CN203566899U - Flow line production system for hot melt adhesive particles - Google Patents

Abstract

The utility model relates to a flow line production system for hot melt adhesive particles. The flow line production system comprises a hot melt stirring reaction device, a constant-temperature filter net device, an extrusion granulation device, a cooling pipeline device, an adhesive particle and water separation and spin-drying device, an adhesive particle air-drying and packaging device and a cooling water treatment device, wherein the constant-temperature filter net device can realize alternate switching of two filter nets, so that the production efficiency is improved; the extrusion granulation device consists of a hot melt adhesive material input end, a granulation cavity body, a granulation motor and an adhesive particle cutter and can synchronously realize extrusion, granulation and cooling; the cooling pipeline device consists of a bracket body, an input end pipe, a plurality of cooling transverse pipes, an output end pipe and a plurality of U-shaped joints, can meet a requirement on adhesive particle cooling, occupies a small space and is energy-saving and environment-friendly; the adhesive particle and water separation and spin-drying device consists of a stander, an outer barrel shell, an inner filter barrel, a dewatering screw, a dewatering motor and a front-mounted water filter tank, can implement separation of cooling water and adhesive particles and drying of the adhesive particles and has an ideal dewatering effect.

Description

A kind of streamline production system of hot melt adhesive tablet

Technical field

The utility model relates to production equipment or the streamline production system of hot melt adhesive tablet.

Background technology

Existing sizing material granulation mode is roughly as follows: the sizing material under molten condition is extruded into strip from extruder head, cooling by bosh through hauling machine traction, delivers to pellet device place and is cut into granular.This granulation mode mainly also exists following not enough: the one,, need to use tens meters of long boshes, need take very large workshop area, the workshop of Ling Dao enterprise is rented higher with cost; The 2nd,, bosh is unenclosed construction, and cooling water in groove is directly contacted with the external world, quick heating need to not stop the cooling water in groove to carry out continuously with refrigeration machine cooling, causes energy consumption high; The 3rd,, need to be equipped with special adhesive tape hauling machine, increased complexity and the manufacturing cost of a whole set of production equipment, and granulating mechanism can only carry out pelletizing to drawing the adhesive tape of coming, pelletizing granulation efficiency is low.

Utility model content

The purpose of this utility model is to address the above problem and is not enough, provide a kind of simple in structure, compact, reliability is high, floor space is little, energy consumption is little, and low cost of manufacture realizes easily, production efficiency is high, is applicable to and meets the streamline production system of the hot melt adhesive tablet of the automatic rapid need of production of streamline.

The technical solution of the utility model is achieved in that

A kind of streamline production system of hot melt adhesive tablet, its feature is to comprise hot melt stirring reaction device, constant temperature filter net device, extrudes pellet device, cooling pipe device, micelle spin-drying device separated with water, the air-dry packing assembling device of micelle, cooling-water treatment apparatus, wherein

Described constant temperature filter net device comprises sizing material input, sizing material output, left mounting blocks, right mounting blocks, filter screen mechanism and cylinder, wherein one end of sizing material input is connected with left mounting blocks, and the melting sizing material output port that the other end of this sizing material input is provided with hot melt stirring reaction device by metallic conduit is connected; Described sizing material output is connected with right mounting blocks; Described filter screen mechanism is installed between left mounting blocks and right mounting blocks, this filter screen mechanism consists of screen holder and two filter screen workpiece, described two filter screen workpiece are installed in screen holder side by side, and these two filter screen workpiece be can be along the setting that moves around of screen holder length direction; Described cylinder is installed on the end face of screen holder, and the cylinder bar of this cylinder is connected with a filter screen workpiece wherein through screen holder, and these two filter screen workpiece are mutually permanently connected together, to realize the alternately switching of two filter screen workpiece of air cylinder driven; On left mounting blocks, right mounting blocks, be also coated with respectively electrical heating elements;

The described pellet device of extruding comprises hot melt sizing material input, pelletizing chamber body, pelletizing motor, micelle cutting knife, wherein one end of hot melt sizing material input is connected with the left surface of pelletizing chamber body, and the other end of this hot melt sizing material input is connected with the sizing material output of constant temperature filter net device; On the left surface of described pelletizing chamber body, be also provided with annular extrusion die, described pelletizing motor is arranged on by the side of pelletizing chamber body right flank, the rotating shaft of this pelletizing motor extend into the chamber of pelletizing chamber body from pelletizing chamber body right flank, and described micelle cutting knife is installed in the rotating shaft of pelletizing motor; The bottom of described pelletizing chamber body is provided with cooling water input, and the output that this cooling water input is provided with cooling-water treatment apparatus by water pipe is connected; The top of described pelletizing chamber body is also provided with hot melt adhesive tablet output;

Described cooling pipe device comprises stake body, input pipe, some cooling transverse tubes, output pipe, several u shaped connectors, wherein each cooling transverse tube is respectively the shape that is parallel to each other and arranges and to be fixed on stake body, between each cooling transverse tube, by u shaped connector, interconnects together; One end of described input pipe is connected with the cooling transverse tube that is positioned at input position in each cooling transverse tube, and the other end of this input pipe is connected with the hot melt adhesive tablet output of extruding pellet device; One end of described output pipe is connected with the cooling transverse tube that is positioned at output end position in each cooling transverse tube, and the surface of described each cooling transverse tube is also surrounded by respectively thermal insulation layer;

Described micelle spin-drying device separated with water comprises frame, outer barrel shell, interior lauter tub, rotary dehydration bar, motor, preposition water filtering tank, wherein motor and outer barrel shell are installed on respectively in frame, described interior lauter tub is installed in outer barrel shell, the surrounding sidewall of this interior lauter tub is made mesh-like structure, at outer barrel shell meta, in the bottom of interior lauter tub, be also provided with charging chamber, at outer barrel shell meta, in the top of interior lauter tub, be also provided with discharging chamber; Described rotary dehydration bar is vertically installed in interior lauter tub, and the bottom of this rotary dehydration bar is through charging chamber and frame, and the top of this rotary dehydration bar is arranged in discharging chamber, and the bottom of this rotary dehydration bar is in transmission connection mutually with motor; Described preposition water filtering tank is provided with charging aperture and discharging opening, in the bottom of preposition water filtering tank, is also provided with discharge outlet, and the input that this discharge outlet is provided with cooling-water treatment apparatus by water pipe is connected; Described discharging opening is connected with charging chamber, and described discharging chamber is also provided with discharge end pipe, and this discharge end pipe is connected by the air-dry packing assembling device of pipeline and micelle; Described charging aperture is connected with the other end of the output pipe of cooling pipe device by pipeline.

The utility model, owing to having adopted foregoing technical scheme, makes it have following features:

(1) extrude pellet device: by will extrude, pelletizing, cooling three operations are organic is placed in a less enclosure space; make the utility model can realize while extruding pelletizing limit cooling; do not need to use the bosh that floor space is large; do not need to use baroque pelleter yet; thereby make structure of the present utility model very simple, compact, production efficiency is high, and floor space is little; low cost of manufacture, energy consumption is low.Meanwhile, the water after cooling adhesive tape can be recycled to the cooling use again of refrigeration machine place, has effectively reduced the energy consumption of device, thereby reaches the production cost of saving enterprise, improves the effect of the economic benefit of enterprise.

(2) cooling pipe device: the three-dimensional cooling pipe mechanism that makes micelle arrange and form by the cooling transverse tube interconnecting together by some together with cooling water, having met micelle wants cooling water to soak certain hour, ability is cooling needs completely, and whole cooling pipe mechanism is the vertical hermetically sealed structure of stack upwards, take up room very little, be beneficial to the space of saving workshop, and cooling water does not contact with the external world, can consume minimum, saving environment protecting is good, is extremely beneficial to the daily costs of production and operation that reduces enterprise.

(3) micelle spin-drying device separated with water: cooling water and micelle are together conveyed in preposition water filtering tank, filter out most of water, utilize the feature that current are large and fast simultaneously, micelle is brought in interior lauter tub, under the High Rotation Speed of dehydrating threaded rod, make micelle material after interior lauter tub high-speed motion, from the grain output end of interior lauter tub, send, complete spin-dry work.The utility model has saved predrainage treatment process, and processed is effective, efficiency is high, be applicable to and meet streamline rapid need of production automatically, but also have advantages of simple in structure, realize easily, reliability is high, long service life.

(4) constant temperature filter net device: alternately switch the front-rear reciprocation movement by two filter screen workpiece of an air cylinder driven; easy switching, quick; need not shut down switching completely; can not have influence on the operating efficiency of whole PUR production equipment; be conducive to reduce the shutdown number of times of equipment, improve the production efficiency of enterprise.After two filter screen workpiece switch; another filter screen workpiece that is switched is out to stretch out by the side of equipment; thereby can clear up easily obstruction and more renew net; ready for alternately switch next time; and whole cleaning work is can not have influence on the operation of machine; need not shut down and carry out, thereby guarantee the operational efficiency of equipment.On left mounting blocks, right mounting blocks, be also coated with respectively electrical heating elements, by electrical heating elements, can guarantee that melting sizing material keeps temperature constant state, avoids melting sizing material to solidify and blocking pipe.

(5) of the present utility model simple in structure, compact, reliability is high, and floor space is little, and energy consumption is little, and low cost of manufacture realizes easily, and production efficiency is high, is applicable to and meets the automatic rapid need of production of streamline.

Accompanying drawing explanation

Fig. 1 is functional-block diagram of the present utility model.

Fig. 2 is the perspective view of constant temperature filter net device of the present utility model.

Fig. 3 is the structural representation of the filter screen mechanism of constant temperature filter net device of the present utility model.

Fig. 4 is the perspective view of extruding pellet device of the present utility model.

Fig. 5 is the sectional structure schematic diagram of extruding pellet device of the present utility model.

Fig. 6 is the Facad structure schematic diagram of constant temperature filter net device of the present utility model.

Fig. 7 is the structural representation of the left apparent direction of constant temperature filter net device of the present utility model.

Fig. 8 is micelle of the present utility model and the structural representation of the separated spin-drying device of water.

Fig. 9 is Fig. 8 A-A direction sectional structure schematic diagram of the present utility model.

Figure 10 is the perspective view of micelle cutting knife of the present utility model.

Figure 11 is the Facad structure schematic diagram of micelle cutting knife of the present utility model.

Figure 12 is the structural representation of overlooking direction of rotary dehydration bar of the present utility model.

The specific embodiment

As shown in Figure 1, the streamline production system of a kind of hot melt adhesive tablet described in the utility model, comprise hot melt stirring reaction device 1, constant temperature filter net device 2, extrude pellet device 3, cooling pipe device 4, micelle spin-drying device 5 separated with water, the air-dry packing assembling device 6 of micelle, cooling-water treatment apparatus 7, wherein

As shown in Figure 2 and Figure 3, described constant temperature filter net device 2 comprises sizing material input 21, sizing material output 22, left mounting blocks 23, right mounting blocks 24, filter screen mechanism 25 and cylinder 26, wherein one end of sizing material input 21 is connected with left mounting blocks 23, and the melting sizing material output port that the other end of this sizing material input 21 is provided with hot melt stirring reaction device 1 by metallic conduit is connected; Described sizing material output 22 is connected with right mounting blocks 24; Described filter screen mechanism 25 is installed between left mounting blocks 23 and right mounting blocks 24, this filter screen mechanism 25 consists of screen holder 251 and two filter screen workpiece 252, described two filter screen workpiece 252 are installed in screen holder 251 side by side, and these two filter screen workpiece 252 be can be along the setting that moves around of screen holder 251 length directions; Described cylinder 26 is installed on the end face of screen holder 251, the cylinder bar of this cylinder 26 is connected with a filter screen workpiece 252 wherein through screen holder 251, and these two filter screen workpiece 252 are mutually permanently connected together, to realize cylinder 26, drive two filter screen workpiece 252 alternately to switch; On left mounting blocks 23, right mounting blocks 24, be also coated with respectively electrical heating elements 27.

Described constant temperature filter net device 2 is mainly used in the foreign material in filtering molten glue, or fails the saturating sizing material piece of melting.Alternately switch front-rear reciprocation movement by two filter screen workpiece of an air cylinder driven; easy switching, quick, need not shut down switching completely, can not have influence on the operating efficiency of whole PUR production equipment; be conducive to reduce the shutdown number of times of equipment, improve the production efficiency of enterprise.After two filter screen workpiece alternately switch; another filter screen workpiece that is switched is out to stretch out by the side of equipment; thereby can clear up easily obstruction and more renew net; ready for alternately switch next time; and whole cleaning work is can not have influence on the operation of machine; need not shut down and carry out, thereby guarantee the operational efficiency of equipment.On left mounting blocks, right mounting blocks, be also coated with respectively electrical heating elements, by electrical heating elements, can guarantee that melting sizing material keeps temperature constant state, avoids melting sizing material to solidify and blocking pipe.

As shown in Figure 4 and Figure 5, the described pellet device 3 of extruding comprises hot melt sizing material input 31, pelletizing chamber body 32, pelletizing motor 33, micelle cutting knife 34, wherein one end of hot melt sizing material input 31 is connected with the left surface of pelletizing chamber body 32, and the other end of this hot melt sizing material input 31 is connected with the sizing material output 22 of constant temperature filter net device 2; On the left surface of described pelletizing chamber body 32, be also provided with annular extrusion die 311, described pelletizing motor 33 is arranged on by the side of pelletizing chamber body 32 right flanks, the rotating shaft of this pelletizing motor 33 extend into the chamber of pelletizing chamber body 32 from pelletizing chamber body 32 right flanks, and described micelle cutting knife 34 is installed in the rotating shaft of pelletizing motor 33; The bottom of described pelletizing chamber body 32 is provided with cooling water input 35, and this cooling water input 35 is connected with the output that cooling-water treatment apparatus 7 is provided with by water pipe; The top of described pelletizing chamber body 32 is also provided with hot melt adhesive tablet output 36.

Originally extrude pellet device 3 by will extrude, pelletizing, cooling three operations are organic is placed in a less enclosure space; make the utility model can realize while extruding pelletizing limit cooling; do not need to use the bosh that floor space is large; do not need to use baroque pelleter yet; thereby make structure of the present utility model very simple, compact, production efficiency is high, and floor space is little; low cost of manufacture, energy consumption is low.

For the ease of workman, to extruding pellet device, overhaul, as shown in Figure 4, on the positive side of the described pelletizing chamber body 32 of extruding pellet device 3, be also provided with gathering hole, actuating doors 37 with transparent window is installed on gathering hole, between actuating doors 37 and the surrounding of gathering hole, is also provided with sealing joint strip.As shown in Figure 5, on the trailing flank of pelletizing chamber body 32, be also provided with transparent observing mouth 321 simultaneously.

In addition, in order to extrude the micelle cutting knife 34 of pellet device 3 described in making, have simple in structure, be convenient for changing the feature of blade, as Figure 10, shown in Figure 11, described micelle cutting knife 34 comprises carriage saddle 341, some compressing tablets 342, some blades 343, screw 344, wherein carriage saddle 341 is comprised of socket part 3411 and some blade fixed parts 3412, described each blade fixed part 3412 is respectively equi-spaced apart around being fixedly mounted on socket part 3411, described each blade 343 is arranged at respectively on each blade fixed part 3412, described each compressing tablet 342 is pressed in respectively on each blade 343 accordingly, described screw 344 is sequentially through compressing tablet 342, the rear screw-in of blade 343 is to each blade fixed part 3412, so that compressing tablet 342 and blade 343 are fixed on blade fixed part 3412.

As shown in Figure 6 and Figure 7, described cooling pipe device 4 comprises stake body 41, input pipe 42, some cooling transverse tubes 43, output pipe 44, several u shaped connectors 45, wherein each cooling transverse tube 43 is respectively the shape that is parallel to each other and arranges and be fixed on stake body 41, between each cooling transverse tube 43, by u shaped connector 45, interconnects together; One end of described input pipe 42 is connected with the cooling transverse tube 43 that is positioned at input position in each cooling transverse tube 43, and the other end of this input pipe 42 is connected with the hot melt adhesive tablet output 36 of extruding pellet device 3; One end of described output pipe 44 is connected with the cooling transverse tube 43 that is positioned at output end position in each cooling transverse tube 43, and the surface of described each cooling transverse tube 43 is also surrounded by respectively thermal insulation layer 46.

The three-dimensional cooling pipe mechanism that this cooling pipe device 4 makes micelle arranged and formed by the cooling transverse tube interconnecting together by some together with cooling water, having met micelle wants cooling water to soak certain hour, ability is cooling needs completely, and whole cooling pipe mechanism is the vertical hermetically sealed structure of stack upwards, take up room very little, be beneficial to the space of saving workshop, and cooling water does not contact with the external world, can consume minimum, saving environment protecting is good, is extremely beneficial to the daily costs of production and operation that reduces enterprise.

In order to make the stake body 41 of described cooling pipe device 4 there is simple in structure, the easy feature of realization, as shown in Figure 7, described stake body 41 consists of left socle 411, right support 412 and the horizontal connecting rod 413 that is arranged between left socle 411, right support 412, wherein left socle 411 and right support 412 respectively by montant 414, leg 415 and tiltedly stabiliser bar 416 form.

As shown in Figure 8 and Figure 9, described micelle spin-drying device 5 separated with water comprises frame 51, outer barrel shell 52, interior lauter tub 53, rotary dehydration bar 54, motor 55, preposition water filtering tank 56, wherein motor 55 is installed on respectively in frame 51 with outer barrel shell 52, described interior lauter tub 53 is installed in outer barrel shell 52, the surrounding sidewall of this interior lauter tub 53 is made mesh-like structure, the bottom that is positioned at lauter tub 53 in outer barrel shell 52 is also provided with charging chamber 531, and the top that is positioned at lauter tub 53 in outer barrel shell 52 is also provided with discharging chamber 532; Described rotary dehydration bar 54 is vertically installed in interior lauter tub 53, the bottom of this rotary dehydration bar 54 is through charging chamber 531 and frame 51, the top of this rotary dehydration bar 54 is arranged in discharging chamber 532, and the bottom of this rotary dehydration bar 54 is in transmission connection mutually with motor 55; Described preposition water filtering tank 56 is provided with charging aperture 561 and discharging opening 562, in the bottom of preposition water filtering tank 56, is also provided with discharge outlet 563, and this discharge outlet 563 is connected with the input that cooling-water treatment apparatus 7 is provided with by water pipe; Described discharging opening 562 is connected with charging chamber 531, and described discharging chamber 532 is also provided with discharge end pipe 533, and this discharge end pipe 533 is connected by the air-dry packing assembling device 6 of pipeline and micelle; Described charging aperture 561 is connected with the other end of the output pipe 44 of cooling pipe device 4 by pipeline.

This micelle spin-drying device 5 separated with water is together conveyed into cooling water and micelle in preposition water filtering tank, filter out most of water, utilize the feature that current are large and fast simultaneously, micelle is brought in interior lauter tub, under the High Rotation Speed of dehydrating threaded rod, make micelle material after interior lauter tub high-speed motion, from the grain output end of interior lauter tub, send, complete spin-dry work.The utility model has saved predrainage treatment process, and processed is effective, efficiency is high, be applicable to and meet streamline rapid need of production automatically, but also have advantages of simple in structure, realize easily, reliability is high, long service life.

For the package assembly of further optimization micelle with the separated spin-drying device of water, again as shown in Figure 8 and Figure 9, the frame 51 of described micelle spin-drying device 5 separated with water consists of deck plate 511 and platform foot rest 512, described outer barrel shell 52 is vertically installed on respectively on deck plate 511 with motor, on deck plate 511, be also respectively equipped with two through holes, described motor 55 is vertically installed on deck plate 511, the rotating shaft of this motor 55 is through one of them through hole of deck plate 511, one belt pulley 57 is also installed in motor 55 rotating shafts, the bottom of described rotary dehydration bar 54 is through another through hole of deck plate 511, one belt pulley 57 is also installed on the bottom of rotary dehydration bar 54, belt pulley 57 on described rotary dehydration bar 54 is in transmission connection by driving belt 58 mutually with the belt pulley 57 in motor 55 rotating shafts.

In like manner, as shown in Figure 8, the preposition water filtering tank 56 of described micelle spin-drying device 5 separated with water consists of case shell 564 and drainage web plate 565, described charging aperture 561 is arranged in the left end face of case shell 564, described discharging opening 562 is arranged in its right end face of case shell 564, described discharge outlet 563 is arranged at the bottom surface of case shell 564, and described drainage web plate 565 is arranged in case shell 564.In addition, in the outer barrel shell 52 of described micelle spin-drying device 5 separated with water, be also provided with filter screen 521, the bucket of this filter screen 521 and outer barrel shell 52 also forms water drain cavity 523 at the end, and this water drain cavity 523 is provided with discharge outlet 522, so that recycle the water producing in drying process.In addition, it should be noted that, the bottom of described interior lauter tub 53 can be close on filter screen, makes filter screen 521 double as the base plate of interior lauter tub 53; Or can be also, this interior lauter tub 53 has the base plate of oneself, between interior lauter tub 53 base plates now and filter screen 521, be and be reserved with space, interior lauter tub 53 is unsettled being fixed in outer barrel shell 52.

As shown in Figure 9, between the interior lauter tub 53 of described micelle spin-drying device 5 separated with water and outer barrel shell 52, be also formed with drainage gap 514, together with this drainage gap 514 is connected with water drain cavity 523.By this drainage gap 514, can accelerate to throw away draining of water.

In order to accelerate micelle, to the air-dry packing assembling device 6 of micelle, carry, as shown in Figure 8 and Figure 9, described micelle spin-drying device 5 separated with water also comprises hair-dryer 510, the port of export of described hair-dryer 510 is connected with blower 515, and the air-out port of described blower 515 is to tilt to be plugged on the outer wall of discharge end pipe 533.The syndeton that tilts to peg graft by this, can blow rapidly along micelle transport direction blower 515, to accelerate micelle, carries.

For make rotary dehydration bar 54 have simple in structure, volume send micelle efficiency high, as shown in Fig. 9 and Figure 12, the rotary dehydration bar 54 of described micelle spin-drying device 5 separated with water consists of the body of rod 541 and the some oblique sheet 542 that is arranged on the body of rod 541 surrounded surfaces, on the top of the body of rod 541, is also provided with multi-disc horizontal plate 543.Wherein tiltedly main being responsible for of sheet 542 scrolls up micelle to send from bottom, and horizontal plate 543 is for pushing out micelle discharge end pipe 533.

Described hot melt stirring reaction device 1 is mainly used in the processing such as sizing material reaction, melting, its structure and principle, those skilled in the art, can consult the patent document that utility model people Zheng Zhao applies for for 2012, belong to prior art, so be not described in detail.The air-dry packing assembling device 6 of described micelle is mainly used in the air-dry and packing dress of micelle, and those skilled in the art can consult the patent document of utility model people Zheng Zhao application in 2012 equally, belongs to prior art, so be not described in detail.Described cooling-water treatment apparatus 7 mainly consists of refrigerating machine, water purifying machine structure, collection container etc., and it is mainly the utility model provides cooling processing required cooling water, and the cooling water after using is recycled, and in order to iterative cycles, uses.This cooling-water treatment apparatus 7, those skilled in the art can consult the technologic material in these fields, and the application utilizes the prior art in these fields.

Claims (10)

1. the streamline production system of a hot melt adhesive tablet, it is characterized in that: comprise hot melt stirring reaction device (1), constant temperature filter net device (2), extrude pellet device (3), cooling pipe device (4), micelle spin-drying device separated with water (5), the air-dry packing assembling device of micelle (6), cooling-water treatment apparatus (7), wherein

Described constant temperature filter net device (2) comprises sizing material input (21), sizing material output (22), left mounting blocks (23), right mounting blocks (24), filter screen mechanism (25) and cylinder (26), wherein one end of sizing material input (21) is connected with left mounting blocks (23), and the melting sizing material output port that the other end of this sizing material input (21) is provided with hot melt stirring reaction device (1) by metallic conduit is connected; Described sizing material output (22) is connected with right mounting blocks (24); Described filter screen mechanism (25) is installed between left mounting blocks (23) and right mounting blocks (24), this filter screen mechanism (25) consists of screen holder (251) and two filter screen workpiece (252), described two filter screen workpiece (252) are installed in screen holder (251) side by side, and these two filter screen workpiece (252) be can be along the setting that moves around of screen holder (251) length direction; Described cylinder (26) is installed on the end face of screen holder (251), the cylinder bar of this cylinder (26) is connected with a filter screen workpiece (252) wherein through screen holder (251), and these two filter screen workpiece (252) are mutually permanently connected together, to realize cylinder (26), drive two filter screen workpiece (252) alternately to switch; On left mounting blocks (23), right mounting blocks (24), be also coated with respectively electrical heating elements (27);

The described pellet device (3) of extruding comprises hot melt sizing material input (31), pelletizing chamber body (32), pelletizing motor (33), micelle cutting knife (34), wherein one end of hot melt sizing material input (31) is connected with the left surface of pelletizing chamber body (32), and the other end of this hot melt sizing material input (31) is connected with the sizing material output (22) of constant temperature filter net device (2); On the left surface of described pelletizing chamber body (32), be also provided with annular extrusion die (311), described pelletizing motor (33) is arranged on by the side of pelletizing chamber body (32) right flank, the rotating shaft of this pelletizing motor (33) extend into the chamber of pelletizing chamber body (32) from pelletizing chamber body (32) right flank, and described micelle cutting knife (34) is installed in the rotating shaft of pelletizing motor (33); The bottom of described pelletizing chamber body (32) is provided with cooling water input (35), and this cooling water input (35) is connected with the output that cooling-water treatment apparatus (7) is provided with by water pipe; The top of described pelletizing chamber body (32) is also provided with hot melt adhesive tablet output (36);

Described cooling pipe device (4) comprises stake body (41), input pipe (42), some cooling transverse tubes (43), output pipe (44), several u shaped connectors (45), wherein each cooling transverse tube (43) is respectively the shape that is parallel to each other and arranges that to be fixed on stake body (41) upper, between each cooling transverse tube (43), by u shaped connector (45), interconnects together; One end of described input pipe (42) is connected with the cooling transverse tube (43) that is positioned at input position in each cooling transverse tube (43), and the other end of this input pipe (42) is connected with the hot melt adhesive tablet output (36) of extruding pellet device (3); One end of described output pipe (44) is connected with the cooling transverse tube (43) that is positioned at output end position in each cooling transverse tube (43), and the surface of described each cooling transverse tube (43) is also surrounded by respectively thermal insulation layer (46);

Described micelle spin-drying device separated with water (5) comprises frame (51), outer barrel shell (52), interior lauter tub (53), rotary dehydration bar (54), motor (55), preposition water filtering tank (56), wherein motor (55) is installed on respectively in frame (51) with outer barrel shell (52), described interior lauter tub (53) is installed in outer barrel shell (52), the surrounding sidewall of this interior lauter tub (53) is made mesh-like structure, the bottom that is positioned at lauter tub (53) in outer barrel shell (52) is also provided with charging chamber (531), the top that is positioned at lauter tub (53) in outer barrel shell (52) is also provided with discharging chamber (532), described rotary dehydration bar (54) is vertically installed in interior lauter tub (53), the bottom of this rotary dehydration bar (54) is through charging chamber (531) and frame (51), the top of this rotary dehydration bar (54) is arranged in discharging chamber (532), and the bottom of this rotary dehydration bar (54) is in transmission connection mutually with motor (55), described preposition water filtering tank (56) is provided with charging aperture (561) and discharging opening (562), in the bottom of preposition water filtering tank (56), be also provided with discharge outlet (563), this discharge outlet (563) is connected with the input that cooling-water treatment apparatus (7) is provided with by water pipe, described discharging opening (562) is connected with charging chamber (531), and described discharging chamber (532) is also provided with discharge end pipe (533), and this discharge end pipe (533) is connected by the air-dry packing assembling device of pipeline and micelle (6), described charging aperture (561) is connected with the other end of the output pipe (44) of cooling pipe device (4) by pipeline.

2. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: described in extrude on the positive side of pelletizing chamber body (32) of pellet device (3) and be also provided with gathering hole, actuating doors (37) with transparent window is installed on gathering hole, between actuating doors (37) and the surrounding of gathering hole, is also provided with sealing joint strip; On the trailing flank of pelletizing chamber body (32), be also provided with transparent observing mouth (321).

3. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: the stake body (41) of described cooling pipe device (4) is by left socle (411), right support (412) and be arranged at horizontal connecting rod (413) formation between left socle (411), right support (412), and wherein left socle (411) consists of montant (414), leg (415) and oblique stabiliser bar (416) respectively with right support (412).

4. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: the frame (51) of described micelle spin-drying device separated with water (5) consists of deck plate (511) and platform foot rest (512), described outer barrel shell (52) is vertically installed on respectively on deck plate (511) with motor, on deck plate (511), be also respectively equipped with two through holes, described motor (55) is vertically installed on deck plate (511), the rotating shaft of this motor (55) is through one of them through hole of deck plate (511), in motor (55) rotating shaft, a belt pulley (57) is also installed, the bottom of described rotary dehydration bar (54) is through another through hole of deck plate (511), one belt pulley (57) is also installed on the bottom of rotary dehydration bar (54), belt pulley (57) on described rotary dehydration bar (54) is in transmission connection by driving belt (58) mutually with the belt pulley (57) in motor (55) rotating shaft.

5. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: the preposition water filtering tank (56) of described micelle spin-drying device separated with water (5) consists of case shell (564) and drainage web plate (565), described charging aperture (561) is arranged in the left end face of case shell (564), described discharging opening (562) is arranged in its right end face of case shell (564), described discharge outlet (563) is arranged at the bottom surface of case shell (564), and described drainage web plate (565) is arranged in case shell (564).

6. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: in the outer barrel shell (52) of described micelle spin-drying device separated with water (5), be also provided with filter screen (521), the bucket of this filter screen (521) and outer barrel shell (52) also forms water drain cavity (523) at the end, and this water drain cavity (523) is provided with discharge outlet (522).

7. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: between the interior lauter tub (53) of described micelle spin-drying device separated with water (5) and outer barrel shell (52), be also formed with drainage gap (514), together with this drainage gap (514) is connected with water drain cavity (523).

8. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: described micelle spin-drying device separated with water (5) also comprises hair-dryer (510), the port of export of described hair-dryer (510) is connected with blower (515), and the air-out port of described blower (515) is to tilt to be plugged on the outer wall of discharge end pipe (533).

9. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: the rotary dehydration bar (54) of described micelle spin-drying device separated with water (5) is by the body of rod (541) and be arranged in some oblique sheet (542) formation on the body of rod (541) surrounded surface, on the top of the body of rod (541), is also provided with multi-disc horizontal plate (543).

10. the streamline production system of hot melt adhesive tablet according to claim 1, it is characterized in that: described in extrude pellet device (3) micelle cutting knife (34) comprise carriage saddle (341), some compressing tablets (342), some blades (343), screw (344), wherein carriage saddle (341) is comprised of socket part (3411) and some blade fixed parts (3412), described each blade fixed part (3412) is respectively equi-spaced apart around being fixedly mounted on socket part (3411), described each blade (343) is arranged at respectively on each blade fixed part (3412), described each compressing tablet (342) is pressed in respectively on each blade (343) accordingly, described screw (344) is sequentially through compressing tablet (342), after blade (343), screw in to each blade fixed part (3412), so that compressing tablet (342) and blade (343) are fixed on blade fixed part (3412).

Images