CN214400816U - Crystallizer for non-woven fabric production - Google Patents

Abstract

The utility model relates to a crystallizer for non-woven fabrics production, which comprises a frame, a housin, the platform of drying, the fan, the inlet pipe, the dispersion case, the dispersion board, the casing goes up and down to set up in the frame, the feed inlet has been seted up on the casing, discharge gate and air outlet, the platform of drying sets up in the casing, the fan sets up in the casing, and its air outlet is located the top of drying the platform, the one end setting of inlet pipe is on the casing, and communicate with the feed inlet, the dispersion case sets up between inlet pipe and casing, be provided with the dispersion chamber on the dispersion case, dispersion chamber and inlet pipe, the casing intercommunication, the dispersion board is along transversely setting up at the dispersion incasement, be provided with a plurality of through-holes that supply the PET section to pass through on the dispersion board. Through the technical scheme, the problem that materials in the crystallizer are easy to adhere is solved.

Description

Crystallizer for non-woven fabric production

Technical Field

The utility model relates to a non-woven fabrics production facility indicates a crystallizer for non-woven fabrics production especially.

Background

The non-woven fabric is also called non-woven fabric, is formed by oriented or random fibers, is a new generation of environment-friendly material, and has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity, no irritation, rich color, low price, recycling and the like. The production process flow of the non-woven fabric comprises the following steps: melting, traction, spinning, needling, sizing, gum dipping, drying and rolling.

The crystallizer carries out the pre-crystallization and is the first procedure before the melting process of dacron spunbonded hot-rolled non-woven fabrics, its good or bad direct influence is the operating rate of whole production line, the effect of crystallizer is exactly to reduce the sliced moisture content of PET, improve the sliced crystallinity of PET, but at the heating stoving in-process, the adhesion takes place very easily for the PET section, lead to the dewatering effect poor, especially feed inlet department takes place the adhesion, lead to the feed inlet to block up easily, the adhesion feeding influences the problem of drying quality, seriously influence going on smoothly of crystallizer drying work.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a crystallizer for non-woven fabrics production to solve the problem of the easy adhesion of material in the former crystallizer.

For solving the technical problem, the utility model discloses the technical scheme who takes lies in:

a crystallizer for producing non-woven fabrics comprises:

a frame;

the shell is arranged on the rack in a lifting manner, and a feeding hole, a discharging hole and an air outlet are formed in the shell;

a drying table disposed within the housing;

the fan is arranged in the shell, and an air outlet of the fan is positioned above the drying table;

one end of the feeding pipe is arranged on the shell and is communicated with the feeding hole;

the dispersion box is arranged between the feeding pipe and the shell, a dispersion cavity is arranged on the dispersion box, and the dispersion cavity is communicated with the feeding pipe and the shell;

the dispersion board, the dispersion board is in along horizontal setting in the dispersion box, be provided with a plurality of through-holes that supply the PET section to pass through on the dispersion board.

As a further technical scheme, a mounting hole is formed in one side wall of the dispersion cavity, slots are formed in the inner wall of the dispersion cavity in a surrounding mode, and the dispersion plate extends into the mounting hole and is inserted into the slots in a sliding mode.

As a further technical scheme, the slot with be provided with latch device between the dispersion board, latch device includes:

the mounting groove is formed in the side wall of the slot, is cylindrical and is provided with a central shaft in the vertical direction;

the thrust spring is arranged in the mounting groove, and one end of the thrust spring acts on the bottom of the mounting groove;

the clamping ball is arranged at the other end of the thrust spring and is arranged in the mounting groove in a sliding manner;

the clamping groove is a plurality of and is arranged on the edge of the dispersion plate, the clamping groove is hemispherical, and the ball is clamped in the clamping groove.

As a further technical solution, the method further comprises:

elevating gear, elevating gear drives the casing goes up and down, elevating gear includes:

the motor is arranged on the rack and is positioned below the shell;

the eccentric wheel is arranged below the shell, and the motor drives the eccentric wheel to rotate so as to drive the shell to lift.

As a further technical solution, the method further comprises:

the bottom of the shell is provided with a groove, and the edge of the eccentric wheel is rotatably arranged in the groove and tightly propped against the top of the groove.

As a further technical scheme, the discharge gate sets up downwards, discharge gate department is provided with keeps off the piece, it includes to keep off the piece:

the baffle is arranged at the discharge port, and the baffle seals the discharge port when the shell is positioned at the lowest end;

the guide plate is obliquely arranged, and the feeding end is connected with the baffle plate;

and two flanges are arranged on the two sides of the baffle and the guide plate respectively.

As a further technical solution, the crystallizer further comprises:

the material receiving groove is formed in the rack, and the discharge end of the guide plate is arranged in the material receiving groove.

As a further technical solution, the method further comprises:

the air outlet pipe, the one end setting of air outlet pipe is in on the casing, and with the air outlet intercommunication, air outlet department is provided with the filter screen.

The utility model has the advantages that:

the utility model has simple structure, when the drying table heats and dries the PET slices in the shell, the fan leads air into the shell to take away the moisture generated by heating and drying; when the material entered from the inlet pipe, earlier through the dispersion board in the dispersion box, made the PET section discharge in proper order in the through-hole on the dispersion board to avoid the adhesion in the controlled flow, be favorable to improving drying quality.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural view of the latch device of the present invention;

fig. 3 is a schematic perspective view of the dispersion plate of the present invention;

fig. 4 is a schematic sectional view of the present invention.

Description of the reference numerals

1. The device comprises a frame, 2, a shell, 20, a feeding port, 21, a discharging port, 22, an air outlet, 3, a drying table, 4, a fan, 5, a feeding pipe, 6, a dispersing box, 7, a dispersing plate, 70, a through hole, 8, a mounting hole, 9, a slot, 10, a clamping device, 101, a mounting groove, 102, a thrust spring, 103, a clamping ball, 104, a clamping groove, 11, a lifting device, 111, a motor, 112, an eccentric wheel, 12, a groove, 13, a blocking piece, 131, a baffle, 132, a guide plate, 133, a blocking edge, 14, a material receiving groove, 15 and an air outlet pipe.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1-4, the utility model provides a crystallizer for non-woven fabric production, mainly include frame 1, elevating gear 11, casing 2, stoving platform 3, fan 4, inlet pipe 5, dispersion case 6, dispersion board 7, play tuber pipe 15, latch device 10 and keep off piece 13.

The shell 2 is arranged on the frame 1 in a lifting mode through the lifting device 11, the lifting device 11 comprises a motor 111 and an eccentric wheel 112, the motor 111 is arranged on the frame 1 and located below the shell 2, the eccentric wheel 112 is arranged below the shell 2, a groove 12 is formed in the bottom of the shell 2, the edge of the eccentric wheel 112 is rotatably arranged in the groove 12 and tightly abuts against the top of the groove 12, the motor 111 drives the eccentric wheel 112 to rotate, and the eccentric wheel 112 drives the shell 2 to lift; a feed inlet 20, a discharge outlet 21 and an air outlet 22 are formed in the shell 2, one end of the feed pipe 5 is arranged on the shell 2 and is communicated with the feed inlet 20, a control valve is arranged on the feed pipe 5, one end of the air outlet pipe 15 is arranged on the shell 2 and is communicated with the air outlet 22, a filter screen is arranged at the air outlet 22, the discharge outlet 21 is arranged downwards, a blocking piece 13 is arranged at the discharge outlet 21, the blocking piece 13 comprises a baffle 131, a guide plate 132 and blocking edges 133, the baffle 131 is arranged at the discharge outlet 21, the baffle 131 seals the discharge outlet 21 when the shell 2 is positioned at the lowest end, the guide plate 132 is obliquely arranged, the feed ends are connected with the baffle 131, the blocking edges 133 are two and are respectively arranged at two sides of the baffle 131 and the guide plate 132, a material receiving groove 14 is formed in the rack 1, and the discharge end of the guide plate 132 is arranged in the material receiving groove 14; the drying table 3 is arranged in the shell 2, the fan 4 is arranged in the shell 2, and the air outlet 22 of the fan is positioned above the drying table 3; the dispersing box 6 is arranged between the feeding pipe 5 and the shell 2, a dispersing cavity is arranged on the dispersing box 6 and is communicated with the feeding pipe 5 and the shell 2, the dispersing plate 7 is transversely arranged in the dispersing box 6, and a plurality of through holes 70 for the PET slices to pass through are formed in the dispersing plate 7; mounting hole 8 has been seted up on the lateral wall in dispersion chamber, it is provided with slot 9 to center on the inner wall in dispersion chamber, mounting hole 8 is stretched into to dispersion board 7, and slide and insert and establish in slot 9, be provided with latch device 10 between slot 9 and the dispersion board 7, latch device 10 includes mounting groove 101, thrust spring 102, card ball 103 and draw-in groove 104, mounting groove 101 is seted up on the lateral wall of slot 9, mounting groove 101 is the cylindricality, and its central axis sets up along vertical direction, thrust spring 102 sets up in mounting groove 101, and one end acts on the bottom of mounting groove 101, card ball 103 sets up the other end at thrust spring 102, and slide and set up in mounting groove 101, draw-in groove 104 is a plurality of, all set up on the edge of dispersion board 7, draw-in groove 104 is the hemisphere, card ball 103 card is established in draw-in groove 104.

This embodiment is in the course of the work, the PET section passes through in inlet pipe 5 gets into casing 2, when the PET section passes through dispersion plate 7, can be broken up by through-hole 70 on dispersion plate 7 and pass in proper order from through-hole 70 and fall to stoving platform 3 on, the through-hole 70 here is seted up great, and the interval between every through-hole 70 is less, be favorable to guaranteeing to avoid piling up the problem that blocks up because of the material when the PET section is broken up, the switch of inlet pipe 5 can be controlled to the control valve on the inlet pipe 5, the controllability is strong. PET section gets into to dry 3 backs of bench, and it heats and dries to dry 3 of bench, makes and keeps high temperature in the casing 2, simultaneously in order to reduce moisture, except drying and heating of the 3 of platform of drying, still be ventilated through fan 4 in the casing 2, take away its moisture that heats and dries the formation through air outlet 22, air outlet 22 is provided with the filter screen, is favorable to avoiding wind to take the material phenomenon to avoid causing the problem that crystallizer air outlet 22 blockked up. In the process of heating and drying, the motor 111 drives the eccentric wheel 112 to rotate, so that the edge of the eccentric wheel 112 rotates in the groove 12, when the convex part of the eccentric wheel 112 is contacted with the top of the groove 12, the eccentric wheel 112 jacks up the shell 2, and when the concave part of the eccentric wheel 112 is contacted with the top of the groove 12, the eccentric wheel 112 puts down the shell 2 to lower the shell 2, so that the shell 2 is lifted, the PET slices vibrate along with the lifting on the drying table 3, the drying effect is enhanced, and the adhesion of materials is avoided; the arrangement of the groove 12 is beneficial to limiting the eccentric wheel 112; can be through spring coupling between casing 2 and the frame 1, make casing 2 can go up and down in frame 1, can effectively alleviate motor 111 and eccentric wheel 112's heavy burden again, the practicality is strong, also can be connected through the telescopic link between casing 2 and the frame 1 and realize that casing 2 goes up and down, in addition, eccentric wheel 112 can be a plurality of, promote casing 2 jointly, increase area of contact, reduce casing 2 to eccentric wheel 112's pressure, alleviate heavy burden, guarantee the reliable of casing 2 lift and go on. PET section is at the stoving in-process, through the blowing of fan 4 and the vibration of the lift of casing 2, constantly advance to discharge gate 21 direction, and discharge from discharge gate 21, discharge gate 21 department is provided with fender piece 13, when discharge gate 21 is located the lower along with the lift of casing 2, baffle 131 seals discharge gate 21, make the unable discharge of material, fully dry in casing 2, constantly rotate as eccentric wheel 112, when making casing 2 rise, discharge gate 21 rises gradually and with the baffle 131 between pull open the distance, PET section after the stoving is discharged from discharge gate 21 in batches this moment, and along guide plate 132 discharge connect the silo 14 in, the setting of flange 133 does benefit to and avoids the material to spill over from the side of baffle 131 and guide plate 132, and reasonable in design.

Clamping device 10's setting is inserted the dispersion board 7 joint and is established in slot 9, realizes 7 fixed of dispersion board, avoids dispersion board 7 to slide, strengthens the reliability, and specific operating procedure is: stretch into mounting hole 8 at dispersion board 7, to inserting in draw-in groove 104, the side of dispersion board 7 produces thrust to card ball 103 on the slot 9 inside wall, card ball 103 removes in to mounting groove 101, make dispersion board 7 freely stretch into in draw-in groove 9, when stretching into draw-in groove 104 and mounting groove 101 relative time, thrust spring 102 promotes card ball 103 and removes in to draw-in groove 104, make card ball 103 card establish in draw-in groove 104, thereby carry out spacing card to dispersion board 7 and establish, guarantee the stability of dispersion board 7 installation in draw-in groove 9.

The foregoing description is only of the preferred embodiments of the present invention, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (8)

1. A crystallizer for producing non-woven fabrics is characterized by comprising:

a frame (1);

the shell (2) is arranged on the rack (1) in a lifting mode, and a feeding hole (20), a discharging hole (21) and an air outlet (22) are formed in the shell (2);

a drying table (3), the drying table (3) being arranged in the housing (2);

the fan (4) is arranged in the shell (2), and an air outlet (22) of the fan (4) is positioned above the drying table (3);

the feeding pipe (5), one end of the feeding pipe (5) is arranged on the shell (2) and is communicated with the feeding hole (20);

the dispersion box (6) is arranged between the feeding pipe (5) and the shell (2), a dispersion cavity is arranged on the dispersion box (6), and the dispersion cavity is communicated with the feeding pipe (5) and the shell (2);

dispersion board (7), dispersion board (7) are in along horizontal setting in dispersion case (6), be provided with a plurality of through-holes (70) that supply the PET section to pass through on dispersion board (7).

2. The crystallizer according to claim 1, wherein a side wall of the dispersion chamber is provided with a mounting hole (8), the inner wall of the dispersion chamber is provided with a slot (9) around the dispersion chamber, and the dispersion plate (7) extends into the mounting hole (8) and is slidably inserted into the slot (9).

3. The crystallizer according to claim 2, characterized in that a clamping device (10) is arranged between the slot (9) and the dispersion plate (7), and the clamping device (10) comprises:

the mounting groove (101) is formed in the side wall of the slot (9), the mounting groove (101) is cylindrical, and the central axis of the mounting groove is arranged in the vertical direction;

the thrust spring (102) is arranged in the mounting groove (101), and one end of the thrust spring (102) acts on the bottom of the mounting groove (101);

the clamping ball (103) is arranged at the other end of the thrust spring (102) and is arranged in the mounting groove (101) in a sliding manner;

the clamping grooves (104) are a plurality of and are formed in the edge of the dispersion plate (7), the clamping grooves (104) are hemispherical, and the clamping balls (103) are clamped in the clamping grooves (104).

4. The crystallizer for producing non-woven fabric according to claim 1, further comprising:

elevating gear (11), elevating gear (11) drive casing (2) go up and down, elevating gear (11) include:

the motor (111) is arranged on the rack (1) and is positioned below the shell (2);

the eccentric wheel (112) is arranged below the shell (2), and the motor (111) drives the eccentric wheel (112) to rotate so as to drive the shell (2) to lift.

5. The crystallizer for producing non-woven fabric according to claim 4, further comprising:

the bottom of the shell (2) is provided with a groove (12), the edge of the eccentric wheel (112) is rotatably arranged in the groove (12) and tightly props against the top of the groove (12).

6. The crystallizer for producing non-woven fabrics according to claim 4, characterized in that the discharge port (21) is arranged downwards, a stopper (13) is arranged at the discharge port (21), and the stopper (13) comprises:

a baffle (131), wherein the baffle (131) is arranged at the discharge port (21), and the baffle (131) closes the discharge port (21) when the shell (2) is positioned at the lowest end;

the guide plate (132), the guide plate (132) is obliquely arranged, and the feeding end is connected with the baffle (131);

the number of the flanges (133) is two, and the two flanges (133) are respectively arranged on two sides of the baffle plate (131) and the guide plate (132).

7. The crystallizer for producing a non-woven fabric according to claim 6, further comprising:

the material receiving groove (14), the material receiving groove (14) is arranged on the rack (1), and the discharge end of the guide plate (132) is arranged in the material receiving groove (14).

8. The crystallizer for producing non-woven fabric according to claim 1, further comprising:

go out tuber pipe (15), the one end setting of going out tuber pipe (15) is in on casing (2), and with air outlet (22) intercommunication, air outlet (22) department is provided with the filter screen.

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