CN212097124U - Cooling device is used in optical lens piece production - Google Patents

Abstract

The utility model discloses a cooling device is used in optical lens piece production, including the cooling box, the welding of cooling box one side bottom has the flow board of gathering, and gathers the flow board and keep away from cooling box one end welding and have the decurrent water conservancy diversion canal of slope, place the cooler bin under the water conservancy diversion canal bottom, and the welding of cooler bin bottom has the suction pump delivery port is connected with the drinking-water pipe. The utility model discloses a nozzle goes out the water hole's density can be with the coolant liquid that takes out through the water pump spray into vaporific, spout vaporific coolant liquid to needs refrigerated lens, because the coolant liquid of lens contact is less, so can not produce violent reaction, avoid the lens cracked, because the cooler bin is longer, the lens can be cooled down in vaporific coolant liquid always, it is very many fast to stew the cooling than it, the water conservancy diversion canal is poured into to the last lens and gets into the cooler bin and directly cool down, the broken effect of lens cooling has been avoided effectively in the layering cooling like this, the drawback that the lens cooling takes place deformation has also been avoided the lens to stew.

Description

Cooling device is used in optical lens piece production

Technical Field

The utility model relates to a cooling device technical field especially relates to a cooling device is used in optical lens piece production.

Background

In the prior art, there are two methods for manufacturing optical lenses: one of the conventional grinding methods is that the optical lens is formed through long-time grinding, polishing and cleaning processes, and the produced lens has poor quality and low yield. Another kind is the mould injection method, uses ceramic mold to come quick batch production optical lens, and ceramic mold can produce high temperature when the lens of moulding plastics, just need wait for the lens cooling after the lens shaping is accomplished, and ceramic membrane itself cooling performance is just poor, and directly takes out the lens and places the cooling of stewing, and the lens does not cool off and takes place the deformation easily, consequently needs rapid cooling, and directly puts into the aquatic with the lens because lens and temperature difference are too big, and the lens is probably to take place phenomenons such as breakage.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a cooling device for producing optical lenses.

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

a cooling device for optical lens production comprises a cooling box, wherein a flow collecting plate is welded at the bottom of one side of the cooling box, a flow guide channel with a downward inclination is welded at one end of the flow collecting plate away from the cooling box, a cooling box is placed under the bottom of the flow guide channel, a water suction pump is welded at the bottom of the cooling box, a water suction pipe is connected to a water outlet of the water suction pump, the water suction pipe extends to the inner wall of the top of the cooling box and is bonded to the center of the inner wall of the cooling box, a plurality of water spray nozzles distributed at equal intervals are formed under the water suction pipe on the inner wall of the top of the cooling box, a water spray pipe is welded on the inner wall of each water spray nozzle, a nozzle with a downward inclination is screwed on each water spray pipe, first supports are welded at two ends of the inner wall of the bottom of the cooling box, a bearing is sleeved at the top of the first support away from one side, the round conveyer belt has been cup jointed with driven cylinder outer wall to the initiative cylinder, and the welding of conveyer belt outer wall has the backup pad that the equidistance distributes, the dull and stereotyped outside level of cooling bottom of the case portion extends there is the fixed plate, and the welding of fixed plate top has the motor, the axis of rotation of motor has the dwang, and the dwang has cup jointed the action wheel, the outer wall welding of initiative cylinder one side has from the driving wheel, and has cup jointed the round belt strip from between driving wheel and the action wheel.

Preferably, the water outlet holes of the spray head are fine and dense.

Preferably, the lens is placed on the supporting plate above the conveying belt.

Preferably, the bottom of the diversion trench is made of elastic material.

Preferably, the second supports are welded at the two ends of the bottom of the cooling box, the cooling box is inclined, and the end, close to the cooling box, of the cooling box is low.

Preferably, the cooling tank is filled with a liquid for cooling the lens.

The utility model has the advantages that:

1. can be with the coolant liquid that takes out through the water pump spray into vaporific through the density of shower nozzle water outlet, with vaporific coolant liquid spout to needs refrigerated lens, because the coolant liquid of lens contact is less, so can not produce violent reaction, avoid the lens cracked, because the cooler bin is longer, the lens can be cooled down in vaporific coolant liquid always, it is very fast to stew the cooling than it, the last lens is poured into the water conservancy diversion canal and is got into the cooler bin and directly cool down, the broken effect of lens cooling has been avoided effectively in the layering cooling like this, the drawback that the lens cooling takes place the deformation has also been avoided the lens to stew.

2. The liquid sprayed by the spray heads can be collected through the flow collecting plate and flows back to the cooling box through the flow guide channel, so that the cooling liquid can be recycled, the consumption is low, and no coolant needs to be added for a long time.

Drawings

Fig. 1 is a schematic cross-sectional structural view of a cooling device for producing an optical lens provided in the present invention;

fig. 2 is a schematic top view of a cooling device for producing an optical lens according to the present invention;

fig. 3 is a schematic view of a roller motor connection structure of a cooling device for producing optical lenses according to the present invention.

In the figure: 1 cooling box, 2 water pipes, 3 water spray pipes, 4 spray heads, 5 driven rollers, 6 diversion channels, 7 cooling boxes, 8 water pumps, 9 flow collecting plates, 10 second supports, 11 supporting plates, 12 conveying belts, 13 first supports, 14 driving rollers, 15 motors, 16 lenses, 17 rotating rods, 18 driving wheels, 19 driven wheels, 20 belt strips and 21 bearings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a cooling device for optical lens production, including cooling box 1, cooling box 1 bottom both ends welding has second support 10, and cooling box 1 has the slope, and cooling box 1 is low apart from the one end that cooling box 7 is nearly, fall the liquid that has cooling lens 16 in the cooling box 7 and use, cooling box 1 one side bottom welding has the current collecting plate 9, and current collecting plate 9 keeps away from cooling box 1 one end welding has the decurrent water conservancy diversion canal 6 of slope, the water conservancy diversion canal 6 bottom is made for elastic material, cooling box 7 has been placed under the water conservancy diversion canal 6 bottom, and cooling box 7 bottom welding has suction pump 8, the delivery port of suction pump 8 is connected with drinking-water pipe 2, and drinking-water pipe 2 extends to cooling box 1 top inner wall and bonds in cooling box 1 inner wall central authorities, open under the drinking-water pipe 2 of cooling box 1 top inner wall has a plurality of equidistance water jet that distribute, and the welding of water jet inner wall has spray pipe 3, and the spiro union of spray pipe 3 has decurrent shower nozzle 4 of slope, the eye that goes out of shower nozzle 4 is thin and intensive, cooling box 1 bottom inner wall both ends welding has first support 13, and keeps away from the first support 13 top of water conservancy diversion ditch 6 one side and cup jointed bearing 21, and the welding of bearing 21 outer wall has initiative cylinder 14, and the driven cylinder 5 has been cup jointed at the first support 13 top of the cooling box 1 other end, initiative cylinder 14 and driven cylinder 5 outer wall cup joint round conveyer belt 12, and the welding of conveyer belt 12 outer wall has the backup pad 11 of equidistance distribution, placed lens 16 on the backup pad 11 of conveyer belt 12 top, the dull and stereotyped outside level of cooling box 1 bottom extends there is the fixed plate, and the welding of fixed plate top has motor 15, the axis of rotation of motor 15 is connected with dwang 17, and dwang 17, the outer wall of one side of the driving roller 14 is welded with a driven wheel 19, and a ring of belt strips 20 is sleeved between the driven wheel 19 and the driving wheel 18.

The working principle is as follows: the motor 15 is started, the water suction pump 8 is started, the lens 16 is placed on the supporting plate 11, the spray head 4 sprays cooling liquid towards the lens 16, the lens 16 is cooled for the first time on the conveying belt 12, the lens 16 falls into the flow collecting plate 9 after the conveying belt 12 is cooled, the cooling liquid collected together with the lens 16 flows into the cooling box 7 to achieve overall cooling, the motor 15 is turned off after cooling is completed, the water suction pump 8 is turned off, and the lens in the cooling box 7 is collected.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A cooling device for optical lens production comprises a cooling box (1) and is characterized in that a flow collecting plate (9) is welded at the bottom of one side of the cooling box (1), one end of the cooling box (1) far away from the flow collecting plate (9) is welded with a flow guide channel (6) inclining downwards, a cooling box (7) is placed under the bottom of the flow guide channel (6), a water suction pump (8) is welded at the bottom of the cooling box (7), a water outlet of the water suction pump (8) is connected with a water suction pipe (2), the water suction pipe (2) extends to the inner wall of the top of the cooling box (1) and is bonded in the center of the inner wall of the cooling box (1), a plurality of water spraying ports distributed equidistantly are formed under the water suction pipe (2) of the inner wall of the top of the cooling box (1), a water spraying pipe (3) is welded with a water spraying pipe (3), the water spraying pipe (3) is screwed with a nozzle (4) inclining downwards, and first support (13) is welded at two, a bearing (21) is sleeved at the top of the first bracket (13) far away from one side of the diversion channel (6), a driving roller (14) is welded on the outer wall of the bearing (21), a driven roller (5) is sleeved at the top of the first bracket (13) at the other end of the cooling box (1), a circle of conveyor belt (12) is sleeved on the outer walls of the driving roller (14) and the driven roller (5), supporting plates (11) which are distributed at equal intervals are welded on the outer wall of the conveyor belt (12), a flat plate at the bottom of the cooling box (1) extends outwards and horizontally to form a fixed plate, a motor (15) is welded above the fixed plate, the rotating shaft of the motor (15) is connected with a rotating rod (17), and the rotating rod (17) is sleeved with a driving wheel (18), the outer wall of one side of the driving roller (14) is welded with a driven wheel (19), and a ring of belt strips (20) are sleeved between the driven wheel (19) and the driving wheel (18).

2. A cooling device for optical lens production according to claim 1, wherein the water outlet holes of the spray head (4) are fine and dense.

3. A cooling device for optical lens production according to claim 1, characterized in that the lens (16) is placed on the support plate (11) above the conveyor belt (12).

4. The cooling device for optical lens production according to claim 1, wherein the bottom of the flow guide channel (6) is made of elastic material.

5. The cooling device for producing the optical lens according to claim 1, wherein the second support (10) is welded at two ends of the bottom of the cooling box (1), the cooling box (1) has a slope, and one end of the cooling box (1) close to the cooling box (7) is low.

6. A cooling device for optical lens production according to claim 1, characterized in that the cooling tank (7) is filled with a liquid for cooling the lens (16).

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