CN217577821U - Automatic pouring device for spinning - Google Patents

Abstract

The utility model discloses an automatic pouring device of spinning in fibre membrane spinning production field, its structure includes lateral shifting mechanism, lifting mechanism, spinning shutdown mechanism, longitudinal movement mechanism, the wire winding wheel, lifting mechanism installs in lateral shifting mechanism both sides, spinning shutdown mechanism rigid coupling is on lateral shifting mechanism upper surface center axis, longitudinal movement mechanism rigid coupling is in the lifting mechanism right-hand member, the wire winding wheel is installed in the longitudinal movement mechanism top, lifting mechanism and longitudinal movement mechanism cooperation can drive the wire winding wheel and carry out vertical displacement, moving mechanism can cooperate longitudinal movement mechanism to replace the manual work to carry out the work of coiling, the hollow fiber membrane spinning length that each wire winding wheel of control that spinning shutdown mechanism can be accurate coiled, improve the degree of coiling work automation, lifting mechanism can collect the work by quick effectual supplementary manual work, great improvement the automatic efficiency of pouring work of hollow fiber membrane spinning.

Description

Automatic pouring device for spinning

Technical Field

The utility model relates to a fibre membrane spinning production field specifically relates to an automatic pouring device of spinning.

Background

The hollow fiber membrane is a membrane having a self-supporting function and a fibrous shape. The hollow fiber membrane is prepared by processing polysulfone and dimethylacetamide serving as raw materials into fiber filaments with hollow inner cavities, and then dividing the fiber filaments by a high-permeability polymer, and has a selective permeability characteristic. Because the water vapor, the hydrogen, the ammonia and the carbon dioxide permeate fast, and the methane, the nitrogen, the argon, the oxygen, the carbon monoxide and the like permeate slowly, so that the permeation is fast and the permeation is slow, the hollow fiber membrane belongs to the fiber membrane type of continuous production, the hollow fiber membrane is usually stored in a winding mode by adopting a winding wheel to spin the processed hollow fiber membrane, and the hollow fiber membrane can be conveniently and quickly collected by the storage method.

Aiming at the current automatic material pouring device for spinning, a relative scheme is made aiming at the following problems:

the mode that present hollow fiber membrane spinning falls the material device and comes to spin the spinning to take in hollow fiber membrane that adopts usually, and the unable accurate control hollow fiber membrane spinning length of traditional winding mode causes each batch of wire winding wheel wire winding length and appearance nonconformity easily, and artifical winding work inefficiency very influences the efficiency of hollow fiber membrane spinning winding work.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at overcomes prior art not enough, provides an automatic pouring device of spinning.

The utility model discloses a following technical scheme realizes: the utility model provides an automatic pouring device of spinning, its structure includes lateral shifting mechanism, lifting mechanism, spinning shutdown mechanism, longitudinal movement mechanism, wire winding wheel, lifting mechanism installs in lateral shifting mechanism both sides, spinning shutdown mechanism rigid coupling is on the central axis of lateral shifting mechanism upper surface, longitudinal movement mechanism rigid coupling is in the lifting mechanism right-hand member, the wire winding wheel is installed in longitudinal movement mechanism top, lifting mechanism can drive the wire winding wheel with the cooperation of longitudinal movement mechanism and carry out vertical displacement.

Further, lateral shifting mechanism includes bearing structure board, driven slider, transmission lead screw, spacing tailstock, driving motor, slide rail, supporting slider, moving platform, the slide rail is installed in the bearing platform upper surface both sides that the bearing structure board was established, the supporting slider is installed in the slide rail top, the supporting platform upper surface that the driving motor rigid coupling was established on bearing structure board right side, transmission lead screw rigid coupling is on the driving motor output shaft, spacing tailstock is installed at the transmission lead screw terminally, driven slider installs in the transmission lead screw top, the moving platform rigid coupling is in driven slider and supporting slider upper surface, driven slider drives moving platform and removes, the supporting slider follows moving platform and moves in step.

Further, lifting mechanism includes fixed hinge wheel, support arm, driven lead screw, elevator motor, perpendicular connecting plate, articulated piece, fixed hinge wheel rigid coupling in moving platform left end, the support arm articulates in fixed hinge wheel right side, perpendicular connecting plate is installed perpendicularly in the moving platform right-hand member, elevator motor articulates in perpendicular connecting plate lower extreme, driven lead screw installs inside elevator motor, articulated piece articulates in driven lead screw right-hand member.

Further, spinning shutdown mechanism includes horizontal shifter, cutting blade, cutter motor, direction slider, guide rail, the guide rail rigid coupling is in moving platform upper surface, horizontal shifter installs at the guide rail left end, the direction slider is installed on horizontal shifter right side, cutter motor rigid coupling is in direction slider upper end, the cutting blade is installed on cutter motor output shaft.

Further, the longitudinal movement mechanism comprises a supporting block, a driven wheel, a transmission belt, a wire winding motor, a driving wheel, a supporting flat plate, a polished rod fixing seat, a polished rod mover and a fixed polished rod, wherein the polished rod fixing seat is fixedly connected to the upper surface of a platform arranged at the right end of the supporting arm, the fixed polished rod is fixedly connected to the upper end of the polished rod fixing seat, the polished rod mover is installed on the fixed polished rod, the supporting flat plate is fixedly connected to the upper surface of the polished rod mover, the hinged block is fixedly connected to the lower surface of the supporting flat plate, the supporting block and the wire winding motor are installed on two sides of the upper surface of the supporting flat plate, the driving wheel is installed on an output shaft of the wire winding motor, the driven wheel is hinged in a through hole arranged at the upper end of the supporting block, the transmission belt is installed on the outer surface of the driving wheel and the outer surface of the driven wheel, and the wire winding wheel is installed on an output rod at the right end of the driving wheel.

Furthermore, a group of unilateral material pouring structures is formed by the lifting mechanism and the longitudinal moving mechanism, and two groups of unilateral material pouring structures are arranged above the transverse moving mechanism and symmetrically distributed on the upper surface of the moving platform in the transverse moving mechanism.

Furthermore, the driven slide block and the transmission screw rod form a screw rod transmission structure, the screw rod transmission structure is installed on the mobile platform, and the mobile platform moves back and forth along with the screw rod transmission structure.

Furthermore, the polished rod fixing seat, the polished rod mover and the fixed polished rod form a group of horizontal moving structures, and two groups of horizontal moving structures are arranged on the lower surface of the supporting flat plate.

Furthermore, a group of connecting rod slider mechanisms is formed by the fixed hinge wheel, the supporting arm, the driven screw rod, the lifting motor, the vertical connecting plate and the hinge block, the lifting mechanism swings by taking the fixed hinge wheel as a rotating fulcrum, and the hinge block arranged at the tail end of the supporting arm is pushed to drive the longitudinal moving mechanism to move horizontally.

Advantageous effects

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses the moving mechanism who is equipped with can cooperate vertical moving mechanism to replace the manual work to carry out the work of coiling, and the hollow fiber membrane spinning length that each wire winding wheel of control that spinning shutdown mechanism can be accurate was convoluteed improves the degree of coiling work automation, and lifting mechanism can be quick effectual supplementary manual work to collect work to the wire winding wheel, great improvement the automatic efficiency of falling the material work of hollow fiber membrane spinning.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is a front view of the lifting mechanism of the present invention.

Fig. 3 is a front view of the longitudinal moving mechanism of the present invention.

Fig. 4 is a schematic view of the overall structure of the moving mechanism of the present invention.

Fig. 5 is a front view of the spinning cutting mechanism of the present invention.

In the figure: the device comprises a moving mechanism 1, a lifting mechanism 2, a spinning cutting mechanism 3, a longitudinal moving mechanism 4, a wire winding wheel 5, a supporting structure plate 11, a driven slider 12, a transmission screw rod 13, a limit tailstock 14, a transmission motor 15, a slide rail 16, a support slider 17, a moving platform 18, a fixed hinge wheel 21, a support arm 22, a driven screw rod 23, a lifting motor 24, a vertical connecting plate 25, a hinge block 26, a horizontal shifter 31, a cutting blade 32, a cutter motor 33, a guide slider 34, a guide rail 35, a support block 41, a driven wheel 42, a transmission belt 43, a wire winding motor 44, a driving wheel 45, a support flat plate 46, a polished rod fixing seat 47, a polished rod shifter 48 and a fixed polished rod 49.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides an automatic material pouring device for spinning: the structure of the device comprises a transverse moving mechanism 1, a lifting mechanism 2, a spinning cutting mechanism 3, a longitudinal moving mechanism 4 and a winding wheel 5, wherein the lifting mechanism 2 is arranged on two sides of the transverse moving mechanism 1, the spinning cutting mechanism 3 is fixedly connected on the central axis of the upper surface of the transverse moving mechanism 1, the longitudinal moving mechanism 4 is fixedly connected at the right end of the lifting mechanism 2, the winding wheel 5 is arranged above the longitudinal moving mechanism 4, the lifting mechanism 2 and the longitudinal moving mechanism 4 are matched to drive the winding wheel 5 to vertically displace, the transverse moving mechanism 1 comprises a supporting structure plate 11, a driven slide block 12, a transmission screw rod 13, a limiting tailstock 14, a transmission motor 15, a slide rail 16, a supporting slide block 17 and a moving platform 18, the slide rail 16 is arranged on two sides of the upper surface of the supporting structure plate 11, the supporting slide block 17 is arranged above the slide rail 16, the supporting slide block 17 and the slide rail 16 form a set of moving slide rails, as shown in fig. 4, two sets of moving slide rails are arranged on the upper surface of the supporting platform of the supporting structure plate 11, the two sets of moving slide rails are symmetrically distributed on the upper surface of the supporting platform of the supporting structure plate 11, the transmission motor 15 is fixedly connected to the upper surface of the supporting platform arranged on the right side of the supporting structure plate 11, the transmission screw 13 is fixedly connected to the output shaft of the transmission motor 15, the limit tailstock 14 is installed at the tail end of the transmission screw 13, the driven slide block 12 is installed above the transmission screw 13, the driven slide block 12 and the transmission screw 13 form a screw transmission structure, the driven slide block 12 can move left and right along with the transmission screw 13, the moving platform 18 is fixedly connected to the upper surfaces of the driven slide block 12 and the supporting slide block 17, and the driven slide block 12 drives the moving platform 18 to move left and right, the supporting sliding block 17 moves synchronously along with the moving platform 18, the lifting mechanism 2 comprises a fixed hinge wheel 21, a supporting arm 22, a driven screw rod 23, a lifting motor 24, a vertical connecting plate 25 and a hinged block 26, the fixed hinge wheel 21 is fixedly connected to the left end of the moving platform 18, the supporting arm 22 is hinged to the right side of the fixed hinge wheel 21, the vertical connecting plate 25 is vertically installed at the right end of the moving platform 18, the lifting motor 24 is hinged to the lower end of the vertical connecting plate 25, the driven screw rod 23 is installed in the lifting motor 24, the hinged block 26 is hinged to the right end of the driven screw rod 23, the spinning cutting mechanism 3 comprises a horizontal mover 31, a cutting blade 32, a cutter motor 33, a guiding sliding block 34 and a guide rail 35, the guide rail 35 is fixedly connected to the upper surface of the moving platform 18, the horizontal mover 31 is installed at the left end of the guide rail 35, the guiding sliding block 34 is installed at the right side of the horizontal mover 31, the guide slider 34 can move back and forth on the upper surface of the guide rail 35 along with the moving arm of the horizontal mover 31, the cutter motor 33 is fixedly connected to the upper end of the guide slider 34, the cutting blade 32 is mounted on the output shaft of the cutter motor 33, the longitudinal moving mechanism 4 comprises a supporting block 41, a driven wheel 42, a transmission belt 43, a wire winding motor 44, a driving wheel 45, a supporting plate 46, a polish rod fixing seat 47, a polish rod mover 48 and a fixed polish rod 49, the polish rod fixing seat 47 is fixedly connected to the upper surface of a platform arranged at the right end of the supporting arm 22, the fixed polish rod 49 is fixedly connected to the upper end of the polish rod fixing seat 47, the polish rod mover 48 is mounted on the fixed polish rod 49, the supporting plate 46 is fixedly connected to the upper surface of the polish rod mover 48, the hinge block 26 is fixedly connected to the lower surface of the supporting plate 46, the supporting block 41 and the wire winding motor 44 are both mounted on both sides of the upper surface of the supporting plate 46, the device comprises a driving wheel 45, a winding wheel motor 44, a driven wheel 42, a transmission belt 43, a winding wheel 5, a winding wheel motor 44, a transverse moving mechanism 1, a polished rod fixing seat 47, a polished rod mover 48 and a fixed polished rod 49, wherein the driving wheel 45 is mounted on an output shaft of the winding wheel motor 44, the driven wheel 42 is hinged in a through hole arranged at the upper end of a supporting block 41, the transmission belt 43 is mounted on the outer surfaces of the driving wheel 45 and the driven wheel 42, the winding wheel 5 is mounted on an output rod at the right end of the driving wheel 45, the driving wheel 45 is driven by the winding wheel motor 44 to drive the driving wheel 45 to enable the winding wheel 5 to rotate, the lifting mechanism 2 and the longitudinal moving mechanism 4 form a single-side material pouring structure, two single-side material pouring structures are arranged above the transverse moving mechanism 1 and are symmetrically distributed on the upper surface of a moving platform 18 in the transverse moving mechanism 1, the polished rod fixing seat 47, the polished rod mover 48 and the fixed polished rod 49 form a group of horizontal moving structure, two groups of horizontal moving structures are arranged on the lower surface of the supporting plate 46, the polished rod mover 48 can move left and right along with the supporting plate 46, as shown in the attached figure 2, the fixed hinged wheel 21, the supporting arm 22, the tail end of the supporting block is driven screw rod 23, the lifting mechanism drives the supporting block to move left and right to move, and right, and move, and the supporting arm 26 to move to drive the horizontal moving mechanism to move horizontally to move.

The utility model relates to an automatic pouring device's of spinning theory of operation:

when the automatic material pouring device for spinning is used, the formed hollow fiber membrane spinning is fixed above a winding wheel, as shown in figure 3, a driving wheel arranged on a cutter motor drives the driving wheel to rotate through a transmission belt, so that the winding wheel arranged on one side of the driving wheel performs rotary motion to perform winding work on the hollow fiber membrane spinning, in the winding process of the winding wheel, a screw rod transmission structure arranged below a moving platform can displace along with the increase of the winding width of the hollow fiber membrane spinning, so that the hollow fiber membrane spinning always keeps a linear posture for winding work, after the winding wheel finishes the winding work, a horizontal shifter in a spinning cutting mechanism can push a cutting blade to move rightwards to cut the hollow fiber membrane spinning, after the cutting work is finished, the horizontal shifter brings the cutting blade back to the original position, and at the moment, the moving mechanism drives the screw rod transmission structure through the transmission motor, the winding wheel which is wound at the left end of the movable platform is driven to move from right to left, the winding wheel at the right end above the movable platform is moved in place, the hollow fiber membrane is manually fixed again, as shown in figure 2, at the moment, the lifting mechanism drives the driven screw rod to carry out lifting work through the lifting motor, the lifting motor conveys the driven screw rod from bottom to top, the hinge block arranged at the right end of the driven screw rod pushes the longitudinal moving mechanism and simultaneously drives the supporting arm in the lifting mechanism, the supporting arm swings upwards by taking the fixed hinge wheel as a fulcrum, the lifting mechanism is in matched linkage with the longitudinal moving mechanism, the winding wheel can keep a vertical posture to move upwards, after the winding wheel is moved to a specified height, the winding wheel which is wound can be taken down, a new winding wheel is replaced, and the winding work is continued, when the wire winding wheel is reinstalled, the lifting mechanism can lower the reinstalled wire winding wheel to a working position, and meanwhile, the support arm and the moving platform can keep a parallel position, and the hollow fiber membrane spinning and material pouring work can be repeatedly carried out.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides an automatic pouring device of spinning, its structure includes lateral shifting mechanism (1), lifting mechanism (2), spinning shutdown mechanism (3), longitudinal movement mechanism (4), wire winding wheel (5), its characterized in that:

lifting mechanism (2) are installed in lateral shifting mechanism (1) both sides, spinning shutdown mechanism (3) rigid coupling is on lateral shifting mechanism (1) upper surface center axis, longitudinal movement mechanism (4) rigid coupling is in lifting mechanism (2) right-hand member, install in longitudinal movement mechanism (4) top wire winding wheel (5), lifting mechanism (2) can drive wire winding wheel (5) with longitudinal movement mechanism (4) cooperation and carry out vertical displacement.

2. The automatic material pouring device for spinning according to claim 1, characterized in that: lateral shifting mechanism (1) is including bearing structure board (11), driven slider (12), transmission lead screw (13), spacing tailstock (14), drive machine (15), slide rail (16), support slider (17), moving platform (18), the supporting platform upper surface both sides that bearing structure board (11) were established are installed in slide rail (16), support slider (17) are installed in slide rail (16) top, drive machine (15) rigid coupling is in the supporting platform upper surface that bearing structure board (11) right side was established, drive lead screw (13) rigid coupling is on drive machine (15) output shaft, spacing tailstock (14) are installed at transmission lead screw (13) end, install in transmission lead screw (13) top driven slider (12), moving platform (18) rigid coupling is in driven slider (12) and support slider (17) upper surface, driven slider (12) drive moving platform (18) and remove about, support slider (17) follow moving platform (18) and move in step.

3. The automatic material pouring device for spinning according to claim 1, characterized in that: lifting mechanism (2) are including fixed hinge wheel (21), support arm (22), driven lead screw (23), elevator motor (24), perpendicular connecting plate (25), articulated piece (26), fixed hinge wheel (21) rigid coupling is in moving platform (18) left end, support arm (22) articulate in fixed hinge wheel (21) right side, perpendicular connecting plate (25) are installed in moving platform (18) right-hand member perpendicularly, elevator motor (24) articulate in perpendicular connecting plate (25) lower extreme, install inside elevator motor (24) driven lead screw (23), articulated piece (26) articulate in driven lead screw (23) right-hand member.

4. The automatic material pouring device for spinning according to claim 1, characterized in that: spinning shutdown mechanism (3) are including horizontal shifter (31), cutting blade (32), cutter motor (33), direction slider (34), guide rail (35) rigid coupling is in moving platform (18) upper surface, horizontal shifter (31) are installed at guide rail (35) left end, direction slider (34) are installed on horizontal shifter (31) right side, cutter motor (33) rigid coupling is in direction slider (34) upper end, cutting blade (32) are installed on cutter motor (33) output shaft.

5. The automatic material pouring device for spinning according to claim 3, wherein: the longitudinal moving mechanism (4) comprises a supporting block (41), a driven wheel (42), a transmission belt (43), a wire winding motor (44), a driving wheel (45), a supporting flat plate (46), a polished rod fixing seat (47), a polished rod mover (48) and a fixed polished rod (49), wherein the polished rod fixing seat (47) is fixedly connected to the upper surface of a platform arranged at the right end of the supporting arm (22), the fixed polished rod (49) is fixedly connected to the upper end of the polished rod fixing seat (47), the polished rod mover (48) is installed on the fixed polished rod (49), the supporting flat plate (46) is fixedly connected to the upper surface of the polished rod mover (48), a hinge block (26) is fixedly connected to the lower surface of the supporting flat plate (46), the supporting block (41) and the wire winding motor (44) are installed on two sides of the upper surface of the supporting flat plate (46), the driving wheel (45) is installed on an output shaft of the wire winding motor (44), the driven wheel (42) is hinged in a through hole formed in the upper end of the supporting block (41), the transmission belt (43) is installed on the outer surfaces of the driving wheel (45) and the driven wheel (42), and the wire winding wheel (5) is installed on an output rod at the right end of the driving wheel (45).

6. The automatic material pouring device for spinning according to claim 1, characterized in that: the lifting mechanism (2) and the longitudinal moving mechanism (4) form a group of single-side material pouring structures, two groups of single-side material pouring structures are arranged above the transverse moving mechanism (1), and the single-side material pouring structures are symmetrically distributed on the upper surface of a moving platform (18) in the transverse moving mechanism (1).

7. The automatic material pouring device for spinning according to claim 2, characterized in that: the driven slide block (12) and the transmission screw rod (13) form a screw rod transmission structure, the screw rod transmission structure is installed on the moving platform (18), and the moving platform (18) moves left and right along with the screw rod transmission structure.

8. The automatic material pouring device for spinning according to claim 5, wherein: the polished rod fixing seat (47), the polished rod shifter (48) and the fixed polished rod (49) form a group of horizontal moving structures, and two groups of horizontal moving structures are arranged on the lower surface of the supporting flat plate (46).

9. The automatic material pouring device for spinning according to claim 3, wherein: fixed hinge wheel (21), support arm (22), driven lead screw (23), elevator motor (24), perpendicular connecting plate (25) and articulated piece (26) constitute a set of link slider mechanism, lifting mechanism (2) use fixed hinge wheel (21) to swing as rotatory fulcrum, promote articulated piece (26) of support arm (22) end installation to drive longitudinal movement mechanism (4) and carry out horizontal migration.

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