CN210171244U - Prevent structure that RO membrane filter core dispersed - Google Patents

Abstract

The utility model provides a prevent structure that RO membrane filter core dispersed belongs to the technical field of purifier preparation. A structure for preventing the dispersion of an RO membrane filter element comprises a working table plate, a belt conveying structure and a clamping position; the utility model discloses a set up the logical groove of a rectangle on the work platen, and be provided with in the length direction's that leads to the groove both sides and send the structure, and axial both ends that just are located logical groove in the bottom of work platen all are provided with the screens, lay the sticky tape in logical inslot through sending the structure, and place the RO membrane filter core of rolling up in logical inslot, make the lower part and the both sides limit of filter core all wrapped up by the sticky tape, then insert the both ends of establishing the center tube of filter core and continue pulling down the filter core to one side of the tank bottom that leads to the groove back again rotatory through sending the structure, make the sticky tape wound on the surface of filter core, thereby prevent the scattering of filter core, need not artifical manual operation, production efficiency is higher, the work burden is littleer, more do benefit to.

Description

Prevent structure that RO membrane filter core dispersed

Technical Field

The utility model relates to a technical field of purifier preparation specifically is a structure that prevents RO membrane filter core and scatter.

Background

The membrane operation need be rolled up to the in-process of RO membrane filter core preparation, but if not wrapping up the filter core behind the roll of steamed bun, the filter core can scatter naturally, causes to restore again or the condemned problem of product, has not only caused the waste of resource, has still caused great work burden simultaneously, is unfavorable for the production of product and makes.

At present, the mode that prevents RO membrane filter core from scattering on the market is for after rolling up the membrane, twine the round sticky tape in the outside manual work of filter core again, tie the filter core through the sticky tape to prevent to roll up good RO membrane filter core and scatter, nevertheless, the manual work is twined the sticky tape inefficiency, and artificial burden is big moreover, has caused increase of manufacturing cost, is unfavorable for the popularization and the popularization of product.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, it aims at providing a structure of preventing RO membrane filter core from scattering now, realized directly placing one with the RO membrane filter core of rolling up and laid the logical inslot of sticky tape, the screens that lead to the groove both ends are with filter core to tank bottom one side drop-down and rotatory certain angle, make can twine the round sticky tape fast on the filter core, realized preventing the operation of loosing to the RO membrane filter core of rolling up, need not artifical manual winding, can improve work efficiency, also can alleviate artifical burden, make the manufacturing cost of product lower, more do benefit to the popularization and the popularization of product.

The specific technical scheme is as follows:

a configuration for preventing unraveling of an RO membrane cartridge, characterized by comprising: the automatic feeding device comprises a working table plate, a feeding structure and clamping positions, wherein the working table plate is horizontally arranged, a rectangular through groove is formed in the middle of the working table plate, the feeding structure is arranged on the two sides of the working table plate in the length direction of the through groove, the clamping positions are arranged at the bottom of the working table plate and at the two axial ends of the through groove, wherein,

the tape conveying structure comprises a tape roll, a chuck and a cutter, the tape roll comprises a roll shaft, an adhesive tape is wound on the roll shaft, the roll shaft and the chuck are respectively arranged on two sides of the length direction of the through groove and are arranged oppositely, and the cutter is arranged on the working table plate and positioned between the roll shaft and the through groove;

the screens is including initiative screens and cooperation screens, and initiative screens and cooperation screens are located logical axial both ends and both relative settings respectively, and simultaneously, the axial slip who leads to the groove can be followed to initiative screens and cooperation screens homoenergetic, and the screens of initiative can be around self axis rotation.

The structure for preventing the RO membrane filter element from scattering is characterized in that the width of the through groove is equal to the sum of the diameter of the filter element and the thickness of the two layers of adhesive tapes.

The utility model provides a prevent structure that RO membrane filter core dispersed, wherein, initiative screens is including initiative guide rail, initiative movable plate, initiative stretching rod, initiative rotating device and initiative driver, and the one end that the groove was just located to the axial arrangement that leads to the groove is followed to the initiative guide rail, and the gliding initiative movable plate that is equipped with of initiative guide rail, and is fixed with the initiative rotating device on the initiative movable plate, and is provided with the initiative stretching rod along its axial extension in the pivot of initiative rotating device to be provided with the initiative driver on the initiative movable plate.

The utility model provides a foretell structure of preventing RO membrane filter core from scattering, wherein, the cooperation screens is including cooperation guide rail, cooperation movable plate, cooperation stretch pole and cooperation driver, and the cooperation guide rail is arranged and is located the other end that leads to the groove along the axial that leads to the groove, and the slip is equipped with the cooperation movable plate on the cooperation guide rail, and is fixed with the cooperation on the cooperation movable plate and stretches pole and cooperation driver, and the cooperation stretches the pole and initiatively stretches the pole and set up relatively.

Foretell structure of preventing RO membrane filter core from scattering, wherein, initiative stretcher and cooperation stretcher all are the conical setting, and the pointed end of initiative stretcher and the relative setting of pointed end of cooperation stretcher.

The anti-dispersion structure of the RO membrane filter element is characterized in that the distance between the chuck and the cutter is larger than the perimeter of the cross section of the filter element.

The structure for preventing the RO membrane filter element from scattering also comprises a controller, wherein the controller is electrically connected to the active driver, the matching driver and the active rotator.

The positive effects of the technical scheme are as follows:

foretell structure of preventing RO membrane filter core and scattering, through setting up the work platen that the groove was led to in the area, and the both sides that lead to the groove are provided with and send the area structure, make logical inslot laid the sticky tape, thereby make bottom and both sides of placing in logical inslot RO membrane filter core wrapped up by the sticky tape, and insert the both ends of establishing the center tube of RO membrane filter core and drop-down back rotation through the screens, make the upper portion of filter core realize the parcel at rotatory in-process, thereby make the whole of RO membrane filter core all wrapped up by the sticky tape, realize preventing of RO membrane filter core and scatter the operation, need not artifical manual winding sticky tape, production efficiency is higher, workman's work burden has been alleviateed, thereby the manufacturing cost of product has been reduced, more do benefit to the popularization.

Drawings

Fig. 1 is a structural view of an embodiment of a structure for preventing the dispersion of the RO membrane cartridge according to the present invention;

fig. 2 is a view angle structure diagram of the position lock according to a preferred embodiment of the present invention.

In the drawings: 1. a work table; 11. a through groove; 2. a belt feeding structure; 21. a coil of tape; 22. a chuck; 23. a cutter; 211. a roll shaft; 212. an adhesive tape; 3. clamping; 31. active clamping; 32. matching and clamping; 311. an active guide rail; 312. actively moving the board; 313. actively extending the rod; 314. an active rotator; 315. an active driver; 321. matching with a guide rail; 322. a movable plate is matched; 323. matching with the extension rod; 324. and (4) matching with the driver.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the following embodiments are specifically described with reference to fig. 1 to 2, but the following contents are not intended to limit the present invention.

Fig. 1 is a structural view of an embodiment of a structure for preventing the dispersion of the RO membrane cartridge according to the present invention; fig. 2 is a view angle structure diagram of the position lock according to a preferred embodiment of the present invention. As shown in fig. 1 and 2, the present embodiment provides a structure for preventing the dispersion of an RO membrane cartridge, comprising: the filter core is characterized in that the work table plate 1, the belt conveying structures 2 and the clamping positions 3 are arranged, the work table plate 1 is horizontally arranged, the middle of the work table plate 1 is provided with a through groove 11 which is arranged in a rectangular shape, the belt conveying structures 2 are arranged on the work table plate 1 and positioned on two sides of the length direction of the through groove 11, the clamping positions 3 are arranged at the bottom of the work table plate 1 and positioned at two axial ends of the through groove 11, the adhesive tape 212 is laid in the through groove 11 through the belt conveying structures 2, after the membrane of the RO membrane filter core is rolled and placed in the through groove 11, the filter core presses the adhesive tape 212 into the through groove 11, so that the lower part and the side edges of the filter core are both wrapped by the adhesive tape 212, then the adhesive tape 3 is inserted into two ends of a central tube of the filter core, the filter core is continuously pulled down and rotated towards the bottom of the through groove 11 through the clamping positions 3, the filter core, the dispersion of the RO membrane filter element is prevented, the adhesive tape 212 is not required to be wound manually, the production efficiency is higher, the workload is lighter, the production cost of the product is effectively reduced, and the popularization of the product is facilitated.

Specifically, the belt feeding structure 2 disposed on the work table 1 and located on both sides in the length direction of the through groove includes a belt roll 21, a chuck 22, and a cutter 23, the belt roll 21 further includes a roller shaft 211, the roller shaft 211 is wound with an adhesive tape 212, the roller shaft 211 and the chuck 22 are respectively disposed on both sides in the length direction of the through groove 11 and are disposed opposite to each other, and the cutter 23 is disposed on the work table 1 and between the roller shaft 211 and the through groove 11, so that when the adhesive tape 212 is laid in the through groove 11, only one end of the adhesive tape 212 needs to be pulled through the through groove 11 and fixed by the chuck 22, and after the RO membrane cartridge is placed in the through groove 11, the adhesive tape 212 can be cut off from the roller shaft 211 by the operation of the cutter 23, so that when the RO membrane cartridge rotates, the cut end of the adhesive tape 212 can be completely covered on the cartridge, thereby achieving the purpose of attaching both ends of the adhesive tape 212 to the cartridge, thereby the completion is to the all-round parcel of filter core, prevents the scattering of filter core.

Specifically, set up in the bottom of work platen 1 and be located the screens 3 at the axial both ends that lead to groove 11 including initiative screens 313 and cooperation screens 323, initiative screens 313 and cooperation screens 323 are located respectively and lead to the axial both ends of groove 11 and both relative settings, and simultaneously, the axial slip that leads to groove 11 is followed to initiative screens 313 and cooperation screens 323 homoenergetic, and initiative screens 313 can be rotatory around self axis, make place in leading to the inslot back at the RO membrane filter core, initiative screens 313 and cooperation screens 323 all draw close to the filter core, make the both ends of the center tube of locating the filter core inserted with cooperation screens 323, and the rotation through initiative screens 313 drives the RO membrane filter core and rotates, realize the omnidirectional parcel of RO membrane filter core, prevent scattering of filter core.

More specifically, the groove width that leads to groove 11 equals the diameter of filter core and the sum of the thickness of two-layer sticky tape 212 for the filter core can just be lived and smoothly passes through by sticky tape 212 parcel after putting into logical groove 11, makes and can compress tightly sticky tape 212 on the filter core when the filter core passes through logical groove 11 on the surface, has realized the purpose that prevents the filter core and scatter, and the structure is more reasonable.

More specifically, the active clamping portion 313 further includes an active guide rail 311, an active moving plate 312, an active extension rod 313, an active rotator 314, and an active driver 315, wherein the active guide rail 311 is disposed along an axial direction of the through slot 11 and located at one end of the through slot 11, the active moving plate 312 is slidably disposed on the active guide rail 311, the active rotator 314 is fixed on the active moving plate 312, the active extension rod 313 is disposed on a rotating shaft of the active rotator 314 along an axial extension thereof, and the active driver 315 is disposed on the active moving plate 312, so that after the filter element is placed in the through slot 11, the active moving plate 312 moves toward one end close to the filter element along the active guide rail 311 under the action of the active driver 315, so that one end of the active extension rod 313 is inserted into one end of a central tube of the filter element, and one end of.

In addition, the matching block 323 comprises a matching guide rail 321, a matching moving plate 322, a matching extension rod 323 and a matching driver 324, the matching guide rail 321 is arranged along the axial direction of the through slot 11 and is located at the other end of the through slot 11, the matching moving plate 322 is slidably arranged on the matching guide rail 321, the matching extension rod 323 and the matching driver 324 are fixed on the matching moving plate 322, and the matching extension rod 323 and the active extension rod 313 are oppositely arranged, so that after the filter element is placed in the through slot 11, the matching moving plate 322 moves towards one end close to the filter element along the matching guide rail 321 under the action of the matching driver 324, one end of the matching extension rod 323 is inserted into the other end of the central tube of the filter element, the other end of the filter element is fixed, the fixing of one end of the filter element by combining the active block 313 is performed, so that the two ends of the filter element are fixed by the active block 313 and the matching block 323 respectively, the cartridge is rotated so that the outer surface of the cartridge is wrapped by the tape 212, thereby preventing the dispersion of the RO membrane cartridge.

More specifically, initiative stretch out pole 313 and cooperation stretch out pole 323 all are conical setting, and the tip of initiative stretch out pole 313 sets up with cooperation stretch out pole 323 most advanced relatively, make initiative stretch out pole 313 and cooperation stretch out pole 323 insert the one end of establishing in the center tube of filter core and be the inclined plane setting, thereby make when inserting the center tube, the center tube pushes down the center tube under the effect on the inclined plane of initiative stretch out pole 313 and cooperation stretch out pole 323, thereby make the filter core move towards bottom one side of logical groove 11, thereby be convenient for follow-up rotation to the filter core, the all-round winding to the filter core has been guaranteed, thereby the scattering of filter core has been prevented.

More specifically, the distance between the chuck 22 and the cutter 23 is greater than the circumference of the cross section of the filter element, so that after the cutter 23 cuts the adhesive tape 212, the two ends of the cut adhesive tape 212 can be completely covered with the filter element after being wrapped, the stability of wrapping the adhesive tape 212 is ensured, the problem that the filter element cannot be completely wrapped due to the fact that the length of the adhesive tape 212 is insufficient is solved, and the structure is more reasonable.

More specifically, the controller is further provided, the controller is electrically connected to the active driver 315, the matching driver 324 and the active rotator 314, and the controller controls the movement of the clamping position 3, so that the wrapping control operation of the filter element is more convenient, the production efficiency is improved, and the workload is reduced.

The structure for preventing the RO membrane filter element from scattering provided by the embodiment comprises a workbench plate 1, a belt conveying structure 2 and a clamping position 3; through set up a rectangle through groove 11 on work platen 1, and be provided with in the length direction's that leads to groove 11 both sides and send the structure 2, and all be provided with screens 3 in the bottom of work platen 1 and be located the axial both ends that lead to groove 11, lay sticky tape 212 in leading to groove 11 through sending the structure 2, and place the RO membrane filter core of rolling up in leading to groove 11, make the lower part and the both sides limit of filter core all wrapped up by sticky tape 212, then insert the both ends of establishing the center tube of filter core and continue pulling down the filter core to the one side of the tank bottom that leads to groove 11 back rotation again through screens 3, make sticky tape 212 twined on the surface of filter core, thereby prevent the scattering of filter core, need not artifical manual operation, production efficiency is higher, the work burden is littleer, more do benefit to the popularization and popularization of product.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (7)

1. A structure for preventing dispersion of RO membrane cartridge, comprising: the automatic belt feeding device comprises a working table plate, belt feeding structures and clamping positions, wherein the working table plate is horizontally arranged, a rectangular through groove is formed in the middle of the working table plate, the belt feeding structures are arranged on the two sides of the working table plate in the length direction of the through groove, the clamping positions are arranged at the bottom of the working table plate and at the two axial ends of the through groove, the clamping positions are arranged on the bottom of the working table plate,

the tape conveying structure comprises a tape roll, a chuck and a cutter, the tape roll comprises a roll shaft, an adhesive tape is wound on the roll shaft, the roll shaft and the chuck are respectively arranged on two sides of the length direction of the through groove and are arranged oppositely, and the cutter is arranged on the working table plate and between the roll shaft and the through groove;

the screens is including initiative screens and cooperation screens, initiative screens with the cooperation screens is located respectively lead to axial both ends of groove and both relative settings, simultaneously, initiative screens with cooperation screens homoenergetic is followed lead to the axial slip of groove, just the initiative screens can be rotatory around self axis.

2. The anti-RO membrane cartridge fan out construction of claim 1 wherein the channel width of the channel is equal to the diameter of the cartridge plus the thickness of the two layers of tape.

3. The structure of preventing the dispersion of RO membrane filter core of claim 1, characterized in that, the initiative screens include initiative guide rail, initiative movable plate, initiative stretcher bar, initiative rotation ware and initiative driver, the initiative guide rail is arranged along the axial of logical groove and is located the one end of logical groove, slide on the initiative guide rail and be equipped with the initiative movable plate, just be fixed with on the initiative movable plate the initiative rotation ware, just be provided with along its axial extension in the pivot of initiative rotation ware the initiative stretcher bar, and be provided with on the initiative movable plate the initiative driver.

4. The structure of preventing the dispersion of RO membrane filter core of claim 3, characterized in that, the cooperation screens include cooperation guide rail, cooperation movable plate, cooperation stretching rod and cooperation driver, the cooperation guide rail is arranged along the axial of logical groove and is located the other end of logical groove, the cooperation guide rail is slided and is equipped with the cooperation movable plate, and be fixed with on the cooperation movable plate the cooperation stretching rod with the cooperation driver, just the cooperation stretching rod with the initiative stretching rod sets up relatively.

5. The RO membrane filter cartridge spreading prevention structure of claim 4, wherein the active lance and the mating lance are both arranged in a conical shape, and the tip of the active lance and the tip of the mating lance are arranged opposite to each other.

6. The RO membrane cartridge fan-out prevention structure of claim 2 wherein the distance between the cartridge and the cutter is greater than the circumference of the cross-section of the cartridge.

7. The RO membrane cartridge fan-out prevention structure of claim 4 further comprising a controller electrically connected to the active driver, the mating driver and the active rotator.

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