CN218985833U - Amino membrane production is with fixed knot constructs - Google Patents

Abstract

The utility model relates to the technical field of amino film production, in particular to a fixing structure for amino film production, which comprises a base, a lifting rod and a spring fixing rod, wherein the inner wall of the base is connected with a lifting plate in an inserting mode, the upper end of the base is fixedly connected with one end of a pressure-bearing rod, one side of the pressure-bearing rod is connected with a handle in an inserting mode, one end of the handle is fixedly connected with a rotating wheel and a pole wheel, the pole wheel is arranged in the rotating wheel, one end of the lifting rod is connected with a pressure-bearing rod in an inserting mode, the other end of the lifting rod is connected with a movable rod in a rotating mode, one end of the movable rod is connected with a rotating rod in a rotating mode, one end of the spring fixing rod is connected with the pressure-bearing rod in an inserting mode, the improved fixing structure enables the amino film to be more flatly fixed between the rotating wheel and the lifting plate through rotation of a manual handle, namely the rotating wheel is more attached to a working table surface, production is convenient, and operation is simple.

Description

Amino membrane production is with fixed knot constructs

Technical Field

The utility model relates to the technical field of amino film production, in particular to a fixing structure for amino film production.

Background

The amino film is a mushroom biological transition material, and is activated under chemical action to fix biomolecules, so that the amino film is used for more and more commonly researching surface modification of materials, and is usually used as a protective layer, attached to the outer surfaces of some articles and used for blocking the chemical and physical reactions of the materials of the articles and other external elements.

The amino film itself is a relatively thin structure, and when it is produced and processed, it needs to consider its own flat structure, so that it is different from the fixing of other articles for its fixing, and when it needs to be ensured to fix it, it needs to consider how it can be made more flat, and no physical damage can occur.

The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. the structure of the amino film is not considered to be single, the amino film is easy to be uneven, the amino film is not completely attached to the working table surface during fixing, and the amino film is uneven after fixing, so that the processing is inconvenient; 2. when the amino film is fixed, the device does not apply force to the amino film from a plurality of directions, and most of the devices only have the clamping force to the amino film facing each other above and below, so the fixation is not stable enough.

Disclosure of Invention

The utility model aims to provide a fixing structure for amino film production, which solves the problems that the whole amino film is not smooth enough after being fixed and is not unstable due to multi-angle stress in the prior art. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a fixed knot constructs for amino membrane production, includes the base, lifts pole and spring dead lever, the inner wall plug connection of base has the lifter plate, the upper end of base and the one end fixed connection of pressure-bearing pole, one side plug connection of pressure-bearing pole has the handle, the one end fixedly connected with runner and the polar wheel of handle, and the polar wheel is in the inside of runner, the one end and the pressure-bearing pole plug connection of lifting the pole, the other end rotation of lifting the pole is connected with the movable rod, the one end rotation of movable rod is connected with the dwang, the one end and the pressure-bearing pole plug connection of spring dead lever, the other end fixedly connected with spring of spring dead lever.

Further preferably, the two ends of the lifting plate are structures formed by plates in the vertical direction, grooves are formed in the inner walls of the two ends of the base, and grooves are formed in the positions, close to the two ends of the lifting plate, of the lifting plate.

Further preferably, the handle forms a rotating structure through the pressure-bearing rod, and one end of the handle is fixedly connected with the rotating wheel and the pole wheel.

Further preferably, the spring is in a spiral line shape which spirals towards the center, one end of the spring is fixedly connected with one end of the handle, and the other end of the spring is fixedly connected with a spring fixing rod.

Further preferably, one end of the lifting rod forms a sliding structure through a sliding groove of the pressure-bearing rod, and the other end of the lifting rod is rotatably connected with the movable rod.

Further preferably, the outer ring of the rotating wheel is provided with a plurality of convex strip-shaped half cylinders.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the amino film is fixed between the rotating wheel and the lifting plate by the friction force of the plurality of raised strip-shaped semi-circles on the outer ring of the rotating wheel and the upward thrust of the lifting plate, so that the amino film can be fixed and pulled more smoothly.

According to the utility model, the manual handle is added, and the rotating wheel can rotate oppositely or reversely by rotating the handle, so that the amino film is tightened or loosened, thereby simplifying the mechanical structure and reducing the production cost of the equipment.

Drawings

FIG. 1 is a schematic side elevational view in full section of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic elevational view of the present utility model;

FIG. 4 is a schematic diagram of the front view of the base of the present utility model in full section;

fig. 5 is a schematic top view of the present utility model.

In the figure: 1. a base; 2. a lifting plate; 3. a pressure-bearing rod; 4. a handle; 5. a rotating wheel; 6. lifting a rod; 7. a movable rod; 8. a rotating lever; 9. a pole wheel; 10. a spring fixing rod; 11. and (3) a spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 5, the present utility model provides a technical solution: the utility model provides a fixed knot constructs for amino membrane production, including base 1, lift pole 6 and spring dead lever 10, the inner wall plug connection of base 1 has lifter plate 2, the upper end of base 1 and the one end fixed connection of pressure-bearing pole 3, one side plug connection of pressure-bearing pole 3 has handle 4, the one end fixedly connected with runner 5 and pole wheel 9 of handle 4, and pole wheel 9 is in the inside of runner 5, the one end and the pressure-bearing pole 3 plug connection of lift pole 6, the other end rotation of lifting pole 6 is connected with movable rod 7, the one end rotation of movable rod 7 is connected with dwang 8, the one end and the pressure-bearing pole 3 plug connection of spring dead lever 10, the other end fixedly connected with spring 11 of spring dead lever 10.

In this embodiment, as shown in fig. 4, two ends of the lifting plate 2 are in a structure composed of plates in the vertical direction, grooves are formed in the inner walls of two ends of the base 1, and grooves are formed in the positions, close to two ends of the lifting plate 2, of the lifting plate 2; lifting plate 2 receives the inside hydraulic pump lift slip of base 1, and the board of vertical direction can make lifting plate 2 pass through the lift slip of the vertical direction of recess of base 1, and after the slip, lifting plate 2 recess can be laminated with the protruding structure of base 1, and base 1 recess can be laminated with the protruding structure of lifting plate 2.

In this embodiment, as shown in fig. 1, a handle 4 forms a rotating structure through a pressure-bearing rod 3, and one end of the handle 4 is fixedly connected with a rotating wheel 5 and a pole wheel 9; by rotating the handle 4 anticlockwise, the rotating wheel 5 and the polar wheel 9 are driven to rotate anticlockwise, so that one end of the amino film between the lifting plate 2 and the rotating wheel 5 moves towards the direction approaching to the polar wheel 9.

In this embodiment, as shown in fig. 1, the spring 11 is in a spiral line shape which spirals toward the center, one end of the spring 11 is fixedly connected with one end of the handle 4, and the other end of the spring 11 is fixedly connected with the spring fixing rod 10; through the anticlockwise rotation of another handle 4, drive the central point of spring 11 and anticlockwise rotate, and the outer lane end of spring 11 is fixed by spring dead lever 10, so the amino membrane passes through behind lifter plate 2 laminating in the bottom of runner 5, loosens another handle 4, and the resilience force of spring 11 can make spring 11 drive runner 5 clockwise rotation, and the other end of amino membrane moves to the direction that is close to spring 11 this moment to straighten the amino membrane.

In this embodiment, as shown in fig. 3, one end of the lifting rod 6 forms a sliding structure through a chute of the pressure-bearing rod 3, and the other end of the lifting rod 6 is rotatably connected with a movable rod 7; the structure of the pole wheel 9 enables the rotating wheel 5 with the pole wheel 9 to rotate anticlockwise only, namely when the rotating wheel 5 is required to be rotated clockwise, the lifting rod 6 can be lifted up in a sliding way along the sliding groove of the pressure-bearing rod 3, at the moment, one end of the movable rod 7, which is lapped on the pole wheel 9, leaves the pole wheel 9, and when the handle 4 is rotated clockwise, the rotating wheel 5 is rotated clockwise.

In this embodiment, as shown in fig. 3, the outer ring of the rotating wheel 5 is provided with a plurality of convex strip-shaped half cylinders; the friction force is increased, so that the amino film can be clamped by the rotating wheel 5 and the ascending lifting plate 2 more stably.

The application method and the advantages of the utility model are as follows: the amino film production is with fixed knot structure when using, and the working process is as follows:

as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, firstly, the lifting plate 2 is lifted by the hydraulic pump in the base 1, then the amino film placed on the lifting plate 2 is lifted, at this time, the two handles 4 are held to rotate anticlockwise, the rotating wheel 5 and the pole wheel 9 are driven to rotate anticlockwise together, thereby one end of the amino film between the lifting plate 2 and the rotating wheel 5 is moved towards the direction close to the pole wheel 9, the central end of the spring 11 is driven to rotate anticlockwise, the outer ring end of the spring 11 is fixed by the spring fixing rod 10, so that the amino film is attached to the bottom end of the rotating wheel 5 by the lifting plate 2, the other handle 4 is released, the resilience force of the spring 11 can enable the spring 11 to drive the rotating wheel 5 to rotate clockwise, at this time, the other end of the amino film moves towards the direction close to the spring 11, so that the amino film is straightened, and the amino film is pulled more smoothly and is fixed between the rotating wheel 5 and the lifting plate 2 by the friction force of a plurality of convex strip-shaped hemispheres of the outer ring of the rotating wheel 5 and the lifting plate 2, if the amino film is required to be released, the lifting rod 6 can be lifted upwards by the lifting rod 3 to slide upwards, the pole wheel 9 is lifted upwards, and the amino film is moved clockwise, and the end of the pole wheel 9 is moved clockwise, and the end of the lifting rod 9 is opposite to the lifting rod is moved upwards by the lifting rod.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a fixed knot constructs for amino membrane production, includes base (1), lifts pole (6) and spring dead lever (10), its characterized in that: the inner wall plug-in connection of base (1) has lifter plate (2), the upper end of base (1) and the one end fixed connection of pressure-bearing pole (3), one side plug-in connection of pressure-bearing pole (3) has handle (4), the one end fixedly connected with runner (5) and pole wheel (9) of handle (4), and pole wheel (9) are in the inside of runner (5), the one end of lifting lever (6) is connected with the spout plug-in connection of pressure-bearing pole (3), the other end rotation of lifting lever (6) is connected with movable rod (7), the one end rotation of movable rod (7) is connected with dwang (8), the one end and the pressure-bearing pole (3) plug-in connection of spring dead lever (10), the other end fixedly connected with spring (11) of spring dead lever (10).

2. The fixing structure for producing an amino film according to claim 1, wherein: the lifting plate (2) is characterized in that two ends of the lifting plate (2) are of structures formed by plates in the vertical direction, grooves are formed in the inner walls of the two ends of the base (1), and grooves are formed in the positions, close to the two ends of the lifting plate (2), of the lifting plate.

3. The fixing structure for producing an amino film according to claim 1, wherein: the handle (4) forms a rotating structure through the pressure-bearing rod (3), and one end of the handle (4) is fixedly connected with the rotating wheel (5) and the pole wheel (9).

4. The fixing structure for producing an amino film according to claim 1, wherein: the spring (11) is in a spiral line shape which spirals towards the center, one end of the spring (11) is fixedly connected with one end of the handle (4), and the other end of the spring (11) is fixedly connected with the spring fixing rod (10).

5. The fixing structure for producing an amino film according to claim 1, wherein: one end of the lifting rod (6) forms a sliding structure through a sliding groove of the pressure-bearing rod (3), and the other end of the lifting rod (6) is rotatably connected with a movable rod (7).

6. The fixing structure for producing an amino film according to claim 1, wherein: the outer ring of the rotating wheel (5) is provided with a plurality of convex strip-shaped half cylinders.

Images