CN216638408U - Conveying mechanism of RO membrane folder - Google Patents

Abstract

The utility model discloses a conveying mechanism of an RO membrane folding machine, which comprises a working machine main body, wherein a first placing table and a second placing table are arranged above the working machine main body, a folding mechanism is arranged between the first placing table and the second placing table, a first conveying structure and a first cutting mechanism are arranged on one side of the working machine main body, and the first cutting mechanism moves along the first conveying structure. The utility model relates to a conveying mechanism of an RO membrane folding machine, which belongs to the field of RO membranes.

Description

Conveying mechanism of RO membrane folder

Technical Field

The utility model relates to the field of RO membranes, in particular to a conveying mechanism of an RO membrane folding machine.

Background

RO means reverse osmosis, in which water flows from low concentration to high concentration, and once pressurized, the water flows from high concentration to low concentration, only water molecules and partial mineral ions can pass through, and other impurities and heavy metals are discharged through a waste water pipe, and is a membrane separation technology commonly used in the field of water purifiers, which is a process of separating a solvent and a solute in a solution by means of a reverse osmosis membrane under pressure, in the field of water purifiers, water molecules can pass through an RO membrane under certain pressure, while impurities such as inorganic salts, heavy metal ions, organic matters, colloids, bacteria, viruses and the like in source water cannot pass through the RO membrane, so that permeable pure water and impermeable concentrated water are strictly separated, a folding machine is required when the RO membrane is processed, and the RO membrane is folded by the folding machine and then stacked one layer by one layer, the surface of the membrane is provided with tiny filter pores, and the filtration performance of the membrane can be influenced by pressure and touch. But there is certain drawback in the conveying mechanism of current folder, and the folder needs carry a stack RO diaphragm through the manual work for the RO diaphragm receives the pollution, and the touching also can cause the influence to RO diaphragm filtering quality.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a conveying mechanism of an RO membrane folding machine, which can effectively solve the problems that the RO membrane is polluted and the filtering performance of the RO membrane is influenced by touch because the folding machine in the background art needs to manually convey a plurality of stacked RO membranes.

In order to realize the purpose, the utility model adopts the technical scheme that:

the utility model provides a conveying mechanism of RO diaphragm folder, includes the workstation main part, the top of workstation main part is provided with first place the platform and the platform is placed to the second, first place the platform and the second is placed and is provided with folding mechanism between the platform, one side of workstation main part is provided with first transport structure and first cutting mechanism, and first cutting mechanism moves along first transport structure, the top that the platform was placed to the second is provided with second cutting mechanism and second transport structure, the second cuts the mechanism and moves along second transport structure, the below that lies in first place the platform on the workstation main part is provided with third transport structure, third transport structure's centre is provided with first electric putter, the last tight fixation clamp that presss from both sides that is provided with of third transport structure.

As a preferred technical scheme, first transport structure includes first driving motor, first linkage block, first conveyer belt and guide rail, is provided with the mount in the working machine main part, just first driving motor sets up on the mount, and just first conveyer belt is connected with first driving motor through the transmission wheel, be connected with first conveyer belt through the screw on the first linkage block, first conveyer belt is located the first both ends that cut the mechanism, the guide rail is located the working machine main part, and the first both ends that cut the mechanism are connected with the guide rail through the slider, first conveyer belt and guide rail are located the first top of placing the platform and the second and placing the platform.

As a preferred technical scheme, the second conveying structure comprises a second driving motor, a second conveying belt, a pre-tightening wheel and a second connecting block, a fixing frame is arranged on the working machine main body, the second driving motor is arranged on the fixing frame, the pre-tightening wheel is arranged on the fixing frame, the second connecting block is wound on the second conveying belt and is arranged on the second conveying belt, the second connecting block is located on two sides of the second cutting mechanism, a guide rail is arranged on the working machine main body, and the end portion of the second cutting mechanism is matched with the guide rail.

As a preferred technical scheme, the third conveying structure comprises a third driving motor, a conveying rack, a third connecting frame and a third conveying belt, the conveying rack is connected with the working machine body through a first electric push rod, the third driving motor is arranged on the conveying rack, the third conveying belt is arranged on the conveying rack, and the third connecting frame is connected with the third conveying belt through a bolt.

As a preferred technical scheme, guiding mechanism includes guide post, stop collar, guide block and spacing post, spacing post sets up on third transport structure, guide post, stop collar and guide block set up in the first workstation main part bottom of placing the platform, and guide post and stop collar sliding connection, the guide block cooperatees with spacing post.

As a preferred technical scheme, the first mechanism that cuts and the second both sides that cut the mechanism are provided with the clamp.

As a preferred technical scheme, the working machine body is connected with the folding mechanism through a second electric push rod, and the folding mechanism is located between the first placing table and the second placing table.

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

according to the utility model, the first conveying structure, the second conveying structure and the third conveying structure are arranged, the RO membrane of the first cutting mechanism is conveyed through the first conveying structure, the RO membrane of the second cutting mechanism is conveyed through the second conveying structure, the RO membrane folded by the folding mechanism is conveyed through the third conveying structure, the guide mechanism is arranged, the guide mechanism is used for lifting the third conveying structure, and the RO membrane clamped by the clamping fixing clamp can be moved onto the placing disc, so that full-automatic conveying is realized, the pollution of the RO membrane caused by manual operation is avoided, and the full-automatic conveying device is practical.

Drawings

FIG. 1 is an overall schematic of the present invention;

FIG. 2 is a schematic view of a first conveying structure and a first cutting mechanism of the present invention;

FIG. 3 is a schematic view of a second cutting mechanism and a second delivery mechanism of the present invention;

fig. 4 is a schematic view of a first and a second placing table of the utility model;

FIG. 5 is a schematic view of a third delivery configuration of the present invention;

fig. 6 is a schematic view of the guide mechanism of the present invention.

In the figure: 1. a working machine main body; 2. a first conveying structure; 201. a first drive motor; 202. a first connection block; 203. a first conveyor belt; 204. a guide rail; 3. a first cutting mechanism; 4. a second cutting mechanism; 5. a second conveying structure; 501. a second drive motor; 502. a second conveyor belt; 503. pre-tightening the wheel; 504. a second connecting block; 6. a first placing table; 7. a folding mechanism; 8. a second placing table; 9. A third conveying structure; 901. a third drive motor; 902. a conveyor frame; 903. a third connecting frame; 904. A third conveyor belt; 10. a first electric push rod; 11. a second electric push rod; 12. a guide mechanism; 1201. A guide post; 1202. a limiting sleeve; 1203. a guide block; 1204. a limiting column; 13. and clamping the fixing clamp.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1 to 6, a conveying mechanism of an RO membrane folding machine includes a machine main body 1, a first placing table 6 and a second placing table 8 are arranged above the machine main body 1, a folding mechanism 7 is arranged between the first placing table 6 and the second placing table 8, a first conveying structure 2 and a first cutting mechanism 3 are arranged on one side of the machine main body 1, the first cutting mechanism 3 moves along the first conveying structure 2, a second cutting mechanism 4 and a second conveying structure 5 are arranged above the second placing table 8, the second cutting mechanism 4 moves along the second conveying structure 5, a third conveying structure 9 is arranged below the first placing table 6 on the machine main body 1, a first electric push rod 10 is arranged in the middle of the third conveying structure 9, and a clamping fixing clamp 13 is arranged on the third conveying structure 9.

In this embodiment, the first conveying structure 2 includes a first driving motor 201, a first connecting block 202, a first conveying belt 203 and a guide rail 204, a fixing frame is provided on the working machine main body 1, the first driving motor 201 is disposed on the fixing frame, the first conveying belt 203 is connected with the first driving motor 201 through a transmission wheel, the first connecting block 202 is connected with the first conveying belt 203 through a screw, the first conveying belt 203 is located at two ends of the first cutting mechanism 3, the guide rail 204 is located on the working machine main body 1, two ends of the first cutting mechanism 3 are connected with the guide rail 204 through a slider, and the first conveying belt 203 and the guide rail 204 are located above the first placing table 6 and the second placing table 8.

In this embodiment, the second conveying structure 5 includes a second driving motor 501, a second conveying belt 502, a pre-tightening wheel 503 and a second connecting block 504, a fixing frame is disposed on the working machine main body 1, the second driving motor 501 is disposed on the fixing frame, the pre-tightening wheel 503 is disposed on the fixing frame, the second connecting block 504 is wound on the second conveying belt 502, the second conveying belt 502 is provided with the second connecting block 504, the second connecting block 504 is located on two sides of the second cutting mechanism 4, a guide rail is disposed on the working machine main body 1, and an end portion of the second cutting mechanism 4 is matched with the guide rail.

In this embodiment, the third conveying structure 9 includes a third driving motor 901, a conveying frame 902, a third connecting frame 903, and a third conveying belt 904, the conveying frame 902 is connected to the working machine body 1 through a first electric push rod 10, the third driving motor 901 is disposed on the conveying frame 902, the third conveying belt 904 is disposed on the conveying frame 902, and the third connecting frame 903 is connected to the third conveying belt 904 through a bolt.

In this embodiment, the guiding mechanism 12 includes a guiding column 1201, a limiting sleeve 1202, a guiding block 1203 and a limiting column 1204, the limiting column 1204 is disposed on the third conveying structure 9, the guiding column 1201, the limiting sleeve 1202 and the guiding block 1203 are disposed at the bottom end of the working machine main body 1 of the first placing table 6, the guiding column 1201 is slidably connected with the limiting sleeve 1202, and the guiding block 1203 is matched with the limiting column 1204.

In this embodiment, the first cutting mechanism 3 and the second cutting mechanism 4 are provided with clamping clips on both sides.

In this embodiment, the working machine main body 1 is connected to the folding mechanism 7 through the second electric push rod 11, and the folding mechanism 7 is located between the first placing table 6 and the second placing table 8.

It should be noted that, when in use, the present invention is a conveying mechanism of an RO film folding machine, in which, an RO film cut by a first cutting mechanism 3 is moved along a first conveying mechanism 2 by clamping clamps at two sides of the first cutting mechanism 3, at this time, a first conveying belt 203 is driven to rotate by a first driving motor 201, so that the first cutting mechanism 3 moves above a first placing table 6 and a second placing table 8 along the first conveying belt 203 and a guide rail 204, another RO film is conveyed above the previous RO film along a second conveying mechanism 5 by clamping clamps at two sides of the second cutting mechanism 4, a second conveying belt 502 on a pre-tightening wheel 503 is rotated by a second driving motor 501, so as to move the second cutting mechanism 4, and then a folding mechanism 7 is lifted by a first electric push rod 10 until the stacked RO films are pressed between the first placing table 6 and the second placing table 8, because press from both sides tight fixation clamp 13 and rotate the vertical position in folding mechanism 7 below, will press from both sides tight fixation clamp 13 and press from both sides tightly, then extend through the first electric putter 10 of extension, thereby the transport frame 902 of third conveying structure 9 goes up and down, drop to the top of placing the platform with third conveying structure 9, then third driving motor 901 rotates round third conveyer belt 904, it presss from both sides tight fixation clamp 13 to loosen when the top of placing the platform is reachd, thereby realize full-automatic transport, avoid manual operation to cause the pollution of RO diaphragm, and is practical.

Although illustrative embodiments of the present invention have been described herein with reference to the accompanying drawings, which are not intended to depart from the spirit and scope of the utility model, the same shall be construed as disclosed herein, and it will be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the utility model.

Claims (7)

1. A conveying mechanism of RO membrane folder, includes working machine main part (1), its characterized in that: a first placing platform (6) and a second placing platform (8) are arranged above the working machine main body (1), a folding mechanism (7) is arranged between the first placing table (6) and the second placing table (8), a first conveying structure (2) and a first cutting mechanism (3) are arranged on one side of the working machine main body (1), and the first cutting mechanism (3) moves along the first conveying structure (2), a second cutting mechanism (4) and a second conveying structure (5) are arranged above the second placing table (8), the second cutting mechanism (4) moves along the second conveying structure (5), a third conveying structure (9) is arranged on the working machine main body (1) and below the first placing table (6), a first electric push rod (10) is arranged in the middle of the third conveying structure (9), and a clamping fixing clamp (13) is arranged on the third conveying structure (9).

2. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: first transport structure (2) include first driving motor (201), first link (202), first conveyer belt (203) and guide rail (204), are provided with the mount on work machine main part (1), just first driving motor (201) sets up on the mount, and first conveyer belt (203) are connected with first driving motor (201) through the transmission wheel, be connected with first conveyer belt (203) through the screw on first link (202), first conveyer belt (203) are located the both ends of first mechanism (3) of cutting, guide rail (204) are located work machine main part (1), and the both ends of first mechanism (3) of cutting are connected with guide rail (204) through the slider, first conveyer belt (203) and guide rail (204) are located the top that first platform (6) and second were placed platform (8).

3. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: the second conveying structure (5) comprises a second driving motor (501), a second conveying belt (502), a pre-tightening wheel (503) and a second connecting block (504), a fixing frame is arranged on the working machine main body (1), the second driving motor (501) is arranged on the fixing frame, the pre-tightening wheel (503) is arranged on the fixing frame, the second connecting block (504) is wound on the second conveying belt (502), the second connecting block (504) is arranged on the second conveying belt (502), the second connecting block (504) is located on two sides of the second cutting mechanism (4), a guide rail is arranged on the working machine main body (1), and the end portion of the second cutting mechanism (4) is matched with the guide rail.

4. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: the third conveying structure (9) comprises a third driving motor (901), a conveying rack (902), a third connecting frame (903) and a third conveying belt (904), the conveying rack (902) is connected with the working machine main body (1) through a first electric push rod (10), the third driving motor (901) is arranged on the conveying rack (902), the third conveying belt (904) is arranged on the conveying rack (902), and the third connecting frame (903) is connected with the third conveying belt (904) through bolts.

5. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: the guide mechanism (12) comprises a guide post (1201), a limiting sleeve (1202), a guide block (1203) and a limiting post (1204), the limiting post (1204) is arranged on the third conveying structure (9), the guide post (1201), the limiting sleeve (1202) and the guide block (1203) are arranged at the bottom end of the first working machine main body (1) for placing the platform (6), the guide post (1201) is in sliding connection with the limiting sleeve (1202), and the guide block (1203) is matched with the limiting post (1204).

6. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: and clamping clamps are arranged on two sides of the first cutting mechanism (3) and the second cutting mechanism (4).

7. A conveying mechanism of an RO membrane folding machine according to claim 1, characterized in that: the working machine main body (1) is connected with a folding mechanism (7) through a second electric push rod (11), and the folding mechanism (7) is located between a first placing table (6) and a second placing table (8).

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