CN213626699U - Self-leveling mortar construction device based on vehicle-mounted type - Google Patents

Abstract

The utility model provides a self-leveling mortar construction device based on vehicular, includes the locomotive device that moves between the self-leveling mortar construction operation point, sets up on the locomotive device and be used for carrying the power pipe of self-leveling mortar raw materials and send the device, send the device through the power pipe, has realized the construction operation to self-leveling mortar, through the locomotive device, has realized the on-vehicle motion to the power pipe send the device, consequently has improved self-leveling mortar efficiency of construction.

Description

Self-leveling mortar construction device based on vehicle-mounted type

Technical Field

The utility model relates to a self-leveling mortar construction device, especially a self-leveling mortar construction device based on vehicular.

Background

The self-leveling mortar is a dry-mixed type powdery material consisting of a plurality of active ingredients, can be used after being mixed with water on site, can obtain a high-leveling base surface after being slightly unfolded by a scraper, has high hardening speed, can walk on twenty-four hours or carry out subsequent engineering (such as wood floor laying, diamond plates and the like), has quick and simple construction, and is incomparable to the traditional manual leveling, so that the vehicle-mounted self-leveling mortar construction device is an important building device.

Disclosure of Invention

The object of the utility model is a self-leveling mortar construction equipment based on vehicular.

In order to overcome the technical defect, the utility model aims at providing a self-leveling mortar construction equipment based on vehicular has consequently improved self-leveling mortar efficiency of construction.

In order to achieve the purpose, the utility model adopts the technical proposal that: comprises a moving vehicle device which moves between self-leveling mortar construction operation points and a power pipe conveying device which is arranged on the moving vehicle device and is used for conveying self-leveling mortar raw materials.

Due to the fact that the moving vehicle device and the power pipe conveying device are designed, construction operation of self-leveling mortar is achieved through the power pipe conveying device, vehicle-mounted movement of the power pipe conveying device is achieved through the moving vehicle device, and therefore construction efficiency of the self-leveling mortar is improved.

The utility model discloses a, according to the mode that realizes on-vehicle motion the locomotive device and power pipe send the device to articulate each other.

The utility model relates to a, the locomotive device sets up to removing the chassis or removing the carrier.

The utility model discloses a, power pipe send the device to set up to pumping installations or set up to including holding the material shell, carrying telescoping cylinder, hydraulic pump and oil tank.

The utility model discloses a, still include first annex device and first annex device sets up on the locomotive device, and first annex device sets up to power hydraulic power unit or motor.

The utility model discloses a, still include second annex device and second annex device sets up on power pipe send the device, and second annex device sets up to include hopper, agitating unit, cut apart board, backup pad and sprocket feed or set up to receiving device.

The utility model discloses a, still include third annex device and third annex device sets up in the second annex device, and third annex device sets up to separation net or silk screen.

The utility model discloses a, still include fourth annex device and fourth annex device sets up on the locomotive device, and fourth annex device sets up to the handle.

The utility model discloses a, still include fifth annex device and fifth annex device sets up on the locomotive device, and fifth annex device sets up to the water tank.

The utility model discloses a, be provided with power hydraulic power unit, pumping installations and backup pad on removing the chassis respectively, be provided with the storehouse fill on power hydraulic power unit and be provided with the separation net in the storehouse fill, be provided with agitating unit and pumping installations respectively and be provided with sprocket feed between pumping installations and agitating unit between power hydraulic power unit and backup pad, be provided with between agitating unit and cut apart the board.

The utility model discloses a, it sets up to the trailer and remove the chassis and set up to including the frame to remove the chassis, the walking shaft train, draft arm and supporting seat, the lower extreme terminal surface portion of one of them end of frame sets up to hookup with the walking shaft train and the upper end terminal surface portion of one of them end of frame sets up to hookup with power hydraulic power unit, one of them end of frame sets up to hookup with draft arm and pumping installations and the draft arm sets up to hookup with the supporting seat, the upper end terminal surface portion of one of them end of frame sets up to hookup with the backup pad, the frame sets up to the rectangular frame body and the walking system that the walking shaft train set up to having axletree and tire, the draft arm sets up to the rod-shaped.

The utility model discloses a, power hydraulic power unit sets up to the hydraulic pressure station that has motor and high-pressure liquid pump and power hydraulic power unit sets up to hookup with removing the chassis, and power hydraulic power unit's motor end axle sets up to hookup and power hydraulic power unit's high-pressure liquid pump's output oral area sets up to hookup with pumping installations.

The utility model discloses a, the hopper sets up to including bucket portion, first axial region and first blade portion and be provided with the through-leakage window body in the side portion of bucket portion, inner chamber body lower half at bucket portion is provided with first axial region and first axial region sets up to hookup with first blade portion, the uncovered portion of bucket portion sets up to hookup with the separation net and through-leakage window body sets up to hookup with agitating unit, first axial region sets up to hookup with agitating unit, the bottom end face portion of hopper sets up to hookup with power hydraulic power unit, bucket portion sets up to the trapezoidal box-shaped body and through-leakage window body sets up to the circular port-shaped body, first axial region sets up to the circular shaft-shaped body and first axial region sets up to hookup with bucket portion rotary type, first blade portion sets up to helical blade.

The utility model discloses a, the separation net sets up to rectangle wire net lamellar body and the peripheral part of separation net sets up to hookup with the hopper.

The utility model relates to a stirring device which is provided with a cylinder shell part, a clapboard part, a second shaft part, a second blade part, a third shaft part, a third blade part and a cover part, wherein an open body is arranged at the upper end surface part of the cylinder shell part, the open body of the cylinder shell part is arranged to be connected with the cover part, the open body of the cylinder shell part is arranged to be connected with the edge part of a partition plate in a lap joint way, the clapboard part, the second shaft part, the third shaft part and the partition plate are respectively arranged in the cylinder shell part, the clapboard part and the partition plate are respectively arranged between the second shaft part and the third shaft part, the inner end part of the cylinder shell part, the inner end surface part of the clapboard part and the inner end of the third shaft part are respectively arranged to be connected with a hopper, the clapboard part is arranged to be in clearance distribution with the partition plate, the outer end of the second shaft part and the outer end of the third shaft part are, the third shaft portion is provided to be coupled with the third vane portion, a discharge passage is provided at a lower end surface portion of the barrel case portion and the discharge passage of the barrel case portion is provided to be coupled with the pumping device, the barrel case portion is provided to be a box-shaped body and the partition portion and the cover portion are respectively provided to be arc-shaped plates, one of the other end surface portions of the partition portion is provided to extend a length of the second shaft portion.

The utility model relates to a, the separate board sets up to the arc platelike body and separate the board and set up to the embedded hookup with agitating unit.

The utility model discloses a, pumping installations sets up to include the upper shell portion, the lower shell portion, the power telescoping cylinder, the fourth axial region, fourth blade portion and row material pipe and the lower port portion of the upper shell portion sets up to be linked with the upper port portion of the lower shell portion, the lower shell portion sets up to be linked with the power telescoping cylinder and row material pipe respectively and the upper shell portion sets up to be linked with the fourth axial region rotary type, the fourth axial region sets up to be linked with the fourth blade portion and the upper shell portion, the lower shell portion, the power telescoping cylinder and row material pipe set up to be linked with the mobile chassis respectively, the inner end of the fourth axial region sets up to be linked with the power hydraulic pump station and the outer end of the fourth axial region sets up to be linked with the backup pad and sprocket feed, the upper shell portion sets up to be trapezoidal barrel-shaped body and the lower shell portion sets up to be rectangular box-shaped body, the fourth shaft portion is provided as a circular rod-shaped body and the fourth blade portions are provided as helical blades, and the discharge pipe is provided as a circular tubular body.

The utility model relates to a, the backup pad sets up to the rectangle platelike body and the backup pad sets up respectively to be coupleed with agitating unit and pumping installations rotary type.

The utility model discloses a, sprocket drive sets up respectively to hookup with agitating unit and pumping installations.

The utility model relates to a, the pumping device and the movable chassis and the power hydraulic pump station are arranged to be distributed according to a movable mode, and the pumping device, the movable chassis and the power hydraulic pump station and the hopper and the stirring device are arranged to be distributed according to a remixing mode, the pumping device, the movable chassis, the power hydraulic pump station, the hopper and the stirring device are arranged to be distributed according to an open isolation mode and the pumping device, the movable chassis, the power hydraulic pump station, the hopper and the stirring device are arranged to be distributed according to a layered stirring interval mode with a partition plate, the upper shell part and the lower shell part are respectively arranged to be connected with a vehicle frame, a power telescopic cylinder is arranged to be connected with a supporting seat, a discharge pipe is arranged to be connected with a traction arm, the cylinder shell part and the partition plate part are respectively arranged to be connected with a hopper part, a third shaft part is arranged to be connected with a first, a driven sprocket of the sprocket drive is configured to couple with the second shaft portion and the third shaft portion.

The utility model discloses a, be provided with motor, handle, appearance material shell, carry telescoping cylinder, hydraulic pump, water tank and oil tank on removing the carrier respectively, receiving device sets up on holding the material shell and the silk screen setting is in receiving device, carries the telescoping cylinder setting on holding the material shell and be provided with the hydraulic pump between carrying telescoping cylinder and motor, the water tank set up to communicate and the oil tank sets up to communicate with the hydraulic pump with receiving device.

The utility model discloses a, remove the carrier and set up to the automobile-shaped body that rotates wheel and frame around having and the intermediate part of the upper end terminal surface of removal carrier respectively set up to and carry telescopic cylinder, hydraulic pump and oil tank hookup, one of them side portion of the upper end terminal surface of removal carrier set up to and hold the material shell hookup and remove the upper end terminal surface of carrier wherein another side portion set up to with handle, motor and water tank hookup.

The utility model relates to a handle sets up to the U font rodlike body and the lower end of handle sets up to and removes the carrier hookup.

The utility model discloses a, the casing of motor sets up to hookup and the end shaft of motor sets up to hookup with the hydraulic pump with removing the carrier, and the end shaft of motor sets up to hookup through belt drive and receiving device.

The utility model discloses a, hold the material shell and set up to the rectangle box-shaped body and hold the material shell and set up respectively to be coupleed with the tube head of carrying telescoping cylinder and conveying pipeline, hold the uncovered portion of material shell and set up to be coupleed with receiving device and hold the bottom end face portion of material shell and set up to be coupleed with the removal carrier.

The utility model discloses a, carry the telescoping cylinder to set up to two section formula telescoping cylinders and carry the shell of telescoping cylinder to set up to through round pin axle and removal carrier hookup, carry the flexible tip of telescoping cylinder to set up to and hold the shell hookup and carry the hydraulic pressure port portion of telescoping cylinder to set up to communicate with the hydraulic pump.

The utility model discloses a, the hydraulic pump sets up to high-pressure hydraulic pump and the casing of hydraulic pump sets up to coupleing with the removal carrier, and the power shaft of hydraulic pump sets up to coupleing with the motor and the output oral area of hydraulic pump sets up to coupleing with carrying the telescoping cylinder, and the input oral area of hydraulic pump sets up to coupleing with the oil tank.

The utility model discloses a, water tank and oil tank set up respectively to the rectangle box-shaped body and the bottom end face portion of water tank and the bottom end face portion of oil tank set up respectively to coupleing with removing the carrier, and the oil tank sets up to coupleing and the water tank sets up to coupleing through pipeline and receiving device with the hydraulic pump and through pipeline.

The utility model discloses a, receiving device sets up to including the fifth axial region, fifth blade portion and siphunculus portion and the lower port portion of siphunculus portion set up to and hold the material shell hookup, the end of fifth axial region sets up to the lateral wall rotary type hookup with the siphunculus portion and one of them end of fifth axial region sets up to hookup through belt drive and motor, the peripheral side portion of fifth axial region sets up to the upper port portion that couples and the siphunculus portion with fifth blade portion sets up to hookup with the silk screen, the fifth axial region sets up to circular rod-shaped body and fifth blade portion sets up to trapezoidal plate-shaped body, fifth blade portion sets up to the central line interval arrangement distribution along the fifth axial region and siphunculus portion.

The utility model discloses a, the silk screen sets up to the rectangle wire net lamellar body and the peripheral part of silk screen sets up to hookup with receiving device.

The utility model discloses a, remove carrier and handle and motor, hold the material shell, carry telescoping cylinder, hydraulic pump and oil tank and set up to distribute according to mobilizable mode and remove carrier, handle, motor, hold the material shell, carry telescoping cylinder, hydraulic pump and oil tank and receiving device and set up to distribute according to the mode of remixing, remove carrier, handle, motor, hold the material shell, carry telescoping cylinder, hydraulic pump, oil tank and receiving device and silk screen and set up to distribute according to the mode of uncovered isolation.

In the technical scheme, the moving vehicle device and the power pipe conveying device for realizing vehicle-mounted motion are important technical characteristics, and have novelty, creativity and practicability in the technical field of vehicle-mounted self-leveling mortar construction devices, 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 one of the first embodiments of the present invention,

figure 2 is a schematic view of a second embodiment of the present invention,

a movable chassis-1, a power hydraulic pump station-2, a hopper-3, a separation net-4, a stirring device-5, a partition plate-6, a pumping device-7, a support plate-8, a chain wheel transmission device-9, a frame-11, a walking shaft gear train-12, a traction arm-13, a support seat-14, a hopper part-31, a leakage window body-32, a first shaft part-33, a first blade part-34, a cylinder shell part-51, a partition plate part-52, a second shaft part-53, a second blade part-54, a third shaft part-55, a third blade part-56, a cover part-57, an upper shell part-71, a lower shell part-72, a power expansion cylinder-73, a fourth shaft part-74, a fourth blade part-75, a discharge pipe-76, a first shaft part-32, a second shaft part-34, a, The device comprises a movable carrier-101, a motor-102, a handle-103, a material receiving device-104, a wire mesh-105, a material containing shell-106, a conveying telescopic cylinder-107, a hydraulic pump-108, a water tank-109, an oil tank-110, a fifth shaft part-1041, a fifth blade part-1042 and a through pipe part-1043.

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, combine the figure to specifically describe this embodiment, include and remove chassis 1, power hydraulic power unit 2, hopper 3, separation net 4, agitating unit 5, cut apart board 6, pumping installations 7, backup pad 8 and sprocket 9 and be provided with power hydraulic power unit 2 on removing chassis 1 respectively, pumping installations 7 and backup pad 8, be provided with hopper 3 on power hydraulic power unit 2 and be provided with separation net 4 in hopper 3, be provided with agitating unit 5 and pumping installations 7 respectively and be provided with sprocket 9 between pumping installations 7 and agitating unit 5 between power hydraulic power unit 2 and backup pad 8, be provided with between agitating unit 5 and cut apart board 6.

In the present embodiment, the mobile chassis 1 is provided as a trailer and the mobile chassis 1 is provided to include a frame 11, a traveling gear train 12, a draft arm 13 and a support base 14, a lower end face portion of one of ends of the frame 11 is provided to be coupled with the traveling gear train 12 and an upper end face portion of one of ends of the frame 11 is provided to be coupled with the power hydraulic pump station 2, one of ends of the frame 11 is provided to be coupled with the draft arm 13 and the pumping device 7 and the draft arm 13 is provided to be coupled with the support base 14, an upper end face portion of the other of the ends of the frame 11 is provided to be coupled with the support plate 8, the frame 11 is provided as a rectangular frame-shaped body and the traveling gear train 12 is provided as a traveling system having an axle and a tire, the draft arm 13 is provided as.

Through removing chassis 1, formed the support tie point to power hydraulic power unit 2, pumping installations 7 and backup pad 8, by frame 11, realized being connected with power hydraulic power unit 2, realized being connected with backup pad 8, by trailing arm 13, realized being connected with pumping installations 7, by walking axle train 12, realized handling the motion of frame 11, by line supporting seat 14, realized handling the balanced support of frame 11, its technical aim lies in: for serving as a support carrier for the power hydraulic pump station 2, the pumping means 7 and the support plate 8.

In the present embodiment, the power hydraulic pump station 2 is provided as a hydraulic station having a motor and a high-pressure liquid pump and the power hydraulic pump station 2 is provided to be coupled with the moving chassis 1, the motor end shaft of the power hydraulic pump station 2 is provided to be coupled with the pumping device 7 and the output port portion of the high-pressure liquid pump of the power hydraulic pump station 2 is provided to be coupled with the pumping device 7.

Through power hydraulic power unit 2, formed the support tie point to removing chassis 1 and pumping plant 7, by power hydraulic power unit 2, realized with removing chassis 1 be connected, realized being connected with pumping plant 7, its technical aim at: for outputting power.

In the present embodiment, the bucket 3 is configured to include a bucket portion 31, a first shaft portion 33, and a first blade portion 34, and a through-leakage window body 32 is provided at a side surface portion of the bucket portion 31, the first shaft portion 33 is provided at an inner cavity lower half portion of the bucket portion 31 and the first shaft portion 33 is configured to be coupled with the first blade portion 34, an open portion of the bucket portion 31 is configured to be coupled with the separation net 4 and the through-leakage window body 32 is configured to be coupled with the agitation apparatus 5, the first shaft portion 33 is configured to be coupled with the agitation apparatus 5, a bottom end surface portion of the bucket 3 is configured to be coupled with the power hydraulic pump station 2, the bucket portion 31 is configured to be a trapezoidal box-shaped body and the through-leakage window body 32 is configured to be a circular hole-shaped body, the first shaft portion 33 is configured to be a circular rod-shaped body and the first shaft portion.

Through the hopper 3, formed the support tie point to power hydraulic power unit 2, separation net 4 and agitating unit 5, by bucket portion 31, realized being connected with power hydraulic power unit 2, realized being connected with separation net 4, by the window body 32 that leaks and first axle portion 33, realized being connected with agitating unit 5, by first blade portion 34, realized the stirring to the raw materials of self-leveling mortar, its technical aim is in that: the temporary storage device is used for temporarily storing raw materials of the self-leveling mortar.

In this embodiment, the separation net 4 is provided as a rectangular steel wire mesh sheet body and the peripheral portion of the separation net 4 is provided to be coupled with the hopper 3.

Through separation net 4, formed the support tie point to hopper 3, realized being connected with hopper 3 by separation net 4, its technical aim at: the device is used for separating impurities of the raw materials of the self-leveling mortar.

In the present embodiment, the stirring device 5 is provided as a barrel portion 51, a partition portion 52, a second shaft portion 53, a second blade portion 54, a third shaft portion 55, a third blade portion 56, and a lid portion 57 and an open body is provided at an upper end face portion of the barrel portion 51, the open body of the barrel portion 51 is provided to be coupled with the lid portion 57 and the open body of the barrel portion 51 is provided to be lap-coupled with an edge portion of the partition plate 6, the partition portion 52, the second shaft portion 53, the third shaft portion 55, and the partition plate 6 are provided in the barrel portion 51 and the partition portion 52 and the partition plate 6 are provided between the second shaft portion 53 and the third shaft portion 55, respectively, the inner end face portion of the barrel portion 51, the inner end face portion of the partition portion 52, and the inner end face portion of the third shaft portion 55 are provided to be coupled with the hopper 3 and the partition portion 52 is provided to be in clearance distribution with the partition plate 6, the outer end face of the second shaft portion 53 and the outer end face portion 55 are provided to The portion 53 is provided to be coupled with the second blade portion 54, the third shaft portion 55 is provided to be coupled with the third blade portion 56, a discharge passage is provided at a lower end surface portion of the cylinder case portion 51 and the discharge passage of the cylinder case portion 51 is provided to be coupled with the pumping device 7, the cylinder case portion 51 is provided as a box-shaped body and the partition portion 52 and the cap portion 57 are respectively provided as arc-shaped plates, one of the other end surface portions of the partition portion 52 is provided to extend at a portion of 0.33 to 0.45 of the length of the second shaft portion 53 and the cap portion 57 is provided with a water passage pipe, the cap portion 57 is provided to be coupled with the cylinder case portion 51 by a screw and a nut, the second shaft portion 53 and the third shaft portion 55 are respectively provided as circular rod-shaped bodies and the second shaft portion 53 and the third shaft portion 55 are respectively provided to be rotatably coupled with the cylinder case portion 51.

Through hopper 3, formed to hopper 3, cut apart board 6, pumping device 7, the support connection point of backup pad 8 and sprocket drive 9, by cartridge shell portion 51, baffle portion 52 and third axle portion 55, realized being connected with hopper 3, by cartridge shell portion 51, realized being connected with cut apart board 6, realized being connected with pumping device 7, by second axle portion 53 and third axle portion 55, realized being connected with backup pad 8, realized being connected with sprocket drive 9, by second blade portion 54 and third blade portion 56, realized the stirring to the raw materials of self-leveling mortar, by cover portion 57, realized the sealing process to cartridge shell portion 51, its technical aim at: the stirring device is used for stirring the raw materials of the self-leveling mortar.

In the present exemplary embodiment, the dividing plate 6 is configured as an arc-shaped plate-shaped body and the dividing plate 6 is configured to be connected in a flush manner to the stirring device 5.

Through partition plate 6, formed the support tie point to agitating unit 5, by partition plate 6, realized being connected with agitating unit 5, its technical aim at: the raw materials for adjusting the self-leveling mortar are stirred in the stirring device 5.

In the present embodiment, the pumping device 7 is configured to include an upper casing portion 71, a lower casing portion 72, a power telescopic cylinder 73, a fourth shaft portion 74, a fourth blade portion 75 and a discharge pipe 76, and a lower port portion of the upper casing portion 71 is configured to be coupled with an upper port portion of the lower casing portion 72, the lower casing portion 72 is configured to be coupled with the power telescopic cylinder 73 and the discharge pipe 76 and the upper casing portion 71 is configured to be rotatably coupled with the fourth shaft portion 74, the fourth shaft portion 74 is configured to be coupled with the fourth blade portion 75 and the upper casing portion 71, the lower casing portion 72, the power telescopic cylinder 73 and the discharge pipe 76 are configured to be coupled with the moving chassis 1, an inner end of the fourth shaft portion 74 is configured to be coupled with the power hydraulic pump station 2 and an outer end of the fourth shaft portion 74 is configured to be coupled with the support plate 8 and the sprocket gear 9, the upper casing portion 71 is configured to be a trapezoidal cylindrical body and the lower casing portion 72 is configured to be a rectangular box The force hydraulic pump station 2 is coupled, the fourth shaft portion 74 is provided as a circular rod-shaped body and the fourth blade portion 75 is provided as a helical blade, and the discharge pipe 76 is provided as a circular tubular body.

Through pumping plant 7, formed the support tie point to removing chassis 1, power hydraulic power unit 2, backup pad 8 and sprocket gear 9, by upper shell portion 71, lower casing portion 72, power telescoping cylinder 73, and row's material pipe 76, realized being connected with removing chassis 1, by fourth axial region 74 and power telescoping cylinder 73, realized being connected with power hydraulic power unit 2, by fourth axial region 74, realized being connected with backup pad 8, realized being connected with sprocket gear 9, by fourth blade 75, realized the stirring to the raw materials of self-leveling mortar, its technical aim is in that: the self-leveling mortar pump is used for generating pumping power for raw materials of the self-leveling mortar.

In the present embodiment, the support plate 8 is provided as a rectangular plate-like body and the support plate 8 is provided to be rotatably coupled with the stirring device 5 and the pumping device 7, respectively.

Through backup pad 8, formed the support tie point to agitating unit 5 and pumping plant 7, by backup pad 8, realized being connected with agitating unit 5, realized being connected with pumping plant 7, its technical aim at: for serving as a support carrier for the stirring means 5 and the pumping means 7.

In this embodiment, the sprocket gear 9 is provided in connection with the stirring device 5 and the pumping device 7, respectively.

Through sprocket 9, formed the support tie point to agitating unit 5 and pumping plant 7, by sprocket 9, realized being connected with agitating unit 5, realized being connected with pumping plant 7, its technical aim at: for inputting rotational power to the hopper 3, the stirring device 5 and the pumping device 7.

In the present embodiment, the pumping device 7 and the mobile chassis 1 and the power hydraulic pump station 2 are arranged to be distributed in a movable manner and the pumping device 7, the mobile chassis 1 and the power hydraulic pump station 2 and the hopper 3 and the stirring device 5 are arranged to be distributed in a remixing manner, the pumping device 7, the mobile chassis 1, the power hydraulic pump station 2, the hopper 3 and the stirring device 5 and the separation net 4 are arranged to be distributed in an open separation manner and the pumping device 7, the mobile chassis 1, the power hydraulic pump station 2, the hopper 3 and the stirring device 5 and the separation plate 6 are arranged to be distributed in a layered stirring interval manner, the upper shell portion 71 and the lower shell portion 72 are respectively arranged to be coupled to the frame 11, the power expansion cylinder 73 is arranged to be coupled to the support base 14, the discharge pipe 76 is arranged to be coupled to the traction arm 13, the barrel shell portion 51 and the separation plate portion 52 are respectively, the third shaft portion 55 is provided to be coupled with the first shaft portion 33, the driving sprocket of the sprocket gear 9 is provided to be coupled with the fourth shaft portion 74, and the driven sprocket of the sprocket gear 9 is provided to be coupled with the second shaft portion 53 and the third shaft portion 55.

When self-leveling mortar construction is carried out, traction acting force is exerted on the traction arm 13, the walking shaft gear train 12 is in an operating state, the vehicle frame 11 is driven to enter a self-leveling mortar construction operating point, the power hydraulic pump station 2 is started to operate, raw materials of self-leveling mortar are injected into the hopper portion 31, a motor of the power hydraulic pump station 2 drives the fourth shaft portion 74 to rotate, the fourth shaft portion 74 drives the second shaft portion 53 and the third shaft portion 55 to rotate through the chain wheel transmission device 9, the third shaft portion 55 drives the first shaft portion 33 to rotate, the first blade portion 34 rotates, the raw materials of the self-leveling mortar are injected into the partition plate portion 52 through the through-leakage window opening body 32, the raw materials of the self-leveling mortar are stirred and mixed by the second blade portion 54 and the third blade portion 56, the raw materials of the self-leveling mortar are injected into the upper shell portion 71 through the discharge channel of the barrel portion 51, and the fourth blade, the method comprises the steps of injecting raw materials stirred and mixed by self-leveling mortar into a lower shell part 72, driving a power telescopic cylinder 73 to work by a high-pressure liquid pump of a power hydraulic pump station 2, pushing the raw materials stirred and mixed by the self-leveling mortar into a discharge pipe 76, connecting the discharge pipe 76 with a conveying pipe, flatly spreading the raw materials stirred and mixed by the self-leveling mortar on the ground, placing a partition plate 6 between a second shaft part 53 and a third shaft part 55, carrying out early stirring and mixing on the raw materials of the self-leveling mortar in a second blade part 54, then carrying out later stirring and mixing on the raw materials through a gap between a partition plate part 52 and the partition plate 6 and then on the third blade part 56, and cleaning a barrel shell part 51, an upper shell part 71 and the lower shell part 72 through a water pipe of a cover part 57 after construction is completed.

Fig. 2 is a second embodiment of the present invention, which is specifically described with reference to the accompanying drawings, and includes a moving carrier 101, a motor 102, a handle 103, a material receiving device 104, a wire mesh 105, a material containing shell 106, a conveying telescopic cylinder 107, a hydraulic pump 108, a water tank 109 and an oil tank 110, wherein the moving carrier 101 is provided with the motor 102, the handle 103, the material containing shell 106, the conveying telescopic cylinder 107, the hydraulic pump 108, the water tank 109 and the oil tank 110, the material receiving device 104 is disposed on the material containing shell 106, the wire mesh 105 is disposed in the material receiving device 104, the conveying telescopic cylinder 107 is disposed on the material containing shell 106, the hydraulic pump 108 is disposed between the conveying telescopic cylinder 107 and the motor 102, the water tank 109 is disposed to be communicated with the material receiving device 104, and the oil tank 110 is disposed to be.

In the present embodiment, the movable carrier 101 is provided as a vehicle-shaped body having front and rear rotating wheels and a carriage and a middle portion of an upper end surface of the movable carrier 101 is provided to be coupled with the conveying telescopic cylinder 107, the hydraulic pump 108, and the oil tank 110, respectively, one of side surface portions of the upper end surface of the movable carrier 101 is provided to be coupled with the material accommodating case 106 and the other side surface portion of the upper end surface of the movable carrier 101 is provided to be coupled with the handle 103, the motor 102, and the water tank 109.

Through removing carrier 101, the support tie point to motor 102, handle 103, hold material shell 106, carry telescopic cylinder 107, hydraulic pump 108, water tank 109 and oil tank 110 has been formed, by removing carrier 101, realized being connected with motor 102, realized being connected with handle 103, realized with holding material shell 106 being connected, realized with carrying telescopic cylinder 107 being connected, realized being connected with hydraulic pump 108, realized being connected with water tank 109, realized being connected with oil tank 110, its technical purpose lies in: for use as a support carrier for other components.

In the present embodiment, the handle 103 is provided as a U-shaped rod-like body and the lower end of the handle 103 is provided to be coupled with the moving carrier 101.

The handle 103 forms a supporting connection point for the movable carrier 101, and the handle 103 realizes connection with the movable carrier 101, and the technical purpose is as follows: for applying a motion force to the moving carrier 101.

In this embodiment, a housing of the motor 102 is configured to be coupled with the movable carrier 101 and an end shaft of the motor 102 is configured to be coupled with the hydraulic pump 108, and an end shaft of the motor 102 is configured to be coupled with the material receiving device 104 through a belt transmission.

Through motor 102, formed the support tie point to removing carrier 101, receiving device 104 and hydraulic pump 108, by motor 102, realized being connected with removing carrier 101, realized being connected with receiving device 104, realized being connected with hydraulic pump 108, its technical aim at: for use as a power source.

In this embodiment, the material containing shell 106 is configured as a rectangular box-shaped body and the material containing shell 106 is configured to be coupled with the conveying telescopic cylinder 107 and the pipe head of the conveying pipe respectively, the open part of the material containing shell 106 is configured to be coupled with the material receiving device 104 and the end surface part of the bottom end of the material containing shell 106 is configured to be coupled with the movable carrier 101.

Through holding material shell 106, formed the support tie point to removing carrier 101, receiving device 104 and carrying telescoping cylinder 107, by holding material shell 106, realized being connected with removing carrier 101, realized being connected with receiving device 104, realized with carrying telescoping cylinder 107 being connected, its technical aim at: and the pumping device is used for forming raw materials of the self-leveling mortar together with the conveying telescopic cylinder 107.

In the present embodiment, the conveying telescopic cylinder 107 is provided as a two-stage telescopic cylinder and the housing of the conveying telescopic cylinder 107 is provided to be coupled with the moving carrier 101 through a pin shaft, the telescopic end portion of the conveying telescopic cylinder 107 is provided to be coupled with the material containing shell 106 and the hydraulic port portion of the conveying telescopic cylinder 107 is provided to be communicated with the hydraulic pump 108.

Through carrying telescopic cylinder 107, formed the support tie point to removing carrier 101, holding material shell 106 and hydraulic pump 108, by carrying telescopic cylinder 107, realized being connected with removing carrier 101, realized holding material shell 106's being connected, realized being connected with hydraulic pump 108, its technical aim at: and the pumping device is used for forming raw materials of the self-leveling mortar together with the material containing shell 106.

In the present embodiment, the hydraulic pump 108 is provided as a high-pressure hydraulic pump and the housing of the hydraulic pump 108 is provided to be coupled with the moving carrier 101, the power shaft of the hydraulic pump 108 is provided to be coupled with the motor 102 and the output port portion of the hydraulic pump 108 is provided to be coupled with the delivery telescopic cylinder 107, and the input port portion of the hydraulic pump 108 is provided to be coupled with the oil tank 110.

Through hydraulic pump 108, formed the support tie point to removal carrier 101, motor 102, transport telescoping cylinder 107 and oil tank 110, realized being connected with removal carrier 101 by hydraulic pump 108, realized being connected with motor 102, realized being connected with transport telescoping cylinder 107, realized being connected with oil tank 110, its technical objective lies in: for feeding the delivery telescopic cylinder 107 with a high pressure liquid.

In the present embodiment, the water tank 109 and the oil tank 110 are respectively provided as rectangular box-shaped bodies and a bottom end surface portion of the water tank 109 and a bottom end surface portion of the oil tank 110 are respectively provided to be coupled with the moving carrier 101, the oil tank 110 is provided to be coupled with the hydraulic pump 108 through a pipe and the water tank 109 is provided to be coupled with the material receiving device 104 through a pipe.

Through oil tank 110, formed the support tie point to removal carrier 101 and hydraulic pump 108, realized by oil tank 110 with the connection of removal carrier 101, realized the connection with hydraulic pump 108, its technical aim at: for storing the fluid input to the hydraulic pump 108,

through water tank 109, formed the support tie point to removing carrier 101 and receiving device 104, by water tank 109, realized being connected with removing carrier 101, realized being connected with receiving device 104, its technical aim at: for storing water input to the feeding device 104.

In this embodiment, the receiving device 104 is configured to include a fifth shaft portion 1041, a fifth blade portion 1042 and a through pipe portion 1043, a lower port of the through pipe portion 1043 is configured to be coupled to the receiving shell 106, a tip of the fifth shaft portion 1041 is configured to be rotatably coupled to a sidewall of the through pipe portion 1043 and one tip of the fifth shaft portion 1041 is configured to be coupled to the motor 102 through a belt transmission, a peripheral side portion of the fifth shaft portion 1041 is configured to be coupled to the fifth blade portion 1042 and an upper port of the through pipe portion 1043 is configured to be coupled to the wire mesh 105, the fifth shaft portion 1041 is configured to be a circular rod and the fifth blade portion 1042 is configured to be a trapezoid-shaped plate, the fifth blade portions 1042 are configured to be spaced apart along a center line of the fifth shaft portion 1041 and the through pipe portion 1043 is configured.

Through receiving device 104, formed the support tie point to motor 102, silk screen 105 and holding material shell 106, by fifth axle portion 1041, realized being connected with motor 102, realized being connected with silk screen 105 by siphunculus portion 1043, realized being connected with holding material shell 106, by fifth blade portion 1042, realized the stirring to the raw materials of self-leveling mortar, its technical aim at: for receiving a feedstock from a leveling mortar.

In this embodiment, the screen 105 is provided as a rectangular steel mesh body and the peripheral portion of the screen 105 is provided to be coupled with the receiving device 104.

Through silk screen 105, formed the support connection point to receiving device 104, by silk screen 105, realized being connected with receiving device 104, its technical aim at: the device is used for separating impurities of the raw materials of the self-leveling mortar.

In the present embodiment, the movable carrier 101, the handle 103, the motor 102, the material containing shell 106, the conveying telescopic cylinder 107, the hydraulic pump 108 and the oil tank 110 are arranged to be distributed in a movable manner, the movable carrier 101, the handle 103, the motor 102, the material containing shell 106, the conveying telescopic cylinder 107, the hydraulic pump 108, the oil tank 110 and the material receiving device 104 are arranged to be distributed in a remixing manner, and the movable carrier 101, the handle 103, the motor 102, the material containing shell 106, the conveying telescopic cylinder 107, the hydraulic pump 108, the oil tank 110 and the material receiving device 104 are arranged to be distributed in an open isolation manner from the screen 105.

When self-leveling mortar construction is performed, the movable carrier 101 is driven to enter a self-leveling mortar construction operation point by applying a pushing acting force on the handle 103, the motor 102 is started to operate, raw materials of self-leveling mortar are injected into the through pipe portion 1043, the motor 102 drives the fifth shaft portion 1041 to rotate, the fifth blade portion 1042 rotates to stir and mix the raw materials of the self-leveling mortar, the raw materials of the self-leveling mortar which are stirred and mixed are injected into the upper material containing shell 106, the motor 102 drives the hydraulic pump 108 to operate, the hydraulic pump 108 drives the conveying telescopic cylinder 107 to operate, the raw materials which are stirred and mixed of the self-leveling mortar are pushed into a pipe head of the conveying pipe, the conveying pipe evenly spreads the raw materials which are stirred and mixed of the self-leveling mortar on the ground, and after the construction is completed, the through pipe portion 1043 and the material containing shell 106 are cleaned through the pipe of the water tank.

The utility model discloses a second embodiment, according to the mode that realizes on-vehicle motion the locomotive device and power pipe send the device to interconnect.

In the present embodiment, the moving vehicle device is provided to move the chassis 1 or the moving carrier 101.

In the present embodiment, the power pipe feeding device is configured as a pumping device 7 or configured to include a material containing shell 106, a conveying telescopic cylinder 107, a hydraulic pump 108 and an oil tank 110.

In this embodiment, a first attachment device is also included and is arranged on the mobile vehicle device, and the first attachment device is arranged as the power hydraulic pump station 2 or the electric motor 102.

In this embodiment, a second attachment device is also included and is arranged on the power pipe conveying device, the second attachment device being arranged to include the hopper 3, the stirring device 5, the dividing plate 6, the support plate 8 and the sprocket drive 9 or being arranged as the receiving device 104.

In this embodiment, a third attachment device is also included and is provided in the second attachment device, the third attachment device being provided as the isolation net 4 or the wire net 105.

In this embodiment, a fourth accessory device is also included and is provided on the dolly device, the fourth accessory device being provided as the handle 103.

In this embodiment, a fifth accessory device is further included and is provided on the dolly device, and the fifth accessory device is provided as the water tank 109.

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 fact that the moving vehicle device and the power pipe conveying device are designed, construction operation of self-leveling mortar is achieved through the power pipe conveying device, vehicle-mounted movement of the power pipe conveying device is achieved through the moving vehicle device, and therefore construction efficiency of the self-leveling mortar is improved.

2. Due to the design of the mobile chassis 1 or the mobile carrier 101, a vehicle-mounted movement of the trailer and the trailer is achieved.

3. Due to the design of the pumping device 7 or the material containing shell 106, the conveying telescopic cylinder 107, the hydraulic pump 108 and the oil tank 110, the power telescopic cylinder realizes the pipe pressure conveying.

4. Because the power hydraulic pump station 2 or the motor 102 is designed, power output is realized.

5. Due to the design of the hopper 3, the stirring device 5, the partition plate 6, the support plate 8 and the chain wheel transmission device 9 or the receiving device 104, the remixing of the raw materials of the self-leveling mortar is realized.

6. Due to the design of the handle 103, a pushing movement is achieved.

7. Due to the design of the water tank 109, self-contained water storage is realized.

8. 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.

The present invention also provides other technical features connected with a vehicle moving device and a power pipe conveying device for realizing vehicle-mounted movement, which 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 implementation rules and examination guidelines, all possible combinations of the technical features of the above-mentioned embodiments are not described again.

Consequently in the self-leveling mortar construction technical field based on vehicular, include the locomotive device that moves between the self-leveling mortar construction operation point, set up on the locomotive device and be used for carrying the power pipe of self-leveling mortar raw materials and send the technical content of device all the utility model discloses a within the scope of protection.

Claims (30)

1. The utility model provides a self-leveling mortar construction equipment based on vehicular, characterized by: comprises a moving vehicle device which moves between self-leveling mortar construction operation points, and a power pipe conveying device which is arranged on the moving vehicle device and is used for conveying self-leveling mortar raw materials,

the power pipe conveying device comprises a material containing shell (106), a conveying telescopic cylinder (107), a hydraulic pump (108) and an oil tank (110).

2. The vehicle-mounted-based self-leveling mortar construction device according to claim 1, wherein: the moving vehicle device and the power pipe conveying device are connected with each other according to a mode of realizing vehicle-mounted motion.

3. The vehicle-mounted-based self-leveling mortar construction device according to claim 1, wherein: the mobile vehicle device is arranged as a mobile chassis (1) or a mobile carrier (101).

4. The vehicle-mounted-based self-leveling mortar construction device according to claim 3, wherein: the power pipe conveying device is arranged as a pumping device (7).

5. The vehicle-mounted-based self-leveling mortar construction device according to claim 4, wherein: the first attachment device is arranged on the mobile vehicle device and is arranged as a power hydraulic pump station (2) or an electric motor (102).

6. The vehicle-mounted-based self-leveling mortar construction device according to claim 5, wherein: the device also comprises a second accessory device which is arranged on the power pipe conveying device, wherein the second accessory device comprises a hopper (3), a stirring device (5), a dividing plate (6), a supporting plate (8) and a chain wheel transmission device (9) or is arranged as a material receiving device (104).

7. The vehicle-mounted-based self-leveling mortar construction device according to claim 6, wherein: a third attachment device is also included and is disposed in the second attachment device, the third attachment device being configured as an isolation mesh (4) or wire mesh (105).

8. The vehicle-mounted-based self-leveling mortar construction device according to claim 7, wherein: a fourth accessory device is also included and is disposed on the dolly device, the fourth accessory device being configured as a handle (103).

9. The vehicle-mounted-based self-leveling mortar construction device according to claim 8, wherein: a fifth accessory device is also included and is disposed on the dolly device, the fifth accessory device being configured as a water tank (109).

10. The vehicle-mounted-based self-leveling mortar construction device according to claim 9, wherein: the power hydraulic pump station (2), the pumping device (7) and the supporting plate (8) are respectively arranged on the movable chassis (1), the bin hopper (3) is arranged on the power hydraulic pump station (2), the isolation net (4) is arranged in the bin hopper (3), the stirring device (5) and the pumping device (7) are respectively arranged between the power hydraulic pump station (2) and the supporting plate (8), the chain wheel transmission device (9) is arranged between the pumping device (7) and the stirring device (5), and the dividing plate (6) is arranged between the stirring devices (5).

11. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the mobile chassis (1) is arranged as a trailer and the mobile chassis (1) comprises a frame (11), a walking axle gear train (12), a traction arm (13) and a supporting seat (14), the lower end face of one of the ends of the frame (11) is connected with a walking shaft gear train (12) and the upper end face of one of the ends of the frame (11) is connected with a power hydraulic pump station (2), one of the ends of the frame (11) is connected with a traction arm (13) and a pumping device (7) and the traction arm (13) is connected with a supporting seat (14), the upper end face of the other end of the frame (11) is connected with a supporting plate (8), the frame (11) is arranged into a rectangular frame body and the walking shaft gear train (12) is arranged into a walking system with axles and tires, the traction arm (13) is arranged into a rod body with a hook body and the supporting seat (14) is arranged into a trapezoidal block.

12. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the power hydraulic pump station (2) is arranged as a hydraulic station with a motor and a high-pressure liquid pump, the power hydraulic pump station (2) is arranged to be connected with the movable chassis (1), a motor end shaft of the power hydraulic pump station (2) is arranged to be connected with the pumping device (7), and an output end opening part of the high-pressure liquid pump of the power hydraulic pump station (2) is arranged to be connected with the pumping device (7).

13. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the hopper (3) is provided with a hopper part (31), a first shaft part (33) and a first blade part (34), a permeable window body (32) is arranged on the side surface of the hopper part (31), the first shaft part (33) is arranged on the lower half part of the inner cavity of the hopper part (31) and is connected with the first blade part (34), the open part of the hopper part (31) is connected with the isolation net (4) and the permeable window body (32) is connected with the stirring device (5), the first shaft part (33) is connected with the stirring device (5), the bottom end surface of the hopper (3) is connected with the power hydraulic pump station (2), the hopper part (31) is provided with a trapezoid box-shaped body and the permeable window body (32) is provided with a circular hole, the first shaft part (33) is provided with a circular rod and the first shaft part (33) is connected with the hopper part (31) in a rotary mode, the first blade portion (34) is provided as a helical blade.

14. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the isolation net (4) is arranged to be a rectangular steel wire mesh body, and the peripheral part of the isolation net (4) is connected with the bin hopper (3).

15. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the stirring device (5) is provided with a cylinder shell part (51), a partition plate part (52), a second shaft part (53), a second blade part (54), a third shaft part (55), a third blade part (56) and a cover part (57), an open body is arranged at the upper end surface part of the cylinder shell part (51), the open body of the cylinder shell part (51) is connected with the cover part (57), the open body of the cylinder shell part (51) is connected with the edge part of the partition plate (6) in an overlapping mode, the partition plate part (52), the second shaft part (53), the third shaft part (55) and the partition plate (6) are respectively arranged in the cylinder shell part (51), the partition plate part (52) and the third shaft part (55) are respectively arranged between the second shaft part (53) and the third shaft part (55), the inner end part of the cylinder shell part (51), one end surface part of the partition plate part (52) and the inner end of the third shaft part (55) are respectively connected with the hopper (3), and the partition plate (52) is arranged to be in an interval with the partition plate (6) A gap type distribution in which an outer end of the second shaft portion 53 and an outer end of the third shaft portion 55 are respectively provided to be coupled with the support plate 8 and the sprocket gear 9 and the second shaft portion 53 is provided to be coupled with the second blade portion 54, the third shaft portion 55 is provided to be coupled with the third blade portion 56, a discharge passage is provided at a lower end surface of the cylinder case portion 51 and a discharge passage of the cylinder case portion 51 is provided to be coupled with the pumping device 7, the cylinder case portion 51 is provided as a box body and the partition portion 52 and the lid portion 57 are respectively provided as arc-shaped plates, one of the other end surface portions of the partition portion 52 is provided to extend at a position of 0.33 to 0.45 of the length of the second shaft portion 53 and a water passage is provided on the lid portion 57, the lid portion 57 is provided to be coupled with the cylinder case portion 51 by a screw and a nut, the second shaft portion (53) and the third shaft portion (55) are respectively provided as circular rod-shaped bodies and the second shaft portion (53) and the third shaft portion (55) are respectively provided to be rotatably coupled with the barrel portion (51), the second blade portion (54) is provided as a trapezoidal plate-shaped body and the third blade portion (56) is provided as a T-shaped plate-shaped body.

16. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the dividing plate (6) is arranged into an arc-shaped plate body, the dividing plate (6) is arranged to be connected with the stirring device (5) in an embedded manner,

or, the pumping device (7) is arranged to include an upper shell portion (71), a lower shell portion (72), a power telescopic cylinder (73), a fourth shaft portion (74), a fourth blade portion (75) and a material discharge pipe (76) and the lower port portion of the upper shell portion (71) is arranged to be coupled with the upper port portion of the lower shell portion (72), the lower shell portion (72) is respectively arranged to be coupled with the power telescopic cylinder (73) and the material discharge pipe (76) and the upper shell portion (71) is arranged to be rotatably coupled with the fourth shaft portion (74), the fourth shaft portion (74) is arranged to be coupled with the fourth blade portion (75) and the upper shell portion (71), the lower shell portion (72), the power telescopic cylinder (73) and the material discharge pipe (76) are respectively arranged to be coupled with the mobile chassis (1), the inner end of the fourth shaft portion (74) is arranged to be coupled with the power hydraulic pump station (2) and the outer end of the fourth shaft portion (74) is arranged to be coupled with the support plate, the upper shell part (71) is arranged to be a trapezoid cylinder-shaped body, the lower shell part (72) is arranged to be a rectangular box-shaped body, the power telescopic cylinder (73) is arranged to be a two-section telescopic cylinder, a hydraulic port of the power telescopic cylinder (73) is arranged to be coupled with the power hydraulic pump station (2), the fourth shaft part (74) is arranged to be a circular rod-shaped body, the fourth blade part (75) is arranged to be a spiral blade, and the discharge pipe (76) is arranged to be a circular tubular body.

17. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the supporting plate (8) is arranged to be a rectangular sheet-shaped body, and the supporting plate (8) is respectively arranged to be rotationally connected with the stirring device (5) and the pumping device (7).

18. The vehicle-mounted-based self-leveling mortar construction device according to claim 10, wherein: the chain wheel transmission device (9) is respectively connected with the stirring device (5) and the pumping device (7).

19. The vehicle-mounted based self-leveling mortar construction device according to any one of claims 1 to 18, wherein: the pumping device (7), the movable chassis (1) and the power hydraulic pump station (2) are arranged to be distributed in a movable mode, the pumping device (7), the movable chassis (1), the power hydraulic pump station (2), the hopper (3) and the stirring device (5) are arranged to be distributed in a remixing mode, the pumping device (7), the movable chassis (1), the power hydraulic pump station (2), the hopper (3), the stirring device (5) and the isolation net (4) are arranged to be distributed in an open isolation mode, the pumping device (7), the movable chassis (1), the power hydraulic pump station (2), the hopper (3), the stirring device (5) and the partition plate (6) are arranged to be distributed in a layered stirring interval mode, the upper shell part (71) and the lower shell part (72) are respectively arranged to be connected with the vehicle frame (11), the power cylinder (73) is arranged to be connected with the supporting seat (14), the discharge pipe (76) is configured to be coupled with the draft arm (13), the barrel portion (51) and the partition portion (52) are respectively configured to be coupled with the hopper portion (31), the third shaft portion (55) is configured to be coupled with the first shaft portion (33), the driving sprocket of the sprocket gear (9) is configured to be coupled with the fourth shaft portion (74), and the driven sprocket of the sprocket gear (9) is configured to be coupled with the second shaft portion (53) and the third shaft portion (55).

20. The vehicle-mounted-based self-leveling mortar construction device according to claim 9, wherein: the material receiving device is characterized in that a motor (102), a handle (103), a material containing shell (106), a conveying telescopic cylinder (107), a hydraulic pump (108), a water tank (109) and an oil tank (110) are respectively arranged on a movable carrier (101), the material receiving device (104) is arranged on the material containing shell (106), a silk screen (105) is arranged in the material receiving device (104), the conveying telescopic cylinder (107) is arranged on the material containing shell (106), the hydraulic pump (108) is arranged between the conveying telescopic cylinder (107) and the motor (102), the water tank (109) is communicated with the material receiving device (104), and the oil tank (110) is communicated with the hydraulic pump (108).

21. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the moving carrier (101) is arranged into a vehicle-shaped body with front and rear rotating wheels and a vehicle frame, the middle part of the upper end face of the moving carrier (101) is respectively connected with the conveying telescopic cylinder (107), the hydraulic pump (108) and the oil tank (110), one side part of the upper end face of the moving carrier (101) is connected with the material containing shell (106), and the other side part of the upper end face of the moving carrier (101) is connected with the handle (103), the motor (102) and the water tank (109).

22. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the handle (103) is arranged as a U-shaped rod-shaped body and the lower end of the handle (103) is arranged to be coupled with the moving carrier (101).

23. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the shell of the motor (102) is connected with the movable carrier (101), the end shaft of the motor (102) is connected with the hydraulic pump (108), and the end shaft of the motor (102) is connected with the material receiving device (104) through belt transmission.

24. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the material containing shell (106) is arranged to be a rectangular box-shaped body, the material containing shell (106) is respectively arranged to be connected with a conveying telescopic cylinder (107) and a pipe head of a conveying pipe, an opening part of the material containing shell (106) is arranged to be connected with the material receiving device (104), and the end face part of the bottom end of the material containing shell (106) is arranged to be connected with the movable carrier (101).

25. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the conveying telescopic cylinder (107) is arranged to be a two-section telescopic cylinder, the shell of the conveying telescopic cylinder (107) is arranged to be connected with the movable carrier (101) through a pin shaft, the telescopic end part of the conveying telescopic cylinder (107) is arranged to be connected with the material containing shell (106), and the hydraulic port part of the conveying telescopic cylinder (107) is arranged to be communicated with the hydraulic pump (108).

26. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the hydraulic pump (108) is arranged as a high-pressure hydraulic pump and the housing of the hydraulic pump (108) is arranged to be coupled with the mobile carrier (101), the power shaft of the hydraulic pump (108) is arranged to be coupled with the motor (102) and the output port of the hydraulic pump (108) is arranged to be coupled with the delivery telescopic cylinder (107), and the input port of the hydraulic pump (108) is arranged to be coupled with the oil tank (110).

27. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the water tank (109) and the oil tank (110) are respectively configured into a rectangular box body, the bottom end surface part of the water tank (109) and the bottom end surface part of the oil tank (110) are respectively configured to be connected with the movable carrier (101), the oil tank (110) is configured to be connected with the hydraulic pump (108) through a pipeline, and the water tank (109) is configured to be connected with the material receiving device (104) through a pipeline.

28. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the receiving device (104) is arranged to comprise a fifth shaft part (1041), a fifth blade part (1042) and a through pipe part (1043), the lower port part of the through pipe part (1043) is arranged to be connected with the receiving shell (106), the end of the fifth shaft part (1041) is rotatably coupled with the side wall of the through pipe part (1043) and one end of the fifth shaft part (1041) is coupled with the motor (102) through belt transmission, the peripheral side part of the fifth shaft part (1041) is coupled with the fifth blade part (1042) and the upper end opening of the through pipe part (1043) is coupled with the screen (105), the fifth shaft part (1041) is a circular rod-shaped body and the fifth blade part (1042) is a trapezoid-shaped body, the fifth blade part (1042) is distributed at intervals along the central line of the fifth shaft part (1041) and the through pipe part (1043) is a cone-shaped cylindrical body.

29. The vehicle-mounted-based self-leveling mortar construction device according to claim 20, wherein: the silk screen (105) is set to be a rectangular steel wire mesh body, and the peripheral part of the silk screen (105) is connected with the material receiving device (104).

30. The vehicle-mounted based self-leveling mortar construction device according to any one of claims 20 to 29, wherein: the movable carrier (101), the handle (103), the motor (102), the material containing shell (106), the conveying telescopic cylinder (107), the hydraulic pump (108) and the oil tank (110) are arranged to be distributed in a movable mode, the movable carrier (101), the handle (103), the motor (102), the material containing shell (106), the conveying telescopic cylinder (107), the hydraulic pump (108), the oil tank (110) and the material receiving device (104) are arranged to be distributed in a remixing mode, and the movable carrier (101), the handle (103), the motor (102), the material containing shell (106), the conveying telescopic cylinder (107), the hydraulic pump (108), the oil tank (110), the material receiving device (104) and the silk screen (105) are arranged to be distributed in an open isolation mode.

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