CN216267238U - Mold changing structure of silicone rubber injection molding machine - Google Patents
Mold changing structure of silicone rubber injection molding machine Download PDFInfo
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- CN216267238U CN216267238U CN202121921784.3U CN202121921784U CN216267238U CN 216267238 U CN216267238 U CN 216267238U CN 202121921784 U CN202121921784 U CN 202121921784U CN 216267238 U CN216267238 U CN 216267238U
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Abstract
The utility model relates to the technical field of injection molding machines, in particular to a mold changing structure of a silicone rubber injection molding machine, which comprises a first support, wherein the top of the first support is fixedly connected with a molding cavity cover, the top of the support is connected with a first fixing frame in a sliding manner, one side of the first support, which is far away from the molding cavity cover, is provided with a second support, the top of the second support is connected with a moving plate in a sliding manner, and the top of the moving plate is connected with a second fixing frame in a sliding manner. The utility model has the advantages that: two mould positions are reserved at the top of the movable plate, the mould needing to be replaced is moved to the vacant position during mould replacement, the movable plate is prepared in advance, the mould needing to be replaced is moved to the position of the first slide rail to be replaced, the whole process can be completed without consuming too much physical power, the whole replacement work is more easy and efficient, the shutdown time is greatly shortened, the position can be replaced without being aligned in advance, and the replacement efficiency is effectively improved.
Description
Technical Field
The utility model relates to the technical field of injection molding machines, in particular to a mold changing structure of a silicone rubber injection molding machine.
Background
The common injection molding machines on the market at the present stage all adopt one molding machine to install one set of mold, and manually change the mold when the mold needs to be changed, but the machine type produced by the technology only adapts to large-batch products, for small-batch and various products, the conditions of large mold quantity, high investment, high mold changing frequency, complex production organization and the like exist, particularly on large-size or ultra-large-size molding machines, the defect of the equipment is more obvious, the equipment is stopped to manually change the mold when the mold is changed, a large amount of normal production time is wasted, the labor intensity is high, the mold changing time is long, the mold changing efficiency is low, a large amount of production time is consumed, certain potential safety hazards exist, and the production requirements of large-size factories cannot be met completely.
Aiming at the problems, the utility model provides a mold changing structure of a silicone rubber injection molding machine, which can perfectly solve the problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art and provides a mold changing structure of a silicone rubber injection molding machine.
The purpose of the utility model is realized by the following technical scheme: the utility model provides a silicon rubber injection molding machine's retooling structure, includes first support, first support top fixedly connected with shaping chamber lid, the top sliding connection of support has a first mount, one side that shaping chamber lid was kept away from to first support is provided with the second support, the top sliding connection of second support has the movable plate, the top sliding connection of movable plate has the second mount.
Optionally, two first sliding rails are fixedly connected to two sides of the top of the first support, the two first sliding rails are parallel to each other, and the lengths of the two first sliding rails are equal.
Optionally, a groove is formed in the forming cavity cover, a feed inlet is fixedly connected to the middle of the groove, and the feed inlet is of a hollow cylinder structure.
Optionally, two sides of the bottom of the first fixing frame are respectively provided with a first sliding chute, inner surfaces of the two first sliding chutes are matched with the outer surface of the first sliding rail, and the first fixing frame slides on the outer surface of the first sliding rail through the first sliding chutes.
Optionally, two sides of the top of the second support are respectively and fixedly connected with a second slide rail, the two second slide rails are parallel to each other, and the two second slide rails are perpendicular to the first slide rail.
Optionally, two sides of the bottom of the moving plate are respectively provided with a second sliding groove, inner surfaces of the two second sliding grooves are matched with the outer surface of the second sliding rail, and the moving plate slides on the outer surface of the second sliding rail through the second sliding grooves.
Optionally, the top of the moving plate is fixedly connected with four third slide rails, the four third slide rails are parallel to each other, the four third slide rails are perpendicular to the second slide rails, and two of the third slide rails are connected with a second fixing frame in a sliding manner.
Optionally, two sides of the bottom of the second fixing frame are respectively provided with a third sliding chute, an inner surface of each third sliding chute is matched with an outer surface of each third sliding rail, and the second fixing frame slides on the outer surfaces of two of the third sliding rails through the third sliding chutes.
Optionally, the top of the second support and two sides of the bottom of the moving plate are fixedly connected with two limiting blocks, and two ends of the second support, which are close to one side of the first support, are fixedly connected with baffles.
The utility model has the following advantages:
1. the common injection molding machine needs to be shut down and manually replaced during mold changing, the machine type produced by the technology only adapts to large-batch products, and for small-batch and various products, the conditions of large mold quantity, high investment, high mold changing frequency, complex production organization and the like exist.
2. When the mold is manually replaced, the mold and the molding cavity cover are required to be aligned one by one, otherwise, the manufactured mold can be deformed and damaged, and the like.
Drawings
FIG. 1 is a schematic diagram of a first perspective of the present invention;
fig. 2 is a schematic structural view of a second bracket according to the present invention.
In the figure: 1-a first support, 101-a first slide rail, 2-a molding cavity cover, 201-a slot, 202-a feed inlet, 3-a first fixed frame, 301-a first slide groove, 4-a second support, 401-a second slide rail, 402-a limiting block, 403-a baffle, 5-a moving plate, 501-a second slide groove, 502-a third slide rail, 6-a second fixed frame, 601-a third slide groove.
Detailed Description
The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.
As shown in fig. 1-2, a mold changing structure of a silicone rubber injection molding machine comprises a first support 1, a molding cavity cover 2 is fixedly connected to the top of the first support 1, a first fixing frame 3 is slidably connected to the top of the support 1, a second support 4 is arranged on one side of the first support 1 away from the molding cavity cover 2, a moving plate 5 is slidably connected to the top of the second support 4, and a second fixing frame 6 is slidably connected to the top of the moving plate 5.
As a preferred technical scheme of the utility model: the first slide rail 101 of both sides fixedly connected with at 1 top of first support, two first slide rails 101 are parallel to each other, and the length of two first slide rails 101 equals, and the appearance of first mount 3 and second mount 6 can be according to mould appearance or the preparation of in-service use demand in order to satisfy the production demand.
As a preferred technical scheme of the utility model: the forming cavity cover 2 is provided with a slot 201, the middle part of the slot 201 is fixedly connected with a feed inlet 202, the feed inlet 202 is of a hollow cylinder structure, two ends of the feed inlet 202 are respectively arranged at two sides of the forming cavity cover 2, and processing raw materials enter the forming cavity from the outside through the feed inlet 202.
As a preferred technical scheme of the utility model: two sides of the bottom of the first fixing frame 3 are respectively provided with a first sliding chute 301, the inner surfaces of the two first sliding chutes 301 are matched with the outer surface of the first sliding rail 101, and the first fixing frame 3 slides on the outer surface of the first sliding rail 101 through the first sliding chutes 301.
As a preferred technical scheme of the utility model: two sides of the top of the second bracket 4 are respectively and fixedly connected with a second slide rail 401, the two second slide rails 401 are parallel to each other, and the two second slide rails 401 are perpendicular to the first slide rail 101.
As a preferred technical scheme of the utility model: two sides of the bottom of the moving plate 5 are respectively provided with a second sliding chute 501, inner surfaces of the two second sliding chutes 501 are matched with the outer surface of the second sliding rail 401, and the moving plate 5 slides on the outer surface of the second sliding rail 401 through the second sliding chutes 501.
As a preferred technical scheme of the utility model: the top of the moving plate 5 is fixedly connected with four third sliding rails 502, the four third sliding rails 502 are parallel to each other, the four third sliding rails 502 are perpendicular to the second sliding rail 401, wherein the two third sliding rails 502 are slidably connected with a second fixing frame 6, the four third sliding rails 502 are divided into two groups, and the two third sliding rails 502 far away from the second fixing frame 6 are positions reserved for the first fixing frame to be replaced.
As a preferred technical scheme of the utility model: the two sides of the bottom of the second fixing frame 6 are respectively provided with a third sliding chute 601, the inner surface of the third sliding chute 601 is matched with the outer surfaces of the third sliding rails 502, the second fixing frame 6 slides on the outer surfaces of two of the third sliding rails 502 through the third sliding chutes 601, and the sliding rails are arranged on the first support 1, the second support 4 and the moving plate 5, so that the first fixing frame 3 and the second fixing frame 6 can slide on the tops of the first fixing frame and the second fixing frame 6, two mold positions are reserved on the top of the moving plate 5, a mold to be replaced is only required to be moved to a vacant position during mold replacement, and the mold prepared in advance to be replaced is moved to the position of the first sliding rail 101 through the moving plate 5 for replacement.
As a preferred technical scheme of the utility model: the top of the second support 4 and two sides of the bottom of the moving plate 5 are fixedly connected with two limit blocks 402, two ends of the second support 4, which are close to one side of the first support 1, are fixedly connected with a baffle 403, the four limit blocks 402 can limit the farthest distance of the moving plate 5 moving on the second support 4, the moving plate 5 is prevented from accidentally falling off from the second support 4, and the baffle 403 can prevent the first fixing frame 3 and the second fixing frame 6 from sliding and separating from the moving plate 5 when the moving plate 5 is at the limit position.
The working process of the utility model is as follows: the molds to be replaced are respectively fixed on the first fixing frame 3 and the second fixing frame 6, when the molds on the first fixing frame 3 need to be replaced, the first fixing frame is moved to a position close to the second support 4 along the first slide rail 101, then the moving plate 5 is moved rightwards, when the limiting block 402 at the bottom of the moving plate 5 is contacted with the limiting block 402 on the second support 4, the moving plate 5 reaches the right limiting position and cannot be moved rightwards continuously, at the moment, the first slide rail 101 is just aligned with two third slide rails 502 on the moving plate 5, at the moment, only the first fixing frame 3 is pulled to the third slide rails 502, and similarly, when the moving plate 5 is moved to the left limiting position, the two third slide rails 502 where the molds to be replaced are aligned with the first slide rail 101, the second fixing frame 6 is moved to the slide rails 101, the replacement of the molds can be completed, and the shapes of the first fixing frame 3 and the second fixing frame 6 can be manufactured according to the mold shape or the actual use requirement to meet the production requirement .
In summary, the following steps: the common injection molding machine needs to be stopped and manually replaced when changing the mold, the machine type produced by the technology only adapts to large-batch products, and for small-batch and various products, the conditions of large mold quantity, high investment, high mold changing frequency, complex production organization and the like exist, the utility model can lead the first fixing frame 3 and the second fixing frame 6 to slide on the tops of the first fixing frame and the second fixing frame by arranging the sliding rails on the first bracket 1, the second bracket 4 and the moving plate 5, two mold positions are reserved on the top of the moving plate 5, the mold needing to be changed is only moved to the vacant position when changing the mold, the mold prepared in advance to be changed is moved to the position of the first sliding rail 101 to be changed by the moving plate 5, the whole process can be completed without consuming too much physical force, the whole changing work is easier and more efficient, the shutdown time is greatly reduced, the molds and the cavity covers need to be aligned one by one when manually changing the molds, otherwise, the manufactured mold may be deformed and damaged, and the like, the movable plate 5 is pulled to the right limit position, which is the mold storage position needing to be replaced, and the movable plate 5 is pulled to the left limit position, which is the mold storage position needing to be replaced by adding the limit block 402 on the second bracket 4 and the movable plate 5, so that the mold can be replaced without first aligning the positions, and the replacement efficiency is effectively improved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (9)
1. A retooling structure of silicon rubber injection molding machine which characterized in that: including first support (1), first support (1) top fixedly connected with shaping chamber lid (2), the top sliding connection of support (1) has a first mount (3), one side that shaping chamber lid (2) were kept away from in first support (1) is provided with second support (4), the top sliding connection of second support (4) has movable plate (5), the top sliding connection of movable plate (5) has second mount (6).
2. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: the two sides of the top of the first support (1) are fixedly connected with first sliding rails (101), the first sliding rails (101) are parallel to each other, and the lengths of the two first sliding rails (101) are equal.
3. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: a groove (201) is formed in the forming cavity cover (2), a feed inlet (202) is fixedly connected to the middle of the groove (201), and the feed inlet (202) is of a hollow cylindrical structure.
4. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: two sides of the bottom of the first fixing frame (3) are respectively provided with a first sliding groove (301), the inner surfaces of the first sliding grooves (301) are matched with the outer surface of the first sliding rail (101), and the first fixing frame (3) slides on the outer surface of the first sliding rail (101) through the first sliding grooves (301).
5. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: two sides of the top of the second support (4) are respectively and fixedly connected with a second sliding rail (401), the two second sliding rails (401) are parallel to each other, and the two second sliding rails (401) are perpendicular to the first sliding rail (101).
6. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: two sides of the bottom of the moving plate (5) are respectively provided with a second sliding groove (501), the inner surfaces of the two second sliding grooves (501) are matched with the outer surface of the second sliding rail (401), and the moving plate (5) slides on the outer surface of the second sliding rail (401) through the second sliding grooves (501).
7. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: the top fixedly connected with four third slide rails (502) of movable plate (5), four third slide rail (502) are parallel to each other, and four third slide rail (502) and second slide rail (401) mutually perpendicular, wherein two sliding connection has second mount (6) on third slide rail (502).
8. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: two sides of the bottom of the second fixing frame (6) are respectively provided with a third sliding groove (601), the inner surface of each third sliding groove (601) is matched with the outer surface of each third sliding rail (502), and the second fixing frame (6) slides on the outer surfaces of two third sliding rails (502) through the third sliding grooves (601).
9. The mold changing structure of a silicone rubber injection molding machine according to claim 1, characterized in that: the top of second support (4) and the equal fixedly connected with two stopper (402) in both ends of movable plate (5) bottom, second support (4) are close to equal fixedly connected with baffle (403) in both ends of first support (1) one side.
Priority Applications (1)
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CN202121921784.3U CN216267238U (en) | 2021-08-17 | 2021-08-17 | Mold changing structure of silicone rubber injection molding machine |
Applications Claiming Priority (1)
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CN202121921784.3U CN216267238U (en) | 2021-08-17 | 2021-08-17 | Mold changing structure of silicone rubber injection molding machine |
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CN216267238U true CN216267238U (en) | 2022-04-12 |
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CN202121921784.3U Active CN216267238U (en) | 2021-08-17 | 2021-08-17 | Mold changing structure of silicone rubber injection molding machine |
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2021
- 2021-08-17 CN CN202121921784.3U patent/CN216267238U/en active Active
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Effective date of registration: 20221109 Address after: 215000 south side of Mulin Road, Wangshan Industrial Park, Wuzhong District, Suzhou City, Jiangsu Province Patentee after: SUZHOU XINTIANYOU PHOTOELECTRIC MATERIAL CO.,LTD. Address before: 314200 room 502-b1, building B, Pinghu international e-commerce Industrial Park, No. 958, Fuzhen Road, Zhongdai street, Pinghu City, Jiaxing City, Zhejiang Province Patentee before: Wang Shuchuan |