CN218878737U - Feeding mechanism of pressure reaction kettle - Google Patents

Abstract

The utility model discloses a there is pressure reation kettle to throw material mechanism, including the reation kettle main part, the inside of reation kettle main part is provided with bulk cargo mechanism, the material pipe is installed on the top of reation kettle main part to connect, and the one end of connecting the material pipe installs the installation component, the top of installation component is installed and is detained the pipe to the butt joint, and just the top of the pipe that is detained is connected with the connecting pipe through the installation component. The utility model discloses a second tonifying qi interface and first tonifying qi interface carry out the tonifying qi, toward docking promptly and delaying the pipe, supply atmospheric pressure in connecting pipe and the reation kettle main part, the gaseous inert gas such as nitrogen gas that mainly adopts of replenishment, in order to avoid the powder material to be throwing the material in-process by oxidation or explosion, the security of this feeding mechanism work has been improved, and throwing the material in-process, rotary feeder cooperates through frequency conversion regulation and outside conveying equipment transmission capacity, so that drop into the material in the reation kettle main part, the operation is convenient.

Description

Feeding mechanism of pressure reaction kettle

Technical Field

The utility model relates to a conveying equipment technical field, in particular to have pressure reation kettle to throw material mechanism.

Background

The reaction kettle is a reaction device, is a container for carrying out physical or chemical reaction, realizes the functions of heating, evaporating, cooling and low-speed and high-speed mixing according to different application occasions, and can be widely applied to the fields of petroleum, chemical industry, rubber and the like;

when carrying out the pay-off to the material of difference, partial material is when throwing the material, run into moisture and can produce inflammable and explosive gas, for example hydrogen, arouse combustion and explosion easily, certain potential safety hazard has, for example metallic sodium etc., current pressure reation kettle throws material mechanism when using, lacks the design to the moisture separation, potential safety hazard has on the one hand, on the other hand material runs into the easy caking of moisture, then can influence the work efficiency who throws the material, and serious still can cause throws the material and block up, consequently, need provide further improvement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a there is pressure reation kettle to throw material mechanism to what put forward in solving above-mentioned background art is that the container that carries out physics or chemical reaction is when using, and the material is influenced the bonding by the moisture easily, the lower problem of safety in utilization.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a there is pressure reation kettle to throw material mechanism, includes the reation kettle main part, the inside of reation kettle main part is provided with bulk cargo mechanism, connect the material pipe is installed on the top of reation kettle main part, and connects the one end of material pipe and install the installation component, the butt joint stagnates the pipe is installed on the top of installation component, and just the top of butt joint stagnates the pipe is connected with the connecting pipe through the installation component, second tonifying qi interface is installed to one side of connecting pipe, first push-pull valve has been cup jointed in the outside of connecting pipe, the second push-pull valve has been cup jointed in the outside of connecting pipe, rotatory dispenser is installed to one side of connecting pipe, the buffer storehouse is installed on the top of connecting pipe, and the top in buffer storehouse installs first tonifying qi interface, the top in buffer storehouse is connected with the feeding storehouse, the inside top of reation kettle main part is installed and is connect the feed cylinder, and the branch material pipe is all installed to the both sides that connect the feed cylinder bottom.

When the feeding mechanism of the pressure reaction kettle of the technical proposal is used, when in use,

preferably, the installation component comprises a first flange plate installed on one side of the connecting pipe and the connecting material pipe, a second flange plate is installed on one side of the first flange plate, one side of the second flange plate is connected with one side of the butt joint stagnation pipe, and fastening bolts are evenly installed between the first flange plate and the second flange plate.

Preferably, two groups of fastening bolts are arranged between the first flange plate and the second flange plate, and two fastening bolts are arranged in each group.

Preferably, bulk cargo mechanism includes driving motor, and driving motor sets up in the outside of reation kettle main part, the drive shaft is installed to driving motor's one end, and the one end of drive shaft extends to the inside of reation kettle main part and installs incomplete fluted disc, the tooth frame is installed in the outside of incomplete fluted disc, and the both sides of tooth frame all install the spliced pole, the deflector is all installed to the bottom of spliced pole, the top of spliced pole is all installed the idol and is met the connecting rod, and the top of connecting rod all is connected with the pinion rack, the top of pinion rack all meshes the gear, the rotary drum is all installed to one side of gear, and one side of rotary drum all installs the material and beat the board that looses.

Preferably, two groups of guide plates are arranged inside the driving motor, and the connecting columns and the guide plates form a sliding mechanism.

Preferably, the outer side of the incomplete tooth disc is provided with teeth, sawteeth matched with the teeth are arranged in the tooth frame, and the incomplete tooth disc and the tooth frame form an engagement mechanism.

Compared with the prior art, the beneficial effects of the utility model are that: the feeding mechanism of the pressure reaction kettle not only prevents moisture in the reaction kettle from entering conveying equipment and preventing materials from caking when feeding is carried out on the pressure reaction kettle in the conveying process, but also prevents the materials from being accumulated because the materials are scattered uniformly when feeding is carried out;

(1) The air is supplemented through the second air supplement interface and the first air supplement interface, namely, air pressure is supplemented into the butt joint stagnation pipe, the connecting pipe and the reaction kettle main body, the supplemented air mainly adopts inert gases such as nitrogen and the like, so that powder materials are prevented from being oxidized or exploded in the feeding process, the working safety of the feeding mechanism is improved, in the feeding process, the rotary feeder is matched with the conveying amount of external conveying equipment through frequency conversion adjustment, so that the materials are fed into the reaction kettle main body, the operation is convenient and fast, when the air pressure is supplemented, the supplemented air pressure is sequentially the first air supplement interface, the second air supplement interface and the reaction kettle main body from large to small, so that moisture in the reaction kettle main body can be prevented from entering the conveying equipment, the materials are prevented from caking, the first flange plate and the second flange plate are disassembled through fastening bolts, so that the butt joint stagnation pipe is disassembled, the cache bin is cleaned and maintained regularly;

(2) Drive shaft and incomplete tooth dish through driving motor in proper order and rotate, tooth through the incomplete tooth dish outside and the inside tooth intermeshing of tooth frame, incomplete tooth dish rotates promptly and makes the tooth frame do reciprocating horizontal motion about doing, even make the spliced pole, connecting rod and pinion rack synchronous motion, pinion rack and gear intermeshing, then make gear and rotary drum do the positive and negative rotation, thereby the board is broken up to the material and upset about synchronous, make this throw material mechanism when using, when the material falls from the branch material pipe, the board is broken up to the material upset about, break up the material, make the even reation kettle main part that falls of material, make the material can not concentrate and fall in the reation kettle main part, avoid the material to concentrate, make material later stage reaction rate faster.

Drawings

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

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

fig. 2 is a schematic view of the front view cross-sectional structure of the present invention;

fig. 3 is a schematic structural view of a portion a in fig. 2 according to the present invention;

fig. 4 is a schematic structural diagram of the position B in fig. 2 according to the present invention.

The reference numerals in the figures illustrate: 1. a reaction kettle main body; 2. a material dispersing mechanism; 201. a drive motor; 202. connecting columns; 203. a guide plate; 204. a connecting rod; 205. a toothed plate; 206. a gear; 207. a rotating drum; 208. a material scattering plate; 209. a residual gear disc; 210. a toothed frame; 211. a drive shaft; 3. connecting the material pipe; 4. a first gate valve; 5. a second gate valve; 6. a second air supplement interface; 7. a rotary feeder; 8. a cache bin; 9. a first air supply interface; 10. a feeding bin; 11. a material receiving barrel; 12. distributing pipes; 13. butting a stagnation pipe; 14. a first flange plate; 15. a second flange plate; 16. fastening a bolt; 17. and (4) connecting the pipes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment of: a feeding mechanism of a pressure reaction kettle comprises a reaction kettle main body 1, wherein a bulk cargo mechanism 2 is arranged inside the reaction kettle main body 1;

the bulk cargo mechanism 2 comprises a driving motor 201, the driving motor 201 is arranged on the outer side of the reaction kettle main body 1, a driving shaft 211 is installed at one end of the driving motor 201, one end of the driving shaft 211 extends into the reaction kettle main body 1 and is provided with a residual toothed disc 209, a toothed frame 210 is installed on the outer side of the residual toothed disc 209, connecting columns 202 are installed on two sides of the toothed frame 210, guide plates 203 are installed at the bottom ends of the connecting columns 202, coupling connecting rods 204 are installed at the top ends of the connecting columns 202, the top ends of the connecting rods 204 are connected with toothed plates 205, gears 206 are meshed with the top ends of the toothed plates 205, rotary drums 207 are installed on one sides of the gears 206, and material scattering plates 208 are installed on one sides of the rotary drums 207;

two groups of guide plates 203 are arranged inside the driving motor 201, and the connecting column 202 and the guide plates 203 form a sliding mechanism;

teeth are arranged on the outer side of the residual tooth disc 209, sawteeth matched with the teeth are arranged in the tooth frame 210, and the residual tooth disc 209 and the tooth frame 210 form an engagement mechanism;

specifically, as shown in fig. 1, 2 and 3, when in use, under the driving of the driving motor 201, the incomplete gear disc 209 is rotated and is engaged with the gear frame 210 through the incomplete gear disc 209, that is, the gear frame 210 reciprocates left and right and drives the toothed plate 205 to move synchronously, that is, the toothed plate 205 is engaged with the gear 206 to rotate, and the material scattering plate 208 rotates left and right synchronously, so as to scatter falling materials, so that the materials can be scattered uniformly in the reaction kettle main body 1, and the materials are prevented from being accumulated in the reaction kettle main body 1 and distributed unevenly;

a connecting material pipe 3 is installed at the top end of the reaction kettle main body 1, an installation component is installed at one end of the connecting material pipe 3, and a butt joint stagnation pipe 13 is installed at the top end of the installation component;

the mounting assembly comprises a first flange 14 mounted on one side of the connecting pipe 17 and the connecting material pipe 3, a second flange 15 is mounted on one side of the first flange 14, one side of the second flange 15 is connected with one side of the stagnation pipe 13, and fastening bolts 16 are uniformly mounted between the first flange 14 and the second flange 15;

two groups of two fastening bolts 16 are arranged between the first flange plate 14 and the second flange plate 15, and two fastening bolts are arranged in each group;

specifically, as shown in fig. 1, 2 and 4, when in use, the stagnation pipe 13 can be flexibly and conveniently detached, so as to be cleaned and maintained at a later stage;

the top end of the butt joint stagnation pipe 13 is connected with a connecting pipe 17 through a mounting assembly, a second air supplement interface 6 is mounted on one side of the connecting pipe 17, a first gate valve 4 is sleeved on the outer side of the connecting material pipe 3, a second gate valve 5 is sleeved on the outer side of the connecting pipe 17, a rotary feeder 7 is mounted on one side of the connecting pipe 17, a buffer bin 8 is mounted on the top end of the connecting pipe 17, a first air supplement interface 9 is mounted on the top end of the buffer bin 8, a feeding bin 10 is connected to the top end of the buffer bin 8, a material receiving cylinder 11 is mounted on the top end of the inner portion of the reaction kettle main body 1, and material distributing pipes 12 are mounted on two sides of the bottom end of the material receiving cylinder 11;

specifically, as shown in fig. 1 and fig. 2, when the feeding mechanism is used, the second air supply interface 6 and the first air supply interface 9 are supplied with air, that is, air pressure is supplied to the butt joint stagnation pipe 13, the connecting pipe 17 and the reaction kettle main body 1, and the supplied air mainly adopts inert gases such as nitrogen, so that powder materials are prevented from being oxidized or exploded in the feeding process, the working safety of the feeding mechanism is improved, moisture in the reaction kettle main body 1 can be prevented from entering the conveying equipment through air pressure difference, and the materials are prevented from being agglomerated.

The working principle is as follows: when the utility model is used, firstly, the air is supplied from the second air supply interface 6 and the first air supply interface 9 to the buffer storage bin 8 and the connecting pipe 17 as well as the butt joint stagnation pipe 13 and the reaction kettle main body 1, then the first gate valve 4 and the second gate valve 5 are opened, then the rotary feeder 7 and the external conveying equipment are started, the material is conveyed to the feeding bin 10, then the material falls into the buffer storage bin 8 for buffer storage, then the conveying capacity of the rotary feeder 7 and the external conveying equipment is matched, the material is thrown into the reaction kettle main body 1, the material throwing is convenient and the working efficiency is high;

secondly, the fastening bolts 16 are screwed and disassembled from the first flange plate 14 and the second flange plate 15, and then the butt joint stagnation pipe 13 is disassembled, so that the butt joint stagnation pipe 13 can be disassembled, cleaned and maintained in the later period, when air pressure is supplemented, the supplementing air pressure is sequentially the first air supplementing interface 9, the second air supplementing interface 6 and the reaction kettle main body 1 from large to small, so that moisture in the reaction kettle main body 1 can be prevented from entering conveying equipment, material agglomeration is prevented, the supplemented air mainly adopts inert gases such as nitrogen, so that powder materials are prevented from being oxidized or exploded in the feeding process, and the working safety of the feeding mechanism is improved;

finally, the input material falls into the material receiving barrel 11 along the connecting pipe 3, then falls down along the material distributing pipe 12, then the driving motor 201 works to drive the driving shaft 211 and the residual toothed disc 209 to rotate in sequence, the residual toothed disc 209 is meshed with the toothed frame 210, namely, the residual toothed disc 209 rotates to enable the toothed frame 210 to do left-right reciprocating horizontal motion, namely, the connecting column 202, the connecting rod 204 and the toothed plate 205 move synchronously, the toothed plate 205 is meshed with the gear 206, then the gear 206 and the rotary drum 207 do positive and negative rotation, so that the material scattering plate 208 is driven to turn left and right synchronously, the falling material is scattered, the material is scattered uniformly in the reaction kettle main body 1, the material cannot fall in the reaction kettle main body 1 in a centralized manner, the material concentration is avoided, and the material later-stage reaction rate is faster.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a there is reation kettle to throw material mechanism, includes reation kettle main part (1), its characterized in that: the inside of reation kettle main part (1) is provided with bulk cargo mechanism (2), connect material pipe (3) are installed on the top of reation kettle main part (1), and connect the one end of material pipe (3) and install the installation component, the top of installation component is installed and is stagnated pipe (13) to the butt joint, and the top that stagnates pipe (13) is connected with connecting pipe (17) through the installation component, second tonifying qi interface (6) are installed to one side of connecting pipe (17), first push-pull valve (4) have been cup jointed in the outside of connecting pipe (3), second push-pull valve (5) have been cup jointed in the outside of connecting pipe (17), rotary feeder (7) are installed to one side of connecting pipe (17), buffer storehouse (8) are installed on the top of connecting pipe (17), and buffer storehouse (8)'s top installs first tonifying qi interface (9), buffer storehouse (8)'s top is connected with feeding storehouse (10), material receiving cylinder (11) are installed on the inside top of reation kettle main part (1), and the both sides that receive material cylinder (11) bottom all install branch material pipe (12).

2. The pressure reactor feeding mechanism of claim 1, wherein: the installation component comprises a first flange plate (14) installed on one side of a connecting pipe (17) and a connecting material pipe (3), a second flange plate (15) is installed on one side of the first flange plate (14), one side of the second flange plate (15) is connected with one side of a butt joint stagnation pipe (13), and fastening bolts (16) are evenly installed between the first flange plate (14) and the second flange plate (15).

3. The pressure reactor feeding mechanism of claim 2, wherein: two groups of fastening bolts (16) are arranged between the first flange plate (14) and the second flange plate (15), and two fastening bolts are arranged in each group.

4. The pressure reactor feeding mechanism of claim 1, wherein: bulk cargo mechanism (2) include driving motor (201), and driving motor (201) sets up in the outside of reation kettle main part (1), drive shaft (211) are installed to the one end of driving motor (201), and the one end of drive shaft (211) extends to the inside of reation kettle main part (1) and installs incomplete fluted disc (209), rim of tooth (210) is installed in the outside of incomplete fluted disc (209), and the both sides of rim of tooth (210) all install spliced pole (202), deflector (203) are all installed to the bottom of spliced pole (202), the top of spliced pole (202) is all installed the idol and is met connecting rod (204), and the top of connecting rod (204) all is connected with pinion rack (205), the top of pinion rack (205) all meshes gear (206), rotary drum (207) are all installed to one side of gear (206), and one side of rotary drum (207) all installs the material and beat loose board (208).

5. The feeding mechanism of pressure reactor as claimed in claim 4, wherein: two groups of guide plates (203) are arranged inside the driving motor (201), and the connecting column (202) and the guide plates (203) form a sliding mechanism.

6. The pressure reactor charging mechanism as set forth in claim 4, wherein: the outside of incomplete fluted disc (209) is provided with the tooth, the inside of tooth frame (210) is provided with the sawtooth that matches each other with the tooth, incomplete fluted disc (209) and tooth frame (210) constitute engagement mechanism.

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