Electrode cap forming mold

By designing lifting and prompting mechanisms, the problem of complex positional judgment in existing electrode cap molds has been solved, enabling efficient stamping and demolding of electrode caps and improving work efficiency.

CN224463510UActive Publication Date: 2026-07-07SHANGHAI KAIXUN HYDRAULIC CONTROL EQUIP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI KAIXUN HYDRAULIC CONTROL EQUIP
Filing Date
2025-05-30
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the current electrode cap mold, a test block needs to be installed during the stamping process to determine the correspondence between the upper die rod and the die seat, which affects work efficiency.

Method used

The system employs a lifting mechanism and a prompting mechanism. The lifting mechanism uses a support plate, telescopic push rod, limit rod, and spring to move and demold the upper mold rod. The prompting mechanism uses an insert rod and a scale to determine the position of the locking seat and the mold base, simplifying the operation process.

Benefits of technology

It improves the efficiency of electrode cap processing, avoids the need for multiple sets of mobile equipment, simplifies positional judgment, and improves the accuracy and efficiency of stamping.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an electrode cap forming die relates to electrode technical field, including base, be equipped with the ejection rod on the base, and the ejection rod removes and penetrates the die seat, and the die seat top is equipped with the clamping seat, and the clamping seat is equipped below the stripper plate, and the upper die rod is removed and penetrated in the stripper plate, be equipped with the lifting mechanism on the upper die rod, the lifting mechanism is used for promoting the upper die rod and moves downward and carries out the stamping, the lifting mechanism includes the support plate of being equipped in the upper die rod top, be connected with the telescopic push rod for promoting the support plate lifting on the support plate, the limit rod is removed and penetrated in the support plate, and the limit rod bottom end removes and penetrates the spring and is fixedly connected stripper plate top, be equipped with the prompt mechanism on the die seat. When the moving upper die rod stamping can remove the stripper plate and carry out the capping work, avoid needing to use two groups of mobile equipment, make it convenient for observation clamping seat and die seat position corresponding situation, improved work efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of electrode technology, specifically to an electrode cap forming mold. Background Technology

[0002] When processing electrode caps, an inner groove is usually set on the bottom mold base. The original product is placed into the inner groove, and then the upper mold rod is used to enter the stamping process. After stamping into the required shape, the formed product is ejected.

[0003] In the prior art, utility model patent with publication number CN218134326U provides an adjustable electrode cap mold. The adjustable electrode cap mold includes a mold base and an upper mold rod. The mold base has an inner groove whose shape matches the shape of the electrode cap. The upper mold rod is located above the inner groove and is also connected to a separable test block. Multiple adjustment plates are arranged around the mold base, which define the adjustment space. Threaded adjustment rods are provided on the adjustment plates. A sliding groove is provided below the inner groove. An ejector rod is also provided below the mold base, which matches the sliding groove and extends one end into the sliding groove.

[0004] The adjustable electrode cap mold does not disclose the moving components of the upper mold rod and the demolding template. It requires the installation of a test block to determine the correspondence between the upper mold rod and the mold base, which affects work efficiency. Therefore, we propose an electrode cap forming mold to solve the above problems. Utility Model Content

[0005] The purpose of this invention is to provide an electrode cap forming mold to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: an electrode cap forming mold, including a base, an ejector rod on the base, the ejector rod moving through the mold base, a locking seat above the mold base, the locking seat being located below the ejector plate, an upper mold rod moving through the ejector plate, a lifting mechanism on the upper mold rod, the lifting mechanism being used to push the upper mold rod downward for stamping, the lifting mechanism including a support plate at the top of the upper mold rod, a telescopic push rod connected to the support plate for pushing the support plate up and down, a limit rod moving through the support plate, the bottom end of the limit rod moving through a spring and fixedly connected to the top of the ejector plate, and a prompting mechanism on the mold base.

[0007] Preferably, the prompting mechanism is used to assist personnel in determining the positional correspondence between the card holder and the mold holder.

[0008] Preferably, the prompting mechanism includes an insert rod disposed at the bottom of the ejector plate, the bottom end of the insert rod moving through the limiting seat to restrict relative movement between the mold base and the ejector plate in the horizontal direction.

[0009] The length of the support plate is greater than the length of the template. The telescopic push rods are provided in two sets symmetrically distributed at both ends of the support plate, and the bottom end of the telescopic push rods is located on the base.

[0010] Preferably, the limiting rod is provided with at least two sets of support plates symmetrically distributed on both sides of the upper die rod, and the sliding distance of the limiting rod on the support plate is greater than the stamping distance of the upper die rod.

[0011] Preferably, the spring is used to push the demolding template to move away from the support plate, with one end of the spring connected to the support plate and the other end connected to the demolding template.

[0012] Preferably, the insert rod is provided in two sets symmetrically arranged at the bottom of the ejector plate, and the limiting seat is provided on the side wall of the mold base.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. Place the original product into the groove of the mold base, then drive the telescopic push rod to retract. The telescopic push rod pulls the support plate down, and the support plate pushes the upper mold rod, limit rod, spring, and ejector plate down. The ejector plate moves down and the locking seat moves down to fit on the top of the mold base. The support plate continues to move down to compress the spring. The support plate moves down and pushes the upper mold rod to move through the locking seat and enter the mold base for stamping. After stamping, manually or with the assistance of the telescopic rod, push the ejector rod up to eject the processed electrode cap. At the same time, drive the telescopic push rod to extend. After the ejector plate separates from the mold base, the spring returns to its original state and pushes the ejector plate down. The ejector plate moves down and removes the processed electrode cap from the bottom of the upper mold rod. This allows the ejector plate to move for sealing when the upper mold rod is moving for stamping, avoiding the need to use two sets of moving equipment.

[0015] 2. When the template moves down to seal the locking seat on the mold base, the insert rod moves down with the template. Observe whether the insert rod can be inserted into the limiting seat to determine whether stamping can be performed. Observe the scale on the insert rod to determine the contact between the locking seat and the mold base, which makes it easy to observe the positional correspondence between the locking seat and the mold base and improves work efficiency. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the lifting mechanism in this utility model;

[0018] Figure 3 This is a schematic diagram of the prompting mechanism in this utility model.

[0019] In the diagram: 1. Base; 2. Ejector rod; 3. Mold base; 4. Locking seat; 5. Demolding plate; 6. Upper mold rod; 7. Lifting mechanism; 71. Support plate; 72. Telescopic push rod; 73. Limiting rod; 74. Spring; 8. Indicating mechanism; 81. Insert rod; 82. Limiting seat. Detailed Implementation

[0020] 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.

[0021] Please see Figure 1-3 An electrode cap forming mold includes a base 1, an ejector rod 2 on the base 1, the ejector rod 2 moving through a mold base 3, a locking seat 4 above the mold base 3, the locking seat 4 having a through hole at its center for fitting onto the mold base 3, the locking seat 4 being located below a ejector plate 5, an upper mold rod 6 moving through the ejector plate 5, a lifting mechanism 7 on the upper mold rod 6, the lifting mechanism 7 being used to push the upper mold rod 6 downward for stamping, the lifting mechanism 7 including a support plate 71 at the top of the upper mold rod 6, a telescopic push rod 72 connected to the support plate 71 for pushing the support plate 71 up and down, a limiting rod 73 moving through the support plate 71, the bottom end of the limiting rod 73 moving... A through spring 74 is fixedly connected to the top of the ejector plate 5. The length of the support plate 71 is greater than the length of the ejector plate 5. Two sets of telescopic push rods 72 are symmetrically distributed on both ends of the support plate 71. The bottom end of the telescopic push rods 72 is located on the base 1. The telescopic push rods 72 can be electric, hydraulic, or other telescopic push rods. At least two sets of limiting rods 73 are symmetrically distributed on the support plates 71 on both sides of the upper die rod 6. The sliding distance of the limiting rods 73 on the support plate 71 is greater than the stamping distance of the upper die rod 6. The bottom end of the limiting rods 73 is connected to the ejector plate 5. The spring 74 is used to push the ejector plate 5 to move away from the support plate 71. One end of the spring 74 is connected to the support plate 71, and the other end is connected to the ejector plate 5.

[0022] The original product is placed in the groove of the mold base 3, and then the telescopic push rod 72 is driven to retract. The telescopic push rod 72 pulls the support plate 71 to move down. The support plate 71 pushes the upper mold rod 6, the limit rod 73, the spring 74 and the ejector plate 5 to move down. The ejector plate 5 moves down and the locking seat 4 moves down and fits on the top of the mold base 3. The support plate 71 continues to move down and compresses the spring 74. The support plate 71 moves down and pushes the upper mold rod 6 to move through the locking seat 4 and enter the mold base 3 for stamping. After stamping, the ejector rod 2 is pushed up manually or with the assistance of the telescopic rod to eject the processed electrode cap. At the same time, the telescopic push rod 72 is driven to extend. After the ejector plate 5 separates from the mold base 3, the spring 74 returns to its original state and pushes the ejector plate 5 to move down. The ejector plate 5 moves down and exits the processed electrode cap at the bottom of the upper mold rod 6. This allows the ejector plate 5 to be moved for sealing when the upper mold rod 6 is moving for stamping, avoiding the need to use two sets of moving equipment.

[0023] The mold base 3 is provided with a prompting mechanism 8, which is used to assist personnel in determining the positional correspondence between the locking seat 4 and the mold base 3. The prompting mechanism 8 includes a rod 81 located at the bottom of the ejector plate 5. The bottom end of the rod 81 moves through the limiting seat 82 to limit the relative movement of the mold base 3 and the ejector plate 5 in the horizontal direction. The rod 81 has two sets symmetrically located at the bottom of the ejector plate 5. A scale is provided on the outer wall of the rod 81. The limiting seat 82 is located on the side wall of the mold base 3.

[0024] When the ejector plate 5 moves down to cover the retaining seat 4 on the mold base 3, the insert rod 81 moves down with the ejector plate 5. Observe whether the insert rod 81 can be inserted into the limiting seat 82 (if it can be inserted, it means that stamping can be performed; if it cannot be inserted, it means that the retaining seat 4 and the mold base 3 are not in the same position and stamping cannot be performed). Determine whether stamping can be performed. Observe the scale on the insert rod 81 to determine the contact between the retaining seat 4 and the mold base 3, which makes it easier to observe the positional correspondence between the retaining seat 4 and the mold base 3 and improves work efficiency.

[0025] Working principle: This utility model places the original product into the groove of the mold base 3, then drives the telescopic push rod 72 to retract. The telescopic push rod 72 pulls the support plate 71 downward. The support plate 71 pushes the upper mold rod 6, the limiting rod 73, the spring 74, and the ejector plate 5 downward. As the ejector plate 5 moves downward, the locking seat 4 follows and is fitted onto the top of the mold base 3. The support plate 71 continues to move downward, compressing the spring 74. Simultaneously, the support plate 71 pushes the upper mold rod 6 to move through the locking seat 4 and enter the mold base 3 for stamping. After stamping, the ejector rod 2 is pushed upward manually or with the assistance of the telescopic rod to eject the processed electrode cap. At the same time, the telescopic push rod 72 is driven to extend. After the ejector plate 5 separates from the mold base 3, the spring 74 returns to its original state and pushes the ejector plate. 5. The ejector plate 5 moves down to remove the electrode cap processed at the bottom of the upper die rod 6, so that the ejector plate 5 can move to perform the sealing work when the upper die rod 6 is moving for stamping, avoiding the need to use two sets of moving equipment. When the ejector plate 5 moves down to seal the locking seat 4 on the mold base 3, the insert rod 81 moves down with the ejector plate 5. Observe whether the insert rod 81 can be inserted into the limiting seat 82 (if it can be inserted, it means that stamping can be performed; if it cannot be inserted, it means that the locking seat 4 and the mold base 3 are not in the same position and stamping cannot be performed). Determine whether stamping can be performed. Observe the scale on the insert rod 81 to determine the contact between the locking seat 4 and the mold base 3, which makes it easier to observe the positional correspondence between the locking seat 4 and the mold base 3 and improves work efficiency.

[0026] Ejector rods, mold bases, locking bases, ejector plates, upper mold rods, and telescopic push rods are all existing technologies and will not be described in detail here.

[0027] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An electrode cap forming mold, comprising a base (1), an ejector rod (2) provided on the base (1), the ejector rod (2) moving through a mold seat (3), a locking seat (4) provided above the mold seat (3), the locking seat (4) being located below a demolding template (5), and an upper mold rod (6) moving through the demolding template (5), characterized in that: The upper die rod (6) is provided with a lifting mechanism (7), which is used to push the upper die rod (6) downward to perform stamping. The lifting mechanism (7) includes a support plate (71) at the top of the upper die rod (6). A telescopic push rod (72) for pushing the support plate (71) to move up and down is connected to the support plate (71). A limit rod (73) moves through the support plate (71). The bottom end of the limit rod (73) moves through a spring (74) and is fixedly connected to the top of the ejector plate (5). A prompting mechanism (8) is provided on the die base (3).

2. The electrode cap forming mold according to claim 1, characterized in that: The prompting mechanism (8) is used to assist personnel in determining the positional correspondence between the card holder (4) and the mold holder (3).

3. The electrode cap forming mold according to claim 2, characterized in that: The prompting mechanism (8) includes a rod (81) located at the bottom of the ejector plate (5). The bottom end of the rod (81) moves through the limiting seat (82) to limit the relative movement of the mold base (3) and the ejector plate (5) in the horizontal direction.

4. The electrode cap forming mold according to claim 1, characterized in that: The length of the support plate (71) is greater than the length of the template (5). The telescopic push rod (72) has two sets symmetrically distributed on both ends of the support plate (71). The bottom end of the telescopic push rod (72) is located on the base (1).

5. The electrode cap forming mold according to claim 1, characterized in that: The limiting rod (73) is provided with at least two sets of support plates (71) symmetrically distributed on both sides of the upper die rod (6), and the sliding distance of the limiting rod (73) on the support plate (71) is greater than the stamping distance of the upper die rod (6).

6. The electrode cap forming mold according to claim 1, characterized in that: The spring (74) is used to push the demolding template (5) to move away from the support plate (71). One end of the spring (74) is connected to the support plate (71), and the other end is connected to the demolding template (5).

7. The electrode cap forming mold according to claim 3, characterized in that: The insert rod (81) is provided in two symmetrical sets at the bottom of the ejector plate (5), and the limiting seat (82) is provided on the side wall of the mold base (3).