CN108698265B

CN108698265B - Hand formwork locking mechanism

Info

Publication number: CN108698265B
Application number: CN201780008379.2A
Authority: CN
Inventors: 汉斯·彼得·罗尔
Original assignee: KOSSAN Sdn Bhd
Current assignee: KOSSAN Sdn Bhd
Priority date: 2016-01-27
Filing date: 2017-01-24
Publication date: 2020-06-30
Anticipated expiration: 2037-01-24
Also published as: CN108602215A; WO2017131509A1; CN108602215B; MY193295A; WO2017131508A1; MY186039A; CN108698265A

Abstract

The invention relates to a hand former locking mechanism (100) for the latex impregnation industry, said hand former locking mechanism (100) comprising: a) a shaft (110) interconnected with the scaffold frame (120); b) a cam unit (130) having an active cam (130a) and a passive cam (130b) which can perform locking and unlocking operations; c) active and passive biasing elements (140, 150) cooperating with the active and passive cams (130a, 130b) for securely and tightly engaging the hand mold (300) with the cavity (121) of the hand mold frame (120); d) a fixing plate (160a) adjacent to the locking protrusion (132a) of the active cam (130 a); wherein each of the active cam (130a) and the passive cam (130b) is provided with a predetermined cam path (131a, 131b) such that they can be reciprocally operated in cooperation according to the locking and unlocking positions; wherein the active and passive biasing elements (140, 150) are capable of providing sufficient opposing forces to urge the cam unit (130) such that the active and passive cams (130a, 130b) are capable of stably following their predetermined cam paths (131a, 131b) when locked or unlocked by rotation.

Description

Hand formwork locking mechanism

Technical Field

The invention belongs to the field of locking mechanisms, and particularly relates to a hand formwork locking mechanism for latex dipping industry.

Background

Hand former support assemblies for impregnating latex products typically include a support having a locking mechanism for receiving a hand former. The hand former is typically loaded on the conveyor chain by a hand former for the latex dipping process. However, many conventional hand former assemblies may have a number of disadvantages, for example, installation or replacement of the hand former may be very cumbersome and time consuming. Installation or replacement of the hand mold may require a large number of precise engagements to achieve smooth locking and unlocking operations. Therefore, the hand mold must be manipulated into position so that the installation hole of the hand mold and the locking member of the hand mold frame are properly aligned to perform locking and unlocking operations.

In addition, some of the proposed hand mold locking mechanisms may involve complex designs and configurations such that they require excessive force or effort to perform the locking or unlocking operation. However, in some cases, this may lead to the destruction or destruction of the hand model, and thus to accidental injury of the operator. The complex design or configuration of the locking mechanism may also result in excessive and unnecessary maintenance and cause expensive labor, material, and assembly costs.

In addition, the locking mechanism of some hand formwork assemblies may require the use of special tools, such as mechanical, hydraulic or pneumatic tools, by the technician to install or replace the hand formwork. Therefore, in practical applications, how to quickly, easily and safely install or replace the hand model without using excessive force or effort to perform the locking or unlocking operation becomes an important issue.

In view of these shortcomings, there is a need for a practical and effective hand form system for quickly, easily and safely installing or replacing a hand form. It is an object of the present invention to provide an improved scaffolding frame locking mechanism for the latex impregnation industry which is a simpler and more efficient method and which is robust in use. The present invention also facilitates assembly and disassembly of the hand model while providing safe and effective locking and unlocking operations.

Disclosure of Invention

The invention aims to provide an improved hand mould frame locking mechanism for latex dipping industry. The hand former locking mechanism includes: a) a shaft interconnected to the hand form; b) a cam unit having an active cam and a passive cam, which can perform locking and unlocking operations; c) active and passive biasing elements cooperating with the active and passive cams to securely and tightly engage the hand mold with the cavity of the hand mold frame; d) a fixing plate adjacent to the locking protrusion of the driving cam; wherein each of the active cam and the passive cam is provided with a predetermined cam path such that they can be reciprocally operated in cooperation according to the locking and unlocking positions; and wherein the active and passive biasing elements are capable of providing sufficient opposing forces to urge the cam unit such that the active and passive cams are capable of stably following their predetermined cam paths when locked or unlocked by rotation.

It will be appreciated that the shaft of the hand former locking mechanism may be selectively connected to the carrier arm with or without a bearing assembly.

Preferably, the hand former frame is provided with a cavity for receiving a hand former, and the hand former frame also includes a recess for receiving the cam unit. The hand formwork is further provided with a projection which can be engaged with the hand formwork in the locking position. The projection has a similar profile to the mounting opening (not shown) of the hand former, so that the projection can prevent the hand former from twisting or shifting in the locked position.

It should be noted that the active cam is provided with a locking projection to engage with the mounting opening of the hand model. The locking projections have a predetermined thickness t that is similar to the thickness of the inner peripheral wall of the mounting opening of the hand mold so that the locking projections can simultaneously rotate along the longitudinal axis of the shaft.

It will be appreciated that the locking projection of the active cam and the dead plate have a substantially similar profile or shape to the mounting opening of the hand mold so that when the hand mold frame is in the unlocked position, the locking projection of the active cam and the dead plate can be aligned along their longitudinal axes so that the hand mold can be placed in the cavity of the hand mold frame for easy rotation to the locked position.

In addition, the outer peripheral surface (thickness t) of the locking projection of the active cam is engageable with the inner peripheral wall surface of the mounting opening of the hand mold, so that when the hand mold is rotated about its longitudinal axis by about 90 degrees, the mounting opening of the hand mold will simultaneously urge the locking projection of the active cam to rotate, thereby engaging the fixing plate with the rear wall surface of the mounting opening of the hand mold in the locking position.

It should be understood that the active biasing element may be selectively provided or configured adjacent to the fixed plate or between the hand former and the carrier arm. It will be further appreciated that the active and passive biasing elements are also capable of inducing opposing forces to facilitate displacement of the embedded cam unit within the recess without any obstruction.

As a non-limiting example, the predetermined cam path enables the active and passive cams to cooperatively reciprocate between predetermined peak and valley or at least over the distance of the predetermined thickness t between the locked and unlocked positions.

The invention comprises several novel features and structural combinations fully described and illustrated in the following description and annexed drawings, it being understood that various changes may be made in the details without departing from the scope of the invention or without sacrificing any of the advantages of the invention.

Drawings

The present invention will become more fully understood from the detailed description given here below and the accompanying drawings which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:

FIGS. 1a and 1b show a hand module locking mechanism of a preferred embodiment of the present invention carried by a carrier arm with a bearing assembly and having a positive biasing element disposed adjacent a fixed plate, in locked and unlocked positions, respectively;

FIGS. 1c and 1d show exploded cross-sectional side views of the hand former locking mechanism of FIGS. 1a and 1b in accordance with a preferred embodiment of the present invention in locked and unlocked positions, respectively;

figures 2a and 2b show a hand formwork locking mechanism of a preferred embodiment of the present invention carried by a carrier arm with a bearing assembly and having an active biasing element disposed between the hand formwork and the carrier arm, in a locked position and an unlocked position, respectively;

FIGS. 2c and 2d show exploded cross-sectional side views of the hand former locking mechanism of FIGS. 2a and 2b in accordance with a preferred embodiment of the present invention in locked and unlocked positions, respectively;

FIGS. 3a and 3b illustrate a hand module locking mechanism of a preferred embodiment of the present invention carried by a carrier arm without a bearing assembly and having an active biasing element disposed adjacent a fixed plate, in locked and unlocked positions, respectively;

FIGS. 3c and 3d show exploded cross-sectional side views of the hand former locking mechanism of FIGS. 3a and 3b in accordance with a preferred embodiment of the present invention in locked and unlocked positions, respectively;

FIGS. 4a to 4c show enlarged front, top and perspective views, respectively, of the cam unit of the hand former locking mechanism in a locked position in accordance with a preferred embodiment of the present invention;

fig. 5a to 5c show enlarged front, top and perspective views, respectively, of the cam unit of the hand former locking mechanism in the unlocked position in accordance with a preferred embodiment of the present invention.

Detailed Description

The invention relates to an improved hand formwork locking mechanism for latex dipping industry. Hereinafter, this specification will describe preferred examples or embodiments of the present invention. It should be understood, however, that only the preferred examples or embodiments of the invention have been described in order to facilitate a discussion of the invention and that a person skilled in the art may make modifications or equivalent alterations to the claims without departing from the scope of the invention.

It is an object of the present invention to provide a practical and effective hand form system for quickly, easily and safely installing or replacing a hand form. The present invention therefore provides an improved scaffolding locking mechanism for the latex impregnation industry which will be a simpler and more effective method and which is robust in use. The present invention also facilitates easy assembly and disassembly of the hand form while providing safe and effective locking and unlocking operations.

The hand former locking mechanism for the latex impregnation industry of the preferred embodiment of the present invention will now be described with reference to one or a combination of figures 1a to 5 c.

The hand mold frame locking mechanism (100) includes a shaft (110) interconnecting the hand mold frame (120), the cam unit (130), the active and passive biasing elements (140, 150) and the retainer plate (160). Depending on the use and/or configuration of the hand module assembly, the shaft (110) of the hand module locking mechanism (100) may be selectively connected to one of the carrier arms (200a, 200b) with or without a bearing assembly (210) (see fig. 1a-3 d).

In a preferred example, the hand mold frame (120) is provided with a cavity (121) to receive the hand mold (300). The molding frame (120) is further provided with a recess (122) to receive the cam unit (130). It should be noted that the hand mold frame (120) is further provided with a projection (123) to engage with the hand mold (300) in the locking position. By way of example and not limitation, the protrusion (123) has a similar profile to a mounting opening (not shown) of the hand mold (300) such that the protrusion (123) can prevent the hand mold (300) from being twisted or displaced in the locked position.

It should be noted that the cam unit (130) of the hand module locking mechanism (100) includes one active cam (130a) and one passive cam (130b) to perform locking and unlocking operations. In a preferred example of the invention, each of the active cam (130a) and the passive cam (130b) is provided with a predetermined cam path (131a, 131b) such that they can be reciprocally operated in cooperation according to the locked and unlocked positions (see fig. 4a-5 c). It should be understood that the active cam (130a) is also provided with a locking protrusion (132a) to engage with the mounting opening of the hand mold (300). By way of example and not limitation, the locking projections (132a) have a predetermined thickness t, which is substantially similar to the thickness of the inner peripheral wall of the mounting opening of the hand model (300), so that they can rotate simultaneously along the longitudinal axis of the shaft (110). By way of example and not limitation, the predetermined cam paths (131a, 131b) enable the active cam (130a) and the passive cam (130b) to reciprocally operate cooperatively between predetermined highest and lowest points, or cooperatively at least over a distance of said predetermined thickness t, between the locked and unlocked positions.

In a preferred embodiment of the present invention, the hand mold locking mechanism (100) is further provided with a fixing plate (160), and the fixing plate (160) is disposed adjacent to the locking protrusion (132a) of the driving cam (130 a). It should be noted that the locking protrusion (132a) of the active cam (130a) and the fixing plate (160) have a substantially similar profile or shape to the mounting opening of the hand mold (300), and when the hand mold is in the unlocked position (see fig. 1b), the fixing plate (160) and the locking protrusion (132a) of the active cam (130a) can be aligned along their longitudinal axes, so that the hand mold (300) can be placed on the cavity (121) of the hand mold frame (120) to be easily rotated to the locked position.

It should be understood that, in the locked position, the outer peripheral surface (thickness t) of the locking projection (132a) of the active cam (130a) is engageable with the inner peripheral wall surface of the mounting opening of the hand mold (300) so that when the hand mold (300) is rotated about 90 degrees about its longitudinal axis, the mounting opening of the hand mold (300) will simultaneously urge the locking projection (132a) of the active cam (130a) to rotate so that the fixed fixing plate (160) is engaged with the rear wall surface of the mounting opening of the hand mold (300) in the locked position. At this point, the hand model (300) will be in the locked position (see fig. 1 a).

Active and passive biasing elements (140, 150) working in cooperation with the active and passive cams (130a, 130b) serve to firmly and tightly engage the hand mold (300) with the cavity (121) of the hand mold frame (120). The active and passive biasing elements (140, 150) are capable of providing sufficient opposing forces to urge the cam unit (130) such that the active and passive cams (130a, 130b) are capable of stably traveling along their predetermined cam paths (131a, 131b) when locked or unlocked by rotation. It will be appreciated that such opposing forces caused by the active and passive biasing elements (140, 150) also cause the embedded cam unit (130) to be displaced smoothly within the recess (122) without any obstruction.

It should be appreciated that the active biasing element (140) may be selectively provided or configured adjacent the mounting plate (160) or between the handwork frame (120) and the carrier arms (200a, 200b) (see fig. 1a-3d) depending on the use and/or configuration of the handwork frame assembly.

It should be understood that the foregoing embodiments and detailed description are exemplary and explanatory only and are not restrictive of the invention. Thus, the embodiments and specific descriptions set forth above, including the structures, configurations, elements, and contents or any other methods described therein, should not be viewed as limiting the invention, but rather as the best mode contemplated by the inventors for carrying out the invention.

The invention is obtained by the above steps. It will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.

Claims

1. A hand former locking mechanism (100) for the latex impregnation industry, the hand former locking mechanism (100) comprising:

a) a shaft (110) interconnected with the scaffold frame (120);

b) a cam unit (130) having an active cam (130a) and a passive cam (130b) which can perform locking and unlocking operations, the active cam (130a) being provided with a locking protrusion (132a) which can be engaged with the mounting opening of the hand mold (300);

c) active and passive biasing elements (140, 150) cooperating with the active and passive cams (130a, 130b) for securely and tightly engaging the hand mold (300) with the cavity (121) of the hand mold frame (120);

d) a fixing plate (160a) adjacent to the locking protrusion (132a) of the active cam (130 a);

wherein each of the active cam (130a) and the passive cam (130b) is provided with a predetermined cam path (131a, 131b) such that they can be reciprocally operated in cooperation according to the locking and unlocking positions; and

wherein the active and passive biasing elements (140, 150) are capable of providing sufficient opposing forces to urge the cam unit (130) such that the active and passive cams (130a, 130b) are capable of stably following their predetermined cam paths (131a, 131b) when locked or unlocked by rotation.

2. A hand former locking mechanism (100) for the latex impregnation industry according to claim 1, characterised in that the shaft (110) of the hand former locking mechanism (100) can be selectively connected to one carrying arm (200a, 200b) with or without a bearing assembly (210).

3. The hand form locking mechanism (100) for latex impregnation industry of claim 1, wherein said hand form (120) is provided with a cavity (121) for receiving a hand form (300), said hand form (120) further comprising a recess (122) for receiving a cam unit (130).

4. A hand former locking mechanism (100) for latex dipping industry according to claim 1 wherein said hand former (120) is further provided with a protrusion (123) that can engage with the hand former in the locked position.

5. A hand former locking mechanism (100) for latex impregnation industry according to claim 4, wherein said protrusion (123) has a similar profile to the mounting opening of the hand former, such that said protrusion (123) can prevent the hand former (300) from twisting or shifting in the locked position.

6. The hand former locking mechanism (100) for latex dipping industry according to claim 1, wherein the locking protrusion (132a) has a predetermined thickness t similar to the thickness of the inner peripheral wall of the mounting opening of the hand former (300) such that the locking protrusion (132a) and the hand former (300) can rotate simultaneously along the longitudinal axis of the shaft (110).

7. The hand former locking mechanism (100) for latex impregnation industry according to claim 6, wherein the locking protrusion (132a) of the active cam (130a) and the fixing plate (160) have a substantially similar profile or shape to the mounting opening of the hand former (300) such that when the hand former is in the unlocked position, the locking protrusion (132a) of the active cam (130a) and the fixing plate (160) can be aligned along its longitudinal axis, enabling the hand former (300) to be placed in the cavity (121) of the hand former (120) to be easily rotated to the locked position.

8. The hand former locking mechanism (100) for latex impregnation industry according to claim 7, wherein the outer circumferential surface of the locking protrusion (132a) of the active cam (130a) with thickness t is engageable with the inner circumferential wall surface of the mounting opening of the hand former (300) such that when the hand former (300) is rotated 90 degrees about its longitudinal axis, the mounting opening of the hand former (300) will simultaneously cause the locking protrusion (132a) of the active cam (130a) to rotate, thereby engaging the fixing plate (160) with the rear wall surface of the mounting opening of the hand former (300) in the locking position.

9. The hand former locking mechanism (100) for latex impregnation industry according to claim 1, wherein said active biasing element (140) can be selectively equipped or configured in a position adjacent to the fixing plate (160) or between the hand former (120) and the carrying arm (200a, 200 b).

10. A hand former locking mechanism (100) for latex impregnation industry according to claim 1, characterized in that said active and passive biasing elements (140, 150) are capable of inducing opposite forces, smoothly displacing the embedded cam unit (130) within the recess (122) without any obstacle.

11. A hand former locking mechanism (100) for latex impregnation industry according to claim 1, wherein said predetermined cam paths (131a, 131b) enable the active cam (130a) and the passive cam (130b) to reciprocate cooperatively between predetermined highest and lowest points, or at least in the distance of predetermined thickness t, between the locked and unlocked positions.