CN219209804U - Automatic synergist adding equipment - Google Patents

Abstract

The utility model relates to the technical field of automatic adding, in particular to automatic adding equipment for a synergistic agent, which comprises a main connecting seat which is horizontally and fixedly arranged at the bottom of a crane in a chemical industry workshop, wherein the main connecting seat moves along with the crane, a main rotating member is fixedly arranged at the bottom of the main connecting seat, a horizontally arranged rotating disc is fixedly arranged at the bottom output shaft end of the main rotating member, a lifting assembly is arranged at the bottom of the rotating disc, a multi-pipe feeding unit is arranged at the bottom of the lifting assembly, and synergistic agent powder is supplied to the multi-pipe feeding unit by a synergistic agent storage tank arranged below the rotating disc. The equipment is arranged at a certain height inside the chemical vehicle, and the chemical reaction container is arranged below the equipment on the ground, so that the purposes of adding corresponding synergist powder into raw materials inside the chemical container in the chemical product treatment process to quickly increase the product efficiency and quality can be realized.

Description

Automatic synergist adding equipment

Technical Field

The utility model relates to the technical field of automatic addition, in particular to novel equipment capable of realizing regulation and control type rapid addition of a synergistic agent, and especially relates to automatic addition equipment of the synergistic agent.

Background

The synergist is a chemical auxiliary agent for improving various polymerization tensile strength, and can effectively add various plastics and the tensile strength, hardness and other mechanical properties of corresponding modified plastics and regenerated plastics under a small amount of applicable conditions through special chemical polymerization and physical effects, and reduce the molding shrinkage rate.

When the synergist is added, the synergist is generally added into a main raw material processing container or equipment by adopting a manual adding or equipment adding mode.

At present, pneumatic spraying feeding equipment is commonly adopted when the synergistic agent is fed by using the feeding equipment. For example, in the patent application CN200820109782.2, a powder feeder is disclosed, the main structure of which comprises an air flow pipeline, a feeding device with a feeding pipe and a discharging pipe, at least one section of venturi pipe is arranged in the air flow pipeline, and the discharging hole of the discharging pipe is positioned at the upstream contraction section of the throat of the venturi pipe; a downstream diffusion section of the venturi throat is provided with a pneumatic dispersion mixer; a bypass mixer is arranged at the downstream of the pneumatic dispersion mixer; the pneumatic dispersion mixer comprises a nozzle array which is annularly distributed; .. the powder is dispersed and broken up by shearing with a high velocity air stream; the pneumatic dispersion mixer comprises a control cabinet and is used for adjusting the pressure and flow of the nozzle; the bypass mixer includes a conical bypass ring; the two conical flow-around rings are connected with the embedded part of the inner wall of the air flow pipeline through the back support of the two conical flow-around rings; the feeding device adopts a combined structure of a star-shaped feeding valve and a centrifugal fan; the centrifugal fan adopts a vertical centrifugal fan.

As can be seen from the description of the above patent, the existing feeder mainly uses a venturi tube section arranged in an air flow pipeline, locally increases the air flow speed by using a transition region formed by the venturi tube throat, and disperses powder by one-shot (contracted section) and one-shot (diffused section) of the air flow, but the headstock mode is not suitable for feeding materials with higher viscosity such as slurry in a chemical industry workshop.

Therefore, the utility model provides an improvement for the operation of adding the synergist for the chemical raw materials with viscous fluid or semi-fluid shape, and designs and improves a novel device capable of realizing the regulated and controlled rapid addition of the synergist so as to better solve the problems in the prior art.

Disclosure of Invention

The utility model aims to solve one of the technical problems, and adopts the following technical scheme: the utility model provides an automatic interpolation equipment of synergist, includes the main connecting seat of level and fixed mounting in the aviation crane bottom of chemical industry workshop, main connecting seat follows the aviation crane and removes the bottom fixed mounting of main connecting seat has a main rotating member the bottom output shaft fixed mounting of main rotating member has a rotary disk of level setting the bottom of rotary disk is installed a lifting unit's bottom is installed a multitube reinforced unit, multitube reinforced unit is by a setting up the synergist storage tank supply synergist powder of rotary disk below, two the lower extreme of multitube reinforced unit stretches into the inside of its open-top's of below chemical industry production container and realizes the chemical raw materials ration supply synergist powder to its inside.

In any of the above schemes, preferably, the lifting assembly comprises four synchronous lifting cylinders respectively and fixedly installed at four corners of the bottom of the rotating disc, a horizontally arranged cylinder connecting positioning seat is arranged in a space surrounded by cylinder barrels of the four synchronous lifting cylinders, fixing clamping sleeves are respectively welded at four corners of the cylinder connecting positioning seat, each fixing clamping sleeve is sleeved on the outer side wall of the middle section of the cylinder barrel of the synchronous lifting cylinder at a corresponding position and fixedly connected with the synchronous lifting cylinder through bolting screws, the four synchronous lifting cylinders move synchronously during movement, and the bottom of a piston rod of each synchronous lifting cylinder is fixedly connected with the top of the multi-pipe feeding unit.

In any of the above schemes, it is preferable that a plurality of upper reinforcing guide posts are provided between the top of the cylinder connecting positioning seat and the rotating disc, the top of each upper reinforcing guide post is fixed at the bottom of the rotating disc, and the bottom is fixedly mounted at the top of the cylinder connecting positioning seat.

In any of the above schemes, preferably, the bottom of the synergist storage tank is fixedly installed on a piston rod scraping assembly, the piston rod scraping assembly comprises an upper liquid plate seat arranged below the cylinder connecting positioning seat, scraping sleeves sleeved on the outer side walls of the piston rods of the synchronous lifting cylinders at corresponding positions are fixedly installed at four corners of the upper liquid plate seat respectively, when the piston rods of the synchronous lifting cylinders stretch out and draw back, the scraping sleeves scrape materials adhered to the surfaces of the piston rods, a plurality of lower reinforcing guide posts are arranged between the top of the upper liquid plate seat and the cylinder connecting positioning seat, the bottom of each lower reinforcing guide post is fixed at the bottom of the upper liquid plate seat and the top of the upper liquid plate seat, the top center of the upper liquid plate seat is fixedly installed with a flow supply conveying pump, and all outlets of multi-way pipes installed at the outlets of the flow supply conveying pump are connected with all feed inlets of the pipe orifice feeding units through corresponding feed connecting pipes.

In any of the above aspects, it is preferable that the feed connection pipe is a rubber tubule having a bending function.

In any of the above schemes, preferably, the multi-pipe feeding unit comprises four connecting discs which are respectively and detachably arranged at the bottom of a piston rod of the synchronous lifting cylinder, a feeding vertical steel pipe which is coaxially arranged with the piston rod of the synchronous lifting cylinder is fixedly arranged at the bottom of each connecting disc, and a plurality of three gas mixing nozzles are respectively and alternately arranged on the outer side wall of the lower part of each feeding vertical steel pipe along the circumference of the lower part of each feeding vertical steel pipe; the synergist storage tank is started to supply powder mixture in a high-pressure state to the inside of each feeding vertical steel pipe through a corresponding feeding connecting pipe by starting a flow feeding and conveying pump arranged on the synergist storage tank, and the powder mixture is sprayed outwards through a corresponding three-head gas mixing nozzle and is mixed with raw materials in a chemical production container.

In any of the above embodiments, it is preferable that a bottom nozzle is attached to a bottom of each of the vertical steel pipes.

In any of the above schemes, preferably, the fixing sleeve is formed by butt joint of two semicircular sleeves, and each semicircular sleeve is fixedly bolted with the outer side wall of the cylinder barrel of the synchronous lifting cylinder through a bolting screw.

In any of the above aspects, it is preferable that the main rotating member is a high torque rotating electric machine.

Compared with the prior art, the utility model has the following beneficial effects:

1. the equipment is configured in a chemical vehicle at a certain height, and the chemical reaction container is configured and installed on the ground below the equipment, so that the corresponding synergist powder can be added into the raw materials in the chemical container in the chemical product treatment process to achieve the purpose of rapidly increasing the product efficiency and quality, and in addition, the whole equipment can realize mechanized operation through remote control when the synergist powder is added, and the whole feeding process is simpler and faster.

2. The device is suitable for adding the synergist in the chemical production process of some fluid or semi-fluid with higher viscosity, and can be used for chemical containers or tanks with larger volume; meanwhile, the lifting component is adopted by the device to extend into the chemical container to different depths in the height direction, so that the reinforcing agent powder can be put in different internal height positions of the raw materials in the chemical container by utilizing the multi-pipe feeding unit, the distribution of the powder is improved, and the time for mixing the raw materials and the synergist in the later stage is reduced.

3. In addition, the equipment can drive whole lifting assembly and the multitube charging unit of bottom realize slow rotation under the effect of main rotating member when adding synergist powder to can guarantee to throw the in-process of adding and improve the comprehensiveness of throwing the position, can play simultaneously and realize preliminary stirring compounding's purpose to throwing the powder periphery after adding, improve whole throwing effect.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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. Like elements or features are generally identified by like reference numerals throughout the drawings. In the drawings, the elements or components are not necessarily drawn to scale.

FIG. 1 is a schematic view of the usage state structure of the present utility model.

Fig. 2 is a schematic structural view of the present utility model.

Fig. 3 is a schematic top layout view of each fixing ferrule of the present utility model.

Fig. 4 is a schematic top view layout structure of each scraping sleeve of the present utility model.

In the figure, 1, a main connecting seat; 2. a main rotation driving member; 3. a rotating disc; 4. a synergist storage tank; 5. chemical production containers; 6. a synchronous lifting cylinder; 601. a cylinder; 602. a piston rod; 7. a cylinder connecting positioning seat; 8. fixing the clamping sleeve; 9. bolting the screw; 10. an upper reinforcing guide post; 11. a liquid upper plate seat; 12. scraping sleeve; 13. a lower reinforcing guide post; 14. a flow rate supply delivery pump; 15. a feed connection pipe; 16. a connecting disc; 17. feeding a vertical steel pipe; 18. a three-head gas mixing nozzle; 19. a bottom nozzle.

Description of the embodiments

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model. The specific structure of the utility model is shown in figures 1-4.

Examples

The utility model provides an automatic synergist adding equipment, includes level and fixed mounting hang main connecting seat 1 in the bottom of the aviation crane of chemical industry workshop, main connecting seat 1 follows the aviation crane and removes the bottom fixed mounting of main connecting seat 1 has a main rotation driving piece 2 the bottom output shaft fixed mounting of main rotation driving piece 2 has a rotary disk 3 that the level set up the lifting unit is installed to the bottom of rotary disk 3 a multitube charging unit is installed to the bottom of lifting unit, multitube charging unit is by one setting up synergist storage tank 4 supply synergist powder in rotary disk 3 below, two the lower extreme of multitube charging unit stretches into the inside of its open-top's chemical production container 5 and realizes the chemical raw materials ration supply synergist powder to its inside. The automatic synergist adding equipment designed in the utility model is mainly arranged at the bottom of a crane in a workshop and moves to the upper part of a chemical production station in the workshop along with the crane, and quantitatively adds synergist powder into raw materials in a chemical container, before adding the synergist, a multi-pipe feeding unit at the bottom of the automatic synergist adding equipment can be driven to descend to a proper depth in the raw materials by a lifting component through remote control of a worker, then a flow on a synergist storage tank 4 is controlled to supply a conveying pump 14 to work, and the synergist powder stored in the synergist storage tank 4 is pumped and then conveyed into a corresponding vertical feed steel pipe 17 through each feed connecting pipe 15, and then sprayed into the chemical container through each nozzle to be mixed with the reactive raw materials in the chemical container.

In any of the above solutions, preferably, the lifting assembly includes four synchronous lifting cylinders 6 respectively and fixedly installed at four corners of the bottom of the rotating disc 3, a horizontally disposed cylinder connecting positioning seat 7 is disposed in a space surrounded by cylinder barrels 601 of the four synchronous lifting cylinders 6, four corners of the cylinder connecting positioning seat 7 are respectively welded with a fixed clamping sleeve 8, each fixed clamping sleeve 8 is sleeved on an outer side wall of a middle section of the cylinder barrel 601 of the synchronous lifting cylinder 6 at a corresponding position and is fixedly connected with the synchronous lifting cylinder 6 through a bolting screw 9, the four synchronous lifting cylinders 6 are in synchronous lifting motion during movement, and the bottom of a piston rod 602 of each synchronous lifting cylinder 6 is fixedly connected with the top of the multi-pipe feeding unit. When the whole lifting assembly works, the lifting control position is realized mainly by virtue of four synchronous lifting cylinders 6 capable of synchronously lifting, so that the aim of driving the multi-pipe feeding unit at the bottom of the lifting assembly to shift in place is fulfilled; meanwhile, in the working process of the multi-pipe feeding unit, the lifting assembly can be controlled to operate so as to drive the multi-pipe feeding unit in a working state, and spraying and adding of the synergist powder at different depth positions of the raw materials can be realized. In addition, in order to ensure the relative stability of the four synchronous lifting cylinders 6, the four synchronous lifting cylinders 6 are formed into a whole by the cylinder connecting positioning seat 7 and the fixing clamping sleeves 8 at four corners, so that the aims of enhancing the strength and the fixing stability of each synchronous lifting cylinder 6 can be fulfilled.

In any of the above solutions, preferably, the bottom of the synergist tank 4 is fixedly installed on a piston rod scraping assembly, the piston rod scraping assembly includes an upper liquid plate seat 11 disposed below the upper liquid plate seat 7, a scraping sleeve 12 sleeved on the outer side wall of the piston rod 602 of the synchronous lifting cylinder 6 at a corresponding position is fixedly installed at four corners of the upper liquid plate seat 11, when the piston rod 602 of each synchronous lifting cylinder 6 stretches and contracts, the scraping sleeve 12 scrapes materials adhered to the surface of the piston rod 602, a plurality of lower reinforcing guide posts 13 are disposed between the top of the upper liquid plate seat 11 and the upper liquid plate seat 7, the bottom of each lower reinforcing guide post 13 is fixed at the bottom of the upper liquid plate seat 11, the top of each lower reinforcing guide post 13 is fixed at the bottom of the upper liquid plate seat 7, the synergist tank 4 is fixedly installed at the top center position of the upper liquid plate seat 11, a flow supply pump 14 is installed at the outlet of the synergist tank 4, and the outlet of the flow supply pump 14 is connected with the feed inlet units through corresponding feed inlet units 15. The synergist storage tank 4 is used as a storage container for storing synergist powder, and the synergist storage tanks 4 with different sizes can be selected to meet the use requirement during the selective installation; meanwhile, a flow supply and conveying pump 14 with a power conveying function is further arranged at the tail end outlet of the synergist storage tank 4, and the synergist powder in the synergist storage tank 4 can be continuously output as required by starting the flow supply and conveying pump 14 and conveyed into a multi-pipe feeding unit through each feeding connecting pipe 15 which can be flexibly bent, so that the aim of rapid synergist feeding is fulfilled. In addition, each synchronous lifting cylinder 6 continuously passes through the scraping sleeve 12 sleeved at the corresponding position in the telescopic process of the piston rod 602, so that raw materials adhered on the outer side wall of the piston rod 602 extending into the raw materials can be scraped, and the cleanliness of the outer surface of the piston rod 602 during lifting is ensured. The main purpose of each lower reinforcing guide post 13 added here is to fix the lower liquid upper plate seat 11, and when the whole equipment works, the liquid upper plate seat 11 is always above the raw material liquid level of the chemical container and is not in contact with the raw material liquid level.

In any of the above schemes, it is preferable that the multi-pipe feeding unit comprises four connecting discs 16 detachably mounted at the bottom of the piston rod 602 of the synchronous lifting cylinder 6, a feeding vertical steel pipe 17 coaxially arranged with the piston rod 602 of the synchronous lifting cylinder 6 is fixedly mounted at the bottom of each connecting disc 16, and a plurality of three-head gas mixing nozzles 18 are mounted on the outer side wall of the lower part of each feeding vertical steel pipe 17 at intervals along the circumference thereof; the synergist storage tank 4 is started to supply the powder mixture in a high-pressure state to the inside of each of the vertical steel pipes 17 through the corresponding supply connecting pipe 15 by starting the flow supply delivery pump 14 arranged thereon, and the powder mixture is sprayed outwards through the corresponding three-head gas mixing nozzle 18 and mixed with the raw materials in the chemical production container 5. Four vertical steel pipes 17 of feeding that multitube charging unit adopted all are the rigid structure that has corrosion-resistant coating, through utilizing flow to supply delivery pump 14 pump to have the powder of certain pressure and speed to the feed end of vertical steel pipe 17 of feeding, enter into the powder and can continue to spray outside and upper and lower in the inside of raw materials through each three gas mixing nozzle 18, finally reach the purpose of incorporating the inside multiple spot different positions of raw materials with synergist powder, shorten the time of later stage stirring mixing effectively.

In any of the above schemes, it is preferable that the main rotation driving member 2 adopts a large torque rotating motor, the whole multi-pipe feeding unit can be driven to feed powder by controlling the slow rotation of the large torque rotating motor, the fed powder is primarily mixed with raw materials as a primary stirring and mixing structure, the whole device is operated to design the sizes of all parts by taking no movement interference as a standard, the whole device is lifted to a station separated from a chemical container after mixing, and the raw materials in the chemical container continue to react.

Examples

The utility model provides an automatic synergist adding equipment, includes level and fixed mounting hang main connecting seat 1 in the bottom of the aviation crane of chemical industry workshop, main connecting seat 1 follows the aviation crane and removes the bottom fixed mounting of main connecting seat 1 has a main rotation driving piece 2 the bottom output shaft fixed mounting of main rotation driving piece 2 has a rotary disk 3 that the level set up the lifting unit is installed to the bottom of rotary disk 3 a multitube charging unit is installed to the bottom of lifting unit, multitube charging unit is by one setting up synergist storage tank 4 supply synergist powder in rotary disk 3 below, two the lower extreme of multitube charging unit stretches into the inside of its open-top's chemical production container 5 and realizes the chemical raw materials ration supply synergist powder to its inside.

The automatic synergist adding equipment designed in the utility model is mainly arranged at the bottom of a crane in a workshop and moves to the upper part of a chemical production station in the workshop along with the crane, and quantitatively adds synergist powder into raw materials in a chemical container, before adding the synergist, a multi-pipe feeding unit at the bottom of the automatic synergist adding equipment can be driven to descend to a proper depth in the raw materials by a lifting component through remote control of a worker, then a flow on a synergist storage tank 4 is controlled to supply a conveying pump 14 to work, and the synergist powder stored in the synergist storage tank 4 is pumped and then conveyed into a corresponding vertical feed steel pipe 17 through each feed connecting pipe 15, and then sprayed into the chemical container through each nozzle to be mixed with the reactive raw materials in the chemical container.

In any of the above solutions, preferably, the lifting assembly includes four synchronous lifting cylinders 6 respectively and fixedly installed at four corners of the bottom of the rotating disc 3, a horizontally disposed cylinder connecting positioning seat 7 is disposed in a space surrounded by cylinder barrels 601 of the four synchronous lifting cylinders 6, four corners of the cylinder connecting positioning seat 7 are respectively welded with a fixed clamping sleeve 8, each fixed clamping sleeve 8 is sleeved on an outer side wall of a middle section of the cylinder barrel 601 of the synchronous lifting cylinder 6 at a corresponding position and is fixedly connected with the synchronous lifting cylinder 6 through a bolting screw 9, the four synchronous lifting cylinders 6 are in synchronous lifting motion during movement, and the bottom of a piston rod 602 of each synchronous lifting cylinder 6 is fixedly connected with the top of the multi-pipe feeding unit.

When the whole lifting assembly works, the lifting control position is realized mainly by virtue of four synchronous lifting cylinders 6 capable of synchronously lifting, so that the aim of driving the multi-pipe feeding unit at the bottom of the lifting assembly to shift in place is fulfilled; meanwhile, in the working process of the multi-pipe feeding unit, the lifting assembly can be controlled to operate so as to drive the multi-pipe feeding unit in a working state, and spraying and adding of the synergist powder at different depth positions of the raw materials can be realized.

In addition, in order to ensure the relative stability of the four synchronous lifting cylinders 6, the four synchronous lifting cylinders 6 are formed into a whole by the cylinder connecting positioning seat 7 and the fixing clamping sleeves 8 at four corners, so that the aims of enhancing the strength and the fixing stability of each synchronous lifting cylinder 6 can be fulfilled.

In any of the above schemes, it is preferable that a plurality of upper reinforcing guide posts 10 are provided between the top of the cylinder connecting positioning seat 7 and the rotating disc 3, the top of each upper reinforcing guide post 10 is fixed at the bottom of the rotating disc 3, and the bottom is fixedly mounted at the top of the cylinder connecting positioning seat 7.

The purpose of connecting and fixing the connecting cylinder positioning seat 7 with the rotating disk 3 is achieved by additionally arranging the upper reinforcing guide posts 10 which are vertically arranged in consideration of the stability of the connecting cylinder positioning seat 7, so that the stability of the whole connecting cylinder positioning seat 7 is ensured, and finally, the cylinder barrel 601 of each synchronous lifting cylinder 6 is firmly positioned by the connecting cylinder positioning seat 7 by utilizing four fixing clamping sleeves 8.

In any of the above solutions, preferably, the bottom of the synergist tank 4 is fixedly installed on a piston rod scraping assembly, the piston rod scraping assembly includes an upper liquid plate seat 11 disposed below the upper liquid plate seat 7, a scraping sleeve 12 sleeved on the outer side wall of the piston rod 602 of the synchronous lifting cylinder 6 at a corresponding position is fixedly installed at four corners of the upper liquid plate seat 11, when the piston rod 602 of each synchronous lifting cylinder 6 stretches and contracts, the scraping sleeve 12 scrapes materials adhered to the surface of the piston rod 602, a plurality of lower reinforcing guide posts 13 are disposed between the top of the upper liquid plate seat 11 and the upper liquid plate seat 7, the bottom of each lower reinforcing guide post 13 is fixed at the bottom of the upper liquid plate seat 11, the top of each lower reinforcing guide post 13 is fixed at the bottom of the upper liquid plate seat 7, the synergist tank 4 is fixedly installed at the top center position of the upper liquid plate seat 11, a flow supply pump 14 is installed at the outlet of the synergist tank 4, and the outlet of the flow supply pump 14 is connected with the feed inlet units through corresponding feed inlet units 15.

The synergist storage tank 4 is used as a storage container for storing synergist powder, and the synergist storage tanks 4 with different sizes can be selected to meet the use requirement during the selective installation; meanwhile, a flow supply and conveying pump 14 with a power conveying function is further arranged at the tail end outlet of the synergist storage tank 4, and the synergist powder in the synergist storage tank 4 can be continuously output as required by starting the flow supply and conveying pump 14 and conveyed into a multi-pipe feeding unit through each feeding connecting pipe 15 which can be flexibly bent, so that the aim of rapid synergist feeding is fulfilled.

In addition, each synchronous lifting cylinder 6 continuously passes through the scraping sleeve 12 sleeved at the corresponding position in the telescopic process of the piston rod 602, so that raw materials adhered on the outer side wall of the piston rod 602 extending into the raw materials can be scraped, and the cleanliness of the outer surface of the piston rod 602 during lifting is ensured.

The main purpose of each lower reinforcing guide post 13 added here is to fix the lower liquid upper plate seat 11, and when the whole equipment works, the liquid upper plate seat 11 is always above the raw material liquid level of the chemical container and is not in contact with the raw material liquid level.

In any of the above embodiments, it is preferable that the feeding connection pipe 15 is a rubber tubule with a bending function, and may be used for matching with the telescopic movement when the piston rod 602 drives the whole multi-tube feeding unit to extend and retract.

In any of the above schemes, it is preferable that the multi-pipe feeding unit comprises four connecting discs 16 detachably mounted at the bottom of the piston rod 602 of the synchronous lifting cylinder 6, a feeding vertical steel pipe 17 coaxially arranged with the piston rod 602 of the synchronous lifting cylinder 6 is fixedly mounted at the bottom of each connecting disc 16, and a plurality of three-head gas mixing nozzles 18 are mounted on the outer side wall of the lower part of each feeding vertical steel pipe 17 at intervals along the circumference thereof; the synergist storage tank 4 is started to supply the powder mixture in a high-pressure state to the inside of each of the vertical steel pipes 17 through the corresponding supply connecting pipe 15 by starting the flow supply delivery pump 14 arranged thereon, and the powder mixture is sprayed outwards through the corresponding three-head gas mixing nozzle 18 and mixed with the raw materials in the chemical production container 5.

Four vertical steel pipes 17 of feeding that multitube charging unit adopted all are the rigid structure that has corrosion-resistant coating, through utilizing flow to supply delivery pump 14 pump to have the powder of certain pressure and speed to the feed end of vertical steel pipe 17 of feeding, enter into the powder and can continue to spray outside and upper and lower in the inside of raw materials through each three gas mixing nozzle 18, finally reach the purpose of incorporating the inside multiple spot different positions of raw materials with synergist powder, shorten the time of later stage stirring mixing effectively.

In any of the above embodiments, it is preferable that a bottom nozzle 19 is attached to the bottom of each of the vertical steel pipes 17.

The bottom nozzle 19 is matched with a plurality of three-head air mixing nozzles 18 to realize multidirectional powder injection, so that the powder can be mixed into different parts of the raw materials, the raw materials and the powder can be fully mixed after the rapid stirring and mixing in the later period, and the action effect of the synergist is improved.

In any of the above solutions, it is preferable that the fixing sleeve 8 is formed by butting two semicircular sleeves, and each semicircular sleeve is bolted and fixed to the outer side wall of the cylinder 601 of the synchronous lifting cylinder 6 through a bolting screw 9. The butt-joint type structure is adopted, so that the installation, the assembly and the disassembly can be facilitated.

In any of the above schemes, it is preferable that the main rotation driving member 2 adopts a large torque rotating motor, the whole multi-pipe feeding unit can be driven to feed powder by controlling the slow rotation of the large torque rotating motor, the fed powder is primarily mixed with raw materials as a primary stirring and mixing structure, the whole device is operated to design the sizes of all parts by taking no movement interference as a standard, the whole device is lifted to a station separated from a chemical container after mixing, and the raw materials in the chemical container continue to react.

The specific working principle is as follows:

the automatic synergist adding equipment is mainly arranged at the bottom of a crane in a workshop and moves to the position above a chemical production station in the workshop along with the crane, and the automatic synergist adding equipment waits for quantitatively adding synergist powder into raw materials in a chemical container.

Before the synergist is added, a lifting component can be controlled by a worker to drive a multi-pipe feeding unit at the bottom of the lifting component to descend to a proper depth inside the raw materials through remote control, then a flow on a synergist storage tank 4 is controlled to supply a conveying pump 14 to work, the synergist powder stored in the synergist storage tank 4 is pumped out and then is respectively conveyed into a corresponding feeding vertical steel pipe 17 through each feeding connecting pipe 15, and then is sprayed into a chemical container through each nozzle to be doped and mixed with the reaction raw materials inside the chemical container.

When the whole lifting assembly works, the lifting control position is realized mainly by virtue of four synchronous lifting cylinders 6 capable of synchronously lifting, so that the aim of driving the multi-pipe feeding unit at the bottom of the lifting assembly to shift in place is fulfilled; meanwhile, in the working process of the multi-pipe feeding unit, the lifting assembly can be controlled to operate so as to drive the multi-pipe feeding unit in a working state, and spraying and adding of the synergist powder at different depth positions of the raw materials can be realized.

The synergist storage tank 4 as a powder storage part is also provided with a flow supply and conveying pump 14 with a power conveying function at the tail end outlet, and the synergist powder in the synergist storage tank 4 can be continuously output as required by starting the flow supply and conveying pump 14 and conveyed into a multi-pipe feeding unit through each feeding connecting pipe 15 which can be flexibly bent, so that the aim of quickly feeding the synergist is fulfilled. Considering the cleaning of the piston rod 602, each synchronous lifting cylinder 6 continuously passes through the scraping sleeve 12 sleeved at the corresponding position in the telescopic process of the piston rod 602, so that the raw materials adhered on the outer side wall of the piston rod 602 extending into the raw materials can be scraped, and the cleanliness of the outer surface of the piston rod 602 during lifting is ensured. In the process of controlling lifting, the liquid upper plate seat 11 is always positioned above the raw material liquid level of the chemical container, is not in contact with the raw material liquid level, and directly drives the lower multi-pipe feeding unit to extend to different depths inside the raw material by means of extension and contraction of the piston rod 602.

The multi-pipe feeding unit can simultaneously start the rotating piece to rotate when in operation, and then the lifting component is started to lift in a reciprocating manner, so that the purposes of driving the multi-pipe feeding unit to rotate, lift and spray powder can be achieved.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model and are intended to be within the scope of the appended claims and description; any alternative modifications or variations to the embodiments of the present utility model will fall within the scope of the present utility model for those skilled in the art.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (9)

1. An automatic synergist adding device is characterized in that: including level and fixed mounting hang main connecting seat of bottom at the navigation in chemical industry workshop, main connecting seat follows the navigation and hangs the removal the bottom fixed mounting of main connecting seat has a main rotating part the bottom output shaft end fixed mounting of main rotating part has the rotary disk of a level setting the lifting unit is installed to the bottom of rotary disk the multitube reinforced unit is installed to the bottom of lifting unit, multitube reinforced unit is in by one setting up the synergist storage tank supply synergist powder of rotary disk below, two the lower extreme of multitube reinforced unit stretches to the inside of its open-top chemical production container of below and realizes the chemical raw materials ration supply synergist powder to its inside.

2. The automatic synergist adding device according to claim 1, wherein: the lifting assembly comprises four synchronous lifting cylinders which are respectively and fixedly arranged at four corners of the bottom of the rotating disc, a cylinder connecting positioning seat which is horizontally arranged is arranged in a space surrounded by cylinders of the four synchronous lifting cylinders, fixing clamping sleeves are respectively welded at four corners of the cylinder connecting positioning seat, each fixing clamping sleeve is sleeved on the outer side wall of the middle section of the cylinder of the synchronous lifting cylinder at the corresponding position and is fixedly connected with the synchronous lifting cylinder through bolting screws, the four synchronous lifting cylinders move synchronously during movement, and the bottoms of piston rods of the synchronous lifting cylinders are respectively fixedly connected with the top of the multi-pipe feeding unit.

3. An automatic synergist adding apparatus according to claim 2, wherein: a plurality of upper reinforcing guide posts are arranged between the top of the cylinder connecting positioning seat and the rotating disc, the top of each upper reinforcing guide post is fixed at the bottom of the rotating disc, and the bottom of each upper reinforcing guide post is fixedly arranged at the top of the cylinder connecting positioning seat.

4. A synergist automatic adding apparatus according to claim 3, wherein: the bottom of the synergist storage tank is fixedly arranged on a piston rod scraping assembly, the piston rod scraping assembly comprises a liquid upper plate seat arranged below the connecting cylinder positioning seat, four corners of the liquid upper plate seat are fixedly provided with scraping sleeves sleeved on the outer side wall of a piston rod of the synchronous lifting cylinder at corresponding positions, when the piston rod of each synchronous lifting cylinder stretches out and draws back, the scraping sleeves scrape materials adhered to the surface of the piston rod, a plurality of lower reinforcing guide posts are arranged between the top of the liquid upper plate seat and the connecting cylinder positioning seat, the bottoms of the lower reinforcing guide posts are fixed at the bottoms and the tops of the liquid upper plate seat and are fixed at the bottoms of the connecting cylinder positioning seat, the synergist storage tank is fixedly arranged at the top center position of the liquid upper plate seat, the outlets of the synergist storage tank are provided with flow supply conveying pumps, and all outlets of a multi-way pipe arranged at the outlets of the flow supply conveying pumps are connected with all feed pipe orifices of the multi-pipe units through corresponding feed connecting pipes.

5. The automatic synergist adding apparatus according to claim 4, wherein: the feeding connecting pipe is a rubber tubule with a bending function.

6. An automatic synergist adding apparatus according to claim 5, wherein: the multi-pipe feeding unit comprises four connecting discs which are respectively and detachably arranged at the bottoms of piston rods of the synchronous lifting cylinders, a feeding vertical steel pipe which is coaxially arranged with the piston rods of the synchronous lifting cylinders is fixedly arranged at the bottoms of the connecting discs, and a plurality of three-head gas mixing nozzles are respectively arranged on the outer side wall of the lower part of each feeding vertical steel pipe at intervals along the circumference of the lower part of each feeding vertical steel pipe; the synergist storage tank is started to supply powder mixture in a high-pressure state to the inside of each feeding vertical steel pipe through a corresponding feeding connecting pipe by starting a flow feeding and conveying pump arranged on the synergist storage tank, and the powder mixture is sprayed outwards through a corresponding three-head gas mixing nozzle and is mixed with raw materials in a chemical production container.

7. The automatic synergist adding apparatus according to claim 6, wherein: and a bottom nozzle is arranged at the bottom of each feeding vertical steel pipe.

8. The automatic synergist adding apparatus according to claim 7, wherein: the fixed cutting ferrule has two semicircle cutting ferrule butt joints to form and each semicircle cutting ferrule is all fixed with synchronous lifting cylinder's cylinder lateral wall bolt through bolt screw.

9. The automatic synergist adding apparatus according to claim 8, wherein: the main rotating member adopts a large torque rotating motor.

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