CN219385305U - Magnetic control coating device for LOW-E hollow glass coating - Google Patents

Abstract

The utility model discloses a magnetic control film plating device for LOW-E hollow glass film plating, which comprises a fixed seat, wherein a fixed groove is formed in one side of the surface of the fixed seat, a transverse sliding groove is formed in the other side of the surface of the fixed seat, a first motor is fixedly arranged on one side of the fixed seat, a threaded screw rod is fixedly arranged at the output end of the first motor, a moving block is connected onto the threaded screw rod in a threaded manner, the moving block is in sliding connection with the transverse sliding groove, a first power push rod is fixedly arranged in the fixed groove, a fixed support is fixedly arranged at the telescopic end of the first power push rod, a rotating rod is rotatably connected onto the fixed support, a second power push rod is fixedly arranged on the surface of the moving block, and a lifting block is fixedly arranged at the telescopic end of the second power push rod. The utility model has the advantages that the glass can be conveniently moved, the position of the glass can be adjusted in multiple directions, the operation is convenient, the working process is simplified, the coating efficiency is improved, and the production quality is improved.

Description

Magnetic control coating device for LOW-E hollow glass coating

Technical Field

The utility model relates to the technical field of hollow glass coating, in particular to a magnetic control coating device for LOW-E hollow glass coating.

Background

The magnetron sputtering coating is a coating technology for forming a deposition layer by taking a coating material as a target cathode, bombarding the target material by utilizing argon ions to generate cathode sputtering and sputtering target atoms on a workpiece, and the existing magnetron coating device for coating the hollow glass with LOW-E is mostly fixed, cannot perform adjustment work according to actual use conditions, is inconvenient to realize multidirectional processing operation and cannot perform adjustment work in height.

The utility model with the application number of CN202120030169.7 discloses a magnetic control coating device for coating a hollow glass with LOW-E. Through the second motor can drive the second dwang and rotate, carry out the cooperation work through gag lever post and stopper, make the second dwang can drive the second motor and remove, promote the supporting shoe and move down, the reaction force makes the device can upwards move, make the device can carry out the regulation work on the height, be convenient for carry out more nimble machining work, first motor can drive first dwang and rotate, through slider and slide rail cooperation work, make the movable block can remove at its week side, make the device can carry out the regulation work according to actual service conditions, the device of being convenient for can carry out diversified removal.

The structure of the device is complex, the supporting mechanism, the first adjusting mechanism and the second adjusting mechanism are overlapped on the fixing seat layer by layer, the operation is complex, the working process is complex, the processing efficiency is low, and the production quality is low.

The foregoing is not necessarily a prior art, and falls within the technical scope of the inventors.

Disclosure of Invention

The utility model aims to solve the problems, and designs a magnetic control coating device for coating a LOW-E hollow glass.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a magnetic control coating device for LOW-E cavity glass coating film, includes the fixing base, fixing base surface one side is equipped with fixed recess, fixing base surface opposite side is equipped with horizontal spout, fixing base one side fixed mounting has first motor, the output fixed mounting of first motor has the screw thread lead screw, screw thread lead screw one end runs through and stretches into in the horizontal spout, threaded connection has the movable block on the screw thread lead screw, movable block and horizontal spout sliding connection, fixed recess internal fixed mounting has power push rod one, fixed mounting has the fixed bolster on the flexible end of power push rod one, it is connected with the rotation rod to rotate on the fixed bolster, movable block surface fixed mounting has power push rod two, fixed mounting has the lifter on the flexible end of power push rod two.

Further, the fixed seat center department is equipped with the direction spout, fixed seat rear end fixed mounting has the second motor, the output fixed mounting of second motor has the lead screw, lead screw one end runs through and stretches into in the direction spout, threaded connection has the direction slider on the lead screw, direction slider and direction spout sliding connection, direction slider top fixed mounting has the connecting plate, connecting plate top fixed mounting has the supporting shoe, supporting shoe and fixed seat sliding connection.

Further, be equipped with vertical recess on the supporting shoe, install the telescopic link in the vertical recess, telescopic link's flexible end top fixed mounting has the backup pad, the cover buffer spring on the telescopic link.

Further, the lifting block and the supporting plate are provided with anti-slip pads on the surfaces.

Further, vertical recess, telescopic link, buffer spring are provided with four and distribute in supporting shoe four corners department, buffer spring bottom and vertical recess fixed connection, and buffer spring top and backup pad fixed connection.

Further, the first power push rod and the second power push rod are air cylinders, hydraulic cylinders or electric cylinders, and the first power push rod and the second power push rod run synchronously.

Further, the anti-slip pad on the surface of the lifting block and the top of the rotary stick are positioned on the same horizontal plane.

Compared with the prior art, the technical scheme has the following beneficial effects:

1. glass is placed in the backup pad top at first, drives the lead screw through the second motor and rotates, and lead screw drive direction slider, connecting plate, supporting shoe, backup pad remove, can adjust glass's front and back position, can play the effect of buffering when placing glass through telescopic link and buffer spring, prevent glass atress damage.

2. The power push rod I and the power push rod II drive the rotary rod and the lifting block to lift, the height of glass can be adjusted, the first motor drives the threaded screw rod to rotate, the threaded screw rod drives the moving block, the power push rod II and the lifting block to move, the glass moves along the rotary rod, the transverse position of the glass can be adjusted, the glass can be conveniently moved, the position of the glass can be adjusted in multiple directions, the operation is convenient, the working process is simplified, the coating efficiency is improved, and the production quality is improved.

Drawings

FIG. 1 is a schematic diagram of a magnetron coating device for coating LOW-E hollow glass according to the present utility model.

Fig. 2 is a top view of the fixing base.

Fig. 3 is a side cross-sectional view of the holder.

Fig. 4 is an enlarged cross-sectional view of the support block.

In the figure: 1. a fixing seat; 2. a fixing groove; 3. a transverse chute; 4. a first motor; 5. a threaded screw rod; 6. a moving block; 7. a first power push rod; 8. a fixed bracket; 9. rotating the stick; 10. a second power push rod; 11. a lifting block; 12. a guide chute; 13. a second motor; 14. a lead screw; 15. a guide slide block; 16. a connecting plate; 17. a support block; 18. a vertical groove; 19. a telescopic rod; 20. a support plate; 21. a buffer spring; 22. an anti-slip mat.

Description of the embodiments

The utility model is described in detail below with reference to the accompanying drawings, as shown in fig. 1-4: the utility model provides a magnetic control coating device for LOW-E cavity glass coating film, includes fixing base 1, fixing base 1 surface one side is equipped with fixed groove 2, fixing base 1 surface opposite side is equipped with horizontal spout 3, fixing base 1 one side fixed mounting has first motor 4, the output fixed mounting of first motor 4 has screw thread lead screw 5, screw thread lead screw 5 one end runs through and stretches into in the horizontal spout 3, threaded connection has movable block 6 on the screw thread lead screw 5, movable block 6 and horizontal spout 3 sliding connection, fixed mounting has power push rod one 7 in the fixed groove 2, fixed mounting has fixed bolster 8 on the flexible end of power push rod one 7, rotate on the fixed bolster 8 and be connected with rotation rod 9, movable block 6 surface fixed mounting has power push rod two 10, fixed mounting has lifter 11 on the flexible end of power push rod two 10. A guide chute 12 is arranged in the center of the fixed seat 1, a second motor 13 is fixedly arranged at the rear end of the fixed seat 1, a guide screw 14 is fixedly arranged at the output end of the second motor 13, one end of the guide screw 14 penetrates through and stretches into the guide chute 12, a guide slide block 15 is connected to the guide screw 14 in a threaded manner, the guide slide block 15 is in sliding connection with the guide chute 12, a connecting plate 16 is fixedly arranged at the top of the guide slide block 15, a supporting block 17 is fixedly arranged at the top of the connecting plate 16, and the supporting block 17 is in sliding connection with the fixed seat 1; the support block 17 is provided with a vertical groove 18, a telescopic rod 19 is arranged in the vertical groove 18, a support plate 20 is fixedly arranged at the top of a telescopic end of the telescopic rod 19, and a buffer spring 21 is sleeved on the telescopic rod 19; the surfaces of the lifting block 11 and the supporting plate 20 are provided with anti-slip pads 22; the four vertical grooves 18, the telescopic rods 19 and the buffer springs 21 are arranged at four corners of the supporting block 17, the bottom ends of the buffer springs 21 are fixedly connected with the vertical grooves 18, and the top ends of the buffer springs 21 are fixedly connected with the supporting plate 20; the first power push rod 7 and the second power push rod 10 are air cylinders, hydraulic cylinders or electric cylinders, and the first power push rod 7 and the second power push rod 10 run synchronously; the anti-slip pad 22 on the surface of the lifting block 11 and the top of the rotary stick 9 are positioned on the same horizontal plane.

The working principle of the embodiment is as follows: the electric equipment used by the device is controlled by an external controller, when the device does not work, the telescopic ends of the first power push rod 7 and the second power push rod 10 are positioned at the lowest positions, and the tops of the lifting block 11 and the rotating stick 9 are lower than the supporting plate 20;

when in use, the center of the fixed seat 1 is provided with a guide chute 12, the rear end of the fixed seat 1 is fixedly provided with a second motor 13, the output end of the second motor 13 is fixedly provided with a guide screw 14, one end of the guide screw 14 penetrates through and stretches into the guide chute 12, the guide screw 14 is in threaded connection with a guide slide block 15, the guide slide block 15 is in sliding connection with the guide chute 12, the top of the guide slide block 15 is fixedly provided with a connecting plate 16, the top of the connecting plate 16 is fixedly provided with a supporting block 17, the supporting block 17 is in sliding connection with the fixed seat 1, the supporting block 17 is provided with a vertical groove 18, the inside of the vertical groove 18 is provided with a telescopic rod 19, the top of the telescopic end of the telescopic rod 19 is fixedly provided with a supporting plate 20, the telescopic rod 19 is sleeved with a buffer spring 21, an operator places glass on the supporting plate 20, the supporting plate 20 applies pressure to the telescopic rod 19 and the buffer spring 21 when the supporting plate 20 receives the pressure, the buffer spring 21 deforms and contracts after receiving the pressure, meanwhile, the telescopic end of the telescopic rod 19 contracts, the telescopic rod 19 and the buffer spring 21 play a role in buffering when the glass is placed, the glass is prevented from being damaged by stress, the second motor 13 starts to work, the output end of the second motor 13 drives the guide screw 14 to rotate, the guide screw 14 drives the guide slide block 15 to move along the guide slide groove 12, the guide slide block 15 drives the supporting block 17, the supporting plate 20 and the glass to move through the connecting plate 16, and the front position and the back position of the glass can be adjusted;

the fixing base 1 surface one side is equipped with fixed recess 2, fixing base 1 surface opposite side is equipped with horizontal spout 3, a serial communication port, fixing base 1 side fixed mounting has first motor 4, the output fixed mounting of first motor 4 has screw thread lead screw 5, screw thread lead screw 5 one end runs through and stretches into in the horizontal spout 3, screw thread lead screw 5 goes up threaded connection has movable block 6, movable block 6 and horizontal spout 3 sliding connection, fixed mounting has power push rod one 7 in the fixed recess 2, fixed mounting has fixed bolster 8 on the flexible end of power push rod one 7, rotationally be connected with on the fixed bolster 8 and rotate rod 9, movable block 6 fixed mounting has power push rod two 10 on the flexible end of power push rod two 10, power push rod one 7 and power push rod two 10 begin to work, the flexible end of power push rod one 7 and power push rod two 10 stretches into and drives and rotate rod 9 and lifter 11 to rise, drive the glass through rotation rod 9 and lifter 11 and rise, conveniently adjust the height of glass, first motor 4's output drive screw thread lead screw 5 rotates, screw thread 5 drives movable block 6 along the flexible end of movable block 6 and drives sliding block 6 at the fixed position of sliding block 10 and moves the glass slide 9, the sliding pad is rotated in order to make things convenient for the sliding movement, the slide-proof mass is improved, the production is convenient for the slide position of slide pad is moved in order to move the slide pad 9, the slide-proof slide pad is moved in order to move the glass is moved in the position is convenient, the slide-proof is moved in the position is convenient to move, and can move the slide pad is moved in slide pad 9, and is moved in slide glass is 11 and has a glass is 11 and slide glass is 11 and has a glass and a glass is a glass and a glass.

The above technical solution only represents the preferred technical solution of the present utility model, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present utility model, and the technical solution falls within the scope of the present utility model.

Claims (7)

1. The utility model provides a magnetic control coating device for LOW-E cavity glass coating film, includes fixing base (1), fixing base (1) surface one side is equipped with fixed groove (2), fixing base (1) surface opposite side is equipped with horizontal spout (3), its characterized in that, fixing base (1) one side fixed mounting has first motor (4), the output fixed mounting of first motor (4) has screw thread lead screw (5), screw thread lead screw (5) one end runs through and stretches into in horizontal spout (3), threaded connection has movable block (6) on screw thread lead screw (5), movable block (6) and horizontal spout (3) sliding connection, fixed mounting has power push rod one (7) in fixed groove (2), fixed mounting has fixed bolster (8) on the flexible end of power push rod one (7), rotate on fixed bolster (8) and be connected with rotation rod (9), fixed mounting has power push rod two (10) on the flexible end of power push rod two (10).

2. The magnetic control coating device for LOW-E hollow glass coating according to claim 1, wherein a guide chute (12) is arranged at the center of the fixed seat (1), a second motor (13) is fixedly arranged at the rear end of the fixed seat (1), a guide screw (14) is fixedly arranged at the output end of the second motor (13), one end of the guide screw (14) penetrates through and stretches into the guide chute (12), a guide slide block (15) is connected onto the guide screw (14) in a threaded manner, the guide slide block (15) is in sliding connection with the guide chute (12), a connecting plate (16) is fixedly arranged at the top of the guide slide block (15), a supporting block (17) is fixedly arranged at the top of the connecting plate (16), and the supporting block (17) is in sliding connection with the fixed seat (1).

3. The magnetic control coating device for LOW-E hollow glass coating according to claim 2, wherein the supporting block (17) is provided with a vertical groove (18), a telescopic rod (19) is installed in the vertical groove (18), a supporting plate (20) is fixedly installed at the top of the telescopic end of the telescopic rod (19), and a buffer spring (21) is sleeved on the telescopic rod (19).

4. The magnetic control coating device for coating the LOW-E hollow glass according to claim 1, wherein the lifting block (11) and the supporting plate (20) are provided with anti-slip pads (22) on the surfaces.

5. A magnetic control film plating device for LOW-E hollow glass film plating according to claim 3, characterized in that the vertical groove (18), the telescopic rod (19) and the buffer springs (21) are arranged in four corners of the supporting block (17), the bottom ends of the buffer springs (21) are fixedly connected with the vertical groove (18), and the top ends of the buffer springs (21) are fixedly connected with the supporting plate (20).

6. The magnetic control film plating device for LOW-E hollow glass film plating according to claim 1, wherein the first power push rod (7) and the second power push rod (10) are air cylinders, hydraulic cylinders or electric cylinders, and the first power push rod (7) and the second power push rod (10) operate synchronously.

7. The magnetic control coating device for coating the LOW-E hollow glass according to claim 1, wherein the anti-skid pad (22) on the surface of the lifting block (11) and the top of the rotating rod (9) are positioned on the same horizontal plane.