CN112221450A - Starch glue processing is with constant temperature heating cauldron that has temperature monitoring mechanism - Google Patents

Abstract

The invention discloses a constant-temperature heating kettle with a temperature monitoring mechanism for starch glue processing, which comprises a kettle body and supporting legs, wherein the kettle body is vertically installed at the top ends of the supporting legs, a discharge hole is formed in the middle position of the bottom end in the kettle body, a feed inlet is formed in one side of the top end of the kettle body, a driving motor is installed at the top end of the kettle body on one side of the feed inlet, a stirring shaft extending to the outside of the kettle body is vertically installed at the output end of the driving motor through a rotating shaft, a scraping plate is evenly installed at the upper end of the surface of the stirring shaft, stirring blades are installed on two sides of the stirring shaft below the scraping plate, and heating pipes are. According to the invention, the temperature sensor, the condensing pipe and the heating pipe are arranged, the temperature sensor is used for monitoring the internal temperature of the kettle body in real time, and the condensing pipe and the heating pipe are used for carrying out temperature adjustment operation, so that constant temperature reaction is realized, and smooth production of starch glue is ensured.

Description

Starch glue processing is with constant temperature heating cauldron that has temperature monitoring mechanism

Technical Field

The invention relates to the technical field of starch glue processing equipment, in particular to a constant-temperature heating kettle with a temperature monitoring mechanism for starch glue processing.

Background

Starch glue is a short for starch adhesive, is a natural adhesive prepared by taking starch as a base material, is widely applied to daily life and industrial production due to the characteristics of rich source, low price, convenient use and no toxicity, and a reaction kettle is usually used in the production and processing process of the starch glue, but the existing constant-temperature heating kettle for starch glue processing still has many problems or defects:

first, traditional starch glue processing is with constant temperature heating cauldron, does not have the temperature monitoring structure during the use, and the internal temperature constancy of assurance cauldron that can not be fine influences product shaping efficiency.

Second, traditional starch glue processing is with constant temperature heating cauldron, does not scrape the wall structure during the use, and the internal portion of cauldron easily glues glutinous material, influences and homogenizes speed, and the raw materials of easy wasting.

Third, traditional starch glue processing is with constant temperature heating cauldron, does not have during the use and prevents stifled structure, and the shaping material consistency is higher, easily blocks up the discharge gate.

Disclosure of Invention

The invention aims to provide a constant-temperature heating kettle with a temperature monitoring mechanism for starch glue processing, which aims to solve the problems of inconvenient temperature monitoring, easy material adhesion and inconvenient blockage prevention in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a constant temperature heating kettle with a temperature monitoring mechanism for starch glue processing comprises a kettle body and supporting legs, and further comprises a wall scraping structure for saving materials, an anti-blocking structure for avoiding material blockage and a constant temperature structure for ensuring smooth reaction;

the top ends of the supporting legs are vertically provided with a kettle body, a discharge port is formed in the middle position of the bottom end in the kettle body, and the anti-blocking structures are arranged at the bottom ends of the kettle body on two sides of the discharge port;

a feed port is formed in one side of the top end of the kettle body, a driving motor is installed at the top end of the kettle body on one side of the feed port, a stirring shaft extending to the outside of the kettle body is vertically installed at the output end of the driving motor through a rotating shaft, scraping plates are evenly installed at the upper end of the surface of the stirring shaft, and the wall scraping structures are all arranged at one end of each scraping plate;

stirring blades are arranged on two sides of the stirring shaft below the scraper, heating pipes are arranged at the upper end and the lower end of the inner part of each stirring blade, and the constant-temperature structure is arranged on the surface of the kettle body;

and a PLC (programmable logic controller) is installed at the upper end of one end of the kettle body.

Preferably, the constant temperature structure includes the heat preservation chamber, the heat preservation chamber sets up on the surface of the cauldron body, and heat preservation intracavity portion one side upper end sets up the pressure release mouth that extends to the internal portion of cauldron, the condenser pipe has been laid to the inner wall spiral of the cauldron body, and condenser pipe one end has the water inlet that extends to the external portion of cauldron through the pipe mounting, the condenser pipe other end has the outlet that extends to the external portion of cauldron through the pipe mounting, and one side on the internal portion top of cauldron installs temperature sensor.

Preferably, scrape the wall structure and include clean board, fixed slot, fixed spring and connecting block, the fixed slot is evenly seted up in the inside one end of scraper blade, and the inside one end of fixed slot all installs fixed spring, fixed spring one end all installs the connecting block that extends to the scraper blade outside, and the equal vertical clean board of installing of connecting block one end.

Preferably, prevent stifled structure including preventing stifled spring, prevent stifled pole, mounting groove, prevent stifled case and L type pole, prevent stifled case and all install in the cauldron body bottom of discharge gate both sides, and prevent that the intermediate position department of stifled incasement portion one side installs the mounting groove, mounting groove one end is all fixed articulated to have prevents stifled pole, and prevents that the lower extreme of stifled pole one side is all fixed articulated to have and prevents stifled spring, prevent that stifled spring one end all with prevent the fixed articulated of lower extreme of stifled incasement portion one side, the vertical L type pole that extends to the discharge gate of installing in (mixing) shaft bottom.

Preferably, the heating pipes are all U-shaped, and are symmetrically distributed about the transverse central axis of the stirring blade.

Preferably, the lower ends of the two sides of the stirring shaft are both provided with lower kettle blades, and one side of each lower kettle blade and the two sides of the stirring shaft are in a welding integrated structure.

Preferably, the fixed block is all installed on the top and the bottom of the inside one side of pressure release port, and reset spring is all installed to one side of fixed block, reset spring keeps away from the inside installation of pressure release port on one side of the fixed block and blocks up the ball.

Compared with the prior art, the invention has the beneficial effects that:

(1) through the arrangement of the temperature sensor, the condenser pipe and the heat preservation cavity, along with the reaction, when the pressure inside the kettle body is too high, the air pressure can push the blocking ball to move towards the direction away from the kettle body, and then high-pressure high-temperature gas inside the kettle body can enter the heat preservation cavity through the pressure relief port, so that the heat preservation is realized, excessive heat loss is avoided, meanwhile, the temperature sensor monitors the temperature inside the kettle body in real time, when the temperature inside the kettle body is higher than the set value of the temperature sensor, a signal is transmitted to the PLC, so that the heating pipe is controlled to stop working, meanwhile, condensate is injected through the water inlet, heat exchange is carried out between the condenser pipe and the raw material, so that the constant temperature inside the kettle body can be realized, the;

(2) the wall scraping structure, the lower kettle blade and the scraper blade are arranged, the lower kettle blade is driven to rotate by the rotation of the stirring shaft, raw materials at the lower end in the kettle body are stirred, the stirring efficiency is improved, the scraper blade is driven to rotate by the rotation of the stirring shaft, and meanwhile, the cleaning plate is tightly attached to the inner wall of the kettle body by the aid of the elasticity of the fixing spring, so that wall scraping operation is realized, the raw materials are prevented from being adhered to the inner wall of the kettle body, the waste of the raw materials can be reduced while the stirring efficiency is improved, and the production economic loss is reduced;

(3) through being provided with anti-blocking structure, begin to arrange the material through opening the discharge gate, and continue to start temperature sensor, rotate through the (mixing) shaft and drive L type pole and rotate, and then periodic rotation strikes anti-blocking pole for prevent that anti-blocking pole deflects tensile stifled spring, mix the inside starch glue of discharge gate, avoid thick starch glue to block up the discharge gate, and then reduce device discharging efficiency, improve the device practicality.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic structural diagram of the front view of the present invention;

FIG. 3 is a schematic top cross-sectional view of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 1 at A according to the present invention;

fig. 5 is an enlarged structural view of the anti-blocking structure according to the present invention.

In the figure: 1. a kettle body; 2. a temperature sensor; 3. a drive motor; 4. a feed inlet; 5. a water outlet; 6. a wall scraping structure; 601. cleaning the plate; 602. fixing grooves; 603. fixing the spring; 604. connecting blocks; 7. a condenser tube; 8. a heat preservation cavity; 9. discharging the kettle leaves; 10. supporting legs; 11. a discharge port; 12. a water inlet; 13. an anti-blocking structure; 1301. an anti-blocking spring; 1302. an anti-blocking rod; 1303. mounting grooves; 1304. the anti-blocking box; 1305. an L-shaped rod; 14. stirring blades; 15. heating a tube; 16. a stirring shaft; 17. a squeegee; 18. a PLC controller; 19. a pressure relief port; 20. a return spring; 21. blocking the ball; 22. and (5) fixing blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-5, a constant temperature heating kettle with a temperature monitoring mechanism for starch glue processing comprises a kettle body 1, supporting legs 10, a wall scraping structure 6 for saving materials, an anti-blocking structure 13 for avoiding material blockage and a constant temperature structure for ensuring smooth reaction;

the top ends of the supporting legs 10 are vertically provided with the kettle body 1, a discharge port 11 is formed in the middle position of the bottom end in the kettle body 1, and anti-blocking structures 13 are arranged at the bottom ends of the kettle body 1 on two sides of the discharge port 11;

a feed port 4 is formed in one side of the top end of the kettle body 1, a driving motor 3 is installed at the top end of the kettle body 1 on one side of the feed port 4, the type of the driving motor 3 can be YE2-132M1, a stirring shaft 16 extending to the outside of the kettle body 1 is vertically installed at the output end of the driving motor 3 through a rotating shaft, scraping plates 17 are evenly installed at the upper ends of the surfaces of the stirring shaft 16, and the wall scraping structures 6 are all arranged at one ends of the scraping plates 17;

stirring blades 14 are arranged on two sides of a stirring shaft 16 below the scraper 17, heating pipes 15 are arranged at the upper end and the lower end of the inner part of each stirring blade 14, the type of each heating pipe 15 can be phi 57 x 2-10, and a constant-temperature structure is arranged on the surface of the kettle body 1;

a PLC (programmable logic controller) 18 is installed at the upper end of one end of the kettle body 1, and the model of the PLC 18 can be FX3SA-10 MR-CM;

referring to fig. 1-5, a constant temperature heating kettle with a temperature monitoring mechanism for starch glue processing further comprises a constant temperature structure, the constant temperature structure comprises a heat preservation cavity 8, the heat preservation cavity 8 is arranged on the surface of the kettle body 1, the upper end of one side inside the heat preservation cavity 8 is provided with a pressure relief port 19 extending into the kettle body 1, a condensation pipe 7 is spirally laid on the inner wall of the kettle body 1, one end of the condensation pipe 7 is provided with a water inlet 12 extending to the outside of the kettle body 1 through a conduit, the other end of the condensation pipe 7 is provided with a water outlet 5 extending to the outside of the kettle body 1 through a conduit, one side of the top end inside the kettle body 1 is provided with a temperature sensor 2, and the model of the temperature sensor 2 can be TS;

the heating pipes 15 are all U-shaped, and the heating pipes 15 are symmetrically distributed around the transverse central axis of the stirring blade 14;

the top end and the bottom end of one side inside the pressure relief opening 19 are both provided with a fixed block 22, one side of each fixed block 22 is provided with a return spring 20, and the inside of the pressure relief opening 19, which is far away from the fixed block 22, of each return spring 20 is provided with a blocking ball 21;

specifically, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, along with the reaction, possibly after the pressure inside the kettle body 1 is too high, the air pressure can push the blocking ball 21 to move away from the kettle body 1, and then the high-pressure high-temperature gas inside the kettle body 1 can enter the heat preservation cavity 8 through the pressure relief port 19, so as to realize the heat preservation layer, avoid excessive heat loss, and meanwhile, the temperature sensor 2 monitors the temperature inside the kettle body 1 in real time, when the temperature inside the kettle body 1 is greater than the set value of the temperature sensor 2, the signal can be transmitted to the PLC controller 18, and then the heating pipe 15 is controlled to stop working, and simultaneously, the condensate is injected through the water inlet 12, heat exchange is performed with the raw material by using the condensing pipe 7, and then the constant temperature inside the kettle body 1 can be realized, and when heating, the U-.

Example 2: the wall scraping structure 6 comprises a cleaning plate 601, a fixing groove 602, a fixing spring 603 and a connecting block 604, wherein the fixing groove 602 is uniformly formed in one end inside the scraping plate 17, the fixing spring 603 is mounted at one end inside the fixing groove 602, the connecting block 604 extending to the outside of the scraping plate 17 is mounted at one end of the fixing spring 603, and the cleaning plate 601 is vertically mounted at one end of the connecting block 604;

the lower ends of two sides of the stirring shaft 16 are both provided with lower kettle blades 9, and one side of each lower kettle blade 9 and two sides of the stirring shaft 16 are in a welding integrated structure;

specifically, as shown in fig. 1, fig. 3 and fig. 4, the stirring shaft 16 rotates to drive the lower kettle blade 9 to rotate, so as to stir the raw material at the lower end inside the kettle body 1, thereby improving the stirring efficiency, and the stirring shaft 16 rotates to drive the scraper 17 to rotate, and meanwhile, the cleaning plate 601 is tightly attached to the inner wall of the kettle body 1 by using the elastic force of the fixing spring 603, so that the wall scraping operation is realized, and the raw material is prevented from being adhered to the inner wall of the kettle body 1.

Example 3: the anti-blocking structure 13 comprises an anti-blocking spring 1301, an anti-blocking rod 1302, a mounting groove 1303, an anti-blocking box 1304 and an L-shaped rod 1305, wherein the anti-blocking box 1304 is mounted at the bottom end of the kettle body 1 on two sides of the discharge port 11, the mounting groove 1303 is mounted in the middle of one side inside the anti-blocking box 1304, one end of the mounting groove 1303 is fixedly hinged with the anti-blocking rod 1302, the lower end of one side of the anti-blocking rod 1302 is fixedly hinged with an anti-blocking spring 1301, one end of the anti-blocking spring 1301 is fixedly hinged with the lower end of one side inside the anti-blocking box 1304, and the L-shaped rod 1305 extending into the;

specifically, as shown in fig. 1, fig. 2 and fig. 5, the stirring shaft 16 rotates to drive the L-shaped rod 1305 to rotate, and then periodically rotates to knock the anti-blocking rod 1302, so that the anti-blocking rod 1302 deflects and stretches the anti-blocking spring 1301, and stirs the starch glue inside the discharge hole 11, thereby avoiding the thick starch glue from blocking the discharge hole 11, and further reducing the discharging efficiency of the device.

The output end of the PLC 18 is electrically connected with the input end of the heating pipe 15 through the wire driving motor 3, and the output end of the PLC 18 is electrically connected with the input end of the temperature sensor 2.

The working principle is as follows: when the device is used, firstly, an external power supply is connected, then, raw materials are added into the kettle body 1 through the feeding hole 4, then, the temperature sensor 2 is started to drive the stirring shaft 16 to rotate, meanwhile, the heating pipe 15 is started to heat and stir the raw materials, meanwhile, the stirring shaft 16 rotates to drive the lower kettle blades 9 to rotate, the raw materials at the lower end in the kettle body 1 are stirred, the stirring efficiency is further improved, the stirring shaft 16 rotates to drive the scraper blade 17 to rotate, meanwhile, the cleaning plate 601 is enabled to be tightly attached to the inner wall of the kettle body 1 through the connecting block 604 by means of the elasticity of the fixing spring 603, wall scraping operation is further achieved, and the raw materials;

along with the reaction, when the pressure inside the kettle body 1 is too high, the air pressure is greater than the elastic force of the return spring 20, so that the blocking ball 21 moves away from the kettle body 1, and then high-pressure high-temperature gas inside the kettle body 1 enters the heat preservation cavity 8 through the pressure relief opening 19 to realize the heat preservation, thereby reducing heat exchange inside and outside the kettle body 1, avoiding excessive heat loss, simultaneously monitoring the temperature inside the kettle body 1 in real time by the temperature sensor 2, transmitting a signal to the PLC 18 when the temperature inside the kettle body 1 is greater than a set value of the temperature sensor 2, further controlling the heating pipe 15 to stop working, simultaneously injecting condensate through the water inlet 12, performing heat exchange with the raw materials by using the condensing pipe 7, then discharging the condensate after heat exchange through the water outlet 5, further realizing constant temperature inside the kettle body 1, and ensuring smooth reaction;

after starch glue stirring reaction is accomplished, open discharge gate 11 and begin to arrange the material, continue to start temperature sensor 2 simultaneously for the starch glue of the 1 inner wall of the cauldron body drops fast, and (mixing) shaft 16 rotates simultaneously and drives L type pole 1305 and rotate, and then periodic rotation strikes and prevents stifled pole 1302, makes to prevent that stifled pole 1302 deflects tensile stifled spring 1301, stirs the starch glue of discharge gate 11 inside, avoids thick starch glue to block up discharge gate 11, and then reduces device discharging efficiency.

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 (7)

1. The utility model provides a starch glue processing is with constant temperature heating cauldron that has temperature monitoring mechanism, includes the cauldron body (1) and supporting leg (10), its characterized in that: the device also comprises a wall scraping structure (6) for saving materials, an anti-blocking structure (13) for avoiding material blockage and a constant temperature structure for ensuring smooth reaction;

the top ends of the supporting legs (10) are vertically provided with the kettle body (1), a discharge hole (11) is formed in the middle position of the bottom end in the kettle body (1), and the anti-blocking structures (13) are arranged at the bottom ends of the kettle body (1) on the two sides of the discharge hole (11);

a feeding hole (4) is formed in one side of the top end of the kettle body (1), a driving motor (3) is installed at the top end of the kettle body (1) on one side of the feeding hole (4), a stirring shaft (16) extending to the outside of the kettle body (1) is vertically installed at the output end of the driving motor (3) through a rotating shaft, scraping plates (17) are evenly installed at the upper end of the surface of the stirring shaft (16), and the wall scraping structures (6) are all arranged at one end of each scraping plate (17);

stirring blades (14) are arranged on two sides of a stirring shaft (16) below the scraper (17), heating pipes (15) are arranged at the upper end and the lower end of the inner part of each stirring blade (14), and the constant-temperature structure is arranged on the surface of the kettle body (1);

and a PLC (programmable logic controller) (18) is installed at the upper end of one end of the kettle body (1).

2. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 1, is characterized in that: constant temperature structure includes heat preservation chamber (8), heat preservation chamber (8) set up on the surface of the cauldron body (1), and heat preservation chamber (8) inside one side upper end offer extend to cauldron body (1) inside pressure release mouth (19), condenser pipe (7) have been laid to the inner wall spiral of the cauldron body (1), and condenser pipe (7) one end has water inlet (12) that extend to the cauldron body (1) outside through pipe mounting, condenser pipe (7) other end has outlet (5) that extend to the cauldron body (1) outside through pipe mounting, and temperature sensor (2) are installed to one side on the cauldron body (1) inside top.

3. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 1, is characterized in that: scrape wall structure (6) including cleaning plate (601), fixed slot (602), fixed spring (603) and connecting block (604), the one end in scraper blade (17) inside is evenly seted up in fixed slot (602), and fixed spring (603) are all installed to the inside one end of fixed slot (602), fixed spring (603) one end is all installed and is extended to connecting block (604) of scraper blade (17) outside, and the equal vertical cleaning plate (601) of installing of connecting block (604) one end.

4. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 1, is characterized in that: prevent stifled structure (13) including preventing stifled spring (1301), preventing stifled pole (1302), mounting groove (1303), prevent stifled case (1304) and L type pole (1305), prevent stifled case (1304) and all install cauldron body (1) bottom in discharge gate (11) both sides, and prevent that the intermediate position department of the inside one side of stifled case (1304) installs mounting groove (1303), mounting groove (1303) one end all fixed articulated have prevent stifled pole (1302), and the lower extreme of preventing stifled pole (1302) one side all fixed articulated have prevent stifled spring (1301), prevent stifled spring (1301) one end all with prevent the fixed articulated of the lower extreme of the inside one side of stifled case (1304), vertical the installing in (mixing) shaft (16) bottom extends to the inside L type pole (1305) of discharge gate (11).

5. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 1, is characterized in that: the heating pipes (15) are all U-shaped, and the heating pipes (15) are symmetrically distributed about the transverse central axis of the stirring blade (14).

6. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 1, is characterized in that: lower kettle blades (9) are installed at the lower ends of two sides of the stirring shaft (16), and a welding integrated structure is formed between one side of each lower kettle blade (9) and two sides of the stirring shaft (16).

7. The constant-temperature heating kettle with the temperature monitoring mechanism for starch glue processing according to claim 2, is characterized in that: fixed block (22) are all installed to the top and the bottom of inside one side of pressure release mouth (19), and reset spring (20) are all installed to one side of fixed block (22), pressure release mouth (19) internally mounted that fixed block (22) one side was kept away from in reset spring (20) has jam ball (21).

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