CN211843126U - Glue squeezing machine - Google Patents

Abstract

The utility model relates to a glue extruding machine belongs to glue extruding machine technical field, be provided with the feed casing on the glue extruding casing, the inside cooling body that is provided with of feed casing, feed casing top is provided with circulation feed mechanism, inside the feed casing was arranged in to the feed inlet, be provided with inlet pipe and discharging pipe on the feed casing, inlet pipe and discharging pipe all link to each other with circulation feed mechanism, the inlet pipe is located feed casing top central point and puts, feed casing top is provided with the conveying pipe. The utility model discloses a circulation feed mechanism guarantees that uncured gelatin carries out the resolidification, the feed circulates, it cools off solidification to liquid gelatin to do through a plurality of gel chill rolls simultaneous workings, gelatin after the solidification separates from the gel chill roll through scraping trigger structure, gelatin after the separation gets into crowded gluey casing inside through self gravity and carries out extrusion moulding, liquid gelatin gets into the circulation cavity and carries out the resolidification through circulation feed mechanism, whole solidification process goes on in succession, and work efficiency is improved.

Description

Glue squeezing machine

Technical Field

The utility model relates to a crowded machine of glue technical field especially relates to a crowded machine of glue.

Background

The gelatin extrusion machine is a key device for processing liquid gelatin into solid gelatin gel in the gelatin production process, and the device is introduced from foreign countries at first, and then imitations appear in China. The structure principle of the equipment is that a rotatable glue extruding rod is arranged in the center of the equipment, a plurality of groups of metal scrapers are fixed on the glue extruding rod, a glue extruding shell is arranged on the periphery of a scraper shaft, and a cooling chamber is arranged outside the glue extruding shell. After the concentrated liquid gelatin is pressed into the gelatin extruding shell by a pump, the liquid gelatin is cooled to form gel which is attached to the inner wall of the gelatin extruding shell and scraped by a rotating scraper, the process is repeated, the liquid gelatin is completely changed into solid gelatin gel and then is extruded and molded by a molding hole plate, and the finished gelatin is obtained after drying.

Only after liquid gelatin is completely converted into solid gelatin, the extrusion operation can be carried out, the existing glue extruding machine can extrude after all gelatin in the glue extruding shell is solid, production interruption can occur, discontinuity occurs, and time is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve present rubber extruding machine and need wait for whole gelatins in the rubber extruding casing to become solid-state rear and can extrude, can take place the production interrupt, and is discontinuous, waste time's technical problem, and then provide a rubber extruding machine.

A glue extruder comprising: the glue squeezing device comprises a base, a glue squeezing shell, a glue squeezing rod, a scraper, a glue squeezing motor, a glue discharging pipe and a forming orifice plate, wherein the glue squeezing shell is arranged on the base, the glue squeezing rod is arranged in the glue squeezing shell, the glue squeezing motor is arranged at one end of the glue squeezing shell, the output end of the glue squeezing motor is connected with the glue squeezing rod, the scraper is arranged on the glue squeezing rod, the glue discharging pipe is arranged at the other end of the glue squeezing shell, the forming orifice plate is arranged at the other end of the glue discharging pipe, a feed inlet is arranged on the glue squeezing shell, a circulating cooling feeder is arranged on the glue squeezing shell, a heating,

the circulating cooling feeder comprises: feed casing, circulation feed mechanism and cooling body, be provided with the feed casing on the crowded gluey casing, the inside cooling body that is provided with of feed casing, feed casing top is provided with circulation feed mechanism, inside the feed casing was arranged in to the feed inlet, is provided with inlet pipe and discharging pipe on the feed casing, and inlet pipe and discharging pipe all link to each other with circulation feed mechanism, and the inlet pipe is located feed casing top central point and puts, and feed casing top is provided with the conveying pipe.

Further, the cooling mechanism includes: one-level cooling device and second grade cooling device, the inside central point of feed casing puts and is provided with one-level cooling device, and one-level cooling device both sides all are provided with second grade cooling device, and one-level cooling device is the same with second grade cooling device structure.

Further, the primary cooling device includes: the feeding device comprises a gel cooling roller, a material distribution plate, material separation plates, a scraping plate mechanism, a driving motor and a cooling liquid buffer box, wherein the material distribution plate is arranged inside a feeding shell, two gel cooling rollers are arranged below the material distribution plate, the scraping plate mechanism is arranged between the two gel cooling rollers, the material separation plate is arranged below the gel cooling roller, a discharging cavity is arranged between the two material separation plates and communicated with a feeding hole, a cavity formed by a secondary cooling device, a primary cooling device and the feeding shell is a circulating cavity communicated with the circulating cavity, a cooling liquid channel is arranged inside the gel cooling roller, connecting pipes are arranged at two ends of the gel cooling roller and communicated with the cooling liquid channel, the connecting pipe at one side of the gel cooling roller penetrates through the feeding shell and is communicated with the cooling liquid buffer box arranged on the side wall of the feeding shell, and the connecting pipe at the other side of, The driving box arranged on the side wall of the feeding shell is communicated with the cooling liquid buffer box arranged on the driving box, and the cooling liquid buffer box is provided with a water passing pipeline.

Furthermore, the driving motor is connected with a connecting pipe of the primary cooling device, a through hole is formed in the side wall of the connecting pipe connected with the driving motor, the gel cooling rollers in the secondary cooling device and the primary cooling device, which rotate in the same direction, are driven through a belt transmission mechanism, and the belt transmission mechanism is arranged in the driving box.

Further, the scraper mechanism includes: pivot, scraper blade and tension spring, the inside pivot that sets up of feed casing, two scraper blade middle parts all are articulated with the pivot, and two scraper blade upper ends link to each other through tension spring, and the lower extreme and the laminating of gel chill roll lateral wall of scraper blade.

Further, the cyclic feeding mechanism comprises: connecting line and feed pump, the feed inlet of feed pump passes through connecting line and links to each other with the discharging pipe, and the oral phrase inlet pipe of discharge of feed pump links to each other.

The utility model discloses beneficial effect:

the utility model discloses a circulation feed mechanism guarantees that uncured gelatin carries out the resolidification, the feed circulates, be provided with cooling body simultaneously, do all can to liquid gelatin carry out the resolidification through a plurality of gel chill rolls, gelatin after the solidification separates from the gel chill roll through scraping trigger mechanism, gelatin after the separation gets into crowded gluey casing inside through self gravity and carries out extrusion moulding by ejection of compact cavity, liquid gelatin gets into the circulation cavity simultaneously and carries out the resolidification through circulation feed mechanism, whole solidification process goes on in succession, and the work efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the gel cooling roller of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1;

FIG. 4 is a schematic view of the transmission inside the driving box of the present invention;

in the figure, 1-base, 2-glue extruding shell, 3-glue extruding rod, 4-scraper, 5-glue extruding motor, 6-glue outlet pipe, 7-forming orifice plate, 8-feed inlet, 9-circulating cooling feeder, 91-feeding shell, 92-circulating feeding mechanism, 921-connecting pipeline, 922-feeding pump, 93-cooling mechanism, 931-primary cooling device, 9311 gel cooling roller, 9312-material separating plate, 9313-material separating plate, 9314-scraper mechanism, 93141-rotating shaft, 93142-scraper, 93143-tension spring, 9315-driving motor, 9316-cooling liquid buffer box, 9317-discharge chamber, 9318-circulating chamber, 9319-cooling liquid channel, 93110-connecting pipe, 93111-driving box, 93112-water passing pipeline, 932, a secondary cooling device, 94-a feeding pipe, 95-a discharging pipe, 96-a feeding pipe and 10-a heating layer.

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 work belong to the protection scope of the present invention.

The present invention will be described in detail with reference to the accompanying drawings.

The first embodiment is as follows: the paste dispenser of the present embodiment is described with reference to fig. 1 to 4, and includes: the glue extruding machine comprises a base 1, a glue extruding shell 2, a glue extruding rod 3, a scraper 4, a glue extruding motor 5, a glue discharging pipe 6 and a forming pore plate 7, wherein the glue extruding shell 2 is arranged on the base 1, the glue extruding rod 3 is arranged inside the glue extruding shell 2, the glue extruding motor 5 is arranged at one end of the glue extruding shell 2, the output end of the glue extruding motor 5 is connected with the glue extruding rod 3, the scraper 4 is arranged on the glue extruding rod 3, the glue discharging pipe 6 is arranged at the other end of the glue extruding shell 2, the forming pore plate 7 is arranged at the other end of the glue discharging pipe 6, a feeding port 8 is arranged on the glue extruding shell 2, a circulating cooling feeder 9 is arranged on the glue extruding shell 2, a heating layer 10 is,

the circulating cooling feeder 9 includes: the glue squeezing device comprises a feeding shell 91, a circulating feeding mechanism 92 and a cooling mechanism 93, wherein the feeding shell 91 is arranged on the glue squeezing shell 2, the cooling mechanism 93 is arranged inside the feeding shell 91, the circulating feeding mechanism 92 is arranged at the top of the feeding shell 91, a feeding hole 8 is arranged inside the feeding shell 91, a feeding pipe 94 and a discharging pipe 95 are arranged on the feeding shell 91, the feeding pipe 94 and the discharging pipe 95 are both connected with the circulating feeding mechanism 92, the feeding pipe 94 is positioned at the center of the top of the feeding shell 91, a feeding pipe 96 is arranged at the top of the feeding shell 91, so arranged, the circulating feeding mechanism 92 ensures that the uncured gelatin is subjected to secondary curing, performs circulating feeding, be provided with cooling body 93 simultaneously, through a plurality of cooling body 93 simultaneous workings to liquid gelatin cooling solidification, improve work efficiency, cooling body 93 can continuously solidify, and gelatin after the solidification gets into 2 inside extrusion of crowded gluey casings.

Example two: in the first embodiment, the cooling mechanism 93 includes: one-level cooling device 931 and second grade cooling device 932, the inside central point of feed casing 91 puts and is provided with one-level cooling device 931, and one-level cooling device 931 both sides all are provided with second grade cooling device 932, and one-level cooling device 931 is the same with second grade cooling device 932 structure, one-level cooling device 931 includes: the gel cooling roller 9311, the material separating plate 9312, the material separating plate 9313, the scraper mechanism 9314, the driving motor 9315 and the cooling liquid buffer tank 9316 are arranged in the feeding shell 91, the material separating plate 9312 is arranged in the feeding shell 91, two gel cooling rollers 9311 are arranged below the material separating plate 9312, the scraper mechanism 9314 is arranged between the two gel cooling rollers 9311, the material separating plate 9313 is arranged below the gel cooling roller 9311, a discharging chamber 9317 is arranged between the two material separating plates 9313, the discharging chamber 9317 is communicated with the feeding port 8, a chamber formed by the secondary cooling device 932, the primary cooling device 931 and the feeding shell 91 is a circulating chamber 9318, the discharging pipe 95 is communicated with the circulating chamber 9318, a cooling liquid channel 9319 is arranged in the gel cooling roller 9311, connecting pipes 93110 are arranged at two ends of the gel cooling roller 9311, the connecting pipes 93110 are communicated with the cooling liquid channel 9319, the connecting pipes 93110 at one side of the gel cooling roller 9311 penetrate through the feeding shell 91 and are communicated with the, connecting pipe 93110 of gel chill roll 9311 opposite side passes feed shell 91 in proper order, drive case 93111 and coolant buffer tank 9316 intercommunication of setting on drive case 93111 on the feed shell 91 lateral wall set up, be provided with water piping 93112 on the coolant buffer tank 9316, so set up, circulation coolant liquid in the gel chill roll 9311, contact gel chill roll 9311 and solidify when liquid gelatin, gelatin after the solidification passes through scraper means 9314 and separates gelatin and gel chill roll 9311, the gelatin after the separation gets into crowded gluey casing 2 inside and extrudees, for crowded gluey casing 2 continuously provides the gelatin after the solidification, it is the continuation to have guaranteed production.

Example three: explaining on the basis of the second embodiment, the driving motor 9315 is connected with the connecting pipe 93110 of the first-stage cooling device 931, the side wall of the connecting pipe 93110 connected with the driving motor 9315 is provided with a through hole, the gel cooling roller 9311 which rotates along with the second-stage cooling device 932 and the first-stage cooling device 931 is driven by the belt transmission mechanism, the belt transmission mechanism is arranged in the driving box 93111, the connecting pipe 93110 on the gel cooling roller 9311 is sleeved with a synchronous belt pulley, the synchronous belt pulleys are driven by the synchronous belt, the outer wall of the feeding shell 91 is provided with a guiding synchronous belt pulley for guiding the synchronous belt, the arrangement is carried out, the two driving motors 9315 drive the plurality of second-stage cooling devices 932 to work, and the synchronism of the gel cooling roller 9311 is ensured.

Example four: to illustrate on the basis of the third embodiment, the scraper mechanism 9314 includes: pivot 93141, scraper blade 93142 and tension spring 93143, the inside pivot 93141 that sets up of feed casing 91, two scraper blade 93142 middle parts all articulate with pivot 93141, and two scraper blade 93142 upper ends link to each other through tension spring 93143, and the lower extreme and the laminating of gel chill roll 9311 lateral wall of scraper blade 93142, so set up, and tension spring 93143 guarantees that the lower extreme and the laminating of gel chill roll 9311 lateral wall of scraper blade 93142 can guarantee that the gelatin after the solidification breaks away from steadily.

Example five: on the basis of the first embodiment, the cyclic feeding mechanism 92 includes: connecting line 921 and feed pump 922, the feed inlet of feed pump 922 links to each other with discharging pipe 95 through connecting line 921, and the oral cavity of the discharge of feed pump 922 says that the inlet pipe 94 links to each other, so sets up, can collect back secondary cure with the gelatin that is not solidified by gel chill roll 9311, has improved work efficiency.

The working process is as follows:

liquid gelatin gets into inside feed casing 91 by conveying pipe 96, and liquid gelatin shunts through material distributing plate 9312, and liquid gelatin contact gel chill roll 9311 after the reposition of redundant personnel, and the gel chill roll 9311 glues on gel chill roll 9311 after solidifying liquid gelatin, is separated by the gelatin after the scraper blade 93142 will solidify afterwards, and the gelatin after the separation gets into crowded gluey casing 2 inside and extrudees, through rubber outlet pipe 6, by shaping orifice plate 7 extrusion moulding.

Gelatin that is not solidified by the gel cooling roller 9311 enters the circulation chamber 9318 through the discharge pipe 95 into the feed pump 922, and the feed pump 922 is returned to the feed housing 91 for secondary solidification.

The cooling liquid enters the cooling liquid buffer tank 9316 through the water pipeline 93112, enters the cooling liquid channel 9319 in the gel cooling roller 9311, enters the cooling liquid buffer tank 9316 at the other side through the connecting pipe 93110, and then flows out through the connecting pipe 93110.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A glue extruder comprising: the glue extruding machine is characterized in that a base (1), a glue extruding shell (2), a glue extruding rod (3), a scraper (4), a glue extruding motor (5), a glue discharging pipe (6) and a forming pore plate (7) are arranged on the base (1), the glue extruding shell (2) is arranged on the base (1), the glue extruding rod (3) is arranged in the glue extruding shell (2), the glue extruding motor (5) is arranged at one end of the glue extruding shell (2), the output end of the glue extruding motor (5) is connected with the glue extruding rod (3), the scraper (4) is arranged on the glue extruding rod (3), the glue discharging pipe (6) is arranged at the other end of the glue extruding shell (2), the forming pore plate (7) is arranged at the other end of the glue discharging pipe (6), a feed port (8) is arranged on the glue extruding shell (2), a circulating cooling feeder (9) is arranged on the glue extruding shell (2), and a heating,

the circulating cooling feeder (9) comprises: feed casing (91), circulation feed mechanism (92) and cooling body (93), be provided with feed casing (91) on crowded gluey casing (2), feed casing (91) inside is provided with cooling body (93), feed casing (91) top is provided with circulation feed mechanism (92), feed casing (91) inside is arranged in to feed inlet (8), be provided with inlet pipe (94) and discharging pipe (95) on feed casing (91), inlet pipe (94) and discharging pipe (95) all link to each other with circulation feed mechanism (92), inlet pipe (94) are located feed casing (91) top central point and put, feed casing (91) top is provided with conveying pipe (96).

2. Glue extruder as claimed in claim 1, characterized in that said cooling mechanism (93) comprises: one-level cooling device (931) and second grade cooling device (932), the inside central point of feed casing (91) puts and is provided with one-level cooling device (931), and one-level cooling device (931) both sides all are provided with second grade cooling device (932), and one-level cooling device (931) is the same with second grade cooling device (932) structure.

3. Glue extruder as claimed in claim 2, characterized in that said primary cooling device (931) comprises: the device comprises gel cooling rollers (9311), a material separating plate (9312), a material separating plate (9313), a scraper mechanism (9314), a driving motor (9315) and a cooling liquid buffer box (9316), wherein the material separating plate (9312) is arranged inside a feeding shell (91), two gel cooling rollers (9311) are arranged below the material separating plate (9312), the scraper mechanism (9314) is arranged between the two gel cooling rollers (9311), the material separating plate (9313) is arranged below the gel cooling rollers (9311), a discharging cavity (9317) is arranged between the two material separating plates (9313), the discharging cavity (9317) is communicated with a feeding port (8), a cavity formed by a secondary cooling device (932), a primary cooling device (931) and the feeding shell (91) is a circulating cavity (9318), a discharging pipe (95) is communicated with the circulating cavity (9318), a cooling liquid channel (9319) is arranged inside the gel cooling rollers (9311), and connecting pipes (93110) are arranged at two ends of the gel cooling rollers (9311), the connecting pipe (93110) is communicated with the cooling liquid channel (9319), the connecting pipe (93110) at one side of the gel cooling roller (9311) penetrates through the feeding shell (91) to be communicated with the cooling liquid buffer tank (9316) arranged on the side wall of the feeding shell (91), the connecting pipe (93110) at the other side of the gel cooling roller (9311) sequentially penetrates through the feeding shell (91), the driving tank (93111) arranged on the side wall of the feeding shell (91) and the cooling liquid buffer tank (9316) arranged on the driving tank (93111) to be communicated, and the cooling liquid buffer tank (9316) is provided with a water passing pipeline (93112).

4. The glue extruder according to claim 3, characterized in that the driving motor (9315) is connected with the connecting pipe (93110) of the primary cooling device (931), the side wall of the connecting pipe (93110) connected with the driving motor (9315) is provided with a through hole, and the gel cooling roller (9311) in the secondary cooling device (932) and the primary cooling device (931) which are in the same direction is driven by a belt driving mechanism, and the belt driving mechanism is arranged in the driving box (93111).

5. Glue extruder according to claim 3, characterized in that the scraper mechanism (9314) comprises: pivot (93141), scraper blade (93142) and tension spring (93143), feed casing (91) inside setting up pivot (93141), two scraper blade (93142) middle parts all articulate with pivot (93141), and two scraper blade (93142) upper ends link to each other through tension spring (93143), and the lower extreme and the laminating of gel chill roll (9311) lateral wall of scraper blade (93142).

6. Glue extruder as claimed in claim 1, characterized in that said cyclic feeding mechanism (92) comprises: connecting line (921) and feed pump (922), the feed inlet of feed pump (922) links to each other with discharging pipe (95) through connecting line (921), and the oral phrase inlet pipe (94) of feed pump (922) link to each other.

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