CN216024150U - Membrane silk erection equipment - Google Patents

Abstract

The utility model relates to membrane wire installation equipment, and belongs to the technical field of separation membrane equipment. The method comprises the following steps: a base support; the rocker arm and the vertical frame are arranged on the base bracket; the vertical frame can be driven by the rocker arm to be switched between a vertical state and a horizontal state; the filament hanging hook is arranged at the upper part of the vertical frame and used for hanging the membrane filaments; the vertical lifting cylinder is arranged in the vertical frame and used for controlling the vertical frame to move up and down; and the hoop is arranged below the wire hanging hook and used for fixing the position of the membrane shell. By adopting the device, the equipment is easy to operate, the cylinder is lifted and rotated by controlling the switch, no heavy labor is caused, the whole operation process of wire loading can be completed by only 1 person at each station, and the manual efficiency is high.

Description

Membrane silk erection equipment

Technical Field

The utility model relates to a vertical lifting and rotating combined column type membrane silk loading device, belongs to the technical field of hollow fiber ultrafiltration membrane component packaging and manufacturing, and particularly relates to membrane silk loading into a column type membrane shell.

Background

The hollow fiber filtering membrane technology is an important form of the separation membrane, the maximized effective membrane area of the hollow fiber filtering membrane is skillfully utilized to carry out high-efficiency filtration and separation on the water body, and no secondary pollution is generated in the production process.

The hollow fiber filtering membrane separation technology is a high and new technology developed in the middle of the twentieth century, and has been rapidly developed in the world in nearly two and thirty years. The technology is mainly applied to the desulfurization wastewater treatment of power plant sewage, the wastewater treatment of factories, oil fields, refineries and pharmaceutical factories, the seawater desalination treatment of marine operators, drilling platforms and sea island residents, the civil and commercial direct drinking water projects of various industries such as organs, enterprises and institutions, learning, families, hospitals and the like, the land remediation and the solution of providing hardened land, high-pollution saline soil and the like.

However, in the practical application process, the problems of engineering projects caused by the immature packaging technology of the membrane module are not counted. Hollow fiber column type membrane need concentrate the membrane silk on the membrane silk distribution frame that has the center tube to support at the encapsulation in-process, then will be equipped with the distribution frame of membrane silk and pack into in the membrane shell for membrane silk, distribution frame and membrane shell form a whole, and this in-process needs to ensure that the membrane silk is not wounded by people or machinery, guarantees that the membrane silk is in natural vertical state. The traditional yarn loading method is characterized in that a central distribution frame is horizontally placed on a workbench, at least 2 persons are required to operate the central distribution frame simultaneously to place film yarns in sectors of the distribution frame, even if the film yarns are difficult to ensure to be in a straight state, all the film yarns are placed in the distribution frame, then the distribution frame filled with the film yarns is carefully and cautiously pushed into a film shell by at least 2 persons, the film yarns are easily damaged by pulling in the process, and the traditional yarn loading method has the problems of labor waste, low efficiency, high yarn breakage rate, poor actual application effect of products and the like.

Disclosure of Invention

The utility model provides a hollow fiber ultrafiltration membrane component filament mounting device which is small in occupied space, simple in structure, convenient to use, capable of being operated by a single person, high in efficiency, neat and vertical in mounted membrane filaments and high in yield.

A membrane wire mounting apparatus comprising:

a base support;

the rocker arm and the vertical frame are arranged on the base bracket; the vertical frame can be driven by the rocker arm to be switched between a vertical state and a horizontal state;

the filament hanging hook is arranged at the upper part of the vertical frame and used for hanging the membrane filaments;

the vertical lifting cylinder is arranged in the vertical frame and used for controlling the vertical frame to move up and down;

and the hoop is arranged below the wire hanging hook and used for fixing the position of the membrane shell.

In one embodiment, the stand is further provided with a hoop limiting groove for fixing the position of the membrane shell on the hoop.

In one embodiment, the number of the hoop limiting grooves is more than two, and the hoop limiting grooves are arranged along the direction of the stand.

In one embodiment, a vertical and horizontal state switching cylinder is further included for controlling rotation of the rocker arm.

In one embodiment, the wire hook is fixed to the stand by a wire hanging plate.

In one embodiment, the wire hanging device further comprises an assembly hook, the wire hanging disc is fixed on the stand through the assembly hook, and the assembly hook is detachable.

In one embodiment, the inner wall of the hoop is embedded with a rubber anti-slip ring, and the fastener of the hoop is a threaded adjustable buckle.

Advantageous effects

The utility model adopts the method and the device for vertically loading the silk, and has the following advantages compared with the traditional horizontal silk loading method: 1. the equipment has small floor area, and symmetric double-station operation is realized, so that the field utilization rate is improved to the maximum extent, and the working efficiency is improved; 2. by adopting the device, the equipment is simple to operate, the cylinder is lifted and rotated by controlling the switch, no heavy labor is caused, the whole operation process of wire loading can be completed by only 1 person at each station, and the manual efficiency is high; 3. the method of vertically installing the membrane wires can ensure that the membrane wires are not scratched or pulled by a table top, the outer wall of a membrane shell, a tool and the like; 4. the method of vertically installing the threads is adopted, so that the membrane threads can be ensured to be in a straight and tight state in the membrane component all the time, the finally well-packaged membrane component has good pollution resistance and low thread breakage rate in the engineering use process.

Drawings

FIG. 1 is a front view of a vertical lifting and rotating combined column type membrane filament loading device

FIG. 2 is a left side view of the structure of the vertical lifting and rotating combined column type membrane silk loading device

Wherein, 1 is the base support, 2 is a hanging wire dish, 3 is a hanging wire hook, 4 is the staple bolt, 5 is the staple bolt spacing groove, 6 is the grudging post, 7 is perpendicular and horizontal state conversion cylinder, 8 is the vertical lift cylinder in the grudging post, 9 is the rocking arm, 10 is the subassembly couple

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the utility model relates to a combined vertical lifting and rotating column type membrane wire loading device, which is characterized in that: the wire installing device comprises a base support 1 and wire installing units, wherein at least one wire installing unit is arranged on the base support 1;

the silk loading unit comprises a silk hanging disc 2, a silk hanging hook 3, a hoop 4, a limit groove 5, a vertical frame 6, a vertical and horizontal state conversion cylinder 7, a vertical lifting cylinder 8 in the vertical frame, a rocker arm 9 and a component hook 10, the middle part of the vertical frame 6 is hinged on a base support 1, and the vertical frame and the bottom bracket are driven by a cylinder 7 to realize the conversion between the vertical state and the horizontal state through a traction rocker arm 9, the vertical frame 6 is internally provided with a vertical lifting cylinder 8, the wire hanging disc 2 is fixed on a vertical frame lifting device, the assembly hook 3 is fixed at the center of the wire hanging disc 2, the wire hanging hook 3 is arranged on the wire hanging disc 2, the wire hanging hook 3 can be finely adjusted in the vertical direction of the wire hanging disc 2 through a buckle limiting device, the hoop 4 is arranged on a vertical frame 6, limiting grooves 5 are arranged at the upper, middle and lower parts of the vertical stand 6, rubber pads are arranged on the inner wall of the hoop 5, and threaded buckles are arranged on the hoop 5.

And the underframe support 1 is provided with symmetrical double-station wire loading units.

The vertical and horizontal state conversion cylinder 7 and the vertical lifting cylinder 8 in the vertical frame are in a pneumatic or electric mode.

The vertical and horizontal state conversion cylinder 7 is fixed on the base support 1, and the operation selection of the wire loading unit in the horizontal and vertical directions is realized through the rocker arm 9 and the rotating shaft.

And the vertical and horizontal state conversion cylinder 7 and the vertical lifting cylinder 8 in the vertical frame are both provided with a control switch and a speed adjusting device.

The wire hanging disc 2 and the middle shaft are split, and the wire hanging disc can rotate 360 degrees.

The outer surface of the wire hanging hook 3 is of a spiral structure, and vertical adjustment can be achieved through a clamping hook fixed on the wire hanging disc.

The subassembly couple 10 is detachable, and on the upper portion was fixed in 2 axis shafts of hanging the silk dish through the pin, the lower extreme was telescopic buckle for fixed membrane silk distribution frame.

The inner wall of the hoop 4 is inlaid with a rubber anti-slip ring, and the fastener of the hoop 4 is a threaded adjustable buckle, so that the fixing effect of membrane tubes of different specifications of 6 inches, 8 inches and 10 inches can be realized.

Staple bolt 4 realizes the ascending position adjustment of vertical direction through spacing groove 5 on the grudging post, applicable in the fixed of the membrane tube of different length.

The implementation process comprises the following steps:

rotating a horizontal and vertical state control switch of the vertical frame 6 to enable a cylinder 7 for controlling the horizontal and vertical states of the vertical frame 6 to contract, and driving the vertical frame 6 to slowly rotate by a rocker arm 9 connected with the cylinder, so that the vertical frame 6 is converted into the vertical state from the horizontal state;

hanging a central water inlet hole of a membrane silk distribution frame prepared in advance on the assembly hook 10 to enable the membrane silk distribution frame to be in a vertical hanging state;

respectively hanging the prepared membrane tows on corresponding wire hanging hooks 3 right above each sector of the membrane wire distribution frame, adjusting the height of the wire hanging hooks 3 to enable the height of each bundle of membrane wires to be consistent, and fixing each bundle of membrane wires on the membrane wire distribution frame;

rotating a vertical lifting state control switch of the vertical frame 6 to enable a vertical lifting cylinder 8 in the vertical frame 6 to drive a lifting rod to pull the membrane filament distribution frame and the membrane filaments to synchronously and slowly vertically move upwards until the membrane filaments rise to a required height;

placing a membrane shell prepared in advance into the hoop 4 on the vertical frame 6, and screwing the threaded buckle on the hoop 4 to fix the membrane shell in the hoop 4;

rotating a vertical lifting state control switch of the vertical frame 6 to enable a vertical lifting cylinder 8 in the vertical frame 6 to drive a lifting rod to pull to drive a membrane filament distribution frame and membrane filaments to synchronously and slowly move vertically downwards until the lower ends of the membrane filament distribution frame and the lower ends of the membrane shells are aligned, wherein the centers of the membrane filament distribution frame and the membrane shells are positioned on the same central line in the process, so that the membrane filaments can be prevented from being scratched by the inner walls of the membrane shells;

rotating a control switch for controlling the horizontal and vertical states of the vertical frame to extend a cylinder 7 for controlling the horizontal and vertical states of the vertical frame, driving the vertical frame 6 to slowly rotate by a rocker arm 9 connected with the vertical frame to convert the vertical frame 6 from the vertical state to the horizontal state, and then performing subsequent work such as cutting and mounting a die on the vertical frame 6, or directly taking down a component with film wires from a wire mounting unit and then performing subsequent work;

finally, it is to be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. A membrane wire installation apparatus, comprising:

a base support (1);

the rocker arm (9) and the vertical frame (6) are arranged on the base bracket (1); the stand (6) can be driven by the rocker arm (9) to be switched between a vertical state and a horizontal state;

the silk hanging hook (3) is arranged at the upper part of the vertical frame (6) and is used for hanging membrane silk;

a vertical lifting cylinder (8) in the vertical frame is used for controlling the vertical movement of the vertical frame (6);

and the hoop (4) is arranged below the wire hanging hook (3) and used for fixing the position of the membrane shell.

2. The membrane thread installation device according to claim 1, wherein the stand (6) is further provided with a hoop limiting groove (5) for fixing the position of the membrane shell on the hoop (4).

3. The membrane wire installation equipment according to claim 2, wherein the number of the hoop limiting grooves (5) is more than two, and the hoop limiting grooves are arranged along the direction of the stand (6).

4. Membrane wire installation device according to claim 1, characterised in that it further comprises a vertical and horizontal state switching cylinder (7) for controlling the rotation of the rocker arm (9).

5. Membrane thread installation device according to claim 1, characterized in that the thread-hanging hook (3) is fixed to the stand (6) by means of a thread-hanging disc (2).

6. The membrane wire installation equipment according to claim 1, further comprising an assembly hook (10), wherein the wire hanging disc (2) is fixed on the stand (6) through the assembly hook (10), and the assembly hook (10) is detachable.

7. The membrane wire installation equipment according to claim 1, wherein a rubber anti-slip ring is embedded in the inner wall of the hoop (4), and a fastener of the hoop (4) is a threaded adjustable buckle.

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