CN216778755U - Novel dog-house of resin production reation kettle - Google Patents

Abstract

The utility model relates to the technical field of resin production, in particular to a novel feeding port of a resin production reaction kettle, which comprises valves arranged in the feeding port and the feeding pipe, wherein the top end of the feeding port is attached to one end, far away from a storage bin, of the feeding pipe, the attached surface of the feeding port and the feeding pipe is clamped by a fixing buckle through a nut, and a rubber pad is pressed in the fixing buckle. According to the quantitative feeding device, through the design of the quantitative feeding structure, the rotary disc with the surface sleeved on the output end of the motor rotates in the clamping groove, the quantitative pipe can slide in the sliding groove due to the rotation of the rotary disc until the bottom of the quantitative pipe is overlapped with the discharge hole, the raw materials in the quantitative pipe can slide to the feeding pipe through the discharge hole and then enter the feeding hole through the feeding pipe, so that the raw materials are placed into the storage bin, the device can intermittently and quantitatively feed the raw materials, the proportioning in resin production is more urgent and accurate, the quality of resin production is improved, and the working efficiency of workers is improved.

Description

Novel dog-house of resin production reation kettle

Technical Field

The utility model relates to the technical field of resin production, in particular to a novel feed inlet of a resin production reaction kettle.

Background

The resin generally refers to a softening or melting range after being heated, the softening tends to flow under the action of external force, the production of the resin needs to convey raw materials to a feeding port of a reaction kettle, and the raw materials flow into the resin reaction kettle for processing to finally form the resin.

At present reation kettle adopts traditional artifical direct feeding mode mostly, the workman need open reation kettle's dog-house and pours the raw materials into to reation kettle in, the workman can uncontrolled when empting the raw materials many or fall less, make the ratio measurement incorrect, the quality of resin has been influenced, and greatly reduced the efficiency of work, in addition resin production need use when multiple raw and other materials are processed synthetically, throw the processing that raw and other materials stir the mixture more be favorable to the reation kettle later stage at the material in-process, at present most device all adopt stir when reation kettle start-up work again, it is comparatively inconvenient, we have proposed a novel dog-house of resin production reation kettle for this reason and have solved above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel feeding port of a resin production reaction kettle, which aims to solve the problems that in the background technology, workers pour more or less raw materials, so that the proportioning measurement is incorrect, the quality of resin is influenced, the working efficiency is greatly reduced, the raw materials are stirred and mixed in the feeding process, the later-stage processing of the reaction kettle is more facilitated, and most devices are inconvenient to stir when the reaction kettle is started to work at present.

In order to achieve the purpose, the utility model provides the following technical scheme: a novel dog-house of resin production reation kettle includes:

the reaction kettle comprises a reaction kettle main body structure, wherein a material storage structure is erected above the reaction kettle main body structure, the reaction kettle main body structure comprises a first bearing rod, a second bearing rod and a feeding port, one side of the reaction kettle main body structure is respectively welded with the bottom ends of the first bearing rod and the second bearing rod, and the feeding port is arranged in the middle position of the bottom ends of the first bearing rod and the second bearing rod on the surface of the reaction kettle main body structure;

the material storage structure comprises a material storage bin, a feeding port, a sealing cover, a motor, a feeding pipe and a fixing buckle, wherein the top ends of a first bearing rod and a second bearing rod are fixed with the bottom surface of the material storage bin through nuts, the feeding pipe is arranged in the middle of the bottom of the material storage bin, the feeding port is formed in one side of the top of the material storage bin, the sealing cover is hinged to the surface of the top of the material storage bin, the sealing cover is hinged to the upper portion of the feeding port, the motor is installed on one side close to the hinged position of the sealing cover, and the output end of the motor vertically penetrates through the surface of the material storage bin and falls into the material storage bin;

ration pay-off structure, ration pay-off structure is including draw-in groove, rotary disk, ration pipe, spacing base, spout, discharge gate and scraper blade, the draw-in groove has been seted up to the inner wall of storage silo, and the side of draw-in groove and rotary disk inlays mutually, the rotary disk cover is established on the motor and is fallen on an inside output surface of bearing bar, and one side on rotary disk surface is connected with the one end of ration pipe, the other end of ration pipe passes the rotary disk surface perpendicularly and inlays inside the spout that spacing base surface was seted up, spacing base fixed mounting is close to the one end of throwing the material pipe at the storage silo, and the surface of spacing base passes through the bearing and is connected with the bottom of motor output, the discharge gate has been seted up to the spout bottom surface

Preferably, the dog-house all is provided with the valve with dog-house inside, and the one end laminating of storage silo is kept away from with the dog-house on the top of dog-house, the surface of dog-house and dog-house laminating is detained fixedly and is passed through the nut centre gripping, and the inside pressfitting of fixed knot has the cushion.

Preferably, the bottom of the sealing cover is provided with a fixing block, the fixing block is clamped with the feed inlet, and a sealing ring is sleeved on the surface of the fixing block.

Preferably, the motor is located inside the storage bin and the surface of the output end close to one side of the feed inlet is uniformly provided with stirring blades.

Preferably, a protruding slope is arranged in the middle of the surface of the rotating disk.

Preferably, the inner wall of one side of the storage bin is connected, and the bottom of the storage bin is attached to the surface of the rotating disc.

Compared with the prior art, the utility model has the beneficial effects that: the novel feed opening of the resin production reaction kettle is compared with the traditional structure, through the design of a quantitative feeding structure, a motor is started, the rotary disk which is arranged at the output end of the motor and provided with a surface sleeve performs rotary motion in a clamping groove, because the upper end of a quantitative tube is fixed on the surface of the rotary disk, the lower end of the quantitative tube is embedded in a sliding groove which is formed in the surface of a limiting base, the quantitative tube can slide in the sliding groove through the rotation of the rotary disk until the bottom of the quantitative tube is superposed with a discharge port, at the moment, raw materials in the quantitative tube can slide to the feed tube through the discharge port and then enter the feed opening through the feed tube, when the quantitative tube is far away from the discharge port, the feeding can be stopped, so that workers only need to put the raw materials into a storage bin, the device can intermittently put the raw materials in a quantitative mode, the proportioning in the resin production is more urgent and accurate, the improvement on the quality of the resin production and the working efficiency of the workers are facilitated, simultaneously, after the motor is started, the motor output end drives the stirring blades arranged on the surface of the motor output end to stir raw materials inside the storage bin, so that the raw materials are stirred and mixed when the materials are fed, the mixing is more uniform, and the quality of resin production is further enhanced.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic sectional elevation view of a structural use of the present invention;

FIG. 3 is a schematic front view of the structure of the present invention;

FIG. 4 is a schematic right-view of the structure of the present invention;

fig. 5 is a schematic top view of a part of the structure of the quantitative feeding structure of the present invention.

In the figure: 1. a main structure of the reaction kettle; 11. a first bearing rod; 12. a second bearing rod; 13. a feeding port; 2. a material storage structure; 21. a storage bin; 22. a feed inlet; 23. a sealing cover; 24. a motor; 25. a feeding pipe; 26. a fixing buckle; 3. a quantitative feeding structure; 31. a card slot; 32. rotating the disc; 33. a dosing tube; 34. a limiting base; 35. a chute; 36. a discharge port; 37. a scraper.

The specific implementation mode is as follows:

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.

Referring to fig. 1-5, an embodiment of the present invention is shown: a novel dog-house of resin production reation kettle includes:

reation kettle major structure 1, storage structure 2 has been erect to 1 top of reation kettle major structure, and reation kettle major structure 1 is including first bearing bar 11, second bearing bar 12 and dog-house 13, one side of reation kettle major structure 1 welds with the bottom of first bearing bar 11 and second bearing bar 12 respectively, and reation kettle major structure 1 surface is located first bearing bar 11 and second bearing bar 12 bottom intermediate position and is equipped with dog-house 13, dog-house 13 all is provided with the valve with feeding pipe 25 inside, and the laminating of the one end that storage silo 21 was kept away from to the top of dog-house 13 and feeding pipe 25, the surface of dog-house 13 and feeding pipe 25 laminating is detained 26 through the nut centre gripping by fixed, and the inside pressfitting of fixed knot 26 has the cushion, fix convenient the dismantlement through the nut, can use with other reation kettle collocation, and strengthened the leakproofness of device through the design of valve and cushion.

The material storage structure 2 comprises a material storage bin 21, a feeding hole 22, a sealing cover 23, a motor 24, a feeding pipe 25 and a fixing buckle 26, wherein the top ends of a first bearing rod 11 and a second bearing rod 12 are fixed with the bottom surface of the material storage bin 21 through nuts, a feeding pipe 25 is arranged in the middle of the bottom of the storage bin 21, a feeding hole 22 is arranged at one side of the top of the storage bin 21, a sealing cover 23 is hinged on the surface of the top of the storage bin 21, the sealing cover 23 is hinged above the feed port 22, the motor 24 is arranged at one side close to the hinged position of the sealing cover 23, the output end of the motor 24 vertically penetrates through the surface of the storage bin 21 and falls into the storage bin 21, the bottom of the sealing cover 23 is provided with a fixing block which is clamped with the feed port 22, and the surface cover of fixed block is equipped with the sealing washer, has further strengthened the leakproofness of device, conveniently preserves the raw and other materials that do not use in the storage silo 21.

Further, motor 24 is located inside and the output surface that is close to feed inlet 22 one side of storage silo 21 and evenly installs the stirring leaf, conveniently stirs raw and other materials when throwing the material, makes things convenient for later stage reation kettle to add man-hour amalgamation better.

The quantitative feeding structure 3 comprises a clamping groove 31, a rotating disk 32, a quantitative tube 33, a limiting base 34, a sliding groove 35, a discharging hole 36 and a scraper 37, wherein the clamping groove 31 is formed in the inner wall of a storage bin 21, the clamping groove 31 is embedded with the side face of the rotating disk 32, the rotating disk 32 is sleeved on the surface of the output end of a motor 24 falling into a bearing rod 11, one side of the surface of the rotating disk 32 is connected with one end of the quantitative tube 33, the other end of the quantitative tube 33 vertically penetrates through the surface of the rotating disk 32 and is embedded into the sliding groove 35 formed in the surface of the limiting base 34, the limiting base 34 is fixedly installed at one end, close to a feeding tube 25, of the storage bin 21, the surface of the limiting base 34 is connected with the bottom of the output end of the motor 24 through a bearing, the discharging hole 36 is formed in the bottom of the sliding groove 35, a protruding slope is arranged in the middle of the surface of the rotating disk 32, and raw materials can slide into the interior of the tube 33 through the slope when feeding is convenient, the waste of raw materials is reduced.

Furthermore, scraper blade 37 is connected with storage silo 21 one side inner wall, and scraper blade 37's bottom and the surperficial laminating of rotary disk 32 make things convenient for scraper blade 37 to scrape the raw and other materials that scatter around in storage silo 21 inside to quantitative pipe 33 in, further reduce extravagant raw and other materials.

The working principle is as follows: according to the attached drawing 1, when the resin is produced and fed into the reaction kettle, the power is turned on to start the motor 24, then the sealing cover 23 is opened, and the valves arranged inside the feeding port 13 and the feeding pipe 25 pour the raw material to be processed from the feeding port 22, at this time, the output end of the motor 24 drives the stirring blades arranged on the surface of the motor to ceaselessly stir the raw material inside the storage bin 21, meanwhile, the rotation of the output end of the motor 24 can drive the rotating disc 32 sleeved on the surface to perform rotary motion in the clamping groove 31, and when the rotating disc 32 moves, the raw material scattered on the surface of the rotating disc can ceaselessly be scraped by the scraping plate 37 and pushed into the quantitative pipe 33.

According to the attached fig. 2 and 5, when pouring and stirring, materials slide into the quantitative tube 33, because the upper end of the quantitative tube 33 is fixed on the surface of the rotary disk 32, and the lower end of the quantitative tube 33 is embedded in the chute 35 formed on the surface of the limiting base 34, the rotary disk 32 rotates to enable the quantitative tube 33 to slide in the chute 35 until the bottom of the quantitative tube 33 is overlapped with the discharge hole 36, at this time, the raw materials inside the quantitative tube 33 slide to the feeding tube 25 through the discharge hole 36 and then enter the feeding hole 13 through the feeding tube 25, and when the quantitative tube 33 continues to rotate, the bottom of the quantitative tube is far away from the discharge hole 36, the blanking is stopped. After a certain amount of raw materials are delivered, the power supply is cut off, the motor 24 is turned off, meanwhile, the valve arranged inside the feeding port 13 and the feeding pipe 25 is closed, the sealing cover 23 is clamped with the feeding port 22, because the clamping part of the sealing cover 23 and the feeding port 22 is provided with the sealing ring, and the device is provided with the valve, so that if redundant raw materials can be stored in the storage bin 21 and can be continuously used when the next time, or other reaction kettles need to be fed, the nut on the surface of the fixing buckle 26 can be unscrewed, and the nuts connected with the bottoms of the storage bins 21 at the top ends of the first bearing rod 11 and the second bearing rod 12 are unscrewed, the storage structure 2 can be taken to other reaction kettles for matching use.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a novel dog-house of resin production reation kettle which characterized in that includes:

the reaction kettle comprises a reaction kettle main body structure (1), wherein a material storage structure (2) is erected above the reaction kettle main body structure (1), the reaction kettle main body structure (1) comprises a first bearing rod (11), a second bearing rod (12) and a feeding port (13), one side of the reaction kettle main body structure (1) is welded with the bottom ends of the first bearing rod (11) and the second bearing rod (12) respectively, and the feeding port (13) is arranged in the middle position of the bottom ends of the first bearing rod (11) and the second bearing rod (12) on the surface of the reaction kettle main body structure (1);

the material storage structure (2) comprises a material storage bin (21), a feeding port (22), a sealing cover (23), a motor (24), a feeding pipe (25) and a fixing buckle (26), the top ends of a first bearing rod (11) and a second bearing rod (12) are fixed with the bottom surface of the material storage bin (21) through nuts, the feeding pipe (25) is arranged in the middle of the bottom of the material storage bin (21), the feeding port (22) is formed in one side of the top of the material storage bin (21), the sealing cover (23) is hinged to the surface of the top of the material storage bin (21), the sealing cover (23) is hinged above the feeding port (22), the motor (24) is installed on one side close to the hinged position of the sealing cover (23), and the output end of the motor (24) vertically penetrates through the surface of the material storage bin (21) and falls into the material storage bin (21);

quantitative feeding structure (3), quantitative feeding structure (3) is including draw-in groove (31), rotary disk (32), ration pipe (33), spacing base (34), spout (35), discharge gate (36) and scraper blade (37), draw-in groove (31) have been seted up to the inner wall of storage silo (21), and draw-in groove (31) inlay mutually with the side of rotary disk (32), rotary disk (32) cover is established and is fallen on the inside output surface of bearing bar (11) in motor (24), and one side on rotary disk (32) surface is connected with the one end of ration pipe (33), the other end of ration pipe (33) passes rotary disk (32) surface perpendicularly and inlays inside spout (35) that spacing base (34) surface was seted up, spacing base (34) fixed mounting is close to the one end of feeding silo (21) and is connected through the bottom of bearing and motor (24) output on the surface of spacing base (34), the bottom surface of the sliding groove (35) is provided with a discharge hole (36).

2. The novel feeding port of the resin production reaction kettle as claimed in claim 1, wherein: the feeding port (13) and the feeding pipe (25) are internally provided with valves, the top end of the feeding port (13) is attached to one end, far away from the storage bin (21), of the feeding pipe (25), the surface, attached to the feeding port (13) and the feeding pipe (25), of the feeding pipe (25) is clamped by the fixing buckle (26) through the nut, and the rubber mat is pressed inside the fixing buckle (26).

3. The novel feeding port of the resin production reaction kettle as claimed in claim 1, wherein: the bottom of the sealing cover (23) is provided with a fixing block, the fixing block is clamped with the feed port (22), and a sealing ring is sleeved on the surface of the fixing block.

4. The novel feeding port of the resin production reaction kettle as claimed in claim 1, wherein: the motor (24) is positioned in the storage bin (21) and is provided with stirring blades on the surface of the output end close to one side of the feed port (22).

5. The novel feeding port of the resin production reaction kettle as claimed in claim 1, wherein: the middle of the surface of the rotating disc (32) is provided with a protruding slope.

6. The novel feeding port of the resin production reaction kettle as claimed in claim 1, wherein: the scraper (37) is connected with the inner wall of one side of the storage bin (21), and the bottom of the scraper (37) is attached to the surface of the rotating disc (32).

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