SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the defect that the conventional high-yield liquid crystal module assembly attaching equipment has no function of moving and adjusting a replacement seat, and provides the high-yield liquid crystal module assembly attaching equipment.
In order to achieve the purpose, the utility model adopts the following technical scheme:
a high-yield liquid crystal module assembly laminating device comprises a base, wherein a movable adjusting mechanism is arranged in the base, a pressing rotating mechanism is arranged on the base, the movable adjusting mechanism comprises a first adjusting screw, a second adjusting screw, an adjusting plate, a fixed sliding rod, a first belt pulley, a second belt pulley, a belt, a connecting plate, a replacing seat, a supporting plate and an adjusting motor, the first adjusting screw, the second adjusting screw and the connecting plate are all positioned in the base, the first adjusting screw and the second adjusting screw are both rotatably connected with the base, the fixed sliding rod is fixedly connected with the base, the connecting plate is in threaded connection with the first adjusting screw and the second adjusting screw, the connecting plate is in sliding connection with the fixed sliding rod, the first belt pulley, the second belt pulley, the belt, the supporting plate and the adjusting motor are all positioned on one side of the base, and the first belt pulley and the second belt pulley are respectively fixedly connected with the first adjusting screw and the second adjusting screw, the belt is connected with first belt pulley and second belt pulley transmission, and the change seat is located the top of base, changes seat and connecting plate fixed connection, layer board and base fixed connection, and the accommodate motor is located the layer board, accommodate motor's output shaft and first adjusting screw fixed connection.
Preferably, pressfitting rotary mechanism includes baffle, dwang, drive gear, column spinner, face gear, pressfitting smelting tool, driving motor, pressure shell, hydraulic stem, pressfitting board and hydraulic pump, and baffle, dwang, drive gear, column spinner and face gear all are located the change seat, baffle and change seat fixed connection, and the dwang rotates with the change seat to be connected, drive gear and dwang fixed connection.
Preferably, the column spinner rotates with the change seat to be connected, and face gear and column spinner fixed connection, face gear and drive gear mesh mutually, and the pressfitting smelting tool is located change seat top, pressfitting smelting tool and column spinner fixed connection.
Preferably, the driving motor is located on one side of the partition plate, and an output shaft of the driving motor is fixedly connected with the rotating rod.
Preferably, pressure shell, hydraulic stem, pressfitting board and hydraulic pump all are located the base top, and pressure shell and base fixed connection, hydraulic pump locate on the pressure shell, and the bottom of hydraulic pump is located to the hydraulic stem, the one end fixed connection of pressfitting board and hydraulic stem.
Compared with the prior art, the utility model has the advantages that:
(1) this scheme is owing to set up first adjusting screw and driven first belt pulley and rotate, and first belt pulley passes through belt transmission second belt pulley and rotates, and the second belt pulley drives second adjusting screw and rotates, and first adjusting screw and second adjusting screw drive the regulating plate and slide on fixed slide bar, and the regulating plate drives through the connecting plate and changes the seat and remove to pressing in the shell, has realized the purpose of removal regulation.
(2) This scheme is owing to set up the dwang and passed through drive gear and drive face gear and rotate, and face gear drives the column spinner and rotates, and the column spinner drives the pressfitting smelting tool rotation, has realized the purpose to liquid crystal module change direction.
The utility model has simple structure and convenient use, can move and adjust the changing seat and is convenient for people to use.
Detailed Description
The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.
Example one
Referring to fig. 1-3, a high yield liquid crystal module assembly attaching apparatus includes a base 1, a movable adjusting mechanism is provided in the base 1, a pressing and rotating mechanism is provided on the base 1, the movable adjusting mechanism includes a first adjusting screw 2, a second adjusting screw 3, an adjusting plate 4, a fixed slide bar 5, a first belt pulley 6, a second belt pulley 7, a belt 8, a connecting plate 9, an exchanging seat 10, a supporting plate 11 and an adjusting motor 12, the first adjusting screw 2, the second adjusting screw 3 and the connecting plate 9 are all located in the base 1, the first adjusting screw 2 and the second adjusting screw 3 are both rotatably connected with the base 1, the fixed slide bar 5 is fixedly connected with the base 1, the connecting plate 9 is in threaded connection with the first adjusting screw 2 and the second adjusting screw 3, the connecting plate 9 is slidably connected with the fixed slide bar 5, the first belt pulley 6, the second belt pulley 7, the belt 8, the supporting plate 11 and the adjusting motor 12 are all located on one side of the base 1, first belt pulley 6 and second belt pulley 7 respectively with first adjusting screw 2 and 3 fixed connection of second adjusting screw, belt 8 is connected with first belt pulley 6 and 7 transmission of second belt pulley, change seat 10 and be located the top of base 1, change seat 10 and connecting plate 9 fixed connection, layer board 11 and base 1 fixed connection, adjusting motor 12 is located layer board 11, adjusting motor 12's output shaft and 2 fixed connection of first adjusting screw.
In this embodiment, pressfitting rotary mechanism includes baffle 13, dwang 14, drive gear 15, column spinner 16, face gear 17, pressfitting smelting tool 18, driving motor 19, pressure shell 20, hydraulic stem 21, compressed particleboard 22 and hydraulic pump 23, baffle 13, dwang 14, drive gear 15, column spinner 16 and face gear 17 all are located change seat 10, baffle 13 and change seat 10 fixed connection, dwang 14 rotates with change seat 10 to be connected, drive gear 15 and dwang 14 fixed connection.
In this embodiment, the rotary column 16 is connected with the change seat 10, the face gear 17 is fixedly connected with the rotary column 16, the face gear 17 is engaged with the driving gear 15, the pressing jig 18 is located above the change seat 10, and the pressing jig 18 is fixedly connected with the rotary column 16.
In this embodiment, the driving motor 19 is located at one side of the partition plate 13, and an output shaft of the driving motor 19 is fixedly connected to the rotating rod 14.
In this embodiment, pressure shell 20, hydraulic stem 21, pressfitting board 22 and hydraulic pump 23 all are located base 1 top, and pressure shell 20 and base 1 fixed connection, hydraulic pump 23 locate on pressure shell 20, and hydraulic stem 21 locates the bottom of hydraulic pump 23, pressfitting board 22 and the one end fixed connection of hydraulic stem 21.
Example two
Referring to fig. 1-3, a high yield liquid crystal module assembly attaching apparatus includes a base 1, a movable adjusting mechanism is provided in the base 1, a pressing and rotating mechanism is provided on the base 1, the movable adjusting mechanism includes a first adjusting screw 2, a second adjusting screw 3, an adjusting plate 4, a fixed slide bar 5, a first belt pulley 6, a second belt pulley 7, a belt 8, a connecting plate 9, a replacing seat 10, a supporting plate 11 and an adjusting motor 12, the first adjusting screw 2, the second adjusting screw 3 and the connecting plate 9 are all located in the base 1, the first adjusting screw 2 and the second adjusting screw 3 are both rotatably connected with the base 1, the fixed slide bar 5 is welded with the base 1, the connecting plate 9 is in threaded connection with the first adjusting screw 2 and the second adjusting screw 3, the connecting plate 9 is slidably connected with the fixed slide bar 5, the first belt pulley 6, the second belt pulley 7, the belt 8, the supporting plate 11 and the adjusting motor 12 are all located on one side of the base 1, first belt pulley 6 and second belt pulley 7 respectively with first adjusting screw 2 and 3 welded connection of second adjusting screw, belt 8 with first belt pulley 6 and 7 transmission connections of second belt pulley, change seat 10 and be located the top of base 1, change seat 10 and connecting plate 9 welded connection, layer board 11 and base 1 welded connection, adjusting motor 12 is located layer board 11, adjusting motor 12's output shaft and 2 welded connection of first adjusting screw.
In this embodiment, pressfitting rotary mechanism includes baffle 13, dwang 14, drive gear 15, column spinner 16, face gear 17, pressfitting smelting tool 18, driving motor 19, pressure shell 20, hydraulic stem 21, compressed particleboard 22 and hydraulic pump 23, baffle 13, dwang 14, drive gear 15, column spinner 16 and face gear 17 all are located change seat 10, baffle 13 and change seat 10 welded connection, dwang 14 rotates with change seat 10 to be connected, drive gear 15 and dwang 14 welded connection.
In this embodiment, the column spinner 16 rotates with changing seat 10 and is connected, and face gear 17 and column spinner 16 welded connection, face gear 17 mesh with drive gear 15 mutually, and pressfitting smelting tool 18 is located changes seat 10 top, and pressfitting smelting tool 18 and column spinner 16 welded connection, column spinner 16 can drive the rotatory of pressfitting smelting tool 18.
In this embodiment, the driving motor 19 is located on one side of the partition plate 13, an output shaft of the driving motor 19 is welded to the rotating rod 14, and the output shaft of the driving motor 19 can drive the rotating rod 14 to rotate.
In this embodiment, pressure shell 20, hydraulic stem 21, pressfitting board 22 and hydraulic pump 23 all are located base 1 top, and pressure shell 20 and base 1 welded connection, hydraulic pump 23 locate on pressure shell 20, and hydraulic stem 21 locates hydraulic pump 23's bottom, and pressfitting board 22 and hydraulic stem 21's one end welded connection, hydraulic pump 23 pass through hydraulic stem 21 and drive pressfitting board 22 pressfitting liquid crystal module.
In this embodiment, when using the apparatus, the liquid crystal module is placed on the pressing jig 18, the adjusting motor 12 is started, the output shaft of the adjusting motor 12 drives the first adjusting screw 2 to rotate, the first adjusting screw 2 drives the first belt pulley 6 to rotate, the first belt pulley 6 drives the second belt pulley 7 to rotate through the belt 8, the second belt pulley 7 drives the second adjusting screw 3 to rotate, the first adjusting screw 2 and the second adjusting screw 3 drive the adjusting plate 4 to slide on the fixed slide bar 5, the adjusting plate 4 drives the exchanging seat 10 to move into the press shell 20 through the connecting plate 9, and the pressing jig 18 is located under the pressing plate 22, the hydraulic pump 23 drives the pressing plate 22 through the hydraulic rod 21 to press the liquid crystal module, the driving motor 19 is started, the output shaft of the driving motor 19 drives the rotating rod 14 to rotate, the rotating rod 14 drives the end face gear 17 to rotate through the driving gear 15, the face gear 17 drives the rotary column 16 to rotate, the rotary column 16 drives the pressing jig 18 to rotate, the direction of the liquid crystal module is changed, and the hydraulic pump 23 drives the pressing plate 22 to press the liquid crystal module through the hydraulic rod 21.
The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.