CN212919928U - Mortar ash mixing station using pipe chain for conveying - Google Patents

Abstract

The utility model provides an use mortar ash mixing station of pipe chain conveying, includes that one of them section head is used for pouring into the combined components material of mortar ash into, wherein another section head is used for discharging the mortar ash and is used for the pipe chain conveyor (1) that the combined components material of mortar ash mixes with the middle section portion between one of them section head and one of them section head, through pipe chain conveyor (1), has realized the continuous feeding to the combined components material of mortar ash, and the mortar ash is discharged in succession, consequently has improved mortar ash preparation efficiency.

Description

Mortar ash mixing station using pipe chain for conveying

Technical Field

The utility model relates to a raw materials preparation facilities, especially a mortar ash mixing station that uses pipe chain to carry.

Background

The self-leveling mortar comprises cement-based self-leveling mortar, leveling mortar and the like, has wide application, can be used for industrial factory buildings, workshops, warehouses, commercial stores, exhibition halls, gymnasiums, hospitals, various open spaces, offices and the like, and is also used for households, villas, warm small spaces and the like. The mortar ash mixing station using pipe chain conveying is an important building material device, various active ingredient raw materials are mixed by a stirring device in the existing mortar ash mixing station using pipe chain conveying, and the mortar ash preparation is discontinuous due to the fact that the mortar ash is required to be metered in batches and mixed in batches in the mixing process, so that the mortar ash preparation efficiency is influenced.

The technical solution of the present invention is made based on the technical problems, technical features and technical effects of the applicant in the technical background.

Disclosure of Invention

The object of the utility model is a mortar ash mixing station that uses pipe chain to carry.

In order to overcome the technical defect, the utility model aims at providing an use mortar ash mixing station that pipe chain carried, consequently improved mortar ash preparation efficiency.

In order to achieve the purpose, the utility model adopts the technical proposal that: a mortar and ash mixing station using pipe chain conveying comprises a pipe chain type conveyor, wherein one section of the pipe chain type conveyor is used for injecting the combined component materials of mortar and ash, the other section of the pipe chain type conveyor is used for discharging the mortar and ash, and the middle section between the one section of the pipe chain type conveyor and the other section of the pipe chain type conveyor is used for mixing the combined component materials of the mortar and ash.

Due to the design of the pipe chain type conveyor, the continuous feeding of the composite component materials of the mortar ash and the continuous discharging of the mortar ash are realized through the pipe chain type conveyor, so that the preparation efficiency of the mortar ash is improved.

The utility model discloses a, according to the mode integrated tube chain conveyor's of the continuity of defeated material, mixture and row material technical characteristic.

The utility model designs that the included angle between the middle section part between one section of the head and the other section of the head and the horizontal central line is set to be 22-90 degrees.

The utility model discloses a, still include first annex device and first annex device sets up on pipe chain conveyor, and first annex device sets up to including raw materials jar group and measurement screw conveyer unit.

The utility model discloses a, still include second annex device and second annex device sets up on pipe chain conveyor, and second annex device sets up to including finished product jar group.

The utility model discloses a, still include third annex device and third annex device sets up between pipe chain conveyor and second annex device, and third annex device sets up to including agitating unit and stop valve.

The utility model discloses a, still include fourth annex device and fourth annex device sets up on pipe chain conveyor, and fourth annex device sets up to dust collector.

The utility model discloses a, still include fifth annex device and fifth annex device sets up on pipe chain conveyor, and fifth annex device sets up to pipeline compounding device.

The utility model discloses a, still include sixth annex device and fifth annex device sets up on pipe chain conveyor, and sixth annex device sets up to epitaxial device.

The utility model discloses a, be provided with measurement screw conveyer unit between raw materials jar group and pipe chain conveyor, be provided with agitating unit and dust collector respectively on pipe chain conveyor and be provided with finished product jar group and stop valve on agitating unit respectively.

The utility model relates to a pipe chain conveyor, which is arranged to comprise a lower pipeline, an upper pipeline, a tail, a tension bolt nut group, a machine head, a first motor, a middle chain wheel, a flitch and a chain, wherein the lower pipeline and the upper pipeline are respectively arranged between the tail and the machine head, the middle chain wheel is respectively arranged at the bending part of the lower pipeline and the bending part of the upper pipeline, the flitch and the chain are respectively arranged in the lower pipeline and the upper pipeline, the flitch is arranged on the chain and the chain is arranged to be annularly connected with a driven chain wheel of the tail, the middle chain wheel and a driving chain wheel of the machine head, the tension bolt nut group is arranged between the driven chain wheel of the tail and a shell of the tail, the driving chain wheel of the machine head is arranged to be connected with an end shaft of the first motor, the lower pipeline is arranged to be connected with an output port part of a metering screw conveyor unit and the upper pipeline, a discharge port is provided in the housing of the head and is arranged to be coupled to a stirring device.

The utility model discloses a, the lower tube says and goes up the pipeline and sets up respectively to circular pipeline and the lower tube says and sets up to being zigzag distribution with last pipeline, the lower horizontal portion end of lower tube says and the lower horizontal portion end of last pipeline sets up respectively to coupleing with the tail and the last horizontal portion end of lower tube says and the last horizontal portion end of last pipeline sets up respectively to coupleing with the aircraft nose, between the lower horizontal portion of lower tube says and the perpendicular portion of lower tube says, the perpendicular portion of lower tube says and the last horizontal portion of lower tube says and between, between the lower horizontal portion of last pipeline says and the perpendicular portion of last pipeline, the perpendicular portion of last pipeline says and between be provided with middle sprocket respectively, it sets up to the circular port body to arrange the end oral area.

The utility model discloses a, the bolt setting of the bolt nut group that rises sets up to connect the formula hookup and the nut of the nut group that rises of the bolt nut that rises sets up to the casing contact hookup with the tail with the driven sprocket of tail.

The utility model discloses a, the flitch sets up to including first board, the second board, otic placode portion and connecting bolt nut and set up respectively to coupleing with the otic placode at the terminal surface portion of one of them of first board and the terminal surface portion of one of them of second board, first board and second board set up respectively to coupleing with the butt joint formula of chain and connecting bolt nut's bolt sets up respectively to communicate with otic placode and chain and concatenate the formula hookup, connecting bolt nut's nut sets up to coupleing and first board and second board set up respectively to semi-circular sheet-like body with the otic placode contact of second board, otic placode portion sets up to the rectangular strip-like body.

The utility model discloses a, the head tank group sets up to include first jar portion, second jar portion, third jar portion, fourth jar portion, fifth jar portion and sixth jar portion and the lower extreme port part of first jar portion, the lower extreme port part of second jar portion, the lower extreme port part of third jar portion, the lower extreme port part of fourth jar portion, the lower extreme port part of fifth jar portion and the lower extreme port part of sixth jar portion set up respectively to articulate with measurement screw conveyer unit, first jar portion, second jar portion, third jar portion, fourth jar portion, fifth jar portion and sixth jar portion set up respectively to be the side-to-side distribution and first jar portion around the transverse center line of following pipe chain conveyor, second jar portion, third jar portion, fourth jar portion, fifth jar portion and sixth jar portion set up respectively to the toper tube-shaped body.

The utility model designs a metering screw conveyor set which comprises a first screw conveyor, a second screw conveyor, a third screw conveyor, a fourth screw conveyor, a fifth screw conveyor and a sixth screw conveyor, wherein the input port part of the first screw conveyor, the input port part of the second screw conveyor, the input port part of the third screw conveyor, the input port part of the fourth screw conveyor, the input port part of the fifth screw conveyor and the input port part of the sixth screw conveyor are respectively connected with a raw material tank set, the output port part of the first screw conveyor, the output port part of the second screw conveyor, the output port part of the third screw conveyor, the output port part of the fourth screw conveyor, the output port part of the fifth screw conveyor and the output port part of the sixth screw conveyor are respectively connected with the pipe chain conveyor.

The utility model discloses a, the stirring device is arranged to include a shell, a first output pipeline, a second output pipeline, a rotating shaft, a blade, a gear set and a second motor, the lower end surface of the shell is respectively arranged to be connected with the first output pipeline and the second output pipeline, the rotating shaft is arranged in the shell and is arranged to be rotatably connected with the shell, the outer side surface of the rotating shaft is arranged to be connected with the blade, the outer end of the rotating shaft is arranged to be connected with the driven gear of the gear set, the end shaft of the second motor is arranged to be connected with the driving gear of the gear set and the shell of the second motor is arranged to be connected with the shell, the upper end surface of the shell is arranged to be connected with a pipe chain conveyor and the first output pipeline and the second output pipeline are respectively arranged to be connected with a finished product tank group, stop valves are arranged on the first output pipeline and the second output, the first output pipeline and the second output pipeline are respectively arranged into a circular cylindrical body, the rotating shaft is arranged into a circular rod-shaped body, the blades are arranged into a rectangular strip-shaped body, the driven gear of the gear set is arranged into an end face gear, and the driving gear of the gear set is arranged into a cylindrical gear.

The utility model discloses a, finished product jar group sets up to including first storehouse jar portion and second storehouse jar portion and the input oral area of first storehouse jar portion and the input oral area of second storehouse jar portion set up respectively to be linked up with agitating unit, and first storehouse jar portion and second storehouse jar portion set up to the toper tube-shaped body.

The utility model relates to a first storage tank part and a second storage tank part are arranged to comprise a tank part, an irrigation pipe part, a first stop valve part, a second stop valve part, an outer vertical plate part, a middle vertical plate part and an inner vertical plate part, wherein the irrigation pipe part is arranged in the tank part, an expansion area intermediate body is arranged in an output pipe part of the tank part, the second stop valve part is arranged on an output pipe part of the tank part, a through-leakage hole body is arranged on the irrigation pipe part, a port part of an output pipe of the irrigation pipe part is communicated with the expansion area intermediate body, the output pipe part of the irrigation pipe part is connected with a side surface part of the tank part in a penetrating way, a first stop valve part is arranged on the output pipe part of the irrigation pipe part, the outer vertical plate part, the middle vertical plate part, the inner vertical plate part and the lower end of the outer vertical plate part are respectively arranged between the tank part and the irrigation pipe part, the lower end of the middle vertical plate part and the lower end of, the setting of middle riser portion is outside between riser portion and the interior riser portion and outer riser portion sets up to arrange the distribution along the outside of jar portion all round line interval, interior riser portion sets up to arrange the distribution along the inboard all round line interval of jar portion and the delivery pipe portion of jar portion sets up to the input oral area hookup with powder material transport vechicle, the portion of irritating pipe sets up to the conveyer pipe hookup with the mortar ash and jar portion and the portion of irritating pipe set up to the toper tube-shape body respectively, first shut-off valve portion and second shut-off valve portion set up to the material stop valve respectively and the expansion zone intermediate body sets up to spherical cavity, the hole body that leaks sets up to the circular port hole body.

The utility model discloses an, outer vertical plate portion, middle vertical plate portion and interior riser part do not set up to the vertical center line distribution along jar portion, the lower tip of the plate of outer vertical plate portion and the lower tip of the plate of middle vertical plate portion set up respectively to the inner wall hookup with jar portion and the upper tip of the plate of outer vertical plate portion and middle vertical plate portion is provided with the opening body respectively, be provided with the through-hole body on the plate portion, be provided with the leakage window on the plate portion of inner vertical plate portion and the lower tip of plate portion sets up respectively to the inner wall hookup with the holding vessel, plate portion and plate portion set up respectively to the rectangle strip-shaped body, the opening body sets up to the U word shape groove-shaped body and the through-hole body sets up respectively to the.

The utility model discloses a, first storehouse jar portion and second storehouse jar portion set up to include jar portion, the filling pipe portion, first check valve portion, second check valve portion and diaphragm portion and the filling pipe portion sets up in the jar portion, be provided with the expansion district body in the output pipe portion of jar portion and be provided with the second check valve portion on the output pipe portion of jar portion, be provided with the permeable hole body on the filling pipe portion and the port portion of the output tube of filling pipe portion sets up to communicate with the expansion district body, the output pipe portion of filling pipe portion sets up to be in cluster hookup with the side face of jar portion and be provided with first check valve portion on the output pipe portion of filling pipe portion, be provided with the diaphragm portion respectively between jar portion and filling pipe portion and the lower extreme head of diaphragm portion sets up respectively to be in hookup with jar portion, the diaphragm portion sets up to distribute along the horizontal central line of jar portion and the diaphragm portion sets up to arrange along the peripheral line interval of jar portion, the output pipe portion of jar portion sets up to the input port portion hookup with powder material transport vechicle, it sets up to the conveyer pipe hookup with the mortar ash and jar portion and the pipe portion of pouring into sets up respectively to the toper tube-like body to pour into the pipe portion, first stop valve portion and second stop valve portion set up respectively to the material stop valve and expand the regional intermediate body and set up to spherical cavity, the hole body that leaks sets up to the circular port hole body and is provided with the cambered surface body in the upper end face portion of the strake of diaphragm portion, the strake sets up to the rectangular plate body and the cambered surface body sets up.

The utility model discloses a, first storehouse jar portion and second storehouse jar portion set up to include jar portion, the intussusception pipe portion, first check valve portion, second check valve portion, interior cartridge shell and urceolus shell and the intussusception pipe portion sets up in the jar portion, be provided with the expansion district intermediate body in the output tube portion of jar portion and be provided with second check valve portion on the delivery pipe portion of jar portion, be provided with the hole body of leaking on the intussusception pipe portion and the port portion of the output tube of intussusception pipe portion sets up to communicate with the expansion district intermediate body, the delivery pipe portion of intussusception pipe portion sets up to run through the formula hookup with the side portion of jar portion and be provided with first check valve portion on the delivery pipe portion of intussusception pipe portion, be provided with interior cartridge shell and urceolus shell respectively between jar portion and intussusception pipe portion and the lower extreme of interior cartridge shell and urceolus shell sets up to hookup with the can portion respectively, intussusception pipe portion sets up to cup, the outer cylinder shell is connected with the tank part in a sleeved mode, the output pipe part of the tank part is connected with the input port part of the powder material transport vehicle, the filling pipe part is connected with the conveying pipe of mortar ash, the tank part and the filling pipe part are respectively arranged into conical cylinder bodies, the first stop valve part and the second stop valve part are respectively arranged into material stop valves, the expansion area intermediate body is arranged into a spherical cavity, the leakage hole body is arranged into a circular hole body, and the lower end head of the inner cylinder part of the inner cylinder shell is provided with a first material flowing through hole body, the lower end of the outer cylinder part of the outer cylinder shell is provided with a second material flowing through hole body, the middle part of the outer cylinder shell is provided with a mixed hole body, the inner cylinder part and the outer cylinder part are arranged to be circular tubular bodies, the first material flowing through hole body, the mixed hole body and the second material flowing through hole body are respectively arranged to be rectangular hole bodies, and the mixed hole bodies are arranged to be upper and lower hole bodies which are distributed along the vertical central line of the outer cylinder part.

The utility model discloses a, the stop valve sets up to ball valve and the port portion of stop valve sets up to hookup with agitating unit.

The utility model discloses a, dust collector sets up to bag collector and dust collector's input oral area sets up to hookup with pipe chain conveyor.

The utility model relates to a pipe chain conveyor, a raw material tank group, a metering screw conveyor group and a finished product tank group are distributed according to a lifting mixing mode, the pipe chain conveyor, the raw material tank group, the metering screw conveyor group, the finished product tank group and a stirring device are distributed according to a falling mixing mode, the pipe chain conveyor, the raw material tank group, the metering screw conveyor group, the finished product tank group and the dust removal device are distributed according to a purifying treatment mode, a second tank part is connected with a first output pipeline, a first tank part is connected with a second output pipeline, a shell is connected with a discharging port part, a first screw conveyor, a second screw conveyor, a third screw conveyor, a fourth screw conveyor, a fifth screw conveyor and a sixth screw conveyor are respectively connected with a lower pipeline, the first screw conveyor is connected with the first tank part, the second screw conveyor is arranged to be coupled with the second tank portion, the third screw conveyor is arranged to be coupled with the third tank portion, the fourth screw conveyor is arranged to be coupled with the fourth tank portion, the fifth screw conveyor is arranged to be coupled with the fifth tank portion, and the sixth screw conveyor is arranged to be coupled with the sixth tank portion.

The utility model discloses a, the measuring pump of first screw conveyer, the measuring pump of second screw conveyer, the measuring pump of third screw conveyer, the measuring pump of fourth screw conveyer, the measuring pump of fifth screw conveyer, the measuring pump of sixth screw conveyer and the controller of first motor set up respectively to hookup with the PLC controller.

The utility model designs a, the included angle between the vertical part of the lower pipeline and the horizontal central line is set to be 22-90 degrees.

The utility model discloses a, the pipeline compounding device is set up to include the follower, the eccentric wheel, sealing washer and spring coiling piece and the vertical part of lower pipeline is set up to include the top connection, lower clutch and intermediate pipe, between top connection and intermediate pipe, be provided with the sealing washer respectively between lower clutch and the intermediate pipe and the straight plate part of spring coiling piece sets up to be linked with the intermediate pipe, the reelpipe part of spring coiling piece sets up respectively to be linked with top connection and lower clutch and the follower sets up to be linked with the intermediate pipe rotary type, the follower sets up to be linked with eccentric wheel contact and the connecting axle of eccentric wheel sets up to be linked with the end shaft of motor, top connection and lower clutch set up respectively to have the step tubulose body of through-leakage hole and the through-leakage hole of top connection set up respectively to be linked with the straight plate part of spring coiling piece, the intermediate pipe sets up to the tubulose body and the cluster ear part of the end of intermediate pipe sets, the containing groove body in the middle of the middle pipe is connected with the driven wheel, the driven wheel is arranged to be a circular ring body, the eccentric wheel is arranged to be a circular disc body, the sealing ring is arranged to be an annular body with a U-shaped end face, and the at least three spring coiling pieces are arranged and distributed at intervals along the periphery of the upper joint and the periphery of the lower joint respectively.

The utility model designs a pipeline mixing device which comprises a driven wheel, a thick wheel, a thin wheel and a corrugated pipe, and the vertical part of a lower pipeline comprises an upper joint, a lower joint and a middle pipe, the corrugated pipes are respectively arranged between the upper joint and the middle pipe and between the lower joint and the middle pipe, the driven wheel is rotatably connected with the middle pipe, the lower end surface part of the driven wheel is in contact connection with the upper end surface part of the thick and thin wheel, the connecting shaft of the thick and thin wheel is in connection with the end shaft of the motor, the upper joint, the lower joint and the middle pipe are tubular bodies, the driven wheel is a circular annular body, the thick and thin wheel is a circular disk-shaped body with gradually changed thickness, the corrugated pipes are metal telescopic pipes, one end head of each corrugated pipe is respectively connected with the upper joint and the lower joint, and the other end head of each corrugated pipe is respectively connected with the middle pipe.

The utility model discloses a, pipeline compounding device sets up to including haulage rope, the magnet stick, the cuff, rake strip and magnetism circle and the portion of standing of pipeline under sets up to coupleing with the magnetism circle, one of them end of haulage rope sets up to coupleing with the flitch and wherein another end of haulage rope sets up to coupleing with the cuff, the cuff sets up to coupleing with the magnet stick cup joint formula and the lateral surface portion of cuff sets up to coupleing with rake strip, the haulage rope sets up to the weaving rope body and the magnet stick sets up to circular rod-shaped body, the cuff sets up to circular tube-shaped body and rake strip sets up to the rectangle strip-shaped body, the magnetism circle sets up to circular ring-.

The utility model discloses a, epitaxial device sets up to including having bagging-off and sign indicating number bagging apparatus.

In the technical scheme, the material vacancy ratio between two adjacent material plates refers to the ratio of the difference between the length between the two adjacent material plates and the length of the combined component material of the mortar ash between the two adjacent material plates to the length between the two adjacent material plates.

In the technical scheme, the continuous pipe chain type conveyor for conveying, mixing and discharging is an important technical characteristic, and has novelty, creativity and practicability in the technical field of mortar ash mixing stations using pipe chain conveying, and the terms in the technical scheme can be explained and understood by patent documents in the technical field.

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 these drawings without creative efforts.

Figure 1 is a schematic view of one of the first embodiments of the present invention,

figure 2 is a top view of figure 1,

FIG. 3 is a schematic view of the connection relationship between the material plate 180 and the chain 190 of the present invention

FIG. 4 is a schematic structural view of a storage tank 1 according to a first embodiment of the present invention,

figure 5 is a schematic view of the construction of the outer upright 18 and intermediate upright 19,

figure 6 is a schematic view of the construction of the inner vertical plate portion 10,

FIG. 7 is a schematic structural view of a storage tank 1 according to a second embodiment of the present invention,

figure 8 is a schematic view of the structure of the cross plate portion 16,

FIG. 9 is a schematic structural view of a third embodiment of the storage tank 1 according to the present invention,

FIG. 10 is a seventh schematic view of the first embodiment of the mortar ash mixing station using pipe chain conveying according to the present invention,

FIG. 11 is a schematic view of an eighth embodiment of a mortar and ash mixing station using pipe chain conveying according to the present invention,

FIG. 12 is a schematic view of a ninth embodiment of the mortar ash mixing station of the present invention using a pipe chain for conveying,

a pipe chain type conveyor-1, a raw material tank group-2, a metering screw conveyor group-3, a stirring device-4, a finished product tank group-5, a stop valve-6, a dust removal device-9, a lower pipeline-110, an upper pipeline-120, a tail-130, a tensioning bolt and nut group-140, a machine head-150, a first motor-160, an intermediate chain wheel-170, a flitch-180, a chain-190, a discharge port part-100, a first plate part-1801, a second plate part-1802, an ear plate part-1803, a connecting bolt and nut-1804, a first tank part-21, a second tank part-22, a third tank part-23, a fourth tank part-24, a fifth tank part-25, a sixth tank part-26, a first screw conveyor-31, a second screw conveyor-32, a third screw conveyor-30, a second screw conveyor-30, a third screw conveyor, a, A third screw conveyor-33, a fourth screw conveyor-34, a fifth screw conveyor-35, a sixth screw conveyor-36,

A shell-41, a first output pipeline-42, a second output pipeline-43, a rotating shaft-44, a blade-45, a gear set-46, a second motor-47, a first tank part-51, a second tank part-52, an upper joint-1101, a lower joint-1102, a middle pipe-1103, a driven wheel-201, an eccentric wheel-202, a sealing ring-203, a coil spring sheet-204, a thick and thin wheel-205, a corrugated pipe-206, a traction rope-300, a magnet rod-207, a hoop-208, a rake bar-209, a magnetic ring-200, a tank part-11, a filling pipe part-12, an expansion area intermediate body-13, a first stop valve part-14, a second stop valve part-15, a through leakage hole body-17, an outer vertical plate part-18, a blade-45, a gear set-46, a second motor-47, a bellows-206, The device comprises a middle vertical plate part-19, an inner vertical plate part-10, a transverse plate part-16, a strip part-161, an arc surface body-162, a plate part-181, an opening body-182, a through hole body-183, a strip part-101, a leakage window-102, an inner cylinder shell-7, an outer cylinder shell-8, an inner cylinder part-71, a first material flow through hole body-72, an outer cylinder part-81, a mixing hole body-82 and a second material flow through hole body-83.

Detailed Description

Terms such as "having," "including," and "comprising," as used herein with respect to the present invention, are to be understood as not specifying the presence or addition of one or more other elements or combinations thereof.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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.

In addition, the technical features mentioned in the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other, and unless otherwise specified, the devices and materials used in the following examples are commercially available, and if the processing conditions are not explicitly stated, please refer to the purchased product specification or follow the conventional method in the art.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Fig. 1 is one of the first embodiment of the present invention, specifically explain this embodiment in combination with the attached drawing, include pipe chain conveyor 1, raw material tank group 2, measurement screw conveyer unit 3, agitating unit 4, finished product tank group 5, stop valve 6 and dust collector 9 and be provided with measurement screw conveyer unit 3 between raw material tank group 2 and pipe chain conveyor 1, be provided with agitating unit 4 and dust collector 9 respectively on pipe chain conveyor 1 and be provided with finished product tank group 5 and stop valve 6 respectively on agitating unit 4.

In this embodiment, the pipe chain conveyor 1 is configured to include a lower pipe 110, an upper pipe 120, a tail 130, a tension bolt and nut set 140, a head 150, a first motor 160, an intermediate sprocket 170, a material plate 180 and a chain 190, and the lower pipe 110 and the upper pipe 120 are respectively disposed between the tail 130 and the head 150, the intermediate sprocket 170 is respectively disposed at a bent portion of the lower pipe 110 and a bent portion of the upper pipe 120, and the material plate 180 and the chain 190 are respectively disposed in the lower pipe 110 and the upper pipe 120, the material plate 180 is disposed on the chain 190 and the chain 190 is configured to be annularly coupled with a driven sprocket of the tail 130, the intermediate sprocket 170 and a driving sprocket of the head 150, the tension bolt and nut set 140 is disposed between the driven sprocket of the tail 130 and a housing of the tail 130, and the driving sprocket of the head 150 is configured to be coupled with an end shaft of the first motor 160, the lower pipe 110 is configured to be coupled with an output port of the metering screw conveyor set 3, and the upper pipe 120 is configured to be coupled An input port portion, a discharge port portion 100 provided on the housing of the head 150 and the discharge port portion 100 being provided to be coupled with the stirring device 4.

Through pipe chain conveyor 1, formed the support tie point to measurement screw conveyer unit 3, agitating unit 4 and dust collector 9, by lower pipeline 110, realized being connected with measurement screw conveyer unit 3, by discharge port portion 100, realized being connected with agitating unit 4, by last pipeline 120, realized being connected with dust collector 9, its technical aim at: the self-leveling mortar is used for mixing and conveying various active ingredient raw materials of the self-leveling mortar.

In this embodiment, the lower duct 110 and the upper duct 120 are respectively configured as circular ducts and the lower duct 110 and the upper duct 120 are configured as zigzag-shaped distribution, the lower horizontal end of the lower duct 110 and the lower horizontal end of the upper duct 120 are respectively configured to be coupled with the tail 130 and the upper horizontal end of the lower duct 110 and the upper horizontal end of the upper duct 120 are respectively configured to be coupled with the head 150, intermediate sprockets 170 are respectively disposed between the lower horizontal portion of the lower duct 110 and the vertical portion of the lower duct 110, between the vertical portion of the lower duct 110 and the upper horizontal portion of the lower duct 110, between the lower horizontal portion of the upper duct 120 and the vertical portion of the upper duct 120, between the vertical portion of the upper duct 120 and the upper horizontal portion of the upper duct 120, and the discharge port portion 100 is configured as a circular hole.

The input of various active ingredient raw materials of the self-leveling mortar is realized by the lower transverse part of the lower pipeline 110, the mixing of various active ingredient raw materials of the self-leveling mortar is realized by the vertical part of the lower pipeline 110, the output of various active ingredient raw materials of the self-leveling mortar is realized by the upper transverse part of the lower pipeline 110,

by last pipeline 120, realized the collection to the dust, its technical aim at: the channel is used for mixing and conveying various active ingredient raw materials serving as self-leveling mortar.

In this embodiment, the bolts of the tension bolt and nut set 140 are configured to be coupled with the shaft of the driven sprocket of the tail 130 in an engaging manner and the nuts of the tension bolt and nut set 140 are configured to be coupled with the housing of the tail 130 in a contacting manner.

By tensioning bolt nut group 140, realized being connected with tail 130, its technical aim at: used for tensioning the driven chain wheel of the tail 130.

In the present embodiment, the material plate 180 is provided to include a first plate portion 1801, a second plate portion 1802, lug plate portions 1803 and connecting bolt nuts 1804 and is provided to be coupled with the lug plate portions 1803 respectively at an end surface portion of one of the first plate portions 1801 and an end surface portion of one of the second plate portions 1802, the first plate portion 1801 and the second plate portion 1802 are provided to be butt-coupled with the chain 190 and the bolts of the connecting bolt nuts 1804 are provided to be coupled with the lug plate portions 1803 and the chain 190 through respectively, the nuts of the connecting bolt nuts 1804 are provided to be coupled with the lug plate portions 1803 of the second plate portion 1802 in contact and the first plate portion 1801 and the second plate portion 1802 are provided to be semicircular plate bodies respectively, and the lug plate portions 1803 are provided to be rectangular bar bodies.

By flitch 180, realized being connected with chain 190, its technical aim at: the self-leveling mortar is used for pushing various active ingredient raw materials of the self-leveling mortar.

In the present embodiment, the raw material tank group 2 is provided to include the first tank portion 21, the second tank portion 22, the third tank portion 23, the fourth tank portion 24, the fifth tank portion 25, and the sixth tank portion 26 and the lower end port portion of the first tank portion 21, the lower end port portion of the second tank portion 22, the lower end port portion of the third tank portion 23, the lower end port portion of the fourth tank portion 24, the lower end port portion of the fifth tank portion 25, and the lower end port portion of the sixth tank portion 26 are respectively provided to be coupled to the metering screw conveyor group 3, the first tank portion 21, the second tank portion 22, the third tank portion 23, the fourth tank portion 24, the fifth tank portion 25, and the sixth tank portion 26 are respectively provided to be arranged in front-rear side arrangement along the transverse center line of the pipe chain conveyor 1 and the first tank portion 21, the second tank portion 22, the third tank portion 23, the fourth tank portion 24, the fifth tank portion 25, and the sixth tank portion 26 are respectively provided to be tapered cylindrical bodies.

Through raw materials jar group 2, formed the support connection point to measurement screw conveyer unit 3, by first jar portion 21, second jar portion 22, third jar portion 23, fourth jar portion 24, fifth jar portion 25 and sixth jar portion 26, realized being connected with measurement screw conveyer unit 3, its technical aim at: the mortar is used for temporarily storing various active ingredient raw materials of the self-leveling mortar.

In the present embodiment, the weighing screw conveyor group 3 is configured to include a first screw conveyor 31, a second screw conveyor 32, a third screw conveyor 33, a fourth screw conveyor 34, a fifth screw conveyor 35, and a sixth screw conveyor 36 and the input port portion of the first screw conveyor 31, the input port portion of the second screw conveyor 32, the input port portion of the third screw conveyor 33, the input port portion of the fourth screw conveyor 34, the input port portion of the fifth screw conveyor 35, and the input port portion of the sixth screw conveyor 36 are respectively configured to be coupled to the material tank group 2, an output port portion of the first screw conveyor 31, an output port portion of the second screw conveyor 32, an output port portion of the third screw conveyor 33, an output port portion of the fourth screw conveyor 34, an output port portion of the fifth screw conveyor 35, and an output port portion of the sixth screw conveyor 36 are respectively provided to be coupled to the pipe chain conveyor 1.

Through measurement screw conveyer unit 3, formed the support tie point to pipe chain conveyor 1 and raw materials jar group 2, by first screw conveyer 31, second screw conveyer 32, third screw conveyer 33, fourth screw conveyer 34, fifth screw conveyer 35 and sixth screw conveyer 36, realized being connected with pipe chain conveyor 1, realized being connected with raw materials jar group 2, its technical aim at: the method is used for metering and outputting various active ingredient raw materials of the self-leveling mortar.

In the present embodiment, the stirring device 4 is configured to include a housing 41, a first output duct 42, a second output duct 43, a rotating shaft 44, a blade 45, a gear set 46, and a second motor 47 and lower end surface portions of the housing 41 are respectively configured to be coupled with the first output duct 42 and the second output duct 43, the rotating shaft 44 is disposed in the housing 41 and the rotating shaft 44 is configured to be rotatably coupled with the housing 41, an outer side surface portion of the rotating shaft 44 is configured to be coupled with the blade 45 and an outer end of the rotating shaft 44 is configured to be coupled with a driven gear of the gear set 46, an end shaft of the second motor 47 is configured to be coupled with a driving gear of the gear set 46 and a housing of the second motor 47 is configured to be coupled with the housing 41, an upper end surface portion of the housing 41 is configured to be coupled with the pipe chain conveyor 1 and the first output duct 42 and the second output duct, the shut valve 6 is provided on the first output pipe 42 and the second output pipe 43 and the housing 41 is provided as a tapered cylindrical body, the first output pipe 42 and the second output pipe 43 are respectively provided as a circular cylindrical body and the rotating shaft 44 is provided as a circular rod-shaped body, the blades 45 are provided as a rectangular bar-shaped body and the driven gear of the gear set 46 is provided as a face gear, and the driving gear of the gear set 46 is provided as a cylindrical gear.

Through agitating unit 4, formed pipe chain conveyor 1, the support tie point of finished product jar group 5 and stop valve 6, by casing 41, realized being connected with pipe chain conveyor 1, by first output pipeline 42 and second output pipeline 43, realized being connected with finished product jar group 5, realized being connected with stop valve 6, by axis of rotation 44, blade 45, gear train 46 and second motor 47, realized mixing the various active ingredient raw materials to the self-leveling mortar, its technical aim lies in: the method is used for mixing various active ingredient raw materials of the self-leveling mortar.

In the present embodiment, the finished tank group 5 is provided to include the first tank portion 51 and the second tank portion 52, and the inlet port portion of the first tank portion 51 and the inlet port portion of the second tank portion 52 are respectively provided to be coupled to the stirring device 4, and the first tank portion 51 and the second tank portion 52 are provided as tapered cylindrical bodies.

Through finished product jar group 5, formed the support connection point to agitating unit 4, by first storehouse jar portion 51 and second storehouse jar portion 52, realized being connected with agitating unit 4, its technical aim at: used for storing the mortar ash.

In the present embodiment, the shut-off valve 6 is provided as a ball valve and a port portion of the shut-off valve 6 is provided to be coupled with the stirring device 4.

Through stop valve 6, formed the support tie point to agitating unit 4, by stop valve 6, realized being connected with agitating unit 4, its technical aim at: for controlling the passage of the finished tank battery 5 for injection of mortar ash.

In the present embodiment, the dust removing device 9 is provided as a bag house and the inlet port of the dust removing device 9 is provided in connection with the pipe chain conveyor 1.

Through dust collector 9, formed the support tie point to pipe chain conveyor 1, by dust collector 9, realized being connected its technical aim at with pipe chain conveyor 1: the dust collecting device is used for collecting and processing dust.

In the present embodiment, the pipe chain conveyor 1 and the raw material tank group 2, the metering screw conveyor group 3 and the finished product tank group 5 are arranged to be distributed in a lifting mixing manner and the pipe chain conveyor 1, the raw material tank group 2, the metering screw conveyor group 3 and the finished product tank group 5 and the stirring device 4 are arranged to be distributed in a falling mixing manner, the pipe chain conveyor 1, the raw material tank group 2, the metering screw conveyor group 3 and the finished product tank group 5 and the dust removing device 9 are arranged to be distributed in a cleaning processing manner, the second stock tank portion 52 is arranged to be coupled with the first output pipe 42, the first stock tank portion 51 is arranged to be coupled with the second output pipe 43, the housing 41 is arranged to be coupled with the discharge port portion 100, the first screw conveyor 31, the second screw conveyor 32, the third screw conveyor 33, the fourth screw conveyor 34, the fifth screw conveyor 35 and the sixth screw conveyor 36 are respectively arranged to be coupled with the lower pipe 110, a first screw conveyor 31 is arranged in connection with the first tank part 21, a second screw conveyor 32 is arranged in connection with the second tank part 22, a third screw conveyor 33 is arranged in connection with the third tank part 23, a fourth screw conveyor 34 is arranged in connection with the fourth tank part 24, a fifth screw conveyor 35 is arranged in connection with the fifth tank part 25 and a sixth screw conveyor 36 is arranged in connection with the sixth tank part 26.

The first, second, third, fourth, fifth and sixth tank parts 21, 22, 23, 24, 25 and 26 are filled with mortar ash composite component materials, respectively, the first, second, third, fourth, fifth and sixth screw conveyors 31, 32, 33, 34, 35 and 36 are started, the mortar ash composite component materials are injected into the lower pipe 110 by the first, second, third, fourth, fifth and sixth screw conveyors 31, 32, 33, 34, 35 and 36 according to the weight ratio of the mortar ash composite component at the same time, the plate 180 is moved circularly in the lower pipe 110 and the upper pipe 120 by the first, head 150, 170 and tail 130 of the first motor 160, the rotation speed of the first motor 160 is adjusted, after two adjacent plates 180 pass through the output port of the third screw conveyor 33 and the output port of the sixth screw conveyor 36, the mortar ash composite component materials have a residual space in the two adjacent plates 180, the mortar ash composite component materials are input into the lower transverse portion of the lower pipe 110, when the two adjacent plates 180 drive the mortar ash composite component materials to enter the vertical portion of the lower pipe 110, the mortar ash composite component materials fall back and mix between the two adjacent plates 180, when the two adjacent plates 180 drive the mortar ash composite component materials to enter the upper transverse portion of the lower pipe 110, the mortar ash composite component materials fall into the housing 41 through the discharge port 100, the second motor 47 drives the rotating shaft 44 to rotate through the gear set 46, the rotating shaft 44 drives the blades 45 to rotate, and the blades 45 disperse and mix the mortar ash composite component materials falling into the housing 41 to prepare the mortar ash, mortar ash is injected into the second bin tank part 52 through the first output pipeline 42 and the stop valve 6, the mortar ash is injected into the first bin tank part 51 through the second output pipeline 43 and the stop valve 6, dust generated in the upper pipeline 120 is treated through the dust removing device 9, and the tension degree of the chain 190 is adjusted through the tension bolt and nut group 140.

The material space ratio between two adjacent material plates 180 is set to be 0.15-0.28.

The utility model provides an use mortar ash mixing station of pipe chain transport, the utility model discloses a second of the first embodiment, the measuring pump of first screw conveyer 31, the measuring pump of second screw conveyer 32, the measuring pump of third screw conveyer 33, the measuring pump of fourth screw conveyer 34, the measuring pump of fifth screw conveyer 35, the measuring pump of sixth screw conveyer 36 and the controller of first motor 160 set up respectively to articulate with the PLC controller.

By the PLC controller, realized being connected with first motor 160, realized being connected with first screw conveyer 31, realized being connected with second screw conveyer 32, realized being connected with third screw conveyer 33, realized being connected with fourth screw conveyer 34, realized being connected with fifth screw conveyer 35, realized being connected with sixth screw conveyer 36, its technical aim at: for automatically adjusting the material empty ratio between two adjacent material plates 180.

Through the PLC, the output quantities of the first screw conveyer 31, the second screw conveyer 32, the third screw conveyer 33, the fourth screw conveyer 34, the fifth screw conveyer 35 and the sixth screw conveyer 36 are matched with the rotating speed and the speed of the first motor 160, so that the material space ratio between two adjacent plates 180 is ensured, and the falling and mixing of the combined component materials of the mortar ash between two adjacent plates 180 are realized.

A mortar and ash mixing station using pipe chain conveying, the third embodiment of the utility model, the included angle between the vertical part of the lower pipe 110 and the horizontal central line is set to 22-90 degrees.

By the perpendicular portion of lower pipeline 110, realized being connected with flitch 180, realized being connected with chain 190, its technical aim at: the combined component materials for realizing the mortar ash fall back and are mixed between the two adjacent material plates 180.

In another embodiment of the third embodiment of the present invention, the angle between the vertical portion of the lower duct 110 and the horizontal center line is set to 22 °.

In another embodiment of the third embodiment of the present invention, the included angle between the vertical portion of the lower duct 110 and the horizontal center line is set to 90 °.

In another third embodiment of the present invention, an included angle between the vertical portion of the lower duct 110 and the horizontal center line is set to 56 °.

A mortar and ash mixing station using pipe chain conveying, FIG. 4 shows a fourth embodiment of the present invention, wherein a first tank part 51 and a second tank part 52 are provided to include a tank part 11, an inlet pipe part 12, a first cut-off valve part 14, a second cut-off valve part 15, an outer vertical plate part 18, an intermediate vertical plate part 19 and an inner vertical plate part 10, and the inlet pipe part 12 is provided in the tank part 11, an expansion area intermediate 13 is provided in an outlet pipe part of the tank part 11 and the second cut-off valve part 15 is provided on the outlet pipe part of the tank part 11, a permeable hole 17 is provided on the inlet pipe part 12 and a port part of an outlet pipe of the inlet pipe part 12 is provided to communicate with the expansion area intermediate 13, an outlet pipe part of the inlet pipe part 12 is provided to be coupled in series with a side surface part of the tank part 11 and the first cut-off valve part 14 is provided on the outlet pipe part of the inlet pipe part 12, and the outer vertical plate part 18 is provided between the tank part 11 and the inlet pipe part 12, Middle riser 19 and interior riser 10 and the lower end of outer riser 18, the lower end of middle riser 19 and the lower end of interior riser 10 set up respectively to be linked with jar portion 11, middle riser 19 sets up between outer riser 18 and interior riser 10 and outer riser 18 sets up to arrange the distribution along the outside periphery line interval of jar portion 11, interior riser 10 sets up to arrange the distribution along the inside periphery line interval of jar portion 11 and the delivery pipe portion of jar portion 11 sets up to be linked with the input port portion of powder material transport vechicle, fill-in pipe portion 12 sets up to set up to the conveyer pipe hookup with the mortar ash and jar portion 11 and fill-in pipe portion 12 set up respectively to the toper tube body, first shut-off valve portion 14 and second shut-off valve portion 15 set up respectively to the material stop valve and expansion area body 13 sets up to the spherical cavity body, the hole body 17 sets up to the circular port body.

By jar portion 11, realized being connected with stop valve 6, by pouring into tub portion 12 and extension intermediate body 13, realized the mixing of mortar ash, by the hole portion 17 that leaks, outer riser 18, middle riser 19 and interior riser 10, realized the interval of mortar ash and mixed, by first stop valve portion 14 and second stop valve portion 15, realized the switching that carries the mortar ash, its technical aim at: for storage and staged mixing of the mortar ash.

In the present embodiment, the outer vertical plate portion 18, the intermediate vertical plate portion 19, and the inner vertical plate portion 10 are respectively provided so as to be distributed along the vertical center line of the tank portion 11, the lower end of the plate portion 181 of the outer vertical plate portion 18 and the lower end of the plate portion 181 of the intermediate vertical plate portion 19 are respectively provided so as to be coupled to the inner wall of the tank portion 11 and the upper ends of the plate portion 181 of the outer vertical plate portion 18 and the plate portion 181 of the intermediate vertical plate portion 19 are respectively provided with the opening body 182, the through-hole body 183 is provided on the plate portion 181, the through-leakage window 102 is provided on the plate portion 101 of the inner vertical plate portion 10 and the lower end of the plate portion 101 is respectively provided so as to be coupled to the inner wall of the reserve tank 1, the plate portion 181 and the plate portion 101 are respectively provided as rectangular bar-shaped bodies, the opening body 182 is.

The opening body 182 realizes the outward release of the mortar ash, the through hole body 183 realizes the inward flow of the mortar ash, the leakage window 102 realizes the outward flow of the mortar ash, and the plate part 181 and the sheet part 101 realize the interval partition of the mortar ash.

FIG. 7 shows a fifth embodiment of the present invention, wherein a first tank part 51 and a second tank part 52 are provided to include a tank part 11, a filling pipe part 12, a first shut-off valve part 14, a second shut-off valve part 15, and a horizontal plate part 16, and the filling pipe part 12 is provided in the tank part 11, an expansion area intermediate body 13 is provided in an outlet pipe part of the tank part 11 and the second shut-off valve part 15 is provided in the outlet pipe part of the tank part 11, a permeable hole body 17 is provided in the filling pipe part 12 and a port part of an outlet pipe of the filling pipe part 12 is provided to communicate with the expansion area intermediate body 13, the outlet pipe part of the filling pipe part 12 is provided to be coupled in series with a side surface part of the tank part 11 and the first shut-off valve part 14 is provided in the outlet pipe part of the filling pipe part 12, the horizontal plate part 16 is provided between the tank part 11 and the filling pipe part 12 and lower ends of the horizontal plate part 16 are provided to be coupled, the horizontal plate portion 16 is provided so as to be distributed along the transverse center line of the tank portion 11 and the horizontal plate portions 16 are provided so as to be arranged at intervals along the peripheral line of the tank portion 11, the output pipe portion of the tank portion 11 is provided so as to be coupled with the input port portion of the powdery material transporting vehicle, the input pipe portion 12 is provided so as to be coupled with the transporting pipe of the mortar ash and the tank portion 11 and the input pipe portion 12 are provided as tapered cylindrical bodies, the first cutoff valve portion 14 and the second cutoff valve portion 15 are provided as material cutoff valves and the expansion area intermediate body 13 is provided as a spherical cavity, the penetration hole body 17 is provided as a circular hole body and an arc surface body 162 is provided at the upper end surface portion of the bar portion 161 of the horizontal plate portion 16, the bar.

The bar 161 and the cambered surface body 162 realize the interval mixing of mortar ash.

FIG. 9 shows a sixth embodiment of the present invention, wherein a first tank part 51 and a second tank part 52 are provided to include a tank part 11, a filling pipe part 12, a first cut-off valve part 14, a second cut-off valve part 15, an inner cylinder shell 7 and an outer cylinder shell 8 and the filling pipe part 12 is provided in the tank part 11, an expansion area intermediate body 13 is provided in an outlet pipe part of the tank part 11 and the second cut-off valve part 15 is provided in an outlet pipe part of the tank part 11, a permeable hole body 17 is provided in the filling pipe part 12 and a port part of an outlet pipe of the filling pipe part 12 is provided to communicate with the expansion area intermediate body 13, the outlet pipe part of the filling pipe part 12 is provided to communicate with a side surface part of the tank part 11 in a penetrating manner and the first cut-off valve part 14 is provided in the outlet pipe part of the filling pipe part 12, the inner cylinder shell 7 and the outer cylinder shell 8 are provided between the tank part 11 and the filling pipe part 12 respectively and lower ends of the inner cylinder shell 7 and the outer cylinder shell 8 are provided to communicate, the inlet pipe portion 12 is provided to be coupled with the inner cylinder case 7 in a bell and spigot manner and the inner cylinder case 7 is provided to be coupled with the outer cylinder case 8 in a bell and spigot manner, the outer cylinder case 8 is provided to be coupled with the tank portion 11 in a bell and spigot manner, the outlet pipe portion of the tank portion 11 is provided to be coupled with the inlet port portion of the powdery material transporting vehicle, the inlet pipe portion 12 is provided to be coupled with the transporting pipe of the mortar dust and the tank portion 11 and the inlet pipe portion 12 are respectively provided as tapered cylindrical bodies, the first and second shut-off valve portions 14 and 15 are respectively provided as material shut-off valves and the expansion area intermediate body 13 is provided as a spherical cavity, the leak-through hole body 17 is provided as a circular hole body and is provided with a first material flow through hole body 72 at the lower end of the inner cylinder portion 71 of the inner cylinder case 7, a second material flow through hole body 83 is provided at the lower end of the outer cylinder, the inner cylinder portion 71 and the outer cylinder portion 81 are provided as circular tubular bodies and the first material flow through-hole body 72, the mixing hole body 82, and the second material flow through-hole body 83 are provided as rectangular hole bodies, respectively, the mixing hole body 82 being provided as upper and lower hole bodies arranged along the vertical center line of the outer cylinder portion 81.

The inner cylinder shell 7 and the outer cylinder shell 8 realize sequential adjustment of discharging of raw materials in different intervals of the self-leveling mortar, and improve the mixing degree of the self-leveling mortar.

Fig. 10 is a seventh embodiment of the present invention, which is specifically described with reference to the accompanying drawings, and includes a driven wheel 201, an eccentric 202, a sealing ring 203, and a coil spring plate 204, and a vertical portion of a lower pipe 110 is configured to include an upper joint 1101, a lower joint 1102, and an intermediate pipe 1103, the sealing rings 203 are respectively disposed between the upper joint 1101 and the intermediate pipe 1103, the coil portions of the coil spring plate 204 are configured to be coupled with the intermediate pipe 1103, the coil portions of the coil spring plate 204 are respectively configured to be coupled with the upper joint 1101 and the lower joint 1102, and the driven wheel 201 is configured to be rotatably coupled with the intermediate pipe 1103, the driven wheel 201 is configured to be coupled with the eccentric 202 in contact, and the connecting shaft of the eccentric 202 is configured to be coupled with an end shaft of a motor, the upper joint 1101 and the lower joint 1102 are respectively configured to be stepped tubular bodies having a through hole, and the through hole of the upper joint 1101 and the through hole of the lower joint 1102 are respectively configured to, the middle tube 1103 is provided as a tubular body and the lug part of the end of the middle tube 1103 is provided to be coupled with the straight plate part of the coil spring 204 by a pin shaft, the housing groove body of the middle tube 1103 is provided to be coupled with the driven wheel 201 and the driven wheel 201 is provided as a circular ring body, the eccentric 202 is provided as a circular disk body and the sealing ring 203 is provided as a ring body with a U-shaped end face, and at least three coil spring pieces 204 are respectively provided to be arranged at intervals along the periphery of the upper joint 1101 and the periphery of the lower joint 1102.

When the eccentric wheel 202 drives the driven wheel 201 to rotate, under the elastic energy storage effect of the coil spring sheet 204, the middle pipe 1103 is transversely shaken between the upper joint 1101 and the lower joint 1102, so that the mortar and ash combined component materials of the middle pipe 1103 are mixed, and the sealing rings 203 are used for sealing the upper joint 1101 and the middle pipe 1103 and the lower joint 1102 and the middle pipe 1103.

Fig. 11 is an eighth embodiment of the present invention, which is specifically described with reference to the accompanying drawings, wherein a vertical portion of the lower pipe 110 includes a driven wheel 201, a thick and thin wheel 205 and a bellows 206, the vertical portion includes an upper joint 1101, a lower joint 1102 and an intermediate pipe 1103, the bellows 206 are respectively disposed between the upper joint 1101 and the intermediate pipe 1103, the driven wheel 201 is rotatably coupled to the intermediate pipe 1103, a lower end surface of the driven wheel 201 is disposed to be in contact with an upper end surface of the thick and thin wheel 205, a connecting shaft of the thick and thin wheel 205 is disposed to be coupled to an end shaft of the motor, the upper joint 1101, the lower joint 1102 and the intermediate pipe 1103 are disposed to be tubular bodies, the driven wheel 201 is disposed to be a circular ring body, the thick and thin wheel 205 is disposed to be a circular disk body having a gradually changing thickness, the bellows 206 is disposed to be a metal bellows, one end of the bellows 206 is disposed to be coupled to the upper joint 1101 and the lower joint 1102 One end is respectively configured to couple with the intermediate pipe 1103.

When the driven wheel 201 is driven by the thick and thin wheel 205 to rotate, the middle pipe 1103 vertically shakes between the upper joint 1101 and the lower joint 1102 under the elastic energy storage effect of the corrugated pipe 206, so that the mortar and ash combined component materials of the middle pipe 1103 are mixed.

Fig. 12 is a ninth of the first embodiment of the present invention, which is specifically described in conjunction with the accompanying drawings, and includes a pulling rope 300, a magnet bar 207, a hoop 208, a rake strip 209 and a magnetic ring 200, and the vertical portion of the lower duct 110 is configured to be coupled with the magnetic ring 200, wherein one end of the pulling rope 300 is configured to be coupled with the flitch 180, and the other end of the pulling rope 300 is configured to be coupled with the hoop 208, the hoop 208 is configured to be coupled with the magnet bar 207 in a sleeved manner, and the outer side surface portion of the hoop 208 is configured to be coupled with the rake strip 209, the pulling rope 300 is configured to be a textile rope, and the magnet bar 207 is configured to be a circular rod, the hoop 208 is configured to be a circular cylinder, and the rake strip 209 is configured to be a rectangular.

When magnet stick 207 moves at the vertical part of lower pipeline 110 along with flitch 180, when being close to with magnetism circle 200, under magnetism circle 200 effect, magnet stick 207 separates with flitch 180, when keeping away from with magnetism circle 200, under the weight effect of magnetism circle 200 and magnet stick 207, cuff 208 and rake 209, magnet stick 207 falls back on flitch 180 to mix the composition component material of the mortar ash of intermediate pipe 1103 by rake 209.

The tenth embodiment of the present invention is specifically described with reference to the drawings, and includes an extension device having a bagging and stacking device.

By the extension device, the mortar ash is bagged and stored.

Because the construction convenience performance of self-leveling mortar needs to carry out abundant mixture to the composition of self-leveling mortar raw materials, just can guarantee the plane's of construction flatness of self-leveling mortar performance, through the embodiment of the utility model discloses an application that this kind of mortar ash mixing station and preparation method that uses the pipe chain to carry can in the ratio of self-leveling mortar raw materials is satisfied to the performance requirement of self-leveling mortar raw materials.

The second embodiment of the present invention integrates the technical features of the pipe chain conveyor 1 according to the continuity of the material conveying, mixing and discharging.

In the present embodiment, the angle between the horizontal center line and the intermediate portion between one of the head portions and the other of the head portions is set to 22 ° to 90 °.

In this embodiment, a first attachment device is also included and is provided on the pipe chain conveyor 1, the first attachment device being configured to include a stock tank group 2 and a metering screw conveyor group 3.

In this embodiment, a second attachment device is also included and is provided on the pipe chain conveyor 1, the second attachment device being configured to include a finished group of cans 5.

In this embodiment, a third attachment device is also included and is arranged between the pipe chain conveyor 1 and the second attachment device, the third attachment device being arranged to include the stirring device 4 and the shut-off valve 6.

In the present embodiment, a fourth attachment device is further included and provided on the pipe chain conveyor 1, the fourth attachment device being provided as a dust removing device 9.

In this embodiment, a fifth attachment device is also included and is provided on the pipe chain conveyor 1, the fifth attachment device being provided as a pipe mixing device.

In the present embodiment, a sixth attachment device is further included and provided on the pipe chain conveyor 1, the sixth attachment device being provided as an extension device.

A second embodiment of the present invention is based on the first embodiment,

the utility model has the characteristics of down:

1. due to the design of the pipe chain type conveyor 1, the continuous feeding of the composite component materials of the mortar ash and the continuous discharging of the mortar ash are realized through the pipe chain type conveyor 1, and the mortar ash preparation efficiency is improved.

2. Due to the design of the raw material tank group 2 and the metering screw conveyor unit 3, the material is conveyed in proportion.

3. Due to the design of the finished product tank group 5, the preparation and storage of mortar ash are realized, and residues are prevented from being generated in the first bin tank part 51 and the second bin tank part 52.

4. Due to the design of the stirring device 4 and the stop valve 6, the falling and mixing are realized.

5. Due to the design of the dust removal device 9, dust treatment is realized.

6. Owing to designed and carried out numerical range's injecion to the knot configuration form, made numerical range do the utility model discloses a technical scheme in the technical scheme technical characteristics, not through the formula calculation or through the technical characteristics that the limited number of experiments reachs, the experiment shows that this numerical range's technical characteristics has obtained fine technological effect.

7. Owing to designed the utility model discloses a technical characteristic, in technical characteristic's the effect alone and mutual set, through experimental demonstration, the utility model discloses an each item performance index is 1.7 times at least for current each item performance index, has fine market value through the aassessment.

Other technical features identical or similar to those of the continuous pipe-chain conveyor 1 for conveying, mixing and discharging are one of the embodiments of the present invention, and the technical features of the above-mentioned embodiments can be combined arbitrarily, and in order to meet the requirements of patent laws, patent practice rules and examination guidelines, all possible combinations of the technical features of the above-mentioned embodiments are not described again.

Above-mentioned embodiment is only the utility model provides an use mortar ash mixing station's that pipe chain carried realization form, according to the utility model provides an other deformations of scheme increase or reduce composition or step wherein, perhaps will the utility model is used for other with the utility model discloses the technical field who is close all belongs to the protection scope.

Claims (8)

1. A mortar ash mixing station using pipe chain conveying is characterized in that: a pipe chain type conveyor (1) which comprises a combined component material with one section of head used for injecting mortar ash, another section of head used for discharging mortar ash and a middle section between the one section of head and the another section of head used for mixing the combined component material of mortar ash,

still include first annex device and first annex device sets up on pipe chain conveyor (1), and first annex device sets up to include raw materials jar group (2) and measurement screw conveyer unit (3).

2. The mortar ash mixing station using pipe chain conveying according to claim 1, wherein: the technical characteristics of the pipe chain conveyor (1) are integrated in a continuous mode of material conveying, mixing and discharging.

3. The mortar ash mixing station using pipe chain conveying according to claim 1, wherein: the included angle between the middle section part between one section of the head part and the other section of the head part and the horizontal center line is set to be 22-90 degrees.

4. The mortar ash mixing station using pipe chain conveying according to claim 1, wherein: also comprises a second attachment device arranged on the pipe chain conveyor (1), the second attachment device is arranged to comprise a finished can group (5),

or a third accessory device is arranged between the pipe chain conveyor (1) and the second accessory device, the third accessory device is arranged to comprise a stirring device (4) and a stop valve (6),

or a fourth accessory device is also included and is arranged on the pipe chain conveyor (1), the fourth accessory device is arranged as a dust removal device (9),

or, a fifth accessory device is also included and arranged on the pipe chain conveyor (1), the fifth accessory device is arranged as a pipe mixing device,

or, a sixth attachment device is further included and arranged on the pipe chain conveyor (1), and the sixth attachment device is arranged as an extension device.

5. The mortar ash mixing station using pipe chain conveying according to claim 4, wherein: a metering screw conveyor unit (3) is arranged between the raw material tank group (2) and the pipe chain conveyor (1), a stirring device (4) and a dust removal device (9) are respectively arranged on the pipe chain conveyor (1), and a finished product tank group (5) and a stop valve (6) are respectively arranged on the stirring device (4).

6. The mortar ash mixing station using pipe chain conveying according to claim 5, wherein: the pipe chain type conveyor (1) comprises a lower pipeline (110), an upper pipeline (120), a tail (130), a tensioning bolt and nut group (140), a machine head (150), a first motor (160), an intermediate chain wheel (170), a material plate (180) and a chain (190), wherein the lower pipeline (110) and the upper pipeline (120) are respectively arranged between the tail (130) and the machine head (150), the middle chain wheel (170) is respectively arranged at the bending part of the lower pipeline (110) and the bending part of the upper pipeline (120), the material plate (180) and the chain (190) are respectively arranged in the lower pipeline (110) and the upper pipeline (120), the material plate (180) is arranged on the chain (190), the chain (190) is arranged to be in encircling connection with a driven chain wheel of the tail (130), the intermediate chain wheel (170) and a driving chain wheel of the machine head (150), the tensioning bolt and nut group (140) is arranged between the driven chain wheel of the tail (130) and a machine head chain wheel (150) For coupling with the end shaft of the first motor (160), a lower pipe (110) is provided for coupling with the output port of the metering screw conveyor unit (3) and an upper pipe (120) is provided for coupling with the input port of the dust removal device (9), a discharge port (100) is provided on the housing of the machine head (150) and the discharge port (100) is provided for coupling with the stirring device (4),

or, the lower pipe (110) and the upper pipe (120) are respectively set to be circular pipes and the lower pipe (110) and the upper pipe (120) are set to be distributed in a Z shape, the lower transverse end of the lower pipe (110) and the lower transverse end of the upper pipe (120) are respectively set to be connected with the tail (130) and the upper transverse end of the lower pipe (110) and the upper transverse end of the upper pipe (120) are respectively set to be connected with the head (150), an intermediate chain wheel (170) is respectively arranged between the vertical part of the lower pipe (110) and the vertical part of the lower pipe (110), between the vertical part of the lower pipe (110) and the upper transverse part of the lower pipe (110), between the lower transverse part of the upper pipe (120) and the vertical part of the upper pipe (120), between the vertical part of the upper pipe (120) and the upper transverse part of the upper pipe (120), and the discharge port part (100) is set to be a circular hole,

or the bolt of the tensioning bolt and nut group (140) is connected with the driven chain wheel of the tail (130) in a shaft coupling way and the nut of the tensioning bolt and nut group (140) is connected with the shell of the tail (130) in a contact way,

or, the flitch (180) is set to include a first plate part (1801), a second plate part (1802), a lug plate part (1803) and a connecting bolt nut (1804) and is set to be coupled with the lug plate part (1803) at an end surface part of one of the first plate part (1801) and an end surface part of one of the second plate part (1802), respectively, the first plate part (1801) and the second plate part (1802) are set to be butt-coupled with the chain (190) and a bolt of the connecting bolt nut (1804) is set to be cross-coupled with the lug plate part (1803) and the chain (190), respectively, a nut of the connecting bolt nut (1804) is set to be contact-coupled with the lug plate part (1803) of the second plate part (1802) and the first plate part (1801) and the second plate part (1802) are set to be semicircular plate bodies, respectively, and the lug plate part (1803) is set to be a rectangular bar body.

7. The mortar ash mixing station using pipe chain conveying according to claim 5, wherein: the raw material tank group (2) is arranged to comprise a first tank part (21), a second tank part (22), a third tank part (23), a fourth tank part (24), a fifth tank part (25) and a sixth tank part (26), the lower end port part of the first tank part (21), the lower end port part of the second tank part (22), the lower end port part of the third tank part (23), the lower end port part of the fourth tank part (24), the lower end port part of the fifth tank part (25) and the lower end port part of the sixth tank part (26) are respectively arranged to be connected with the metering screw conveyor set (3), the first tank part (21), the second tank part (22), the third tank part (23), the fourth tank part (24), the fifth tank part (25) and the sixth tank part (26) are respectively arranged to be arranged along the transverse center line of the pipe chain conveyor (1) in a front-back side arrangement mode, and the first tank part (21), the second tank part (22), the fifth tank part (25) and the sixth tank part (26) are respectively arranged along the transverse center line of the pipe chain conveyor (1) in, The third tank part (23), the fourth tank part (24), the fifth tank part (25) and the sixth tank part (26) are respectively provided as cone-shaped cylindrical bodies,

or the metering screw conveyor set (3) comprises a first screw conveyor (31), a second screw conveyor (32), a third screw conveyor (33), a fourth screw conveyor (34), a fifth screw conveyor (35) and a sixth screw conveyor (36), the input port part of the first screw conveyor (31), the input port part of the second screw conveyor (32), the input port part of the third screw conveyor (33), the input port part of the fourth screw conveyor (34), the input port part of the fifth screw conveyor (35) and the input port part of the sixth screw conveyor (36) are respectively connected with the raw material tank set (2), the output port part of the first screw conveyor (31), the output port part of the second screw conveyor (32), the output port part of the third screw conveyor (33), the output port part of the fourth screw conveyor (34), The output port part of the fifth screw conveyor (35) and the output port part of the sixth screw conveyor (36) are respectively arranged to be connected with the pipe chain conveyor (1),

or, agitating unit (4) sets up to including casing (41), first output pipeline (42), second output pipeline (43), axis of rotation (44), blade (45), gear train (46) and second motor (47) and the lower extreme terminal surface portion of casing (41) sets up respectively to be linked with first output pipeline (42) and second output pipeline (43), axis of rotation (44) set up in casing (41) and axis of rotation (44) set up to link with casing (41) rotary type, the outer lateral surface portion of axis of rotation (44) sets up to link with blade (45) and the outer tip of axis of rotation (44) sets up to link with the driven gear of gear train (46), the end shaft of second motor (47) sets up to link with the driving gear of gear train (46) and the shell of second motor (47) sets up to link with casing (41), the upper end surface portion of casing (41) sets up to link with pipe chain conveyor (1) and first output pipeline (42) and first output pipeline (43) and second output pipeline (43), the end face portion of casing ( The two output pipelines (43) are respectively connected with the finished product tank group (5), a stop valve (6) is arranged on the first output pipeline (42) and the second output pipeline (43) and the shell (41) is a cone-shaped cylinder body, the first output pipeline (42) and the second output pipeline (43) are respectively a circular cylinder body and the rotating shaft (44) is a circular rod body, the blades (45) are rectangular strip bodies and the driven gear of the gear group (46) is a face gear, the driving gear of the gear group (46) is a cylindrical gear,

or the finished product tank group (5) is set to comprise a first tank part (51) and a second tank part (52), the input port part of the first tank part (51) and the input port part of the second tank part (52) are respectively set to be connected with the stirring device (4), the first tank part (51) and the second tank part (52) are set to be cone-shaped cylinders,

or, the first tank part (51) and the second tank part (52) are arranged to include a tank part (11), an irrigation pipe part (12), a first cut-off valve part (14), a second cut-off valve part (15), an outer vertical plate part (18), a middle vertical plate part (19) and an inner vertical plate part (10) and the irrigation pipe part (12) is arranged in the tank part (11), an expansion area intermediate body (13) is arranged in an output pipe part of the tank part (11) and the second cut-off valve part (15) is arranged on the output pipe part of the tank part (11), a permeable hole body (17) is arranged on the irrigation pipe part (12) and a port part of an output pipe of the irrigation pipe part (12) is arranged to communicate with the expansion area intermediate body (13), an output pipe part of the irrigation pipe part (12) is arranged to be coupled in series with a side surface part of the tank part (11) and the first cut-off valve part (14) is arranged on the output pipe part of the irrigation pipe part (12), an outer vertical plate part (18), a middle vertical plate part (19) and an inner vertical plate part (10) are respectively arranged between the tank part (11) and the filling pipe part (12), the lower end of the outer vertical plate part (18), the lower end of the middle vertical plate part (19) and the lower end of the inner vertical plate part (10) are respectively connected with the tank part (11), the middle vertical plate part (19) is arranged between the outer vertical plate part (18) and the inner vertical plate part (10) and the outer vertical plate part (18) is arranged to be distributed along the outer peripheral line of the tank part (11) at intervals, the inner vertical plate part (10) is arranged to be distributed along the inner peripheral line of the tank part (11) at intervals and the output pipe part of the tank part (11) is arranged to be connected with the input port part of the powder material transport vehicle, the filling pipe part (12) is arranged to be connected with a conveying pipe of mortar ash and the tank part (11) and the filling pipe part (12) are respectively arranged to be, the first stop valve part (14) and the second stop valve part (15) are respectively set as a material stop valve, the expansion area intermediate body (13) is set as a spherical cavity, the leakage hole body (17) is set as a circular hole body,

or, the outer vertical plate portion (18), the middle vertical plate portion (19) and the inner vertical plate portion (10) are respectively arranged to be distributed along the vertical center line of the tank portion (11), the lower end of the plate portion (181) of the outer vertical plate portion (18) and the lower end of the plate portion (181) of the middle vertical plate portion (19) are respectively arranged to be coupled with the inner wall of the tank portion (11) and the upper end of the plate portion (181) of the outer vertical plate portion (18) and the upper end of the plate portion (181) of the middle vertical plate portion (19) are respectively provided with an opening body (182), a through hole body (183) is arranged on the plate portion (181), a leakage window (102) is arranged on the plate portion (101) of the inner vertical plate portion (10) and the lower end of the plate portion (101) is respectively arranged to be coupled with the inner wall of the storage tank, the plate portion (181) and the plate portion (101) are respectively arranged to be rectangular strip-shaped bodies, the opening body (182) is arranged to be a U-shaped groove and the through,

or, the first tank part (51) and the second tank part (52) are arranged to include the tank part (11), the filling pipe part (12), the first shut-off valve part (14), the second shut-off valve part (15), and the horizontal plate part (16) and the filling pipe part (12) is arranged in the tank part (11), the expansion area intermediate body (13) is arranged in the output pipe part of the tank part (11) and the second shut-off valve part (15) is arranged on the output pipe part of the tank part (11), the permeable hole body (17) is arranged on the filling pipe part (12) and the port part of the output pipe of the filling pipe part (12) is arranged to communicate with the expansion area intermediate body (13), the output pipe part of the filling pipe part (12) is arranged to be coupled in series with the side surface part of the tank part (11) and the first shut-off valve part (14) is arranged on the output pipe part of the filling pipe part (12), the horizontal plate part (16) is arranged between the tank part (11) and the filling pipe part (12) and the horizontal plate part (16) and the lower end of the The tank part (11) is connected, the transverse plate part (16) is arranged to be distributed along the transverse central line of the tank part (11) and the transverse plate part (16) is arranged to be distributed along the peripheral line of the tank part (11) at intervals, the output pipe part of the tank part (11) is arranged to be connected with the input port part of the powder material transport vehicle, the injection pipe part (12) is arranged to be connected with the conveying pipe of the mortar ash and the tank part (11) and the injection pipe part (12) are respectively arranged to be conical cylindrical bodies, the first stop valve part (14) and the second stop valve part (15) are respectively arranged to be material stop valves and the expansion area intermediate body (13) is arranged to be a spherical cavity, the permeable hole body (17) is arranged to be a circular hole-shaped body and an arc surface body (162) is arranged at the upper end surface part of the strip part (161) of the transverse plate part (16), the strip part (161),

or, the first tank part (51) and the second tank part (52) are set to include the tank part (11), the filling pipe part (12), the first cut-off valve part (14), the second cut-off valve part (15), the inner cylinder shell (7) and the outer cylinder shell (8) and the filling pipe part (12) is set in the tank part (11), the expansion area intermediate body (13) is set in the output pipe part of the tank part (11) and the second cut-off valve part (15) is set on the output pipe part of the tank part (11), the permeable hole body (17) is set on the filling pipe part (12) and the port part of the output pipe of the filling pipe part (12) is set to communicate with the expansion area intermediate body (13), the output pipe part of the filling pipe part (12) is set to be in series connection with the side surface part of the tank part (11) and the first cut-off valve part (14) is set on the output pipe part of the filling pipe part (12), the inner cylinder shell (7) and the outer cylinder shell (8) are set between the tank part (11) and the filling pipe part (12) and the inner cylinder The lower end heads of the shell (7) and the outer cylinder shell (8) are respectively connected with the tank part (11), the filling pipe part (12) is connected with the inner cylinder shell (7) in a sleeved mode, the inner cylinder shell (7) is connected with the outer cylinder shell (8) in a sleeved mode, the outer cylinder shell (8) is connected with the tank part (11) in a sleeved mode, the output pipe part of the tank part (11) is connected with the input end opening part of the powder material transport vehicle, the filling pipe part (12) is connected with a conveying pipe of mortar ash, the tank part (11) and the filling pipe part (12) are respectively arranged into conical cylinder bodies, the first stop valve part (14) and the second stop valve part (15) are respectively arranged into material stop valves, the expansion area intermediate body (13) is arranged into a spherical cavity, the leakage hole body (17) is arranged into a circular hole, and the lower end head of the inner cylinder part (71) of the inner cylinder shell (7) is provided with a first material flowing through hole body (72), a second material flow through hole body (83) is arranged at the lower end of an outer cylinder part (81) of the outer cylinder shell (8), a mixing hole body (82) is arranged at the middle part of the outer cylinder part (81) of the outer cylinder shell (8), the inner cylinder part (71) and the outer cylinder part (81) are arranged into circular tubular bodies, a first material flow through hole body (72), the mixing hole body (82) and the second material flow through hole body (83) are respectively arranged into rectangular hole bodies, the mixing hole body (82) is arranged into an upper hole body and a lower hole body which are distributed along the vertical central line of the outer cylinder part (81),

or the stop valve (6) is arranged as a ball valve and the port part of the stop valve (6) is arranged to be connected with the stirring device (4),

or the dust removal device (9) is set as a bag type dust remover and the inlet end opening of the dust removal device (9) is set to be connected with the pipe chain conveyor (1).

8. The mortar ash mixing station using pipe chain conveying according to claim 5, wherein: the pipe chain conveyor (1) and the raw material tank group (2), the metering screw conveyor unit (3) and the finished product tank group (5) are distributed in a lifting mixing mode, the pipe chain conveyor (1), the raw material tank group (2), the metering screw conveyor unit (3), the finished product tank group (5) and the stirring device (4) are distributed in a falling mixing mode, the pipe chain conveyor (1), the raw material tank group (2), the metering screw conveyor unit (3), the finished product tank group (5) and the dust removal device (9) are distributed in a purification treatment mode, the second tank part (52) is connected with the first output pipeline (42), the first tank part (51) is connected with the second output pipeline (43), the shell (41) is connected with the end opening part (100), the first screw conveyor (31), the second screw conveyor (32) discharges materials, A third screw conveyor (33), a fourth screw conveyor (34), a fifth screw conveyor (35) and a sixth screw conveyor (36) are arranged to be coupled with the lower pipe (110), respectively, the first screw conveyor (31) is arranged to be coupled with the first tank part (21), the second screw conveyor (32) is arranged to be coupled with the second tank part (22), the third screw conveyor (33) is arranged to be coupled with the third tank part (23), the fourth screw conveyor (34) is arranged to be coupled with the fourth tank part (24), the fifth screw conveyor (35) is arranged to be coupled with the fifth tank part (25), the sixth screw conveyor (36) is arranged to be coupled with the sixth tank part (26),

or the metering pump of the first screw conveyer (31), the metering pump of the second screw conveyer (32), the metering pump of the third screw conveyer (33), the metering pump of the fourth screw conveyer (34), the metering pump of the fifth screw conveyer (35), the metering pump of the sixth screw conveyer (36) and the controller of the first motor (160) are respectively connected with the PLC controller,

or the included angle between the vertical part of the lower pipeline (110) and the horizontal center line is set to be 22-90 degrees,

or, the pipeline mixing device is arranged to include a driven wheel (201), an eccentric wheel (202), a sealing ring (203) and a coil spring sheet (204), and a vertical part of a lower pipeline (110) is arranged to include an upper joint (1101), a lower joint (1102) and a middle pipe (1103), between the upper joint (1101) and the middle pipe (1103), a sealing ring (203) is respectively arranged between the lower joint (1102) and the middle pipe (1103) and a straight plate part of the coil spring sheet (204) is arranged to be coupled with the middle pipe (1103), a coil pipe part of the coil spring sheet (204) is respectively arranged to be coupled with the upper joint (1101) and the lower joint (1102) and the driven wheel (201) is arranged to be rotatably coupled with the middle pipe (1103), the driven wheel (201) is arranged to be coupled with the eccentric wheel (202) in a contact manner and a connecting shaft of the eccentric wheel (202) is arranged to be coupled with an end shaft of a motor, the upper joint (1101) and the lower joint (1101) are respectively arranged to be in a step type And the leakage holes of the lower joint (1102) are respectively arranged to be connected with the straight plate parts of the coil spring pieces (204), the middle pipe (1103) is arranged to be a tubular body, the lug parts of the end heads of the middle pipe (1103) are arranged to be connected with the straight plate parts of the coil spring pieces (204) through pin shafts, the containing groove body in the middle of the middle pipe (1103) is arranged to be connected with the driven wheel (201), the driven wheel (201) is arranged to be a circular annular body, the eccentric wheel (202) is arranged to be a circular disc-shaped body, the sealing ring (203) is arranged to be an annular body with a U-shaped end face, at least three coil spring pieces (204) are respectively arranged to be distributed along the periphery of the upper joint (1101) and the,

or, the pipe mixing device is provided to include a driven wheel (201), a thickness wheel (205) and a corrugated pipe (206), and the vertical part of the lower pipe (110) is provided to include an upper joint (1101), a lower joint (1102) and an intermediate pipe (1103), the corrugated pipes (206) are respectively arranged between the upper joint (1101) and the intermediate pipe (1103) and between the lower joint (1102) and the intermediate pipe (1103), and the driven wheel (201) is provided to be rotatably coupled with the intermediate pipe (1103), the lower end surface part of the driven wheel (201) is provided to be in contact coupling with the upper end surface part of the thickness wheel (205) and the connecting shaft of the thickness wheel (205) is provided to be coupled with the end shaft of the motor, the upper joint (1101), the lower joint (1102) and the intermediate pipe (1103) are provided to be tubular bodies and the driven wheel (201) is provided to be a circular annular body, the thickness wheel (205) is provided to be a circular disk body with gradually changed thickness and the corrugated pipe, one of the ends of the bellows (206) is respectively arranged to be coupled with the upper joint (1101) and the lower joint (1102) and the other end of the bellows (206) is respectively arranged to be coupled with the intermediate pipe (1103),

or, pipeline compounding device sets up to include haulage rope (300), magnet stick (207), cuff (208), rake strip (209) and magnetic ring (200) and set up to couple with magnetic ring (200) at the vertical part of lower pipeline (110), one of them end of haulage rope (300) sets up to couple and wherein another end of haulage rope (300) sets up to couple with cuff (208) with flitch (180), cuff (208) set up to couple and the lateral surface portion of cuff (208) sets up to couple with rake strip (209), haulage rope (300) set up to weaving rope and magnet stick (207) set up to circular rod-shaped body, cuff (208) set up to circular tube-shaped body and rake strip (209) set up to rectangular strip-shaped body, magnetic ring (200) set up to circular ring-shaped body,

or the extending device is provided with a bagging and stacking device.

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