CN212172052U - Vehicle device based on sealing state - Google Patents

Abstract

The utility model provides a vehicle device based on encapsulated situation, include and have out hopper assembly (6) and jar body (4) and be provided with the trucd mixer body that has sealed cover (65) of arranging the material pipeline in a hopper assembly (6), feeder hopper assembly (7) of setting on the feed port portion of jar body (4), through the trucd mixer body, realized the transportation to the material, through feeder hopper assembly (7), realized carrying out encapsulated situation transportation to the material, canvas no longer, easy wearing and tearing such as rubber slab adopt the contact sealed between the piece and the jar body, consequently, the security performance of material transportation has been improved.

Description

Vehicle device based on sealing state

Technical Field

The utility model relates to a vehicle device, especially a vehicle device based on encapsulated situation.

Background

In the prior vehicle device based on the sealing state, the common conventional sealing of the transport vehicle is generally that contact sealing is adopted between easy-wearing parts such as canvas and a rubber plate and a tank body, the service life is short, the sealing effect is poor, in addition, in the production process, the vehicle device also needs to get on or off for a plurality of times for operation, the labor intensity is high, the production efficiency is lower,

in aluminium production process, accomplish the interpolation back of broken material of electrolyte and alumina powder in the positive pole workshop, reinforced and carry out the material mixing stirring in the transportation, after intensive mixing misce bene, go to the electrolysis workshop and unload, the material after will mixing promotes to the electrolysis trough high-order feed bin through the electromagnetic vibration batcher through bucket elevator, raise dust etc. can appear in this process, not only the polluted environment, and to the healthy harm that causes the certain degree of operation personnel, do not have a crushed aggregates and the alumina powder mixed transport vehicle device who is used for the electrolyte now.

Disclosure of Invention

The object of the utility model is a vehicle device based on encapsulated situation.

In order to overcome the technical defect, the utility model aims at providing a vehicle device based on encapsulated situation, consequently improved the security performance of material transportation.

In order to achieve the purpose, the utility model adopts the technical proposal that: the utility model provides a vehicle device based on encapsulated situation, includes and has out hopper assembly and jar body and be provided with the trucd mixer body that has sealed discharge pipe's sealed lid, sets up the feeder hopper assembly on the feed port portion of jar body in going out the hopper assembly.

Owing to designed feeder hopper assembly and trucd mixer body, through the trucd mixer body, realized the transportation to the material, through the feeder hopper assembly, realized carrying out encapsulated situation transportation to the material, adopted the contact to seal between easy wearing and tearing parts such as canvas, rubber slab and the jar body no longer, consequently improved the security performance of material transport.

The utility model discloses a, according to carry out the mode of encapsulated situation transportation to the material and interconnect feeder hopper assembly and trucd mixer body.

The utility model designs a mixer truck body which comprises a motor-driven chassis, a front bracket, a rear bracket and a driving device,

the utility model discloses a, still include first annex device and first annex device sets up on the trucd mixer body, and first annex device sets up to the rotary seal assembly.

The utility model discloses a, still include second annex device and second annex device sets up on the trucd mixer body, and second annex device sets up to jar interior pressure-relief pipe.

The utility model discloses a, still include third annex device and third annex device sets up on the trucd mixer body, and third annex device sets up to the cat ladder.

The utility model discloses a, still include fourth annex device and fourth annex device sets up on the trucd mixer body, and third annex device sets up to antimagnetic guard shield.

The utility model discloses a, still include fifth accessory device and fifth accessory device sets up on the trucd mixer body, and fifth accessory device sets up to monitored control system.

The utility model discloses a, still include sixth accessory device and sixth accessory device sets up on the trucd mixer body, and sixth accessory device sets up to the manipulation of bar system and flexible axle.

The utility model discloses a, be provided with fore-stock and after-poppet respectively on motor chassis, be provided with the cat ladder on the after-poppet and be provided with a jar body between fore-stock and after-poppet, be provided with drive arrangement, rotary seal assembly and monitored control system camera respectively on the jar body and be provided with out hopper assembly and feeder hopper assembly between jar body and after-poppet, be provided with the interior pressure relief pipe of jar between a hopper assembly and feeder hopper assembly.

The utility model discloses a, the antimagnetic guard shield sets up on hydraulic motor, speed reducer and hydraulic pump, and the antimagnetic guard shield sets up to the antimagnetic guard shield of aluminum alloy.

The utility model discloses a, monitored control system sets up to including the monitored control system camera, and monitored control system's camera sets up the front and back end at motor chassis respectively.

The utility model discloses a, the control of rod system and flexible axle set up respectively into with drive arrangement, play hopper assembly, feeder hopper assembly and the sealed assembly hookup of gyration, the control of rod system sets up on the after-poppet and the flexible axle is controlled and is set up in the driver's cabin on motor-driven chassis.

The utility model discloses a, motor chassis sets up to the 6X 4 chassis that has the sub vehicle frame and the tip sets up to hookup with the fore-stock before the upper end terminal surface of the sub vehicle frame on motor chassis, and tip sets up to hookup with the after-poppet and the back end of the sub vehicle frame on motor chassis sets up to hookup with out the hopper assembly after the upper end terminal surface of the sub vehicle frame on motor chassis.

The utility model discloses a, the fore-stock is trapezoidal seat body and the fore-stock is set up to be coupleed with drive arrangement, and the lower extreme terminal surface portion of fore-stock sets up to be coupleed with motor-driven chassis.

The utility model discloses a, the after-poppet sets up to L font frame body and the lower end of the perpendicular portion of after-poppet sets up to hookup with motor-driven chassis, and the perpendicular portion of after-poppet sets up to hookup through bearing roller and jar body and the side portion of the perpendicular portion of after-poppet sets up to hookup with the cat ladder, and the horizontal portion of after-poppet sets up respectively to hookup with play hopper assembly and feeder hopper assembly.

The utility model relates to a tank body, which is arranged to comprise a front section part, a rear section part, a middle section part, a blade part, a guide rail part and a sealing head part, a manhole body is arranged on the middle section part, a cover plate is arranged on the manhole body, the side part of the rear section part is arranged to be connected with the guide rail part, the front end part of the front section part is arranged to be connected with the sealing head part, the inner wall of the front section part, the inner wall of the rear section part and the inner wall of the middle section part are arranged to be connected with the blade part, the front end part of the middle section part is arranged to be connected with the front section part, the rear end part of the middle section part is arranged to be connected with the rear section part, the sealing head part is arranged to be connected with an output power shaft of a driving device, the rear end part of the rear section part is respectively arranged to be connected with a discharge hopper assembly, a feed hopper assembly and a rotary sealing assembly, the rear end part of the rear section part, the front section part and the rear section part are respectively arranged into a conical cylindrical body, the middle section part is arranged into a cylindrical body, the blade part is arranged into a helical blade, the guide rail part is arranged into a circular annular body, the sealing head part is arranged into a circular disc-shaped body, and the manhole body is arranged into a circular hole-shaped body.

In the present embodiment, the ratio of the length of the front section to the length of the rear section is set to 1: 1.32-1.44.

The utility model discloses a, drive arrangement sets up to including hydraulic motor, the speed reducer, the hydraulic pump, the oil tank, the radiator, filter and valve and hydraulic motor's end shaft sets up to the input shaft hookup with the speed reducer, hydraulic motor's hydraulic pressure port portion sets up to the output oral area hookup with the hydraulic pump and one of them input oral area of hydraulic pump sets up to coupleing through filter and valve and oil tank, wherein another input oral area of hydraulic pump sets up to coupleing and the output shaft of speed reducer sets up to coupleing with the jar body through radiator and oil tank, hydraulic motor and speed reducer set up respectively to coupleing with the fore-stock.

The utility model designs a discharge hopper assembly which is arranged to comprise a discharge bin part, a turning part, a main chute part, an extended chute part, a sealing cover part, a swing rod part, a rotating shaft part and a valve device, wherein the lower port part of the discharge bin part is connected with the upper port part of the main chute part through the turning part, the lower port part of the main chute part is connected with the upper port part of the extended chute part through the rotating shaft part and the lower port part of the main chute part is connected with the sealing cover part in a turning way through a pin shaft, the lower end of the swing rod part is connected with the lower port part of the extended chute part through the pin shaft and the upper end of the swing rod part is connected with a rear bracket through the pin shaft, the turning part is connected with the valve device and the upper port part of the discharge bin part is distributed corresponding to a tank body, the discharge bin part and the turning part are respectively connected with the rear bracket and the discharge bin part is connected, the ejection of compact storehouse portion sets up to trapezoidal bucket body and the rotation portion sets up to the interior outer lane body that cup joints each other, the inner circle part of rotation portion sets up respectively to coupleing with main chute portion and valve gear and the outer lane part of rotation portion sets up respectively to coupleing with ejection of compact storehouse portion and after-poppet, main chute portion sets up respectively to the siphonozoote portion and sealed cover sets up to the lid body, the swing rod portion sets up to the rodlike body and the rotation axial region sets up to T font rodlike body, the rotation axial region sets up respectively to coupleing with main chute portion and extension chute portion through connecting lug seat, valve gear sets up to including valve plate body and power cylinder and valve gear's valve plate body sets up to the convertible hookup of inner circle portion through round pin axle and rotation portion, valve gear's power cylinder sets up between valve plate body and ejection of compact storehouse portion at valve.

The utility model discloses a, the feeder hopper assembly sets up to include feeding storehouse portion, guide plate portion, remove cap and first telescoping cylinder and the upper end port portion of feeding storehouse portion sets up to be linked with removing the cap slidingtype, one of them end of first telescoping cylinder sets up to be linked with feeding storehouse portion upper end terminal surface portion articulated and wherein another end of first telescoping cylinder sets up to be linked with removing the cap articulated, the upper end of guide plate portion sets up to be linked with removing the cap and the intermediate part of guide plate portion sets up to be linked with feeding storehouse portion, the lower end port portion of feeding storehouse portion and the lower end of guide plate portion set up respectively to be distributed corresponding to the jar body and feeding storehouse portion sets up to be linked with the after-poppet, feeding storehouse portion sets up to trapezoidal bucket body and guide plate portion and removal cap set up respectively to be the rectangular sheet body, first telescoping cylinder sets up to two section telescoping cylinders, the feeding bin part is communicated with the pressure relief pipe in the tank.

The utility model discloses a, the rotary seal assembly is arranged to include a second telescopic cylinder, a third telescopic cylinder, an embedding cover part, a first buckling part, a second buckle and a lock catch, one edge part of the inner side surface of the embedding cover part is arranged to be connected with the first buckling part, the first buckling part is arranged to be connected with the second telescopic cylinder and the other edge part of the inner side surface of the embedding cover part is arranged to be connected with the second buckle, the second buckle is arranged to be connected with the third telescopic cylinder and the lock catch is arranged between the embedding cover part and the tank body, one end head of the second telescopic cylinder and one end head of the third telescopic cylinder are respectively arranged to be connected with a rear bracket through a pin shaft and the other end head of the second telescopic cylinder and the other end head of the third telescopic cylinder are respectively arranged to be connected with the embedding cover part through a pin shaft, the embedding cover part is arranged to be connected with the tank body in a sinking way and the second telescopic cylinder and the, first buckle portion, the second buckle sets up respectively to U font lamellar body, the embedding lid sets up to the block body of type shape and the shrink portion of embedding lid sets up to the connection of sinking with the jar body, be provided with joint strip between the shrink portion of embedding lid and the jar body and the expansion portion lateral surface part of embedding lid sets up respectively to with first buckle portion, second buckle and monitored control system camera hookup, the hasp sets up to including first lock block body and second lock block body and first lock block body sets up to hookup with the embedding lid, the second lock block body sets up to the threaded rod and the second lock block body sets up to hookup with the after-poppet screw thread formula, the second lock block body sets up to hookup and first lock block body sets up to the rectangular block body with first lock block body contact.

The utility model discloses a, jar interior pressure-relief tube sets up to the rubber hose and one of them port portion of jar interior pressure-relief tube sets up to hookup with out the hopper assembly, and one of them another port portion of jar interior pressure-relief tube sets up to hookup with the feeder hopper assembly.

The utility model discloses a, the cat ladder sets up to hookup and the upper end of cat ladder sets up to extending on the jar body with the rear bracket, and the lower end of cat ladder sets up to extending on motor-driven chassis.

The utility model relates to a motor chassis, a front bracket, a rear bracket, a tank body, a driving device, a discharging hopper assembly and a feeding hopper assembly are arranged to be distributed according to a stirring and transporting mode, and the motor chassis, the front bracket, the rear bracket, the tank body, the driving device, the discharging hopper assembly, the feeding hopper assembly and the rotary sealing assembly are arranged to be distributed according to an embedded plate sealing mode, the motor chassis, the front bracket, the rear bracket, the tank body, the driving device, the discharging hopper assembly, the feeding hopper assembly, the rotary sealing assembly and a discharging pipe in the tank are arranged to be distributed according to a constant pressure channel mode, and the motor chassis, the front bracket, the rear bracket, the tank body, the driving device, the discharging hopper assembly, the feeding hopper assembly and a ladder stand are arranged to be distributed according to a climbing accessory mode, an embedded cover part is arranged to be connected with a rear section part, a discharging bin part, a hydraulic motor is provided in communication with the front section.

In this technical scheme, the feeder hopper assembly is basic unit spare, also the utility model discloses a necessary technical feature, motor-driven chassis, fore-stock, after-poppet, jar body, drive arrangement, play hopper assembly, rotary seal assembly, jar internal pressure relief pipe, cat ladder and monitored control system camera are functional unit, are the characteristics that realize the utility model discloses an other technological effects, anterior segment portion, back end portion, middle section portion, blade portion, guide rail portion and seal head portion, manhole body, hydraulic motor, speed reducer, hydraulic pump, oil tank, radiator, filter, valve, discharge bin portion, gyration portion, main chute portion, extension chute portion, sealed cap portion, swing rod portion, rotation shaft portion, valve device, feed bin portion, guide plate portion, removal lid, first telescoping cylinder, second telescoping cylinder, third telescoping cylinder, embedding lid, first buckle portion, second buckle, hasp, The design of the technical characteristics of the first locking block body and the second locking block body is the technical characteristics which accord with the patent law and the implementation rules thereof.

In the technical scheme, the feed hopper assembly and the mixer truck body for transporting materials in a sealed state are important technical characteristics, and have novelty, creativity and practicability in the technical field of vehicle devices based on the sealed state, and 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 the present invention,

figure 2 is a right side view of figure 1,

figure 3 is a schematic structural diagram of the tank 4 of the present invention,

figure 4 is a schematic structural view of the driving device 5 of the present invention,

figure 5 is a schematic view of the closed state of the tank 4 and the rotary seal assembly 8,

figure 6 is a top view of figure 5,

figure 7 is a schematic view of the opened state of the tank 4 and the rotary seal assembly 8,

a motor chassis-1, a front bracket-2, a rear bracket-3, a tank body-4, a driving device-5, a discharge hopper assembly-6, a feed hopper assembly-7, a rotary seal assembly-8, a tank pressure relief pipe-9, a ladder-91, a monitoring system camera-92, a front section-41, a rear section-42, a middle section-43, a blade section-44, a guide rail section-45, a head section-46, a manhole body-47, a hydraulic motor-51, a speed reducer-52, a hydraulic pump-53, an oil tank-54, a radiator-55, a filter-56, a valve-57, a discharge bin section-61, a rotary section-62, a main chute section-63, an extension chute section-64, a seal cover section-65, a sealing device-6, a sealing device, The device comprises a swing rod part-66, a rotating shaft part-67, a valve device-68, a feed bin part-71, a material guide plate part-72, a movable cover part-73, a first telescopic cylinder-74, a second telescopic cylinder-81, a third telescopic cylinder-82, an embedding cover part-83, a first buckle part-84, a second buckle-85, a lock catch-86, a first lock block body-861 and a second lock block body-862.

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 equipment and materials used in the following examples are commercially available, and if the processing conditions are not specified, 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, combine the figure to specifically explain this embodiment, include motor-driven chassis 1, fore-stock 2, after-poppet 3, jar body 4, drive arrangement 5, go out hopper assembly 6, feeder hopper assembly 7, rotary seal assembly 8, jar interior pressure relief pipe 9, cat ladder 91 and monitored control system camera 92 and be provided with fore-stock 2 and after-poppet 3 respectively on motor-driven chassis 1, be provided with cat ladder 91 on after-poppet 3 and be provided with jar body 4 between fore-stock 2 and after-poppet 3, be provided with drive arrangement 5 respectively on jar body 4, rotary seal assembly 8, and monitored control system camera 92 and be provided with out hopper assembly 6 and feeder hopper assembly 7 between jar body 4 and after-poppet 3, be provided with jar interior pressure relief pipe 9 between out hopper assembly 6 and feeder hopper assembly 7.

In the present embodiment, the motor-driven chassis 1 is provided as a 6 × 4 chassis having a subframe and the upper-end-face front end portion of the subframe of the motor-driven chassis 1 is provided to be coupled to the front carrier 2, the upper-end-face rear end portion of the subframe of the motor-driven chassis 1 is provided to be coupled to the rear carrier 3 and the rear end of the subframe of the motor-driven chassis 1 is provided to be coupled to the hopper assembly 6.

Through motor-driven chassis 1, formed the support tie point to fore-stock 2, after-poppet 3 and play hopper assembly 6, by motor-driven chassis 1, realized being connected with fore-stock 2, realized being connected with after-poppet 3, realized being connected with play hopper assembly 6, its technical aim at: for use as the main body of a vehicular apparatus.

In the present embodiment, the front bracket 2 is provided as a trapezoidal seat body and the front bracket 2 is provided to be coupled with the driving device 5, and the lower end surface portion of the front bracket 2 is provided to be coupled with the motor chassis 1.

Through fore-stock 2, formed the support tie point to motor-driven chassis 1 and drive arrangement 5, by fore-stock 2, realized being connected with motor-driven chassis 1, realized being connected with drive arrangement 5, its technical aim at: for serving as a support carrier for the drive means 5.

In the present embodiment, the rear bracket 3 is provided as an L-shaped frame and the lower end of the vertical portion of the rear bracket 3 is provided to be coupled to the motor chassis 1, the vertical portion of the rear bracket 3 is provided to be coupled to the tank 4 via a carrier roller and the side portion of the vertical portion of the rear bracket 3 is provided to be coupled to the ladder stand 91, and the horizontal portion of the rear bracket 3 is provided to be coupled to the hopper assembly 6 and the hopper assembly 7, respectively.

Through after-poppet 3, formed the support tie point to motor chassis 1, jar body 4, play hopper assembly 6, feeder hopper assembly 7 and cat ladder 91, by after-poppet 3, realized being connected with motor chassis 1, realized being connected with jar body 4, realized being connected with play hopper assembly 6, realized being connected with feeder hopper assembly 7, realized being connected with cat ladder 91, its technical aim at: used as a support carrier for the tank body 4, the discharge hopper assembly 6, the feed hopper assembly 7 and the ladder stand 91.

In the present embodiment, the tank 4 is configured to include a front section 41, a rear section 42, a middle section 43, a blade 44, a guide rail 45 and a sealing head 46, and a manhole body 47 is provided on the middle section 43, a cover plate is provided on the manhole body 47 and a side surface of the rear section 42 is configured to be coupled to the guide rail 45, a front end surface of the front section 41 is configured to be coupled to the sealing head 46 and an inner wall of the front section 41, an inner wall of the rear section 42 and an inner wall of the middle section 43 are configured to be coupled to the blade 44, a front end port of the middle section 43 is configured to be coupled to the front section 41 and a rear end port of the middle section 43 is configured to be coupled to the rear section 42, the sealing head 46 is configured to be coupled to an output power shaft of the driving device 5 and rear end ports of the rear section 42 are respectively configured to be coupled to the discharge hopper assembly 6, the feed hopper assembly 7 and the rotary seal assembly 8, the rear end portion of the rear stage portion 42 is provided to be coupled with the in-tank pressure relief pipe 9 and the rail portion 45 is provided to be coupled with the rear bracket 3 through a carrier roller, the front stage portion 41 and the rear stage portion 42 are respectively provided as tapered cylindrical bodies and the middle stage portion 43 is provided as a cylindrical body, the blade portion 44 is provided as a helical blade and the rail portion 45 is provided as a circular annular body, the head portion 46 is provided as a circular disk-shaped body and the manhole body 47 is provided as a circular hole-shaped body.

In the present embodiment, the ratio of the length of the front section 41 to the length of the rear section 42 is set to 1: 1.32-1.44.

Through jar body 4, formed to after-poppet 3, drive arrangement 5, play hopper assembly 6, feeder hopper assembly 7, the support connection point of rotary seal assembly 8 and jar interior pressure relief pipe 9, by guide rail portion 45, realized being connected with after-poppet 3, by head portion 46, realized being connected with drive arrangement 5, by back end portion 42, realized being connected with play hopper assembly 6, realized being connected with feeder hopper assembly 7, realized being connected with rotary seal assembly 8, realized being connected with jar interior pressure relief pipe 9, by front end portion 41, back end portion 42, middle section portion 43 and blade portion 44, realized the stirring to the crushed aggregates of electrolyte and alumina powder, by manhole body 47, realized the material treatment to maintaining and cleaing away the siltation, its technical aim at: for use as a storage carrier for crushed material and alumina powder as electrolyte.

In the present embodiment, the driving device 5 is configured to include a hydraulic motor 51, a speed reducer 52, a hydraulic pump 53, an oil tank 54, a radiator 55, a filter 56, and a valve 57, and an end shaft of the hydraulic motor 51 is configured to be coupled to an input end shaft of the speed reducer 52, a hydraulic port portion of the hydraulic motor 51 is configured to be coupled to an output port portion of the hydraulic pump 53 and one of the input port portions of the hydraulic pump 53 is configured to be coupled to the oil tank 54 through the filter 56 and the valve 57, another one of the input port portions of the hydraulic pump 53 is configured to be coupled to the oil tank 54 through the radiator 55 and an output end shaft of the speed reducer 52 is configured to be coupled to the tank body 4, and the.

Through drive arrangement 5, formed the support tie point to fore-stock 2 and jar body 4, realized being connected with fore-stock 2 by hydraulic motor 51 and speed reducer 52, realized being connected with jar body 4 by speed reducer 52, realized inputing high-pressure power liquid to hydraulic motor 51 by hydraulic pump 53, oil tank 54, radiator 55, filter 56 and valve 57, its technical aim at: for acting as a source of rotational power for the tank 4.

In the present embodiment, the hopper assembly 6 is configured to include the discharging bin portion 61, the turning portion 62, the main chute portion 63, the elongated chute portion 64, the sealing cover portion 65, the swing rod portion 66, the rotating shaft portion 67 and the valve device 68, and the lower end opening portion of the discharging bin portion 61 is configured to be coupled to the upper end port portion of the main chute portion 63 through the turning portion 62, the lower end port portion of the main chute portion 63 is configured to be coupled to the upper end port portion of the elongated chute portion 64 through the rotating shaft portion 67 and the lower end port portion of the main chute portion 63 is configured to be flip-coupled to the sealing cover portion 65 through a pin, the lower end head of the swing rod portion 66 is configured to be coupled to the lower end port portion of the elongated chute portion 64 through a pin and the upper end head of the swing rod portion 66 is configured to be coupled to the rear bracket 3 through a pin, the turning portion 62 is configured to be coupled to the, the discharge bin portion 61 and the turn portion 62 are respectively provided to be coupled with the rear bracket 3 and the discharge bin portion 61 is provided to be coupled with the feed hopper assembly 7, the discharge bin portion 61 is provided as a trapezoidal bucket body and the turn portion 62 is provided as inner and outer annular bodies that are fitted to each other, the inner annular portion of the turn portion 62 is respectively provided to be coupled with the main chute portion 63 and the valve device 68 and the outer annular portion of the turn portion 62 is respectively provided to be coupled with the discharge bin portion 61 and the rear bracket 3, the main chute portion 63 and the elongated chute portion 64 are respectively provided as tubular bodies and the sealing cover portion 65 is provided as a box cover body, the swing rod portion 66 is provided as a rod body and the rotation shaft portion 67 is provided as a T-shaped rod body, the rotation shaft portion 67 is respectively provided to be coupled with the main chute portion 63 and the elongated chute portion 64 through connecting lugs, the valve device 68 is provided to include a valve plate body and a, the power cylinder of the valve device 68 is arranged between the valve plate body of the valve device 68 and the discharge bin portion 61, and the discharge bin portion 61 is arranged to communicate with the in-tank pressure relief pipe 9.

Through ejection of compact hopper assembly 6, formed the back support 3, jar body 4, the support tie point of feeder hopper assembly 7 and jar interior pressure relief pipe 9, by ejection of compact storehouse portion 61 and gyration portion 62, realized being connected with back support 3, by ejection of compact storehouse portion 61, realized being connected with jar body 4, realized being connected with feeder hopper assembly 7, by ejection of compact storehouse portion 61, realized being connected with jar interior pressure relief pipe 9, by main chute portion 63, extension chute portion 64, sealing cover portion 65, swing rod portion 66, rotation axial region 67 and valve device 68, realized unloading the processing to the crushed aggregates and the alumina powder of electrolyte, its technical aim at: a passage for discharging crushed material and alumina powder as an electrolyte from the tank 4.

In this embodiment, the feeding hopper assembly 7 is configured to include a feeding bin portion 71, a material guiding plate portion 72, a moving cover portion 73 and a first telescopic cylinder 74, and an upper end port portion of the feeding bin portion 71 is configured to be slidably coupled with the moving cover portion 73, one end of the first telescopic cylinder 74 is configured to be hingedly coupled with an upper end surface portion of the feeding bin portion 71 and the other end of the first telescopic cylinder 74 is configured to be hingedly coupled with the moving cover portion 73, an upper end of the material guiding plate portion 72 is configured to be coupled with the moving cover portion 73 and a middle portion of the material guiding plate portion 72 is configured to be coupled with the feeding bin portion 71, a lower end port portion of the feeding bin portion 71 and a lower end of the material guiding plate portion 72 are respectively configured to be distributed corresponding to the tank 4 and the feeding bin portion 71 is configured to be coupled with the rear bracket 3, the feeding bin portion 71 is configured to be a trapezoidal bucket body and the material guiding plate portion, the first telescopic cylinder 74 is provided as a two-stage telescopic cylinder, and the feed bin portion 71 is provided in communication with the in-tank pressure relief pipe 9.

Through feeder hopper assembly 7, formed the support tie point to after-poppet 3, jar body 4 and jar interior pressure-relief pipe 9, by feeding storehouse portion 71, realized being connected with after-poppet 3, realized being connected with jar body 4, realized being connected with jar interior pressure-relief pipe 9, by leading flitch portion 72, realized leading-in jar body 4 to the crushed aggregates of electrolyte and alumina powder, by removing lid 73 and first telescoping cylinder 74, realized the sealed to feeding storehouse portion 71, its technical aim at: a hopper for charging crushed material and alumina powder as an electrolyte in the tank 4.

In this embodiment, the rotary seal assembly 8 is configured to include a second telescopic cylinder 81, a third telescopic cylinder 82, an embedded cover 83, a first buckle 84, a second buckle 85 and a lock catch 86, wherein one edge of the inner side of the embedded cover 83 is configured to be coupled to the first buckle 84, the first buckle 84 is configured to be coupled to the second telescopic cylinder 81 and the other edge of the inner side of the embedded cover 83 is configured to be coupled to the second buckle 85, the second buckle 85 is configured to be coupled to the third telescopic cylinder 82 and the lock catch 86 is configured between the embedded cover 83 and the tank 4, one end of the second telescopic cylinder 81 and one end of the third telescopic cylinder 82 are respectively configured to be coupled to the rear bracket 3 through a pin and the other end of the second telescopic cylinder 81 and the other end of the third telescopic cylinder 82 are respectively configured to be coupled to the embedded cover 83 through a pin, the embedding cover part 83 is arranged to be connected with the tank body 4 in a sinking way, the second telescopic cylinder 81 and the third telescopic cylinder 82 are respectively arranged to be two-section telescopic cylinders, the first buckling part 84 and the second buckling part 85 are respectively arranged to be U-shaped sheet-shaped bodies, the embedding cover part 83 is arranged to be a convex block-shaped body, the contraction part of the embedding cover part 83 is arranged to be connected with the tank body 4 in a sinking way, a sealing rubber strip is arranged between the contraction part of the embedding cover part 83 and the tank body 4, the outer side surface part of the expansion part of the embedding cover part 83 is respectively arranged to be connected with the first, the second catch 85 is coupled to the monitoring system camera 92, the catch 86 is configured to include a first lock body 861 and a second lock body 862 and the first lock body 861 is configured to be coupled to the insertion cover 83, the second lock body 862 is configured to be a threaded rod and the second lock body 862 is configured to be threadably coupled to the rear bracket 3, the second lock body 862 is configured to be contactingly coupled to the first lock body 861 and the first lock body 861 is configured to be a rectangular block.

Through rotary seal assembly 8, formed the support tie point to after-poppet 3, jar body 4 and monitored control system camera 92, by second telescoping cylinder 81, third telescoping cylinder 82 and hasp 86, realized being connected with after-poppet 3, by embedding lid 83, realized being connected with jar body 4, realized being connected with monitored control system camera 92, by first buckle portion 84 and second buckle 85, realized embedding lid 83 respectively with second telescoping cylinder 81 and third telescoping cylinder 82 be connected, its technical aim at: for sealing the can body 4.

In the present embodiment, the in-tank pressure relief pipe 9 is provided as a rubber hose and one of the port portions of the in-tank pressure relief pipe 9 is provided to be coupled with the hopper assembly 6, and the other port portion of the in-tank pressure relief pipe 9 is provided to be coupled with the hopper assembly 7.

Through the pipe 9 is pressed to the interior pressure relief pipe of jar, formed the support tie point to hopper assembly 6 and feeder hopper assembly 7, by the pressure relief pipe 9 in the jar, realized being connected with hopper assembly 6, realized being connected with feeder hopper assembly 7, its technical aim at: is used for preventing the phenomenon of material choking of the tank body 4.

In this embodiment, the ladder stand 91 is provided to be coupled with the rear bracket 3 and the upper end of the ladder stand 91 is provided to extend on the tank 4, and the lower end of the ladder stand 91 is provided to extend on the motor vehicle chassis 1.

Through cat ladder 91, formed the support tie point to motor chassis 1, after-poppet 3 and jar body 4, by cat ladder 91, realized being connected with motor chassis 1, realized being connected with after-poppet 3, realized being connected with jar body 4, its technical aim at: used as a boarding ladder for operators.

In the present embodiment, the motor chassis 1, the front bracket 2, the rear bracket 3, the tank 4, the driving device 5, the hopper assembly 6 and the hopper assembly 7 are arranged to be distributed in a stirring transportation manner and the motor chassis 1, the front bracket 2, the rear bracket 3, the tank 4, the driving device 5, the hopper assembly 6 and the hopper assembly 7 and the rotary seal assembly 8 are arranged to be distributed in an embedded plate seal manner, the motor chassis 1, the front bracket 2, the rear bracket 3, the tank 4, the driving device 5, the hopper assembly 6, the hopper assembly 7 and the rotary seal assembly 8 and the tank internal pressure relief pipe 9 are arranged to be distributed in a constant pressure passage manner and the motor chassis 1, the front bracket 2, the rear bracket 3, the tank 4, the driving device 5, the hopper assembly 6 and the hopper assembly 7 and the ladder stand 91 are arranged to be distributed in a climbing attachment manner, the cover embedding 83 is arranged to be coupled to the rear section 42, the discharging bin portion 61, the feeding bin portion 71 and the guide plate portion 72 are arranged to be distributed corresponding to the rear section 42, and the hydraulic motor 51 is arranged to be coupled with the front section 41.

In another embodiment of the present invention, the ratio of the length of the front section 41 to the length of the rear section 42 is set to 1: 1.32.

In another aspect of the first embodiment of the present invention, the ratio of the length of the front section 41 to the length of the rear section 42 is set to 1: 1.44.

In another aspect of the first embodiment of the present invention, the ratio of the length of the front section 41 to the length of the rear section 42 is set to 1: 1.38.

The second embodiment of the present invention further comprises a magnetic shield and the magnetic shield is disposed on the hydraulic motor 51, the speed reducer 52 and the hydraulic pump 53, and the magnetic shield is disposed as an aluminum alloy magnetic shield.

By antimagnetic guard, realized being connected with drive arrangement 5, its technical aim at: the magnetic field environment requirement of the use place is met.

The third embodiment of the present invention further comprises a monitoring system having a monitoring system camera 92, wherein the monitoring system camera is respectively disposed at the front and rear ends of the motor-driven chassis 1.

By monitored control system, realized being connected with motor-driven chassis 1, its technical objective lies in: the monitoring device is used for monitoring the working state of the vehicle device.

The third embodiment of the present invention further comprises a rod system operation and a flexible shaft operation, wherein the rod system operation and the flexible shaft operation are respectively set to be connected with the driving device 5, the discharge hopper assembly 6, the feed hopper assembly 7 and the rotary seal assembly 8, the rod system operation is set on the rear bracket 3, and the flexible shaft operation is set in the cab of the motor chassis 1.

By the control of lever system and flexible axle, realized being connected with drive arrangement 5, realized being connected with play hopper assembly 6, realized being connected with feeder hopper assembly 7, realized being connected with rotary seal assembly 8, its technical aim at: the device is used for realizing action operation of the vehicle device.

The utility model discloses a second embodiment, according to the mode of carrying out the encapsulated situation transportation to the material feed hopper assembly 7 and trucd mixer body interconnect.

The utility model designs a mixer truck body which comprises a motor-driven chassis 1, a front bracket 2, a rear bracket 3 and a driving device 5,

in this embodiment, a first attachment device is included and disposed on the mixer truck body, the first attachment device being configured as a rotary seal assembly 8.

In this embodiment, a second attachment device is also included and is provided on the mixer truck body, the second attachment device being provided as an in-tank pressure relief tube 9.

In this embodiment, a third attachment device is also included and is provided on the mixer truck body, the third attachment device being provided as a ladder 91.

In this embodiment, a fourth accessory device is further included and is disposed on the mixer truck body, and the third accessory device is configured as a antimagnetic shield.

In this embodiment, a fifth accessory device is further included and is disposed on the mixer truck body, and the fifth accessory device is configured as a monitoring system.

In this embodiment, a sixth attachment device is further included and is disposed on the mixer truck body, the sixth attachment device being configured for stick-system manipulation and flexible shaft manipulation.

The second embodiment of the present invention is based on the first embodiment.

When the can body 4 is charged, the second telescopic cylinder 81 and the third telescopic cylinder 82 are in an extension state, the second telescopic cylinder 81 and the third telescopic cylinder 82 drive the embedding cover part 83 to move through the first buckling part 84 and the second buckle 85, the embedding cover part 83 is separated from the rear end port part of the rear section part 42, the first telescopic cylinder 74 is in an extension state, the movable cover part 73 is driven to move on the feed bin part 71, the movable cover part 73 drives the material guide plate part 72 to rotate, the upper end port part of the feed bin part 71 is in an opening state, the lower end head of the material guide plate part 72 is in contact with the rear end port part of the rear section part 42, the material enters the feed bin part 71 and enters the front section part 41, the rear section part 42 and the middle section part 43 through the material guide plate part 72, after the can body 4 is charged, the second telescopic cylinder 81 and the third telescopic cylinder 82 are in a contraction state, and the second telescopic cylinder 81 and the third telescopic cylinder 82 drive the embedding cover part 83 to reversely buckle 85 and the second buckle 85 The movable cover part 73 is driven to move in the opposite direction by moving the contracted part of the fitting cover part 83 into the rear end port part of the rear section part 42, the first telescopic cylinder 74 is in the contracted state, the movable cover part 73 is driven to move in the opposite direction on the feeding bin part 71, the guide plate part 72 is driven to rotate in the opposite direction by the movable cover part 73, the upper end port part of the feeding bin part 71 is in the closed state, the lower end of the guide plate part 72 is separated from the rear end port part of the rear section part 42, the sealing cover part 65 is connected to the lower end port part of the main chute part 63, the power cylinder of the valve device 68 is in the extended state, the valve plate body of the valve device 68 is sealed with the inner ring part of the rotating part 62, the hydraulic pump 53 is started, the hydraulic motor 51 is in the working state by the high-pressure liquid, the speed reducer 52 is driven to rotate, the front section part 41, the rear section part 42 and the middle section part 43 are, The materials in the rear section 42 and the middle section 43 are stirred and mixed, the motor-driven chassis 1 is started to transport the materials, when the materials reach a discharging place, the second telescopic cylinder 81 and the third telescopic cylinder 82 are in an extension state, the second telescopic cylinder 81 and the third telescopic cylinder 82 drive the embedding cover 83 to move through the first buckle part 84 and the second buckle 85, the embedding cover 83 is separated from the rear end port part of the rear section 42, the sealing cover 65 is separated from the lower end port part of the main chute part 63, the rotating speeds of the front section 41, the rear section 42 and the middle section 43 are increased, the materials are discharged into the discharging bin part 61 through the rear end port part of the rear section 42, the power cylinder of the valve device 68 is in a contraction state, the valve plate body of the valve device 68 is separated from the inner ring part of the rotating part 62, the materials in the discharging bin part 61 are discharged through the main chute part 63 and pass through the rotating part 62, the material discharging angle of the main chute part 63 is realized, the lengthened chute part 64 is butted with the main chute part 63 by rotating the shaft part 67, the material discharging length is adjusted, after the tank body 4 is discharged, the second telescopic cylinder 81 and the third telescopic cylinder 82 are in a contraction state, the embedding cover 83 is sealed with the rear end port part of the rear section part 42, the power cylinder of the valve device 68 is in an extension state, the valve plate body of the valve device 68 is sealed with the inner ring part of the rotation part 62, the sealing cover 65 is connected with the lower end port part of the main chute part 63, the feeding bin part 71 is communicated with the discharging bin part 61 through the in-tank pressure discharging pipe 9, and air in the tank body 4 is discharged when the feeding bin part 71 is fed.

The material is a mixture of crushed materials of electrolyte and alumina powder.

The utility model discloses in the application of the crushed aggregates of transportation electrolyte and the mixture of alumina powder.

The utility model is right the utility model discloses during the verification, through the trucd mixer body, the crushed aggregates and the alumina powder that have satisfied the electrolyte stir the mixture at the turnover in-process, by play hopper assembly 6 and feeder hopper assembly 7, realized sealed to jar body 4, prevent that the crushed aggregates and the alumina powder of electrolyte from stirring the mixture and producing the dust, length through front segment portion 41 and the length proportion's of back end portion 42 settlement, the crushed aggregates and the alumina powder that have satisfied the electrolyte are annotated the material and are arranged the requirement of expecting from jar body 4 through feeder hopper assembly 7 to jar body 4 through going out hopper assembly 6, the efficiency of annotating the material and arranging the material has been improved.

The utility model has the characteristics of down:

1. owing to designed feeder hopper assembly 7 and trucd mixer body, through the trucd mixer body, realized the transportation to the material, through feeder hopper assembly 7, realized carrying out encapsulated situation transportation to the material, adopted the contact to seal between easy wearing and tearing parts such as canvas, rubber slab and the jar body no longer, consequently improved the security performance of material transport.

2. Due to the design of the rotary sealing assembly 8, the tank body 4 is sealed, and the sealing performance of materials is improved.

3. Due to the design of the in-tank pressure relief pipe 9, the internal pressure of the tank body 4 is kept in a normal pressure state.

4. Owing to designed cat ladder 91, conveniently overhaul the maintenance to each part.

5. Due to the design of the antimagnetic shield, the requirement of the environment on the performance of the magnetic field is met.

6. Due to the design of the monitoring system, the working safety performance of the vehicle device is improved.

7. Because the rod system operation and the flexible shaft operation are designed, the operation performance of the vehicle device is improved.

8. Due to the design of the motor-driven chassis 1, the front support 2, the rear support 3 and the driving device 5, the function of the mixing transport vehicle is realized.

9. 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.

10. 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 connected with the feed hopper assembly 7 and the mixer truck body for transporting the materials in a sealed state are all 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 implementation 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 a vehicle device's a realization form based on encapsulated situation, according to the utility model provides an other deformations of scheme increase or reduce composition or step wherein, perhaps will the utility model provides a others with the utility model discloses the technical field who is close all belongs to the utility model discloses a protection scope.

Claims (7)

1. A vehicle device based on a sealing state is characterized in that: comprises a mixer truck body which is provided with a discharge hopper assembly (6) and a tank body (4) and is provided with a sealing cover part (65) with a sealing discharge pipeline in the discharge hopper assembly (6), and a feed hopper assembly (7) arranged on the feeding port part of the tank body (4).

2. The vehicle device according to claim 1, wherein: the feed hopper assembly (7) and the mixer body are connected with each other in a mode of transporting materials in a sealed state.

3. The vehicle device according to claim 1, wherein: the mixer body is arranged to comprise a motor-driven chassis (1), a front bracket (2), a rear bracket (3) and a driving device (5),

or, a first attachment device is also included and arranged on the mixer truck body, the first attachment device is arranged as a rotary seal assembly (8),

or a second accessory device is also included and is arranged on the agitating lorry body, the second accessory device is arranged as an in-tank pressure relief pipe (9),

or a third accessory device is also included and is arranged on the mixer truck body, the third accessory device is arranged as a ladder (91),

or, the utility model also comprises a fourth accessory device which is arranged on the mixer truck body, the third accessory device is arranged as a antimagnetic shield,

or, a fifth accessory device is also included and is arranged on the mixer truck body, the fifth accessory device is arranged as a monitoring system,

or the mixer truck further comprises a sixth accessory device which is arranged on the mixer truck body, and the sixth accessory device is arranged for rod system operation and flexible shaft operation.

4. The vehicle device according to claim 3, wherein: a front bracket (2) and a rear bracket (3) are respectively arranged on a motor chassis (1), a ladder stand (91) is arranged on the rear bracket (3), a tank body (4) is arranged between the front bracket (2) and the rear bracket (3), a driving device (5), a rotary sealing assembly (8) and a monitoring system camera (92) are respectively arranged on the tank body (4), a discharge hopper assembly (6) and a feed hopper assembly (7) are arranged between the tank body (4) and the rear bracket (3), an in-tank pressure relief pipe (9) is arranged between the discharge hopper assembly (6) and the feed hopper assembly (7),

or the antimagnetic shield is arranged on the hydraulic motor (51), the speed reducer (52) and the hydraulic pump (53), the antimagnetic shield is arranged as an aluminum alloy antimagnetic shield,

or the monitoring system is arranged to comprise monitoring system cameras (92) which are respectively arranged at the front end and the rear end of the motor chassis (1),

or the rod system operation and the flexible shaft operation are respectively connected with the driving device (5), the discharge hopper assembly (6), the feed hopper assembly (7) and the rotary sealing assembly (8), the rod system operation is arranged on the rear bracket (3) and the flexible shaft operation is arranged in a cab of the motor chassis (1).

5. The vehicle device according to claim 4, wherein: the motor-driven chassis (1) is a 6 x 4 chassis with an auxiliary frame, the front end part of the upper end face of the auxiliary frame of the motor-driven chassis (1) is connected with the front bracket (2), the rear end part of the upper end face of the auxiliary frame of the motor-driven chassis (1) is connected with the rear bracket (3), the rear end of the auxiliary frame of the motor-driven chassis (1) is connected with the discharge hopper assembly (6),

or the front bracket (2) is arranged into a trapezoidal seat body, the front bracket (2) is arranged to be connected with the driving device (5), the end surface part of the lower end of the front bracket (2) is arranged to be connected with the motor-driven chassis (1),

or the rear bracket (3) is arranged into an L-shaped frame body, the lower end head of the vertical part of the rear bracket (3) is connected with the motor chassis (1), the vertical part of the rear bracket (3) is connected with the tank body (4) through a carrier roller, the side part of the vertical part of the rear bracket (3) is connected with the ladder stand (91), the horizontal part of the rear bracket (3) is respectively connected with the discharge hopper assembly (6) and the feed hopper assembly (7),

or, the tank body (4) is set to include a front section part (41), a rear section part (42), a middle section part (43), a blade part (44), a guide rail part (45) and a sealing head part (46), a manhole body (47) is arranged on the middle section part (43), a cover plate is arranged on the manhole body (47) and a side face part of the rear section part (42) is set to be connected with the guide rail part (45), a front end face part of the front section part (41) is set to be connected with the sealing head part (46) and an inner wall of the front section part (41), an inner wall of the rear section part (42) and an inner wall of the middle section part (43) are set to be connected with the blade part (44), a front port part of the middle section part (43) is set to be connected with the front section part (41) and a rear port part of the middle section part (43) is set to be connected with the rear section part (42), the sealing head part (46) is set to be connected with an output power shaft of the driving device (5) and a rear end port part of the rear section part (42) is set to, A feed hopper assembly (7), a rotary sealing assembly (8) are connected, the rear end part of the rear section part (42) is connected with the in-tank pressure relief pipe (9) and the guide rail part (45) is connected with the rear bracket (3) through a carrier roller, the front section part (41) and the rear section part (42) are respectively arranged into a conical cylindrical body and the middle section part (43) is arranged into a cylindrical body, the blade part (44) is arranged into a spiral blade and the guide rail part (45) is arranged into a circular annular body, the head sealing part (46) is arranged into a circular disk-shaped body and the manhole body (47) is arranged into a circular hole-shaped body,

or the ratio of the length of the front section (41) to the length of the rear section (42) is set to be 1:1.32-1.44,

or, the driving device (5) is set to include a hydraulic motor (51), a speed reducer (52), a hydraulic pump (53), an oil tank (54), a radiator (55), a filter (56) and a valve (57) and the end shaft of the hydraulic motor (51) is set to be coupled with the input end shaft of the speed reducer (52), the hydraulic port of the hydraulic motor (51) is set to be coupled with the output port of the hydraulic pump (53) and one of the input ports of the hydraulic pump (53) is set to be coupled with the oil tank (54) through the filter (56) and the valve (57), the other of the input ports of the hydraulic pump (53) is set to be coupled with the oil tank (54) through the radiator (55) and the output end shaft of the speed reducer (52) is set to be coupled with the tank body (4), the hydraulic motor (51) and the speed reducer (52) are respectively set to be,

or, the discharge hopper assembly (6) is arranged to include a discharge bin part (61), a rotary part (62), a main chute part (63), a lengthened chute part (64), a sealing cover part (65), a swing rod part (66), a rotary shaft part (67) and a valve device (68) and the lower end port part of the discharge bin part (61) is arranged to be connected with the upper end port part of the main chute part (63) through the rotary part (62), the lower end port part of the main chute part (63) is arranged to be connected with the upper end port part of the lengthened chute part (64) through the rotary shaft part (67) and the lower end port part of the main chute part (63) is arranged to be connected with the sealing cover part (65) in a turnover way through a pin shaft, the lower end head of the swing rod part (66) is arranged to be connected with the lower end port part of the lengthened chute part (64) through a pin shaft and the upper end head of the swing rod part (66) is arranged, the rotary part (62) is connected with the valve device (68) and the upper end opening of the discharging bin part (61) is distributed corresponding to the tank body (4), the discharging bin part (61) and the rotary part (62) are respectively connected with the rear bracket (3) and the discharging bin part (61) is connected with the feed hopper assembly (7), the discharging bin part (61) is arranged into a trapezoidal bucket body and the rotary part (62) is arranged into inner and outer ring bodies which are sleeved with each other, the inner ring part of the rotary part (62) is respectively connected with the main chute part (63) and the valve device (68) and the outer ring part of the rotary part (62) is respectively connected with the discharging bin part (61) and the rear bracket (3), the main chute part (63) and the lengthened chute part (64) are respectively arranged into tubular bodies and the sealing cover part (65) is arranged into a box cover body, the swing rod part (66) is arranged into a rod body and the rotary rod part (67) is arranged into a T-shaped rod, the rotation shaft part (67) is respectively arranged to be connected with the main chute part (63) and the lengthened chute part (64) through connecting lug seats, the valve device (68) is arranged to comprise a valve plate body and a power cylinder, the valve plate body of the valve device (68) is arranged to be connected with the inner ring part of the rotary part (62) in a turnover mode through a pin shaft, the power cylinder of the valve device (68) is arranged between the valve plate body of the valve device (68) and the discharging bin part (61), and the discharging bin part (61) is arranged to be communicated with the in-tank discharging tube (9).

6. The vehicle device according to claim 4, wherein: the feeding hopper assembly (7) is arranged to comprise a feeding bin part (71), a material guide plate part (72), a movable cover part (73) and a first telescopic cylinder (74), the upper end port part of the feeding bin part (71) is arranged to be in sliding connection with the movable cover part (73), one end of the first telescopic cylinder (74) is arranged to be in hinged connection with the upper end surface part of the feeding bin part (71), the other end of the first telescopic cylinder (74) is arranged to be in hinged connection with the movable cover part (73), the upper end of the material guide plate part (72) is arranged to be in connection with the movable cover part (73), the middle of the material guide plate part (72) is arranged to be in connection with the feeding bin part (71), the lower end port part of the feeding bin part (71) and the lower end of the material guide plate part (72) are respectively arranged to be distributed corresponding to the tank body (4) and the feeding bin part (71) is arranged to be in connection with the rear support, the feeding bin part (71) is arranged into a trapezoidal hopper-shaped body, the material guide plate part (72) and the movable cover part (73) are respectively arranged into a rectangular sheet-shaped body, the first telescopic cylinder (74) is arranged into a two-section type telescopic cylinder, the feeding bin part (71) is arranged to be communicated with the in-tank pressure relief pipe (9),

or, the rotary seal assembly (8) is provided with a second telescopic cylinder (81), a third telescopic cylinder (82), an embedded cover part (83), a first buckling part (84), a second buckle (85) and a lock catch (86), one edge of the inner side surface of the embedded cover part (83) is provided to be connected with the first buckling part (84), the first buckling part (84) is provided to be connected with the second telescopic cylinder (81) and the other edge of the inner side surface of the embedded cover part (83) is provided to be connected with the second buckle (85), the second buckle (85) is provided to be connected with the third telescopic cylinder (82) and the lock catch (86) is arranged between the embedded cover part (83) and the tank body (4), one end of the second telescopic cylinder (81) and one end of the third telescopic cylinder (82) are respectively provided to be connected with the rear bracket (3) through a pin shaft, and the other end of the second telescopic cylinder (81) and the other end of the third telescopic cylinder (82) are respectively provided to be connected with the rear bracket (3) through a pin The embedded cover part is connected with the embedded cover part (83) through a pin shaft, the embedded cover part (83) is connected with the tank body (4) in a sinking mode, the second telescopic cylinder (81) and the third telescopic cylinder (82) are respectively connected with two-section telescopic cylinders, the first buckling part (84) and the second buckling part (85) are respectively arranged into U-shaped sheet bodies, the embedded cover part (83) is arranged into a convex block body, the contraction part of the embedded cover part (83) is connected with the tank body (4) in a sinking mode, a sealing rubber strip is arranged between the contraction part of the embedded cover part (83) and the tank body (4), the outer side surface part of the expansion part of the embedded cover part (83) is respectively connected with the first buckling part (84), the second buckling part (85) and the monitoring system camera (92), the lock catch (86) is arranged to comprise a first lock block body (861) and a second lock body (862), and the first lock body (861) is arranged to be connected with the, the second lock block body (862) is arranged as a threaded rod and the second lock block body (862) is arranged to be threadedly coupled with the rear bracket (3), the second lock block body (862) is arranged to be contactingly coupled with the first lock block body (861) and the first lock block body (861) is arranged as a rectangular block-shaped body,

or the in-tank pressure relief pipe (9) is set as a rubber hose, one port part of the in-tank pressure relief pipe (9) is set to be connected with the discharge hopper assembly (6), the other port part of the in-tank pressure relief pipe (9) is set to be connected with the feed hopper assembly (7),

or the ladder stand (91) is connected with the rear bracket (3), the upper end of the ladder stand (91) is extended on the tank body (4), and the lower end of the ladder stand (91) is extended on the motor chassis (1).

7. The vehicle device according to any one of claims 1 to 6, wherein: motor chassis (1) and fore-stock (2), after-poppet (3), jar body (4), drive arrangement (5), go out hopper assembly (6) and feeder hopper assembly (7) and set up to distribute according to the mode of stirring transportation and motor chassis (1), fore-stock (2), after-poppet (3), jar body (4), drive arrangement (5), it sets up to distribute according to the sealed mode of embedding board to go out hopper assembly (6) and feeder hopper assembly (7) and rotary seal assembly (8), motor chassis (1), fore-stock (2), after-poppet (3), jar body (4), drive arrangement (5), go out hopper assembly (6), feeder hopper assembly (7) and rotary seal assembly (8) and jar interior unload pipe (9) and set up to distribute according to the mode of constant pressure passageway and motor chassis (1), fore-poppet (2), after-poppet (3), The tank body (4), the driving device (5), the discharging hopper assembly (6), the feeding hopper assembly (7) and the ladder stand (91) are distributed in a climbing accessory mode, the embedding cover portion (83) is connected with the rear section portion (42), the discharging bin portion (61), the feeding bin portion (71) and the material guide plate portion (72) are distributed corresponding to the rear section portion (42), and the hydraulic motor (51) is connected with the front section portion (41).

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