CN218665726U - Calendering roller mechanism of photovoltaic glass calendering equipment - Google Patents

Abstract

The utility model relates to a calendering roller mechanism of photovoltaic glass calendering equipment, including the base with be located the calendering roller subassembly on the base, its characterized in that: the base is provided with a mounting seat for mounting the calender roll assembly, the mounting seat is provided with a front adjusting assembly and a rear adjusting assembly, the calender roll assembly comprises a mounting frame, an upper calender roll and a lower calender roll, the two ends of the upper calender roll and the lower calender roll are respectively provided with an upper supporting block and a lower supporting block, the upper supporting block and the lower supporting block are sequentially arranged in the mounting frame, and the top of the mounting frame is provided with a height adjusting assembly connected with the upper supporting block. The middle mounting seat of the utility model is provided with the front and rear adjusting components, which can better eliminate the torsional deformation on the calendering roller; the height of the upper supporting block is adjusted through the height adjusting assembly, so that the adjustment of the gap between the upper and lower calendering rollers is convenient to realize, and the uniformity of the gap can be ensured.

Description

Calendering roller mechanism of photovoltaic glass calendering equipment

Technical Field

The utility model belongs to the technical field of the photovoltaic glass calendering technique and specifically relates to a calendering roller mechanism of photovoltaic glass calendering equipment.

Background

Photovoltaic glass, also known as "photovoltaic glass", is a special glass that presses in a solar photovoltaic module, can generate electricity by solar radiation, and has a relevant current extraction device and a cable.

The photovoltaic glass calender is the main production equipment of a photovoltaic glass production line, the calender is the key equipment for photovoltaic glass forming, and the molten glass liquid is rolled into a glass plate through the upper and lower calendering rollers of the calender. When the thickness of the glass plate is different, the temperature of the glass liquid is changed and the pattern of the glass surface is changed during the production of the photovoltaic glass, the relative position of the upper and lower calendering rolls and the gap between the upper and lower calendering rolls need to be adjusted. One end of the existing calendering roll is provided with a speed reducing motor, the other end of the existing calendering roll is communicated with cooling water, although the two ends of the existing calendering roll are synchronously adjusted, one end of the existing calendering roll is heavy, and the adjusted gap is wide in the middle and narrow in the two ends due to the fact that the existing calendering roll is in contact with molten glass liquid; and the rolling rolls have certain torsional deformation, so that the front and back fine adjustment of the two ends of the rolling rolls needs to be carried out timely.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: overcomes the defects in the prior art and provides a calendering roller mechanism of photovoltaic glass calendering equipment.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a calendering roller mechanism of photovoltaic glass calendering equipment, includes the base and is located the calendering roller subassembly on the base, be equipped with the mount pad of installation calendering roller subassembly on the base, adjusting part around being equipped with on the mount pad, calendering roller subassembly includes the mounting bracket, goes up calendering roller and rolls down, the both ends of going up calendering roller and rolling down are equipped with supporting shoe and under bracing piece respectively, go up in, the under bracing piece arranges the mounting bracket in proper order, the top of mounting bracket is equipped with the height control subassembly of being connected with last supporting shoe.

The mounting seat is provided with a front and rear adjusting component, so that the torsional deformation of the calendering roller can be better eliminated; the height of the upper supporting block is adjusted through the height adjusting assembly, so that the adjustment of the gap between the upper calendering roller and the lower calendering roller is convenient to realize.

Further inject, the one end of base is equipped with the support frame, first gear motor and second gear motor are installed from top to bottom in proper order to the support frame, first gear motor's output is connected with the one end of last calendering roller through first transmission shaft, second gear motor's output is connected with the one end of calendering roller down through the second transmission shaft, the other end of upper and lower calendering roller is equipped with the coolant liquid inlet joint.

Connect gear motor and calendering roller through the transmission shaft, one can reduce heat transmission to gear motor on the calendering roller, two come when adjusting the calendering roller, need not promote simultaneously and connect the gear motor of calendering roller, guarantee to adjust more accurately.

Further limiting, the front-back adjusting assembly comprises a supporting seat, a sliding rail and a sliding piece, the supporting seat is fixed on the base, the sliding rail is fixed on the supporting seat, the sliding piece is arranged on the sliding rail and moves back and forth along the sliding rail, and an adjusting locking piece is arranged between the sliding rail and the sliding piece.

The sliding piece is driven to move back and forth along the sliding rail by adjusting the locking piece, so that the front and back adjustment of the base is realized, and the front and back adjustment of the two ends of the calender roll assembly is further realized.

Further limiting, a first semicircular groove is formed in the top surface of the sliding rail, a second semicircular groove is formed in the bottom surface of the sliding part, the first semicircular groove and the second semicircular groove form a cylindrical cavity, an internal thread is formed on the inner wall of the cylindrical cavity in a protruding mode, the adjusting and locking part is a screw rod, the external thread of the screw rod is matched with the internal thread, the screw rod is provided with an end head portion extending out of the cylindrical cavity, and a hand wheel is connected to the end head portion.

The hand wheel is rotated to drive the screw rod to rotate, so that the sliding part can move back and forth.

Further inject, the height adjusting assembly includes servo motor, threaded rod, gear box and connecting seat, servo motor installs on the gear box, and its output stretches into in the gear box, and installs the output gear, the threaded rod passes the gear box and is connected with the connecting seat, the connecting seat is fixed at lower supporting shoe top, is located the threaded rod in the gear box and is provided with the sleeve outward, be equipped with the driven gear with output gear meshing outside the sleeve.

The servo motor starts to drive the threaded rod to rotate, the connecting seat is driven to ascend and descend, the ascending and descending of the lower supporting block are achieved, and control is accurate.

Further, the mounting frame comprises a bottom plate and a rectangular frame, the bottom plate is fixed on the mounting seat, and a top plate of the rectangular frame is provided with a threaded hole for the threaded rod to pass through.

So set up, the installation of upper and lower supporting shoe is convenient for.

Further, the upper support block and the lower support block are in a square shape and are positioned in the rectangular frame, and the front edge and the rear edge of the two side surfaces of the upper support block and the lower support block respectively extend outwards to form limiting blocks lapped with the side walls of the rectangular frame.

So set up, guarantee the linear correspondence of upper and lower supporting shoe.

Further, the side wall of the base is provided with rollers.

So set up, be convenient for remove whole calender roll mechanism.

The utility model has the advantages that: the middle mounting seat of the utility model is provided with the front and rear adjusting components, which can better eliminate the torsional deformation on the calendering roller; the height of the upper supporting block is adjusted through the height adjusting assembly, so that the adjustment of the gap between the upper and lower calendering rollers is convenient to realize, and the uniformity of the gap can be ensured.

Drawings

The present invention will be further described with reference to the accompanying drawings and embodiments.

Fig. 1 is a schematic structural diagram of an embodiment of a calender roll mechanism of the photovoltaic glass calendering equipment of the present invention.

Fig. 2 is a schematic view of the height adjustment assembly of fig. 1.

Fig. 3 is a schematic view of the fore-aft adjustment assembly of fig. 1.

In the figure: 1. the automatic cooling device comprises a base, 2, a calendering roller assembly, 3, a front and rear adjusting assembly, 4, a height adjusting assembly, 5, a first speed reducing motor, 6, a second speed reducing motor, 7, a first transmission shaft, 8, a second transmission shaft, 11, a roller, 12, a mounting seat, 21, a mounting frame, 22, an upper calendering roller, 23, a lower calendering roller, 24, an upper supporting block, 25, a lower supporting block, 26, a cooling liquid inlet joint, 211, a bottom plate, 212, a rectangular frame, 13, a supporting frame, 31, a supporting seat 32, a sliding rail, 33, a sliding piece, 34, an adjusting and locking piece, 35, a hand wheel, 321, a first semicircular groove, 331, a second semicircular groove, 41, a servo motor, 42, a threaded rod, 43, a gear box, 44, a connecting seat, 411, an output gear, 421, a sleeve, 422 and a driven gear.

Detailed Description

The invention will now be further described with reference to the accompanying drawings. The drawings are simplified schematic diagrams only illustrating the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, the calender roll mechanism of the photovoltaic glass calender apparatus of this embodiment includes a base 1 and a calender roll assembly 2 located on the base 1, a roller 11 is disposed on a sidewall of the base 1, a mounting seat 12 for mounting the calender roll assembly 2 is disposed on the base 1, a front-back adjusting assembly 3 is disposed on the mounting seat 12, the calender roll assembly 2 includes a mounting frame 21, an upper calender roll 22 and a lower calender roll 23, an upper support block 24 and a lower support block 25 are respectively disposed at two ends of the upper calender roll 22 and the lower calender roll 23, the upper support block 24 and the lower support block 25 are sequentially disposed in the mounting frame 21, and a height adjusting assembly 4 connected with the upper support block 24 is disposed at the top of the mounting frame 21;

wherein, base 1's one end is equipped with support frame 13, and first gear motor 5 and second gear motor 6 are installed from top to bottom in proper order to support frame 13, and first gear motor 5's output is connected with the one end of last calendering roller 22 through first transmission shaft 7, and second gear motor 6's output is connected with the one end of calendering roller 23 down through second transmission shaft 8, and the other end of upper and lower calendering roller 22, 23 is equipped with coolant liquid inlet joint 26.

As shown in fig. 3, the front-rear adjusting assembly 3 includes a supporting seat 31, a sliding rail 32 and a sliding member 33, the supporting seat 31 is fixed on the base 1, the sliding rail 32 is fixed on the supporting seat 31, the sliding member 33 is disposed on the sliding rail 32 and moves back and forth along the sliding rail 32, and an adjusting locking member 34 is disposed between the sliding rail 32 and the sliding member 33; in this embodiment, the slide rail 32 is a dovetail groove guide rail; for the convenience of installation, a side wall of the slider 33 is detachably attached.

Specifically, a first semicircular groove 321 is formed in the top surface of the slide rail 32, a second semicircular groove 331 is formed in the bottom surface of the slide member 33, the first semicircular groove 321 and the second semicircular groove 331 form a cylindrical cavity, an internal thread is formed on the inner wall of the cylindrical cavity in a protruding manner, the adjusting and locking member 34 is a screw rod, the external thread of the screw rod is matched with the internal thread, the screw rod is provided with an end head portion extending out of the cylindrical cavity, and the end head portion is connected with the hand wheel 35.

As shown in fig. 2, the height adjusting assembly 4 includes a servo motor 41, a threaded rod 42, a gear box 43 and a connecting seat 44, the servo motor 41 is mounted on the gear box 43, an output end of the servo motor extends into the gear box 43 and is mounted with an output gear 411, the threaded rod 42 passes through the gear box 43 and is connected with the connecting seat 44, the connecting seat 44 is fixed on the top of the lower supporting block 25, a sleeve 421 is arranged outside the threaded rod 42 in the gear box 43, and a driven gear 422 meshed with the output gear 411 is arranged outside the sleeve 421.

Specifically, the mounting frame 21 includes a bottom plate 211 and a rectangular frame 212, the bottom plate 211 is fixed on the mounting base 12, and a top plate of the rectangular frame 212 is provided with a threaded hole for a threaded rod to pass through. The upper and lower support blocks 24, 25 are square and located in the rectangular frame 212, and the front and rear edges of the two side surfaces of the upper and lower support blocks 24, 25 are respectively extended outward with a limit block lapped with the side wall of the rectangular frame 212.

The specific working principle is as follows: when the gap between the upper and lower calendering rollers 22 and 23 needs to be adjusted, the output gear 411 is driven to rotate through the servo motor 41, the driven gear 422 is driven to rotate, the sleeve 421 rotates, the threaded rod 42 is lifted, and the upper supporting block 24 is driven to lift through the connecting seat 44; when the two ends of the calender roll component 2 need to be adjusted back and forth, the hand wheel 35 is rotated to drive the screw rod to rotate, so that the sliding part 33 slides along the sliding rail 32; when the calender roll mechanism of the present embodiment needs to be moved, this can be achieved by the roller 11.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable people skilled in the art to understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. The utility model provides a calendering roller mechanism of photovoltaic glass rolling equipment, includes the base and is located the calendering roller subassembly on the base, its characterized in that: the base is provided with a mounting seat for mounting the calender roll assembly, the mounting seat is provided with a front adjusting assembly and a rear adjusting assembly, the calender roll assembly comprises a mounting frame, an upper calender roll and a lower calender roll, the two ends of the upper calender roll and the lower calender roll are respectively provided with an upper supporting block and a lower supporting block, the upper supporting block and the lower supporting block are sequentially arranged in the mounting frame, and the top of the mounting frame is provided with a height adjusting assembly connected with the upper supporting block.

2. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 1, wherein: the one end of base is equipped with the support frame, first gear motor and second gear motor are installed from top to bottom in proper order to the support frame, first gear motor's output is connected through the one end of first transmission shaft with last calendering roller, second gear motor's output passes through the second transmission shaft and is connected with the one end of calendering roller down, the other end of upper and lower calendering roller is equipped with the coolant liquid inlet joint.

3. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 1, wherein: the front-back adjusting assembly comprises a supporting seat, a sliding rail and a sliding piece, the supporting seat is fixed on the base, the sliding rail is fixed on the supporting seat, the sliding piece is arranged on the sliding rail and moves back and forth along the sliding rail, and an adjusting and locking piece is arranged between the sliding rail and the sliding piece.

4. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 3, wherein: the top surface of slide rail has been seted up first semicircular groove, the second semicircular groove has been seted up to the bottom surface of slider, first semicircular groove and second semicircular groove constitute a cylindrical cavity, and the protrusion is formed with the internal thread on the inner wall of this cylindrical cavity, adjust the locking piece and be the screw rod, the external screw thread of this screw rod with the internal thread cooperatees, and it has the tip portion that stretches out cylindrical cavity, connects the hand wheel on this tip portion.

5. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 1, wherein: the height adjusting assembly comprises a servo motor, a threaded rod, a gear box and a connecting seat, the servo motor is installed on the gear box, the output end of the servo motor extends into the gear box and is provided with an output gear, the threaded rod penetrates through the gear box to be connected with the connecting seat, the connecting seat is fixed to the top of the lower supporting block, a sleeve is arranged outside the threaded rod located in the gear box, and a driven gear meshed with the output gear is arranged outside the sleeve.

6. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 5, wherein: the mounting bracket comprises a bottom plate and a rectangular frame, the bottom plate is fixed on the mounting seat, and a threaded hole for the threaded rod to pass through is formed in a top plate of the rectangular frame.

7. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 6, wherein: the upper support block and the lower support block are in a square shape and are positioned in the rectangular frame, and the front edge and the rear edge of the two side surfaces of the upper support block and the lower support block respectively extend outwards to form limit blocks lapped with the side walls of the rectangular frame.

8. The calender roll mechanism of photovoltaic glass calendering apparatus according to claim 1, wherein: and the side wall of the base is provided with rollers.

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