TWM477370U - Mold core cooling structure of optical lens mold - Google Patents

Description

Mould cooling structure of optical lens mold

The present invention relates to a mold cooling structure for an optical lens mold, and more particularly to a mold cooling for an optical lens mold which can provide a uniform temperature and a constant temperature for the mold of the optical lens mold, thereby improving the use efficiency of the mold. structure.

According to the optical lens mold 1, as shown in FIG. 1, the optical lens mold 1 has a female mold 11 and a male mold 12, and the female mold 11 is provided with a plurality of female mold core holes 111, and the female mold core holes 111 are interposed. The female mold core 112 is provided, and the end of the female mold core 112 is provided with a molding chamber 113, and the female mold 11 is locked on the female mold take-up board 11a; the male mold 12 is also provided with a plurality of corresponding to the female mold 11. a male mold hole 121, the male mold core 121 is inserted with a male mold core 122, and the end of the male mold core 122 is also oppositely provided with a molding chamber 123, which is available in the molding chamber 113, 123 The optical lens is injection molded, and the back side of the male mold 12 is provided with a male mold carrier 12a, a male mold spacer 12b, and a male mold take-up board 12c.

The optical lens mold 1 is conventionally produced, and the above-described structure can certainly achieve the purpose of injection molding an optical lens. The conventional optical lens mold 1 is cooled by air cooling. However, as the size of the optical lens is increased, the injection molding time for producing the larger optical lens is relatively longer, so that the cooling speed is often uneven. Moreover, the yield of the larger optical lens is not good, and the optical lens mold 1 which is conventionally used for cooling by air cooling is obviously not available for producing a larger optical lens. Therefore, how to provide a cooling structure of an optical lens mold with better cooling effect has been an urgent problem for optical lens mold manufacturers.

The main purpose of the present invention is to provide a mold cooling structure for an optical lens mold, thereby overcoming the lack of good optical lens yield due to poor heat dissipation when the mold of the conventional optical lens is injected into a larger optical lens.

The main technical means adopted for the above purpose is to provide a mold cooling structure of an optical lens mold, the optical lens mold comprising a mother mold and a male mold; the mother mold has a mother mold take-off board and a mother model board And a mother mold pad; the mother model plate is locked on the mother die take-up plate, and a central portion is provided with a hollow mounting portion, the mounting portion is for receiving the mother die pad, the female mold The mat has a female mold acupoint, and the female mold has a female mold and a female mold cold water kit, and the female cold water kit is sleeved on the outer periphery of the female mold, and the end surface of the female mold is provided. There is a molding chamber; the male mold has a male mold take-up board, a male mold partition board, a male mold board, a male model board and a male mold pad, and the male mold partition board, the male mold board, and the male model board are locked. And a mounting portion for the male mold pad is disposed at the center of the male mold plate, and the male mold pad is provided with a male mold hole, the male mold There is a male mold and a male mold cold water kit in the acupoint. The male mold cold water kit is set on the outer periphery of the male mold. The end surface of the male mold core is provided with a molding chamber; the mother mold is provided with a mother mold cooling water passage, and the mother mold cooling water passage has a main cooling water passage, a secondary cooling water passage and a cooling water loop, the main cooling water passage Having a cooling water inlet, a cooling water outlet, and a connecting cooling water passage, the secondary cooling water passage is connected to the main cooling water passage by the connecting cooling water passage, and the cooling water circulation system is connected to the secondary cooling water passage. The cooling water loop is connected to the main cooling water passage by the cooling water passage; the male mold is provided with a male cooling water passage, and the male cooling water passage has a main cooling water passage and a secondary cooling water passage. a cooling water loop having a cooling water inlet, a cooling water outlet, and a connecting cooling water passage, wherein the cooling water passage communicates with the main cooling water passage by the connecting cooling water passage, the cooling water ring The lanyard is in communication with the secondary cooling water passage, and the cooling water passage communicates with the main cooling water passage by the secondary cooling water passage.

The effect that the present invention can achieve by the above technical means is that the mother mold and the public are provided by the male mold cooling water passage in the master mold and the male mold cooling water passage in the male mold. The mold core is cooled and dissipated, so that the mother mold and the male mold can obtain the effect of uniform temperature and constant temperature, so that the optical lens mold can increase the yield when producing a larger optical lens, and the optical lens can be improved. The effectiveness of the mold.

1‧‧‧Optical lens mould

11‧‧‧Female model

111‧‧‧Female model

112‧‧‧Female model

113‧‧‧Molding chamber

11a‧‧‧Female model payment board

12‧‧‧Male model

121‧‧‧Male model

122‧‧‧Male model

123‧‧‧Molding chamber

12a‧‧‧Mold formwork board

12b‧‧‧Mold spacer

12c‧‧‧Mold take-off board

2‧‧‧Optical lens mould

3‧‧‧Female model

31‧‧‧Female model payment board

32‧‧‧Female model board

321‧‧‧Installation Department

33‧‧‧ mother mold pad

331‧‧‧Female model

34‧‧‧Female model

341‧‧‧Molding chamber

35‧‧‧Female mold cold water kit

4‧‧‧Male model

41‧‧‧Mold take-off board

42‧‧‧Mold spacer

43‧‧‧Mold formwork board

44‧‧‧public model board

441‧‧‧Installation Department

45‧‧‧Mold inserts

451‧‧‧Male model

46‧‧‧Male model

461‧‧‧Molding chamber

47‧‧‧Male mold cold water kit

5‧‧‧Female mold cooling water passage

51‧‧‧Main cooling water channel

511‧‧‧Cooling water inlet

512‧‧‧Cooling water outlet

513‧‧‧Connected cooling water channel

52‧‧‧ cooling water passages

53‧‧‧Cooling water loop

6‧‧‧Male mold cooling water passage

61‧‧‧Main cooling water channel

611‧‧‧Cooling water inlet

612‧‧‧Cooling water outlet

613‧‧‧Connected cooling water channel

62‧‧‧ cooling water passages

63‧‧‧Cooling water loop

Figure 1 is a schematic cross-sectional view of a conventional optical lens mold.

Figure 2 is a front view of the optical lens mold of the present invention.

Figure 3 is a side view of the optical lens mold of the present invention.

Figure 4 is a top view of the cooling water passage of the master mold of the optical lens mold.

In order to make it easier for your examiner to understand the structure of the creation and the effect it can achieve, the following is a description of the following; first, as shown in Figure 2, the optical lens mold 2 of the present invention includes a female mold 3 and a male mold. 4. The master mold 3 and the male mold 4 are arranged correspondingly.

Referring to FIG. 2, FIG. 3 and FIG. 4, the master mold 3 has a master mold take-up board 31, a mother model board 32 and a mother mold pad 33. The mother model board 32 is locked on the master mold take-up board 31. A mounting portion 321 is provided in the center of the mother model plate 32, and the mounting portion 321 is received by the female mold pad 33.

The master mold pad 33 is provided with a female mold core hole 331. The female mold core hole 331 is provided with a female mold core 34 and a mother mold cold water kit 35. The female mold cold water kit 35 is sleeved on the female mold core 34. On the outer circumference, the end surface of the female mold core 34 is provided with a molding chamber 341.

The master mold 3 is provided with a mother mold cooling water passage 5 having a main cooling water passage 51, a secondary cooling water passage 52 and a cooling water passage 53, and the main cooling water passage 51 is provided. In the master mold take-up plate 31, the main cooling water passage 51 has a cooling water inlet 511 and a cooling water outlet 512. The main cooling water passage 51 is provided with a connecting cooling water passage 513 toward the female mold pad 33; The water passage 52 is disposed in the mother mold pad 33, and the secondary cooling water passage 52 communicates with the main cooling water passage 51 through the connecting cooling water passage 513; the cooling water passage 53 is looped on the mother The outer peripheral edge of the mold cold water kit 35 is in communication with the secondary cooling water passage 52, that is, the cooling water passage 53 communicates with the main cooling water passage 51 by the secondary cooling water passage 52.

Referring to FIG. 2 and FIG. 3 together, the male mold 4 has a male mold take-up board 41, a male mold partition plate 42, a male mold support plate 43, a male mold plate 44 and a male mold pad 45; wherein the male mold spacer 42. The male mold plate 43 and the male mold plate 44 are locked on the male mold take-up plate 41. The male mold plate 44 is provided with a hollow mounting portion 441 at the center, and the mounting portion 441 is provided for the male mold lining. Block 45 is accommodated.

The male mold pad 45 is provided with a male mold acupoint 451. The male mold cold hole 451 is provided with a male mold core 46 and a male mold cold water kit 47. The male mold cold water kit 47 is sleeved on the male mold core 46. The outer peripheral edge of the male mold core 46 is provided with a molding chamber 461.

The male mold cooling water passage 6 has a main cooling water passage 61, a secondary cooling water passage 62 and a cooling water passage 63, and the main cooling water passage 61 is provided. In the male mold plate 43, the main cooling water passage 61 has a cooling water inlet 611 and a cooling water outlet 612. The main cooling water passage 61 is provided with a connecting cooling water passage 613 toward the male mold pad 45; The water passage 62 is disposed in the male mold pad 45, and the secondary cooling water passage 62 communicates with the main cooling water passage 61 through the connecting cooling water passage 613; the cooling water passage 63 is ring-shaped in the public The outer peripheral edge of the mold cold water package 47 is in communication with the secondary cooling water passage 62, that is, the cooling water passage 63 communicates with the main cooling water passage 61 by the secondary cooling water passage 62.

For the implementation of the optical lens mold 2, please refer to the third and fourth joints. The cooling method of the optical lens mold 2 is mainly to cool the cooling medium (cooling water or cooling oil) through the master mold in the mother mold 3. The cooling water inlet 511 of the water passage 5 main cooling water passage 51 flows into the cooling water passage 52 through the connecting cooling water passage 513, and then flows into the cooling water passage 53 to flow through the above-mentioned mother. The mold cooling water passage 5 is then discharged from the cooling water outlet 512, whereby the heat transfer mode of the female mold core 34 is passed through the mother mold cold water kit 35, and then the cooling medium is heat exchanged by the female mold core 34. The high temperature transmitted to the master mold cold water kit 35 is taken away, thereby cooling the female mold core 34, so that the female mold core 34 can obtain a good heat dissipation effect. The cooling portion of the male mold 4 mainly flows a cooling medium (cooling water or cooling oil) through the cooling water inlet 611 of the main cooling water passage 6 of the male mold cooling water passage 6, and flows into the cooling water passage 613 through the connection. The secondary cooling water passage 62 flows into the cooling water passage 63, and the cooling medium flows through the above-mentioned male mold cooling water passage 6 and then flows out through the cooling water outlet 612, whereby the heat transfer of the male mold core 46 is performed. After passing through the male mold cold water kit 47, the high temperature of the male mold core 46 transferred to the male mold cold water kit 47 is carried away by the cooling medium in a heat exchange manner, thereby cooling the male mold core 46. The action, in turn, allows the male mold core 46 to achieve a good heat dissipation effect.

The effect of the present invention is that the male mold cooling water passage 5 is provided in the female mold 3, and the male mold cooling water passage 6 is provided in the male mold 4, whereby the female mold core 34 and the male mold core 46 are provided. By cooling and dissipating heat, the mother mold core 34 and the male mold core 46 can obtain the effects of uniform temperature and constant temperature, thereby enabling the optical lens mold 2 to increase the yield when producing a larger optical lens, and the optical can be improved. The efficacy of the lens mold 2.

2‧‧‧Optical lens mould

3‧‧‧Female model

31‧‧‧Female model payment board

32‧‧‧Female model board

321‧‧‧Installation Department

33‧‧‧ mother mold pad

331‧‧‧Female model

34‧‧‧Female model

341‧‧‧Molding chamber

35‧‧‧Female mold cold water kit

4‧‧‧Male model

41‧‧‧Mold take-off board

42‧‧‧Mold spacer

43‧‧‧Mold formwork board

44‧‧‧public model board

441‧‧‧Installation Department

45‧‧‧Mold inserts

451‧‧‧Male model

46‧‧‧Male model

461‧‧‧Molding chamber

47‧‧‧Male mold cold water kit

5‧‧‧Female mold cooling water passage

51‧‧‧Main cooling water channel

511‧‧‧Cooling water inlet

512‧‧‧Cooling water outlet

513‧‧‧Connected cooling water channel

52‧‧‧ cooling water passages

53‧‧‧Cooling water loop

6‧‧‧Male mold cooling water passage

61‧‧‧Main cooling water channel

611‧‧‧Cooling water inlet

612‧‧‧Cooling water outlet

613‧‧‧Connected cooling water channel

62‧‧‧ cooling water passages

63‧‧‧Cooling water loop

Claims (7)

A die cooling structure of an optical lens mold, the optical lens mold comprising a master mold and a male mold, wherein the master mold and the male mold are correspondingly disposed; the master mold has a master mold take-up board, a mother model board and a master mold a mating plate; the female model plate is locked on the female mold take-up plate, and a central portion of the female model plate is provided with a vacant mounting portion, the mounting portion is detachable for the mother mold pad, the female mold pad The mother mold acupoint is provided, and the female mold core hole is provided with a female mold core and a mother mold cold water kit, the mother mold cold water kit is sleeved on the outer periphery of the female mold core, and the molding cavity is provided on the end surface of the female mold core The male mold has a male mold take-off board, a male mold partition board, a male mold board, a male model board and a male mold pad, and the male mold partition board, the male mold board, and the male model board are locked in the male mold. On the take-up board, a central portion of the male model plate is provided with a hollow mounting portion, the mounting portion is receivable for the male mold pad, and the male mold pad is provided with a male mold acupoint, and the male mold is provided in the acupoint There is a male mold and a male mold cold water kit, and the male mold cold water kit is sleeved on the outer periphery of the male mold, and the end surface of the male mold is formed by molding. a master mold cooling water passage is provided in the master mold, the master cooling water passage has a main cooling water passage, a secondary cooling water passage and a cooling water loop, the main cooling water passage has a cooling water inlet a cooling water outlet and a cooling water passage connected to the main cooling water passage by the connecting cooling water passage, the cooling water loop system communicating with the secondary cooling water passage, the cooling water loop The main cooling water passage is connected by the cooling water passage; the male mold is provided with a male cooling water passage, and the male cooling water passage has a main cooling water passage, a secondary cooling water passage and a cooling water loop. The main cooling water passage has a cooling water inlet, a cooling water outlet and a connecting cooling water passage, and the secondary cooling water passage communicates with the main cooling water passage by the connecting cooling water passage, the cooling water circulation system and the time The cooling water passage is in communication, and the cooling water passage communicates with the main cooling water passage by the secondary cooling water passage. The mold cooling structure of the optical lens mold according to claim 1, wherein the main cooling water passage of the master cooling water passage is disposed in the master mold take-off plate, and the secondary cooling water passage is disposed in the mold cooling mechanism Inside the master mold pad. The mold core cooling structure of the optical lens mold according to claim 1, wherein The connection cooling water passage of the master cooling water passage is disposed from the main cooling water passage toward the mother mold pad. The mold cooling structure of the optical lens mold according to claim 1, wherein the cooling water passage of the master cooling water passage is provided on the outer periphery of the mold cold water kit. The mold cooling structure of the optical lens mold according to claim 1, wherein the main cooling water passage of the male mold cooling water passage is disposed in the male mold carrier, and the secondary cooling water passage is disposed in the Inside the male mold pad. The mold cooling structure of the optical lens mold according to claim 1, wherein the connection cooling water passage of the male mold cooling water passage is disposed from the main cooling water passage toward the male mold pad. The mold cooling structure of the optical lens mold according to claim 1, wherein the cooling water passage of the male mold cooling water passage is provided on the outer periphery of the male mold cold water kit.