Glass bottle production mold quick change mechanism

Abstract

This utility model belongs to the field of mold replacement technology, specifically a quick-change mechanism for glass bottle production molds. It includes a mold and a connecting seat fixedly connected to the outer wall of the mold. Both ends of the connecting seat are fixedly connected to a fixed seat with a smooth groove. A U-shaped connecting frame is provided outside the connecting seat, and a slide rail that engages with the smooth groove is provided inside the U-shaped connecting frame. The slide rail and the smooth groove cooperate to limit the movement of the connecting seat. Two lifting seats are symmetrically arranged on both sides of the connecting seat. The sides of the lifting seats that are close to each other are fixedly connected to insert blocks. Both ends of the connecting seat have slots that engage with the insert blocks. The lifting seats drive the insert blocks to engage or disengage from the slots. This utility model enables quick positioning of the connecting seat, avoiding repeated manual adjustments, and also allows for quick disassembly and installation of the mold.

Description

Technical Field

[0001] This utility model belongs to the field of mold changing technology, and in particular relates to a quick-change mechanism for glass bottle production molds. Background Technology

[0002] Glass bottles are multifunctional containers, mainly used for food storage, home organization, and creative renovation. Their airtightness and chemical stability make them suitable for long-term food preservation, and the transparent body makes it easy to identify the contents.

[0003] Currently, existing molds are usually installed on the equipment base via connecting seats, and multiple bolts are used to lock the connecting seats to the base. Each replacement requires tightening and loosening a large number of bolts one by one, which is cumbersome and time-consuming. The excessive time spent on mold replacement directly leads to increased production line downtime, which seriously affects the efficiency of glass bottle production.

[0004] To address the aforementioned issues, this application proposes a quick-change mechanism for glass bottle production molds. Utility Model Content

[0005] The purpose of this utility model is to provide a quick-change mechanism for glass bottle production molds, which solves the problems mentioned in the background art.

[0006] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0007] This utility model relates to a quick-change mechanism for glass bottle production molds, including a mold and a connecting seat fixedly connected to the outer wall of the mold. Both ends of the connecting seat are fixedly connected to a fixed seat with a smooth groove. A U-shaped connecting frame is provided outside the connecting seat, and a slide rail that engages with the smooth groove is provided inside the U-shaped connecting frame. The slide rail and the smooth groove cooperate to limit the movement of the connecting seat. Two lifting seats are symmetrically arranged on both sides of the connecting seat. The sides of the lifting seats that are close to each other are fixedly connected to an insert block. Both ends of the connecting seat have slots that engage with the insert block. The lifting seats drive the insert block to engage or disengage from the slot.

[0008] Furthermore, the fixed base has a receiving groove communicating with the smooth groove, and a magnetic block one is fixed in the receiving groove. The length of the magnetic block one is less than the depth of the receiving groove. The slide rail is fixed to the U-shaped connecting frame through a fixed plate, and a magnetic block two is embedded in one end of the slide rail.

[0009] Furthermore, each of the two cavities of the U-shaped connecting frame is provided with a lifting plate, and the sides of the lifting plates that are close to each other are fixed with fixing blocks, which penetrate the outer wall of the U-shaped connecting frame and are fixedly connected to the lifting seat respectively.

[0010] Furthermore, each of the two cavities is rotatably mounted with a screw threadedly connected to the lifting plate, and the threads of the two screws are in opposite directions.

[0011] Furthermore, both sides of the U-shaped connecting frame are provided with meshing gear one and gear two. Gear one is fixedly connected to the screw through a connecting shaft, and gear two is fixedly connected to each other through a rotating shaft. The rotating shaft passes through the U-shaped connecting frame and is rotatably connected to the U-shaped connecting frame.

[0012] Furthermore, the cavity 2 of the U-shaped connecting frame is provided with two meshing bevel gears, one of which is fixedly connected to the outer wall of the rotating shaft, and a handwheel is provided on the outside of the U-shaped connecting frame and fixedly connected to the bevel gear through a connecting shaft.

[0013] Furthermore, the U-shaped connecting frame is fixed with outer protective shells at both ends, and gear one and gear two are disposed inside the outer protective shells.

[0014] Furthermore, rubber buffer pads are fixed at both ends of the connecting seat where they fit against the lifting seat.

[0015] This utility model has the following beneficial effects:

[0016] This invention uses a slide rail and a smooth groove to quickly guide the mold to move to the target position along a fixed direction, eliminating the need for repeated manual adjustments and alignment, thus shortening the mold installation time and increasing the mold change rate.

[0017] This invention enables quick connection between the mold and the fixed base by inserting the plug into the slots at both ends of the connecting base. The locking and releasing of the mold can be completed simply by controlling the lifting action of the lifting base. The operation is simple and efficient, further improving the mold changing rate.

[0018] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the overall appearance structure of this utility model;

[0021] Figure 2 This is a cross-sectional view of the U-shaped connecting frame of this utility model;

[0022] Figure 3 This is a schematic diagram of the connecting seat and fixing seat structure of this utility model;

[0023] Figure 4This is a partial structural schematic diagram of the present invention;

[0024] The attached diagram lists the components represented by each number as follows:

[0025] In the diagram: 1. Mold; 2. Connecting seat; 201. Slot; 3. Fixing seat; 301. Smooth groove; 302. Receiving groove; 4. Magnetic block one; 5. U-shaped connecting frame; 501. Cavity one; 502. Cavity two; 6. Slide rail; 601. Fixing plate; 7. Magnetic block two; 8. Screw; 9. Lifting plate; 901. Fixing block; 10. Lifting seat; 11. Insert block; 12. Bevel gear; 13. Handwheel; 14. Gear one; 15. Gear two; 1501. Rotating shaft; 16. Outer shell; 17. Rubber buffer pad. Detailed Implementation

[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0027] In the description of this utility model, it should be understood that the terms "opening", "upper", "lower", "thickness", "top", "middle", "length", "inner", "around" and other terms indicating orientation or positional relationship are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the components or elements referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.

[0028] Please see Figure 1 - Figure 4 As shown, this utility model is a quick-change mechanism for glass bottle production molds, including a mold 1 and a connecting seat 2, which is fixedly connected to the outer wall of the mold 1. The two ends of the connecting seat 2 are respectively fixedly connected to a fixed seat 3 with a smooth groove 301. A U-shaped connecting frame 5 is provided outside the connecting seat 2, and a slide rail 6 that is inserted into the smooth groove 301 is provided inside the U-shaped connecting frame 5. The slide rail 6 and the smooth groove 301 cooperate to limit the position of the connecting seat 2. Two lifting seats 10 are symmetrically arranged on both sides of the connecting seat 2. The sides of the lifting seats 10 that are close to each other are fixedly connected to the insert block 11. Both ends of the connecting seat 2 are provided with slots 201 that cooperate with the insert block 11. The lifting seats 10 drive the insert block 11 to be inserted into or separated from the slot 201.

[0029] This embodiment provides a quick-change mechanism for glass bottle production molds. When the mold 1 and the fixed base 3 are connected, the slide rail 6 is inserted into the smooth groove 301 to limit the slide rail 6 and prevent the connecting base 2 from moving in the vertical direction. Then, the lifting base 10 drives the insert block 11 to move vertically, so that the insert block 11 is inserted into the slot 201, thereby quickly fixing the connecting base 2 and the insert block 11, connecting the connecting base 2 and the U-shaped connecting frame 5 together, and thus connecting the mold 1 and the U-shaped connecting frame 5 together.

[0030] The fixed base 3 has a receiving groove 302 that communicates with the smooth groove 301, and a magnetic block 4 is fixed in the receiving groove 302. The length of the magnetic block 4 is less than the depth of the receiving groove 302. The slide rail 6 is fixed to the U-shaped connecting frame 5 through the fixed plate 601, and a magnetic block 7 is embedded in one end of the slide rail 6. After the slide rail 6 is inserted into the smooth groove 301, the magnetic block 4 generates an adsorption force on the slide rail 6, ensuring that the slide rail 6 is fully inserted into the smooth groove 301 so that the insert 11 is aligned with the slot 201. The magnetic block 4 is located in the receiving groove 302, which can avoid contact with the magnetic block 7 and prevent damage to the magnetic block 4.

[0031] The U-shaped connecting frame 5 has two cavities 501, each containing a lifting plate 9. The sides of the lifting plates 9 that are close to each other are fixed with a fixing block 901. The fixing block 901 passes through the outer wall of the U-shaped connecting frame 5 and is fixedly connected to the lifting seat 10. The two lifting plates 9 move in opposite directions, which drives the two lifting seats 10 to move in opposite directions through the fixing block 901, and further drives the insertion block 11 to move, so as to realize the insertion or separation of the insertion block 11 from the slot 201.

[0032] Each of the two cavities 501 is rotatably installed with a screw 8 that is threadedly connected to the lifting plate 9, and the threads of the two screws 8 are opposite. When the two screws 8 rotate in the same direction, they drive the two lifting plates 9 to move in opposite directions.

[0033] The U-shaped connecting frame 5 has two meshing gears 14 and 15 on both sides. The gears 14 are fixed to the screws 8 via connecting shafts, and the gears 15 are fixed to each other via a rotating shaft 1501. The rotating shaft 1501 passes through the U-shaped connecting frame 5 and is rotatably connected to it. The rotating shaft 1501 drives the two gears 15 to rotate synchronously in the same direction, which in turn drives the two gears 14 to rotate synchronously in the same direction, thereby driving the two screws 8 to rotate synchronously in the same direction via the connecting shaft.

[0034] The cavity 502 of the U-shaped connecting frame 5 contains two meshing bevel gears 12. One bevel gear 12 is fixedly connected to the outer wall of the rotating shaft 1501. The U-shaped connecting frame 5 is provided with a handwheel 13 fixedly connected to the bevel gear 12 through a connecting shaft. Rotating the handwheel 13 drives the bevel gear 12 to rotate through the connecting shaft, which in turn drives the rotating shaft 1501 to rotate.

[0035] The U-shaped connecting frame 5 is fixed with an outer protective shell 16 at both ends. The first gear 14 and the second gear 15 are disposed inside the outer protective shell 16. The outer protective shell 16 protects the first gear 14 and the second gear 15, preventing dust from entering the outer protective shell 16 and affecting the transmission effect of the first gear 14 and the second gear 15 or causing the user to accidentally touch the first gear 14 and the second gear 15.

[0036] Rubber buffer pads 17 are fixed at both ends of the connecting seat 2 where they fit against the lifting seat 10. When the lifting seat 10 descends and contacts the connecting seat 2, the rubber buffer pads 17 absorb the impact force and prevent rigid collision between the lifting seat 10 and the connecting seat 2, which could cause damage to the components.

[0037] It is understandable that this utility model enables quick positioning of the connecting seat 2, avoiding repeated manual adjustments, and also enables quick disassembly and installation of the mold 1.

[0038] A specific application of the operation process of this embodiment is as follows: During installation, the slide rail 6 is inserted into the smooth groove 301, and then the handwheel 13 is rotated to drive the bevel gear 12 to rotate. Further, the rotating shaft 1501 drives the second gear 15 to rotate, and then the first gear 14 drives the screw 8 to rotate. Thus, the lifting plate 9 and the fixing block 901 drive the two lifting seats 10 to move in opposite directions, so that the insert block 11 is inserted into the slot 201, and the mold 1 and the U-shaped connecting frame 5 are quickly installed together.

[0039] During disassembly, rotate the handwheel 13 in the opposite direction to separate the insert 11 from the slot 201, and then separate the slide rail 6 from the smooth groove 301 to complete the disassembly of the mold 1.

[0040] In the description of this specification, references to terms such as "an embodiment," "example," and "specific example" indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0041] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A glass bottle production mold quick change mechanism comprising a mold (1), characterized in that, Also includes: The connecting seat (2) is fixedly connected to the outer wall of the mold (1). Both ends of the connecting seat (2) are fixedly connected to the fixed seat (3) with a smooth groove (301). A U-shaped connecting frame (5) is provided outside the connecting seat (2), and a slide rail (6) that is inserted into the smooth groove (301) is provided inside the U-shaped connecting frame (5). The slide rail (6) and the smooth groove (301) cooperate to limit the position of the connecting seat (2). Two lifting seats (10) are symmetrically arranged on both sides of the connecting seat (2). The sides of the lifting seats (10) that are close to each other are fixedly connected to the insert (11). Both ends of the connecting seat (2) are provided with slots (201) that cooperate with the insert (11). The lifting seats (10) drive the insert (11) to be inserted into or separated from the slots (201).

2. The quick change mechanism for glass bottle production mold according to claim 1, characterized in that: The fixed base (3) has a receiving groove (302) that communicates with the smooth groove (301), and a magnetic block (4) is fixed in the receiving groove (302). The length of the magnetic block (4) is less than the depth of the receiving groove (302). The slide rail (6) is fixed to the U-shaped connecting frame (5) through the fixed plate (601), and a magnetic block (7) is embedded in one end of the slide rail (6).

3. The quick change mechanism for glass bottle production mold according to claim 1, characterized in that: The two cavities (501) of the U-shaped connecting frame (5) are each equipped with a lifting plate (9). The sides of the lifting plates (9) that are close to each other are fixed with a fixing block (901), and the fixing block (901) passes through the outer wall of the U-shaped connecting frame (5) and is fixedly connected to the lifting seat (10).

4. The quick change mechanism for glass bottle production mold according to claim 3, characterized in that: Both of the two cavities (501) are rotatably installed with screws (8) that are threadedly connected to the lifting plate (9), and the threads of the two screws (8) are opposite.

5. The quick change mechanism for glass bottle production mold according to claim 4, characterized in that: The U-shaped connecting frame (5) is provided with a gear 1 (14) and a gear 2 (15) meshing with each other on both sides. The gear 1 (14) is fixedly connected to the screw (8) through the connecting shaft. The gear 2 (15) is fixedly connected to each other through the rotating shaft (1501). The rotating shaft (1501) passes through the U-shaped connecting frame (5) and is rotatably connected to the U-shaped connecting frame (5).

6. The quick change mechanism for glass bottle production mold according to claim 5, characterized in that: The cavity 2 (502) of the U-shaped connecting frame (5) is provided with two meshing bevel gears (12). One of the bevel gears (12) is fixedly connected to the outer wall of the rotating shaft (1501). The U-shaped connecting frame (5) is provided with a handwheel (13) fixedly connected to the bevel gear (12) through the connecting shaft.

7. The quick change mechanism for glass bottle production mold according to claim 5, characterized in that: The U-shaped connecting frame (5) has an outer protective shell (16) fixed at both ends, and the gear one (14) and gear two (15) are set inside the outer protective shell (16).

8. The quick change mechanism for glass bottle production mold according to claim 1, characterized in that: Rubber buffer pads (17) are fixed at both ends of the connecting seat (2) where they fit against the lifting seat (10).

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