CN210089355U - Glass drying machine and air knife adjusting mechanism thereof - Google Patents

Abstract

The utility model relates to a glass drying machine and air knife adjustment mechanism thereof, including left positioning seat, right positioning seat, regulating block, at least a set of wind cutter body and lift lead screw. The left positioning seat and the right positioning seat are arranged at intervals, sliding grooves extending in the same direction are formed in the left positioning seat and the right positioning seat respectively, an adjusting block is arranged in each sliding groove, and the adjusting blocks are in sliding fit with the sliding grooves. Each group of air knife bodies comprises a first air knife and a second air knife which are arranged side by side along the extending direction of the sliding groove, first supporting shafts at two ends of the first air knife are respectively connected with adjusting blocks in the left positioning seat and the right positioning seat, and two ends of the second air knife are respectively connected with the left positioning seat and the right positioning seat. Each lifting screw rod on the left positioning seat and the right positioning seat is in running fit with the left positioning seat and the right positioning seat respectively and is in threaded fit with the adjusting block, the lifting screw rods rotate to drive the adjusting block to slide along the sliding groove, the interval between the first air knife and the second air knife is adjusted, the moving direction is stable, the air outlet air volume is guaranteed to be uniform, and the drying effect is improved.

Description

Glass drying machine and air knife adjusting mechanism thereof

Technical Field

The utility model relates to a glass desiccator equipment technical field, more specifically say, relate to a glass desiccator and air knife adjustment mechanism thereof.

Background

With the continuous progress of science and technology, in recent years, glass drying equipment has made great progress in the aspects of equipment structure, operation stability, functional diversity and the like.

However, the existing glass drying equipment has some disadvantages in the aspect of wind power adjusting parts, such as the fact that the wind power direction cannot be flexibly adjusted, the air outlet height is inconvenient to adjust, and the like.

Wind power and wind direction play a crucial role in the whole glass drying link, and how to achieve a better drying effect through the improvement of the structure and the control of the operation process is a problem frequently considered by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a glass drying machine and air knife adjustment mechanism thereof.

The utility model provides a technical scheme that its technical problem adopted is: constructing an air knife adjusting mechanism, which comprises a left positioning seat, a right positioning seat, an adjusting block, at least one group of air knife bodies and a lifting screw rod;

the left positioning seat and the right positioning seat are arranged at intervals, sliding grooves extending in the same direction are respectively formed in the left positioning seat and the right positioning seat, the adjusting block is arranged in each sliding groove, and the adjusting block is in sliding fit with the sliding groove so as to slide along the extending direction of the sliding groove;

each group of air knife bodies comprises a first air knife and a second air knife which are arranged side by side along the extending direction of the sliding groove, two ends of each first air knife are respectively provided with a first supporting shaft, the two first supporting shafts are respectively connected with the adjusting blocks in the left positioning seat and the right positioning seat, and two ends of each second air knife are respectively connected with the left positioning seat and the right positioning seat;

the left positioning seat and the right positioning seat are respectively provided with the lifting screw rod, the lifting screw rods are arranged along the extending direction of the sliding groove, the lifting screw rods are respectively in running fit with the left positioning seat and the right positioning seat and in threaded fit with the adjusting blocks, the adjusting blocks correspondingly connected are driven to slide along the sliding grooves where the adjusting blocks are located when the lifting screw rods are rotated, and the interval between the first air knife and the second air knife is adjusted.

Preferably, two ends of the second air knife are respectively provided with a second supporting shaft, two adjusting blocks are arranged in each sliding groove, and the two second supporting shafts are respectively connected with the other adjusting block in the left positioning seat and the other adjusting block in the right positioning seat.

Preferably, the first support shafts at two ends of the first air knife are respectively in running fit with the adjusting blocks in the left positioning seat and the right positioning seat, and the second support shafts at two ends of the second air knife are respectively in running fit with the other adjusting block in the left positioning seat and the right positioning seat.

Preferably, the left positioning seat and the right positioning seat are respectively provided with two lifting screw rods arranged along the extending direction of the sliding groove, and the other lifting screw rod on the left positioning seat is in running fit with the left positioning seat and is in threaded fit with the other adjusting block in the left positioning seat;

and the other lifting screw rod on the right positioning seat is in running fit with the right positioning seat and is in threaded fit with the other adjusting block in the right positioning seat, and when the other lifting screw rod on the left positioning seat and the other lifting screw rod on the right positioning seat are rotated, the adjusting blocks which are correspondingly connected are driven to slide along the sliding grooves in which the adjusting blocks are arranged, so that the interval between the second air knife and the first air knife is adjusted.

Preferably, the sliding groove comprises two opposite positioning surfaces for clamping the adjusting block to prevent rotation.

Preferably, the first air knife and the second air knife are respectively provided with a plurality of air inlets connected with an external air inlet pipeline and a linear air outlet arranged along the length direction, the air inlets are communicated with the air outlets, and the air outlets of the first air knife and the second air knife are arranged side by side.

Preferably, the air inlets are a plurality of tooth holes arranged in parallel, and the number of the air inlets is five.

Preferably, the first air knife and the second air knife are both rectangular, two ends of the first air knife and the second air knife are respectively connected with the left positioning seat and the right positioning seat, and the air outlets are respectively arranged at the long edge parts of the first air knife and the second air knife.

Preferably, the end portions of the first support shaft and the second support shaft which are in running fit with the right positioning seat are fixedly connected with pointers for indicating rotating positions, and an angle scale for indicating the rotating angle of the pointers is arranged on the outer side of the right positioning seat.

A glass dryer comprises a drying box, a plurality of glue discharging rollers and an air knife adjusting mechanism, wherein the glue discharging rollers and the air knife adjusting mechanism are arranged in the drying box;

the air knife adjusting mechanisms are arranged among the rows of rubber rollers at intervals, the first air knife is positioned at the upper part of the drying surface formed by the rows of rubber rollers, and the second air knife is positioned at the lower part of the drying surface formed by the rows of rubber rollers.

Implement the utility model discloses a glass drying machine and air knife adjustment mechanism thereof has following beneficial effect: the air knife adjusting mechanism drives the lifting screw rod to rotate through the fine adjustment knob, the lifting screw rod does not move axially, the adjusting block is driven to move along the sliding groove, the moving direction is stable, the first supporting shaft and the first air knife are linked to move, the first air knife is flexibly adjusted from top to bottom, the distance between the first air knife and the second air knife is adjusted, the adjusting mode is simple and convenient to use, the unification of the air outlet amount of air of the air outlet can be effectively guaranteed, and the drying effect is improved.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is a schematic perspective view of a glass dryer according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of detail A of FIG. 1;

FIG. 3 is a schematic perspective view of the air knife adjustment mechanism of FIG. 1;

FIG. 4 is an enlarged schematic view of detail B of FIG. 3;

fig. 5 is a perspective view of the air knife adjustment mechanism of fig. 3 from another angle.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the glass drying machine in a preferred embodiment of the present invention includes a drying box 1, and a plurality of glue discharging rollers 2 and an air knife adjusting mechanism 3 disposed inside the drying box 1, wherein the air knife adjusting mechanism 3 is disposed between the plurality of glue discharging rollers 2 at intervals.

Referring to fig. 3 to 5, in some embodiments, the air knife adjustment mechanism 3 includes a left positioning seat 31, a right positioning seat 32, an adjustment block 33, a set of air knife bodies 34, and a lifting screw 35. The left positioning seat 31 and the right positioning seat 32 are arranged at intervals, the left positioning seat 31 and the right positioning seat 32 are respectively provided with a sliding chute 36 extending in the same direction, each sliding chute 36 is internally provided with an adjusting block 33, and the adjusting blocks 33 are in sliding fit with the sliding chutes 36 at the positions so as to slide along the extending direction of the sliding chutes 36 at the positions.

Each group of wind knife bodies 34 includes a first wind knife 341 and a second wind knife 342 arranged side by side along the extending direction of the sliding chute 36, two ends of the first wind knife 341 are respectively provided with a first supporting shaft 343, the two first supporting shafts 343 are respectively connected with the adjusting blocks 33 in the left positioning seat 31 and the right positioning seat 32, and two ends of the second wind knife 342 are respectively connected with the left positioning seat 31 and the right positioning seat 32.

The left positioning seat 31 and the right positioning seat 32 are both provided with a lifting screw rod 35, and each lifting screw rod 35 is arranged along the extending direction of the sliding chute 36. Each lifting screw 35 is respectively matched with the left positioning seat 31 and the right positioning seat 32 in a rotating way and is matched with the adjusting block 33 in a threaded way. When the lifting screw 35 is rotated, the lifting screw 35 rotates relative to the left positioning block and the right positioning block, but does not generate axial displacement. The thread of the lifting screw rod 35 is in threaded connection with the adjusting block 33, and when the lifting screw rod 35 rotates, the adjusting block 33 correspondingly connected is driven to slide along the sliding groove 36 where the adjusting block is located, so that the interval between the first air knife 341 and the second air knife 342 is adjusted.

Preferably, the outer end of the lifting screw 35 is provided with a fine adjustment knob 351, which is beneficial to applying force to the lifting screw 35 to drive the lifting screw 35 to rotate.

The first air knife 341 is located at the upper part of the drying surface formed by the rows of rubber rollers 2, and the second air knife 342 is located at the lower part of the drying surface formed by the rows of rubber rollers 2.

The first air knife 341 and the second air knife 342 are in a cavity structure, the first air knife 341 and the second air knife 342 are respectively provided with a plurality of air inlets 344 connected with an external air inlet pipeline and a linear air outlet 345 arranged along the length direction, the air inlets 344 are communicated with the air outlet 345, and the air outlet 345 of the first air knife 341 and the air outlet 345 of the second air knife 342 are arranged side by side. After the air inlet pipe is connected to the air inlet 344, air is supplied to the first air knife 341 and the second air knife 342, and the air is discharged from the air outlet 345.

The air inlets 344 are a plurality of tooth holes arranged in parallel along the length direction of the air knife body 34, and the number of the air inlets 344 is five. Furthermore, the first air knife 341 and the second air knife 342 are both rectangular, two ends of the first air knife 341 and the second air knife 342 are respectively connected with the left positioning seat 31 and the right positioning seat 32, and the air outlet 345 is respectively arranged at the edge of the long edge of the first air knife 341 and the second air knife 342, so that the air can be discharged easily, and the interference can be reduced.

The air knife adjusting mechanism 3 drives the lifting screw rod 35 to rotate through the fine adjustment knob 351, but the lifting screw rod 35 does not move axially, according to the screw connection principle, the adjusting block 33 moves along the sliding groove 36, the moving direction is stable, the first supporting shaft 343 and the first air knife 341 are linked to move, the up-and-down flexible adjustment of the first air knife 341 is realized, the size of the space between the first air knife 341 and the second air knife 342 is adjusted, the adjusting mode is simple and convenient to use, in addition, preferably, the lengths of the air outlets 345 on the first air knife 341 and the second air knife 342 are consistent, the unification of the air outlet volume of the air outlets 345 can be effectively guaranteed, and the drying effect is improved.

Two ends of the second air knife 342 are respectively provided with a second supporting shaft 346, two adjusting blocks 33 are arranged in each sliding chute 36, and the two second supporting shafts 346 are respectively connected with the other adjusting block 33 in the left positioning seat 31 and the right positioning seat 32.

Preferably, the first supporting shafts 343 at two ends of the first air knife 341 are respectively and rotatably fitted with the adjusting blocks 33 in the left positioning seat 31 and the right positioning seat 32, and the second supporting shafts 346 at two ends of the second air knife 342 are respectively and rotatably fitted with the other adjusting blocks 33 in the left positioning seat 31 and the right positioning seat 32. The first air knife 341 and the second air knife 342 can both swing, and the direction of the air outlet can be adjusted.

The end portions of the first supporting shaft 343 and the second supporting shaft 346 which are rotatably matched with the right positioning seat 32 are fixedly connected with a pointer 347 used for indicating a rotating position, an angle scale 348 for indicating a rotating angle of the pointer 347 is arranged on the outer side of the right positioning seat 32, and when the first air knife 341 and the second air knife 342 rotate, the reverse direction of the air outlet 345 can be accurately controlled.

The left positioning seat 31 and the right positioning seat 32 are respectively provided with two lifting screw rods 35 arranged along the extending direction of the sliding groove 36, and the other lifting screw rod 35 on the left positioning seat 31 is in running fit with the left positioning seat 31 and is in threaded fit with the other adjusting block 33 in the left positioning seat 31.

The other lifting screw 35 on the right positioning seat 32 is in running fit with the right positioning seat 32 and in threaded fit with the other adjusting block 33 in the right positioning seat 32, and when the other lifting screw 35 on the left positioning seat 31 and the other lifting screw 35 on the right positioning seat 32 are rotated, the adjusting block 33 correspondingly connected is driven to slide along the sliding groove 36 where the adjusting block is located, so as to adjust the interval between the second air knife 342 and the first air knife 341. Therefore, the positions of the first air knife 341 and the second air knife 342 can be adjusted, and the drying requirements of the glass with different thicknesses can be met.

The sliding groove 36 comprises two opposite positioning surfaces, the positioning block is arranged in the sliding groove 36, and the positioning surfaces clamp the adjusting block 33 to prevent the positioning block from rotating along with the lifting screw rod 35.

It is to be understood that the above-described respective technical features may be used in any combination without limitation.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An air knife adjusting mechanism is characterized by comprising a left positioning seat (31), a right positioning seat (32), an adjusting block (33), at least one group of air knife bodies (34) and a lifting screw rod (35);

the left positioning seat (31) and the right positioning seat (32) are arranged at intervals, sliding grooves (36) extending in the same direction are respectively formed in the left positioning seat (31) and the right positioning seat (32), each sliding groove (36) is internally provided with the adjusting block (33), and the adjusting blocks (33) are in sliding fit with the sliding grooves (36) so as to slide along the extending direction of the sliding grooves (36);

each group of air knife bodies (34) comprises a first air knife (341) and a second air knife (342) which are arranged side by side along the extending direction of the sliding groove (36), two ends of the first air knife (341) are respectively provided with a first supporting shaft (343), the two first supporting shafts (343) are respectively connected with the adjusting blocks (33) in the left positioning seat (31) and the right positioning seat (32), and two ends of the second air knife (342) are respectively connected with the left positioning seat (31) and the right positioning seat (32);

the left positioning seat (31) and the right positioning seat (32) are respectively provided with the lifting screw rods (35), the lifting screw rods (35) are arranged along the extending direction of the sliding grooves (36), the lifting screw rods (35) are respectively in running fit with the left positioning seat (31) and the right positioning seat (32) and in threaded fit with the adjusting blocks (33), the adjusting blocks (33) which are correspondingly connected are driven to slide along the sliding grooves (36) where the adjusting blocks are located when the lifting screw rods (35) are rotated, and the interval between the first air knife (341) and the second air knife (342) is adjusted.

2. The air knife adjusting mechanism according to claim 1, wherein two ends of the second air knife (342) are respectively provided with a second supporting shaft (346), two adjusting blocks (33) are arranged in each sliding groove (36), and the two second supporting shafts (346) are respectively connected with the other adjusting block (33) in the left positioning seat (31) and the other adjusting block (33) in the right positioning seat (32).

3. The air knife adjusting mechanism of claim 2, characterized in that the first supporting shafts (343) at the two ends of the first air knife (341) are respectively rotatably fitted with the adjusting blocks (33) in the left positioning seat (31) and the right positioning seat (32), and the second supporting shafts (346) at the two ends of the second air knife (342) are respectively rotatably fitted with the other adjusting blocks (33) in the left positioning seat (31) and the right positioning seat (32).

4. The air knife adjusting mechanism according to claim 2, wherein two lifting screws (35) are respectively disposed on the left positioning seat (31) and the right positioning seat (32) along the extending direction of the sliding groove (36), and the other lifting screw (35) on the left positioning seat (31) is rotatably engaged with the left positioning seat (31) and is in threaded engagement with the other adjusting block (33) in the left positioning seat (31);

and the other lifting screw rod (35) on the right positioning seat (32) is in running fit with the right positioning seat (32) and is in threaded fit with the other adjusting block (33) in the right positioning seat (32), and when the other lifting screw rod (35) on the left positioning seat (31) and the other lifting screw rod (35) on the right positioning seat (32) are rotated, the adjusting block (33) which is correspondingly connected is driven to slide along a sliding groove (36) at the position, so that the interval between the second air knife (342) and the first air knife (341) is adjusted.

5. An air knife adjustment mechanism according to claim 2, characterized in that the chute (36) comprises two opposite positioning surfaces for clamping the adjustment block (33) against rotation.

6. The air knife adjusting mechanism of any one of claims 1 to 5, wherein the first air knife (341) and the second air knife (342) are respectively provided with a plurality of air inlets (344) connected with an external air inlet pipeline and a linear air outlet (345) arranged along the length direction, the air inlets (344) are communicated with the air outlet (345), and the air outlet (345) of the first air knife (341) and the air outlet (345) of the second air knife (342) are arranged side by side.

7. The air knife adjustment mechanism of claim 6, characterized in that the air inlet (344) is a plurality of tooth holes arranged side by side, and the number of the air inlet (344) is five.

8. The air knife adjusting mechanism of claim 6, wherein the first air knife (341) and the second air knife (342) are both rectangular, two ends of the first air knife (341) and the second air knife (342) are respectively connected with the left positioning seat (31) and the right positioning seat (32), and the air outlet (345) is respectively arranged at the edge of the long edge of the first air knife (341) and the second air knife (342).

9. The air knife adjusting mechanism according to claim 3, characterized in that the end parts of the first supporting shaft (343) and the second supporting shaft (346) which are rotatably matched with the right positioning seat (32) are fixedly connected with a pointer (347) for indicating a rotating position, and an angle scale (348) for indicating a rotating angle of the pointer (347) is arranged outside the right positioning seat (32).

10. A glass dryer, characterized by comprising a drying box (1), a plurality of rows of glue rollers (2) arranged inside the drying box (1) and an air knife adjusting mechanism (3) according to any one of claims 1 to 9;

the air knife adjusting mechanisms (3) are arranged among the rows of rubber rollers (2) at intervals, the first air knife (341) is positioned at the upper part of the drying surface formed by the rows of rubber rollers (2), and the second air knife (342) is positioned at the lower part of the drying surface formed by the rows of rubber rollers (2).

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