrical machines (207), cleaning brush (201) includes: roller bearing (2011) and brush hair (2012), sliding tray (206) include first spout (2061), cleaning brush (201) are connected to and are driven the rotation on rotating electrical machines (207), rotating electrical machines (207) are installed on litter (205), the one end fixed connection of litter (205) is on sliding block (204), sliding block (204) slide on lead screw (203), lead screw (203) are by positive and negative rotating electrical machines (202) drive rotatory and so the slip of control sliding block (204), the other end of litter (205) is connected to first spout (2061) of sliding tray (206), wash frame (3) through inserting a plurality of cleaning brushes (201) from the front end, still include in washing case (1): a heater (14).
Example 7: a lateral touch screen glass washing mechanism, as shown in fig. 18, comprising: a plurality of cleaning brushes (201), positive and negative motor (202), lead screw (203), sliding block (204), litter (205), sliding tray (206), rotating electrical machines (207), lead screw (203) and vertical setting of sliding tray (206), cleaning brush (201) includes: roller bearing (2011) and brush hair (2012), sliding tray (206) are including first spout (2061), cleaning brush (201) are connected to and are driven the rotation on rotating electrical machines (207), rotating electrical machines (207) are installed on litter (205), the one end fixed connection of litter (205) is on sliding block (204), sliding block (204) slide on lead screw (203), lead screw (203) are by positive and negative rotating electrical machines (202) drive rotatory and so the slip of control sliding block (204), the other end of litter (205) is connected to first spout (2061) of sliding tray (206), and cleaning frame (3) are through inserting a plurality of cleaning brushes (201) from the front end, rotating electrical machines (207) set up behind litter (205).
Example 8: a transverse washing and cleaning device cleaning rack for touch screen glass as shown in the attached figure 19 comprises: 2 end plates (31) and 2 side plates (32), the end plates (31) comprising: lateral adjustment groove (311), inboard supporting surface (312), outside supporting surface (313), handle (314), recess (315), curb plate (32) include: insert piece groove (321), bear bottom surface (322), kerve (323), side opening (324), nut (325), threaded rod (326), curb plate (32) insert horizontal adjustment groove (311) through threaded rod (326) and pass through nut (325) fixed position, bear bottom surface (322) and place on inboard holding surface (312), the inserted sheet position that inserted sheet groove (321) formed corresponds with kerve (323), the inserted sheet position all is trapezoidal with kerve (323).
Example 9: a touch screen glass drying device is shown in the attached figures 20-21 and comprises: bottom case (1 '), air-dry mechanism, wash rack (3), touch-sensitive screen (4), fan (6), bottom case (1') includes: baffle (11 '), drainage face (12 '), delivery port (13 '), air-dry mechanism includes: air-dry a section of thick bamboo (201 '), positive reverse motor (202'), lead screw (203 '), sliding block (204'), sliding rod (205 '), sliding tray (206'), tuber pipe (207 '), air-dry a section of thick bamboo (201') includes: a water absorbing outer layer (2011 '), an inner cylinder (2012 '), and the sliding groove (206 ') includes: a first chute (2061'), the touch screen (4) is placed in the cleaning rack (3), the cleaning frame (3) is arranged on the partition board (11), the air drying cylinder (201') is inserted into a gap between the touch screens (4), the inner cylinder (2012 ') of the air drying cylinder (201 ') is connected with an air pipe (207 '), the air pipe (207 ') is connected with a fan (6) through an air supply pipe, the water absorption outer layer (2011 ') is made of materials such as sponge or water absorption cloth, can rotate around the inner cylinder (2012 '), the side wall of the inner cylinder (2012') is provided with an air hole, the air drying cylinder (201 ') drives the screw rod (203') to rotate through the forward and reverse rotation motor (202 ') so that the sliding block (204') drives the sliding rod (205 ') to transversely move in the sliding groove (206'), the water absorption outer layer (2011 ') rubs the glass of the touch screen (4) to absorb water, and air is blown and dried through the inner cylinder (2012').
Example 10: a touch screen glass: the seasoning mechanism, as shown in fig. 22, includes: air-dry a section of thick bamboo (201 '), positive reverse motor (202'), lead screw (203 '), sliding block (204'), sliding rod (205 '), sliding tray (206'), tuber pipe (207 '), air-dry a section of thick bamboo (201') includes: a water absorbing outer layer (2011 '), an inner cylinder (2012 '), and the sliding groove (206 ') includes: a first chute (2061'), the touch screen (4) is placed in the cleaning rack (3), the cleaning frame (3) is arranged on the partition board (11), the air drying cylinder (201') is inserted into a gap between the touch screens (4), the inner cylinder (2012 ') of the air drying cylinder (201 ') is connected with an air pipe (207 '), the air pipe (207 ') is connected with a fan (6) through an air supply pipe, the water absorption outer layer (2011 ') is made of materials such as sponge or water absorption cloth, can rotate around the inner cylinder (2012 '), the side wall of the inner cylinder (2012') is provided with an air hole, the air drying cylinder (201 ') drives the screw rod (203') to rotate through the forward and reverse rotation motor (202 ') so that the sliding block (204') drives the sliding rod (205 ') to transversely move in the sliding groove (206'), the water absorption outer layer (2011 ') rubs the glass of the touch screen (4) to absorb water, and air is blown and dried through the inner cylinder (2012').
Example 11: a touch screen glass insert can be as shown in figure 23, with only an inner support surface (312) on the end plate (31) and no outer support surface (313) when used in different glass processing relay processes.
The principle of the invention is as follows: the washing mechanism of vertical setting can allow touch-sensitive screen (4) from the top to insert cleaning brush (201) to once can wash polylith touch-sensitive screen (4), improve cleaning efficiency, during horizontal washing, through wasing case (1) front end reduction, can insert.
The above embodiments are only used for illustrating the specific embodiments of the present invention, and not for limiting the present invention, and the scope of the present invention is claimed by the claims.