CN116007291A - Optical glass surface water cooling machine - Google Patents

Abstract

The invention relates to the field of optical glass processing, in particular to an optical glass surface water cooler. The invention provides an optical glass surface water cooler capable of comprehensively and rapidly cooling. The optical glass surface water cooler comprises a storage frame and a cooling mechanism, wherein cooling water is stored in the storage frame, and the cooling mechanism for placing and driving the optical glass to slowly move for cooling is arranged on the inner side of the storage frame. According to the invention, the optical glass is placed on the placing plate, the placing plate and the descending plate move downwards under the action of gravity, and meanwhile, the downward moving speed of the descending plate can be reduced under the action of the spiral lifting rod, so that the optical glass slowly descends to cool, and the optical glass is completely immersed in cooling water due to the downward movement of the optical glass, so that the optical glass is rapidly and comprehensively cooled, and the cooling efficiency is high.

Description

Optical glass surface water cooling machine

Technical Field

The invention relates to the field of optical glass processing, in particular to an optical glass surface water cooler.

Background

After the use of the invention of the optical instrument, the demand for the optical glass is also increasing, and the optical glass is often required to be cooled during the processing, so that a water cooling machine is required to be used.

The patent of publication No. CN216657591U discloses a water cooling plant for cover glass processing, including the water cooling tank, the delivery port of suction pump is connected with the three-way pipe through the connecting pipe, the equal fixedly connected with water board in both sides at water cooling tank top, one side equidistant the water board has the spray pipe through hose connection, one side equidistant the connection actuating mechanism of water board, one side of water board is linked together through mounting tube and three-way pipe, the bottom fixedly connected with mounting panel of water board one side, the top sliding connection of mounting panel has the installation piece, be connected with the equipment mounting frame through the erection rod on the installation piece, the equal equidistant fixedly connected with kicking block in surface at installation piece top. This patent is although can carrying out the water-cooling to apron glass, but only spray water cooling through the spray pipe, and so the spray pipe sprays the scope limited to can lead to glass cooling inhomogeneous, and spray refrigerated inefficiency, thereby can lead to cooling time to increase, processing cost improves.

Therefore, it is necessary to design an optical glass surface water cooler capable of comprehensively and rapidly cooling.

Disclosure of Invention

In order to overcome the defects that in the prior art, water is sprayed by a water spraying pipe, the spraying range of the water spraying pipe is limited, so that the glass is unevenly cooled, the spraying cooling efficiency is low, the cooling time is increased, and the processing cost is improved, the invention provides the optical glass surface water cooler capable of comprehensively and quickly cooling.

The optical glass surface water cooler comprises a storage frame and a cooling mechanism, wherein cooling water is stored in the storage frame, and the cooling mechanism for placing and driving the optical glass to slowly move for cooling is arranged on the inner side of the storage frame.

Further, the cooling mechanism comprises a supporting frame, descending plates, placing plates and spiral lifting rods, wherein the left part and the right part of the inner side of the storage frame are respectively connected with the supporting frame, the upper parts of the supporting frames are respectively connected with the descending plates in a sliding mode, the placing plates are connected between the descending plates, the spiral lifting rods are respectively connected to the supporting frames in a rotating mode, and the spiral lifting rods are respectively connected with the adjacent descending plates through threads.

Further, the device also comprises a circulating mechanism, wherein the circulating mechanism comprises a water pipe, a fan, a rotating shaft and bevel gears, the water pipe is communicated between the left side and the rear side of the lower part of the storage frame, the water pipe is also communicated between the right side and the front side of the lower part of the storage frame, the rotating shaft is connected with the lower part of the support frame in a rotating manner, one side of the rotating shaft, far away from the spiral lifting rod, is connected with the fan in a key manner, the fan is respectively positioned in the adjacent water pipe, one side, close to the spiral lifting rod, of the rotating shaft is connected with the bevel gears in a key manner, the lower side of the spiral lifting rod is also connected with the bevel gears in a key manner, and the two adjacent bevel gears are meshed.

Further, still including shake mechanism, shake mechanism is including dead lever, vibration spring and shake plank, and the right side inner wall of storage frame is connected with the dead lever, and the left portion rear side of dead lever is connected with vibration spring, and vibration spring's rear side is connected with shake plank, and the descending board moves down and shakes the plank contact.

Further, the protective mechanism comprises a protective sleeve and protective springs, the outer side of the placing plate is connected with the protective sleeve in a sliding mode, and at least two protective springs are connected between the protective sleeve and the placing plate.

Further, the lifting mechanism comprises a connecting frame, a rotating rod, a handle, a winding wheel, a rope and a fixed rope rod, wherein the connecting frame is connected to the upper side of the supporting frame, the rotating rod is rotatably connected between the upper parts of the connecting frame, the handle is connected to the right side of the rotating rod, the winding wheel is connected to the middle key of the rotating rod, the rope is wound on the winding wheel, the fixed rope rod is connected to the upper part of the placing plate, and the rope is connected with the fixed rope rod.

Further, the filter mechanism comprises a filter and a compression block, wherein the filter is detachably connected to the water pipe, the compression block is clamped to the water pipe, and the compression block is used for clamping the filter.

Further, the storage box further comprises a storage cover, and the storage cover is detachably arranged on the upper side of the storage box.

The invention has the beneficial effects that: 1. according to the invention, the optical glass is placed on the placing plate, the placing plate and the descending plate move downwards under the action of gravity, and meanwhile, the downward moving speed of the descending plate can be reduced under the action of the spiral lifting rod, so that the optical glass slowly descends to cool, and the optical glass is completely immersed in cooling water due to the downward movement of the optical glass, so that the optical glass is rapidly and comprehensively cooled, and the cooling efficiency is high.

2. When the optical glass is cooled, the spiral lifting rod is enabled to rotate, the bevel gear drives the rotating shaft to rotate, and the fan is driven to rotate, so that water is disturbed, dead water becomes active water, active water flows into adjacent water pipes, water in the storage frame circulates through the water pipes, cooling water is cooled in a circulating mode, and the cooling effect of the optical glass is improved.

3. The descending plate moves downwards to be in contact with the shaking wood plate, so that the descending plate can continuously stir the shaking wood plate to move forwards and backwards under the action of the vibration spring, knocking vibration is generated on the descending plate, the placing plate and the optical glass are vibrated, the contact area of the optical glass and water flow is increased, and the cooling effect of the optical glass is further improved.

4. According to the invention, when the protective sleeve moves downwards to be in contact with the bottom of the storage frame, the protective spring is extruded, so that the downward moving speed of the placing plate can be buffered, and further the optical glass on the placing plate can be effectively prevented from being damaged by impact.

5. When the cooled optical glass is required to be taken out, the crank handle is controlled to rotate reversely, so that the rotating rod and the winding wheel are driven to rotate reversely, the rope is wound up, the fixed rope rod is pulled to move upwards for resetting, the placing plate is driven to move upwards for resetting, and the operation is simple and convenient, so that people can take out the optical glass conveniently.

6. According to the invention, in the process that the cooling water circulates in the water pipe, the filter can filter impurities, so that the impurities in the cooling water can be prevented from affecting the quality of the optical glass.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

FIG. 3 is a schematic cross-sectional perspective view of the cooling mechanism of the present invention.

Fig. 4 is a schematic cross-sectional perspective view of the circulation mechanism of the present invention.

Fig. 5 is a schematic perspective view of a dithering mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a protective mechanism of the present invention in cross-section.

Fig. 7 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 8 is a schematic perspective view of a filtering mechanism according to the present invention.

Fig. 9 is a schematic cross-sectional perspective view of the filter mechanism of the present invention.

Reference numerals: 1_storage frame, 2_cooling mechanism, 21_support frame, 22_lowering plate, 23_placing plate, 24_spiral lifting rod, 3_circulation mechanism, 31_water pipe, 32_fan, 33_rotating shaft, 34_bevel gear, 4_shaking mechanism, 41_fixing rod, 42_shaking spring, 43_shaking plank, 5_protection mechanism, 51_protection sleeve, 52_protection spring, 6_lifting mechanism, 61_connecting frame, 62_rotating rod, 63_shaking handle, 64_rolling wheel, 65_rope, 66_fixing rope rod, 7_filtering mechanism, 71_filter, 72_compression block.

Detailed Description

The invention is further described below with reference to the drawings and the detailed description.

Example 1

The utility model provides an optical glass surface water-cooling machine, as shown in fig. 1-3, including storage frame 1 and cooling mechanism 2, the cooling water is stored to storage frame 1, and the upside dismantlement of storage frame 1 is installed the storage lid, and the inboard of storage frame 1 is equipped with and is used for placing and drives optical glass slowly moving refrigerated cooling mechanism 2.

As shown in fig. 2 and 3, the cooling mechanism 2 includes a supporting frame 21, a descending plate 22, a placement plate 23 and a spiral lifting rod 24, the supporting frame 21 is welded at both left and right parts of the inner side of the storage frame 1, the descending plate 22 is connected to the upper part of the supporting frame 21 in a sliding manner, the placement plate 23 is welded between the descending plates 22, the spiral lifting rod 24 is connected to the supporting frame 21 in a rotating manner, and the spiral lifting rod 24 is connected with the adjacent descending plates 22 through threads.

When the optical glass needs to be cooled, cooling water is poured into the storage frame 1, the storage cover is controlled to be taken down, then the optical glass is placed on the placing plate 23, the placing plate 23 and the descending plate 22 move downwards under the action of gravity, and meanwhile the spiral lifting rod 24 rotates under the action of threads, so that the descending speed of the descending plate 22 can be reduced under the action of the spiral lifting rod 24, the optical glass is enabled to slowly descend and cooled, the optical glass can be completely immersed into the cooling water due to the downward movement of the optical glass, the optical glass is enabled to be rapidly and comprehensively cooled, the cooling efficiency is high, the optical glass is taken out after the cooling is finished, the placing plate 23 is controlled to be moved upwards and reset, and when the device is not used, the storage cover can be controlled to cover the storage frame 1, so that impurities can be effectively prevented from falling into the storage frame 1.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 4, the utility model also comprises a circulation mechanism 3, the circulation mechanism 3 comprises a water pipe 31, a fan 32, a rotating shaft 33 and bevel gears 34, the water pipe 31 is communicated between the left side and the rear side of the lower part of the storage frame 1, the water pipe 31 is also communicated between the right side and the front side of the lower part of the storage frame 1, the rotating shaft 33 is connected with the rotating shaft 33 in a rotating manner, one side of the rotating shaft 33, which is far away from the spiral lifting rod 24, is connected with the fan 32 in a key manner, the fans 32 are respectively positioned in the adjacent water pipes 31, one side of the rotating shaft 33, which is close to the spiral lifting rod 24, is connected with the bevel gears 34 in a key manner, the lower side of the spiral lifting rod 24 is also connected with the bevel gears 34 in a key manner, and the two adjacent bevel gears 34 are meshed.

When the optical glass is cooled, the spiral lifting rod 24 can be made to rotate, the spiral lifting rod 24 rotates to drive the rotating shaft 33 to rotate through the bevel gear 34, the rotating shaft 33 rotates to drive the fan 32 to rotate, the fan 32 rotates to enable water to flow into the adjacent water through pipe 31, water in the storage frame 1 circulates circularly through the water through pipe 31, water can be disturbed, cooling water is cooled circularly, and the cooling effect of the optical glass is improved.

As shown in fig. 2 and 5, the device further comprises a shaking mechanism 4, the shaking mechanism 4 comprises a fixing rod 41, a shaking spring 42 and a shaking plank 43, the fixing rod 41 is welded on the inner wall of the right side of the storage frame 1, the shaking spring 42 is connected to the rear side of the left part of the fixing rod 41, the shaking plank 43 is connected to the rear side of the shaking spring 42, and the descending plate 22 moves downwards to be in contact with the shaking plank 43.

When the optical glass is cooled, the descending plate 22 moves downwards so as to be in contact with the shaking wood plate 43, and then the descending plate 22 continuously dials the shaking wood plate 43 to move back and forth under the action of the vibration spring 42, so that knocking vibration is generated on the descending plate 22, the placing plate 23 and the optical glass are vibrated, the contact area of the optical glass and water flow is increased, and the cooling effect of the optical glass is further improved.

As shown in fig. 2 and 6, the device further comprises a protection mechanism 5, the protection mechanism 5 comprises a protection sleeve 51 and protection springs 52, the outer side of the placement plate 23 is connected with the protection sleeve 51 in a sliding manner, and 4 protection springs 52 are connected between the protection sleeve 51 and the placement plate 23.

When placing board 23 downwardly moving, can also drive lag 51 and protection spring 52 downwardly moving, when lag 51 downwardly moving to with storage frame 1 bottom contact, just can make protection spring 52 by the extrusion, and then can cushion the speed of placing board 23 downwardly moving, and then can effectively prevent to place the optical glass on the board 23 and receive the impact damage.

As shown in fig. 2 and 7, the lifting mechanism 6 is further included, the lifting mechanism 6 includes a connecting frame 61, a rotating rod 62, a crank 63, a winding wheel 64, a rope 65 and a fixed rope 66, the upper sides of the supporting frames 21 are welded with the connecting frame 61, the rotating rod 62 is rotatably connected between the upper parts of the connecting frame 61, the right side of the rotating rod 62 is fixedly connected with the crank 63 through bolts, the middle key of the rotating rod 62 is connected with the winding wheel 64, the winding wheel 64 is winded with the rope 65, the upper parts of the placing plates 23 are welded with the fixed rope 66, and the rope 65 is connected with the fixed rope 66.

When the optical glass is cooled, the placing plate 23 moves downwards to drive the fixing rope rod 66 to move downwards, so that the rope 65 is pulled to move downwards, the winding wheel 64 is driven to rotate, the rotating rod 62 and the crank 63 are rotated, when the cooled optical glass is required to be taken out, the crank 63 is controlled to rotate reversely, the rotating rod 62 and the winding wheel 64 are driven to rotate reversely, the rope 65 is wound up, the fixing rope rod 66 is pulled to move upwards to reset, the placing plate 23 is driven to move upwards to reset, and the operation is simple and convenient, so that people can take out the optical glass conveniently.

As shown in fig. 2, 8 and 9, the filter mechanism 7 is further included, the filter mechanism 7 includes a filter 71 and a compression block 72, the water pipe 31 is detachably connected with the filter 71, the water pipe 31 is clamped with the compression block 72, and the compression block 72 is used for clamping the filter 71.

In the process of circulating cooling water in the water pipe 31, the filter 71 can filter impurities, so that the quality of optical glass can be prevented from being influenced by the impurities in the cooling water, when the filter 71 needs to be replaced, the filter 71 is controlled not to be clamped by the control compression block 72, then the filter 71 can be controlled to be taken out for replacement, and after the replacement is completed, the filter 71 is controlled to be clamped again by the control compression block 72.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (8)

1. The utility model provides an optical glass surface water-cooling machine, is including storage frame (1), and storage frame (1) are used for storing cooling water, characterized by: the optical glass cooling device further comprises a cooling mechanism (2), cooling water is stored in the storage frame (1), and the cooling mechanism (2) used for placing and driving the optical glass to slowly move for cooling is arranged on the inner side of the storage frame (1).

2. An optical glass surface water cooler according to claim 1, wherein: the cooling mechanism (2) comprises a supporting frame (21), descending plates (22), placing plates (23) and spiral lifting rods (24), wherein the supporting frame (21) is connected to the left and right inner sides of the storage frame (1), the descending plates (22) are connected to the upper portions of the supporting frame (21) in a sliding mode, the placing plates (23) used for placing optical glass are connected between the descending plates (22), the spiral lifting rods (24) are connected to the supporting frame (21) in a rotating mode, the spiral lifting rods (24) are connected with the adjacent descending plates (22) through threads, and the spiral lifting rods (24) are used for decelerating the descending plates (22) to move downwards.

3. An optical glass surface water cooler as defined in claim 2, wherein: the water circulation device is characterized by further comprising a circulation mechanism (3), wherein the circulation mechanism (3) comprises a water pipe (31), a fan (32), a rotating shaft (33) and bevel gears (34), the water pipe (31) is communicated between the left side and the rear side of the lower part of the storage frame (1), the water pipe (31) is also communicated between the right side and the front side of the lower part of the storage frame (1), the rotating shaft (33) is connected with the rotating shaft (33) in a rotating manner, one side, far away from the spiral lifting rod (24), of the rotating shaft (33) is connected with the fan (32) in a key manner, the fan (32) is respectively positioned in the adjacent water pipe (31), one side, close to the spiral lifting rod (24), of the rotating shaft (33) is connected with the bevel gears (34) in a key manner, the lower side, close to the bevel gears (34) of the spiral lifting rod (24) are meshed, the descending plate (22) moves downwards to drive the spiral lifting rod (24) to rotate, the rotating shaft (33) and the fan (32) to rotate through the bevel gears (34), and the fan (32) to rotate to enable cooling water to flow into the water pipe (31).

4. An optical glass surface water cooler according to claim 3, wherein: the storage frame is characterized by further comprising a shaking mechanism (4), wherein the shaking mechanism (4) comprises a fixing rod (41), a shaking spring (42) and a shaking wood plate (43), the right side inner wall of the storage frame (1) is connected with the fixing rod (41), the left rear side of the fixing rod (41) is connected with the shaking spring (42), the rear side of the shaking spring (42) is connected with the shaking wood plate (43), and the descending plate (22) moves downwards to be in contact with the shaking wood plate (43).

5. An optical glass surface water cooler according to claim 4, wherein: the protective device is characterized by further comprising a protective mechanism (5), wherein the protective mechanism (5) comprises a protective sleeve (51) and protective springs (52), the outer side of the placing plate (23) is connected with the protective sleeve (51) in a sliding mode, and at least two protective springs (52) are connected between the protective sleeve (51) and the placing plate (23).

6. An optical glass surface water cooler according to claim 5, wherein: the lifting mechanism (6) comprises a connecting frame (61), a rotating rod (62), a crank handle (63), a winding wheel (64), ropes (65) and a fixed rope rod (66), wherein the upper side of the supporting frame (21) is connected with the connecting frame (61), the rotating rod (62) is rotatably connected between the upper parts of the connecting frame (61), the crank handle (63) is connected to the right side of the rotating rod (62), the winding wheel (64) is connected to the middle key of the rotating rod (62), the ropes (65) are wound on the winding wheel (64), the upper parts of the placing plates (23) are connected with the fixed rope rod (66), and the ropes (65) are connected with the fixed rope rod (66).

7. An optical glass surface water cooler according to claim 6, wherein: the filter device is characterized by further comprising a filter mechanism (7), wherein the filter mechanism (7) comprises a filter (71) and a compression block (72), the filter (71) is detachably connected to the water pipe (31), the compression block (72) is fixedly clamped to the water pipe (31), and the compression block (72) is used for clamping the filter (71).

8. An optical glass surface water cooler according to claim 1, wherein: the storage box also comprises a storage cover, and the storage cover is detachably arranged on the upper side of the storage frame (1).

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