CN220261429U - Storage preparation device for gypsum matrix dry powder mortar - Google Patents

Abstract

A store preparation facilities for gypsum matrix dry powder mortar, including having the storage preparation facilities body of arranging material pipe (3) and mixer (7), set up dispersion blade (5) between the discharge port portion of arranging material pipe (3) and mixer (7), set up power supply (6) between dispersion blade (5) and mixer (7), prepare gypsum matrix dry powder mortar through storing preparation facilities body, through dispersion blade (5) and power supply (6), realized carrying out the rotation to the raw materials of gypsum matrix dry powder mortar and break up the processing, realized making the raw materials of gypsum matrix dry powder mortar in stirring mixed state be in the layering tiling state, solved to all be the raw materials of arranging material pipe with dry powder mortar in the mixer through a centre and carry out the technical problem who piles up in the feed port of mixer, consequently, improved the effect to gypsum matrix dry powder mortar.

Description

Storage preparation device for gypsum matrix dry powder mortar

Technical Field

The utility model relates to a storage preparation device, in particular to a storage preparation device for gypsum matrix dry powder mortar.

Background

The dry powder mortar is a granular or powdery material which is obtained by physically mixing aggregate such as quartz sand, inorganic cementing material such as cement, additives such as polymers and the like which are subjected to drying and screening treatment according to a certain proportion, and is transported to a construction site in a bag or bulk mode, and the materials which can be directly used after being mixed with water are also called mortar dry powder, dry mixed mortar and dry mixed powder, some building adhesives also belong to the category, the dry powder mortar plays roles of bonding, lining, protection and decoration in a thin layer in the building industry, the building and decoration engineering is extremely wide in application, and the dry powder mortar is used on the construction site for convenience, so that the storage and preparation device of the dry powder mortar is an important building material device, in the existing storage and preparation device of the dry powder mortar, no storage and preparation device for the dry powder mortar of a gypsum matrix is provided, and the raw materials of the dry powder mortar are transported to a stirrer through an intermediate discharge pipe, but the gypsum particles are contained in the dry powder mortar of the gypsum matrix, the raw materials of the dry powder mortar of the gypsum matrix are relatively high in viscosity, and the feeding port in the stirrer is piled up, so that the effect of the dry powder mortar of the gypsum matrix is affected,

according to the utility model, through the technical characteristics that the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state are in a layered and tiled state, the technical problems that the raw materials of the dry powder mortar are conveyed into a stirrer through one middle discharge pipe and are piled up at a feed port in the stirrer are effectively explored and studied in the technical aspect.

Disclosure of Invention

The utility model discloses a storage and preparation device for gypsum matrix dry powder mortar.

In order to overcome the technical defects, the utility model aims to provide a storage and preparation device for gypsum matrix dry powder mortar, so that the effect on the gypsum matrix dry powder mortar is improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: comprises a storage preparation device body with a discharge pipe and a stirrer, a dispersing blade arranged between a discharge port part of the discharge pipe and the stirrer, and a power source arranged between the dispersing blade and the stirrer.

Because the storage preparation device body, the dispersing blades and the power source are designed, the preparation of the gypsum matrix dry powder mortar is realized through the storage preparation device body, the rotation scattering treatment of the raw materials of the gypsum matrix dry powder mortar is realized through the dispersing blades and the power source, the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state are in a layered and tiling state, the technical problems that the raw materials of the dry powder mortar are conveyed into a stirrer through one middle discharging pipe and are piled up at a feeding port in the stirrer are solved, and therefore, the effect of the gypsum matrix dry powder mortar is improved.

The utility model designs a storage preparation device body, a dispersing blade and a power source which are mutually connected in a mode of enabling raw materials of gypsum matrix dry powder mortar in a stirring and mixing state to be in a layered and tiled state.

The utility model designs a method for connecting a dispersing blade and a power source with a storage preparation device body in a way of carrying out rotary scattering treatment on raw materials of gypsum matrix dry powder mortar.

The utility model designs a storage preparation device body which is arranged to further comprise a tank body, a supporting frame and a discharge stop valve.

The technical effects of the four technical schemes are as follows: the technical characteristics of enabling the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state to be in a layered and tiled state are highlighted, and the gypsum matrix dry powder mortar is introduced to be applied to the technical field of storage and preparation devices for the gypsum matrix dry powder mortar.

The utility model is designed to further comprise a first accessory device arranged on the storage preparation device body, wherein the first accessory device is arranged as a collar.

The technical effects of the above technical scheme are as follows: the integrated installation of other components is realized, and the technical effect of the utility model is expanded.

The utility model designs a tank body and a stirrer are respectively arranged on a supporting frame, a discharge pipe is arranged between the tank body and the stirrer, a discharge stop valve is arranged on the discharge pipe, a dispersing blade is arranged in the stirrer, a power source is arranged between the dispersing blade and the stirrer, and a lantern ring is arranged on the tank body.

The technical effects of the above technical scheme are as follows: the basic technical scheme of the utility model is formed by a tank body, a supporting frame, a discharging pipe, a discharging stop valve, a dispersing blade, a power source, a stirrer and a lantern ring, and the technical problem of the utility model is solved.

The utility model designs that the dispersing blades are arranged as convex-shaped strip-shaped plates, the inner ends of the dispersing blades are connected with the end shaft of the power source, the dispersing blades are connected with the stirrer in a submerged way, and the outer ends of the dispersing blades are distributed corresponding to the discharge pipe.

The technical effects of the above technical scheme are as follows: realizes the impact dispersion acting force and dispersion airflow generated to the raw materials of the gypsum matrix dry powder mortar

The utility model designs that the power source is arranged as a driving motor, the shell of the power source is connected with the stirrer, the end shaft of the power source is arranged to be connected with the stirrer in a penetrating way, and the outer end part of the end shaft of the power source is arranged to be connected with the dispersing blades.

The technical effects of the above technical scheme are as follows: the dispersing blades are driven to rotate.

The utility model designs that the tank body comprises a tank part, a feed pipe part and a feed stop valve, the bottom end face part of the tank part is provided with a cone platen, the upper part of the peripheral side face of the tank part is connected with the inner end part of the feed pipe part, the cross section end part of the feed pipe part is connected with the feed stop valve, the edge part of the cone platen is respectively connected with a support frame and a discharge pipe, the lower part of the peripheral side face of the tank part is connected with the support frame, the upper end of the tank part is connected with a lantern ring in a penetrating way, the tank part is provided with a vertical tank body, the feed pipe part is provided with a circular cylinder body, the feed stop valve is provided with an electric control valve, the feed stop valve is connected with the feed pipe part in an embedded way, and the cone platen is provided with a shape of a Chinese character ' of ' i '.

The technical effects of the above technical scheme are as follows: the tank body storage arrangement of peripheral dispersion treatment of the raw materials of the gypsum matrix dry powder mortar by the frustum plates is realized.

The utility model designs that the supporting frame comprises a cylinder shell part, a bottom beam part, a lower inner connecting rod part, an upper first inner connecting rod part and an upper second inner connecting rod part, a leak hole body is arranged on the peripheral side surface part of the cylinder shell part, a hoisting hole body is arranged at the end head of the bottom beam part, the lower end port part of the cylinder shell part is connected with the upper end surface part of the bottom beam part, the cylinder shell part is respectively connected with a tank body, a discharge pipe, a discharge stop valve, a power source and a stirrer in a holding way, the leak hole bodies are correspondingly distributed with the discharge stop valve, one end head of the lower inner connecting rod part is connected with the bottom beam part, the other end head of the lower inner connecting rod part is connected with the stirrer, one of the ends of the lower inner connecting rod portion and one of the ends of the upper first inner connecting rod portion are respectively arranged to be connected with the upper portion of the peripheral inner wall of the cylinder shell portion, the other of the ends of the lower inner connecting rod portion and the other of the ends of the upper first inner connecting rod portion are respectively arranged to be connected with the tank body, the cylinder shell portion is arranged to be a rectangular tubular body, the bottom beam portion is arranged to be a rectangular rod-shaped body, the bottom beam portion is arranged to be distributed at intervals along the lower end port portion of the cylinder shell portion, the lower inner connecting rod portion and the upper first inner connecting rod portion are respectively arranged to be rod-shaped bodies, the upper second inner connecting rod portion is arranged to be an L-shaped rod-shaped body, and the lifting hole body and the leak-through hole body are respectively arranged to be circular hole bodies, and the leak-through hole body is arranged to be distributed at intervals along the transverse center line of the bottom beam portion.

The technical effects of the above technical scheme are as follows: the seat support for safety protection of the tank body by the cylinder shell part is realized, and the stability of the tank body is improved.

According to the utility model, the discharge pipe is arranged into a circular cylinder, the port part of the section of the discharge pipe is connected with the discharge stop valve, one port of the discharge pipe is connected with the tank, the other port of the discharge pipe is connected with the stirrer, the other port of the discharge pipe is distributed corresponding to the dispersing blades, and the discharge pipe is distributed along the contour line of the tank.

The utility model designs that the discharge stop valve is arranged as an electric control valve and is connected with the discharge pipe in an embedded way, and the port part of the discharge stop valve is connected with the port part of the section of the discharge pipe.

The technical effects of the two technical schemes are as follows: the setting of the raw materials for the pipeline to slide down and convey the gypsum matrix dry powder mortar is realized, and the raw materials of the gypsum matrix dry powder mortar are prevented from being detained.

The utility model designs that the stirrer comprises a box part, a rotating shaft part, a motor part, a first blade part, a second blade part, an opening and closing door part, an upper water nozzle and a lower water nozzle, wherein the left side surface part and the right side surface part of the box part are rotationally connected with the end heads of the rotating shaft part, one end head of the rotating shaft part is connected with the end shaft of the motor part, the middle parts of the front side surface and the rear side surface of the box part are connected with the opening and closing door part, the edge parts of the upper end surface of the box part are respectively connected with a discharge pipe and the upper water nozzle in a sleeved mode, the middle parts of the upper end surface of the box part are connected with the end shaft of a power source in a sleeved mode, the lower end surface part of the box part is connected with the lower water nozzle in a sleeved mode, the periphery side surface part of the left section of the rotating shaft part is connected with the first blade part, the right-section peripheral side surface portion of the rotating shaft portion is provided to be coupled with the second blade portion and the lower end surface portion of the box portion is provided to be coupled with the supporting frame in an embedded manner, the motor portion is provided to be coupled with the supporting frame in an accommodating manner, the box portion is provided to be a rectangular box-shaped body having two L-shaped rail bodies and rectangular discharge hole bodies in the middle portion of the front and rear side surfaces and the two L-shaped rail bodies of the box portion are provided to be coupled with the opening and closing door portion in an accommodating manner, the rectangular discharge hole bodies provided to the box portion are provided to be distributed corresponding to the opening and closing door portion and the opening and closing door portion are provided to be rectangular sheet-shaped bodies, the rotating shaft portion is provided to be a medium-shaped rod-shaped body and the middle disc-shaped body of the rotating shaft portion located outside is provided to be distributed corresponding to the rectangular discharge Kong Tixiang of the box portion, the motor portion is provided to be a driving motor and the first blade portion is provided to be a left-handed screw blade, the second blade part is provided with a right-handed helical blade, and the upper water nozzle and the lower water nozzle are respectively provided with a spray water nozzle.

The utility model designs that a rotating shaft part, a motor part, a first blade part and a second blade part are arranged to form a group of shaft parts, at least three groups of shaft parts are arranged in a box part, upper water spray nozzles are arranged to be distributed at intervals along the edge part of the upper end face of the box part, and lower water spray nozzles are arranged to be distributed at intervals along the lower end face of the box part.

The technical effects of the two technical schemes are as follows: the setting of the sealed stirring mixing cavity is realized, and the environmental safety requirement for the preparation of gypsum matrix dry powder mortar is met.

The utility model designs that an open groove body is arranged on the peripheral side surface part of the ring part of the lantern ring, the ring part is connected with the tank body in a sleeved mode, the ring part is a ring-shaped body, the open groove body is a U-shaped groove body, and the open groove bodies are arranged at intervals along the contour line of the ring part.

The technical effects of the above technical scheme are as follows: the outer supporting seat is arranged on the tank body, and collision to the tank body is prevented.

The utility model designs that the tank body, the support frame, the stirrer, the discharge pipe, the discharge stop valve, the dispersing blades and the power source are distributed in a dispersed distribution mode, and the tank body, the support frame, the stirrer, the discharge pipe, the discharge stop valve, the dispersing blades, the power source and the lantern ring are distributed in a terminal protection mode.

The utility model designs that the center line of the tank body, the center line of the supporting frame, the center line of the dispersing blade, the center line of the power source, the center line of the stirrer and the center line of the sleeve ring are arranged on the same straight line, one discharging pipe and one discharging stop valve are arranged to form a group of discharging parts, at least four groups of discharging parts are arranged between the tank body and the stirrer, the ring part is connected with the tank part, the tank part is connected with the lower inner connecting rod part, the upper first inner connecting rod part is connected with the cylinder shell part, and the upper second inner connecting rod part is connected with the frustum plate.

In the technical proposal, the dispersing blades and the power source are basic components and are also necessary technical characteristics of the utility model, the tank body, the supporting frame, the discharging pipe, the discharging stop valve, the stirrer and the lantern ring are functional components, which are characteristics for realizing other technical effects of the utility model, the design of the technical characteristics of the tank part, the feed pipe part, the feed stop valve, the cone platen, the cylinder shell part, the bottom beam part, the lower inner connecting rod part, the upper first inner connecting rod part, the upper second inner connecting rod part, the lifting hole body, the leak-through hole body, the box part, the rotating shaft part, the motor part, the first blade part, the second blade part, the opening and closing door part, the upper water nozzle, the lower water nozzle, the ring part and the open groove body is the technical characteristics conforming to the patent law and implementation rules thereof.

In the technical scheme, the storage preparation device body, the dispersing blades and the power source which enable the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state to be in a layered and tiled state are important technical characteristics, and the storage preparation device for the gypsum matrix dry powder mortar has novelty, creativity and practicability in the technical field of storage preparation devices for the gypsum matrix dry powder mortar, and the terms in the technical scheme can be explained and understood by using patent documents in the technical field.

4. Description of the drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic view of the present utility model,

the device comprises a tank body-1, a supporting frame-2, a discharging pipe-3, a discharging stop valve-4, a dispersing blade-5, a power source-6, a stirrer-7, a lantern ring-8, a tank part-11, a feeding pipe part-12, a feeding stop valve-13, a frustum plate-14, a cylinder shell part-21, a bottom beam part-22, a lower inner connecting rod part-23, an upper first inner connecting rod part-24, an upper second inner connecting rod part-25, a lifting hole body-26, a leak-through hole body-27, a box part-71, a rotating shaft part-72, a motor part-73, a first blade part-74, a second blade part-75, an opening and closing door part-76, an upper water nozzle-77, a lower water nozzle-78, a ring part-81 and an opening groove body-82.

5. Detailed description of the preferred embodiments

Terms such as "having," "including," and "comprising," as used herein, are to be construed as not being accompanied by the presence or addition of one or more other elements or combinations thereof, in accordance with the censoring guidelines.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. 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 utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the various embodiments of the utility model described below may be combined with one another as long as they do not interfere with one another, and, unless otherwise specified, the equipment and materials used in the examples below are commercially available, as the process conditions are not explicitly described, with reference to the commercially available product specifications or in accordance with methods conventional in the art.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Fig. 1 is a first embodiment of the present utility model, specifically explaining the present embodiment with reference to the drawings, comprising a tank 1, a support frame 2, a discharge pipe 3, a discharge stop valve 4, a dispersing blade 5, a power source 6, a stirrer 7 and a collar 8, wherein the tank 1 and the stirrer 7 are respectively provided on the support frame 2, the discharge pipe 3 is provided between the tank 1 and the stirrer 7, the discharge stop valve 4 is provided on the discharge pipe 3, the dispersing blade 5 is provided in the stirrer 7, the power source 6 is provided between the dispersing blade 5 and the stirrer 7, and the collar 8 is provided on the tank 1.

In the present embodiment, the tank 1 is provided to include the tank portion 11, the feed pipe portion 12 and the feed shutoff valve 13, and the bottom end face portion of the tank portion 11 is provided as the cone platen 14, the peripheral side face upper portion of the tank portion 11 is provided to be coupled with the inner end face portion of the feed pipe portion 12 and the cross-sectional end face portion of the feed pipe portion 12 is provided to be coupled with the feed shutoff valve 13, the edge portions of the cone platen 14 are provided to be coupled with the support frame 2 and the discharge pipe 3, respectively, and the peripheral side face lower portion of the tank portion 11 is provided to be coupled with the support frame 2, the upper end of the tank portion 11 is provided to be coupled with the collar 8 in a cross-type manner and the tank portion 11 is provided to be in a vertical tank shape, the feed pipe portion 12 is provided to be in a circular cylindrical shape and the feed shutoff valve 13 is provided to be an electric control valve, the feed shutoff valve 13 is provided to be coupled with the feed pipe portion 12 in an embedded manner and the cone platen 14 is provided to be in a cross-shaped sheet shape.

Through the jar body 1, formed the support tie point to support frame 2, row material pipe 3 and lantern ring 8, realized being connected with support frame 2 by jar portion 11 and frustum board 14, realized being connected with row material pipe 3 by frustum board 14, realized being connected with lantern ring 8 by jar portion 11, realized annotating the material processing to jar portion 11 by inlet pipe portion 12 and feeding stop valve 13, its technical aim at: the component is used for storing the raw materials of the gypsum matrix dry powder mortar.

In the present embodiment, the supporting frame 2 is provided to include a cylindrical shell portion 21, a bottom beam portion 22, a lower inner connecting rod portion 23, an upper first inner connecting rod portion 24 and an upper second inner connecting rod portion 25 and is provided with a through hole 27 at a peripheral side face portion of the cylindrical shell portion 21, a hanging hole 26 is provided at an end of the bottom beam portion 22 and a lower end port portion of the cylindrical shell portion 21 is provided to be coupled with an upper end face portion of the bottom beam portion 22, the cylindrical shell portion 21 is provided to be respectively coupled with the tank body 1, the discharge pipe 3, the discharge shutoff valve 4, the power source 6 and the mixer 7 in a housing manner and the through hole 27 is provided to be distributed in correspondence with the discharge shutoff valve 4, one end of the lower inner connecting rod portion 23 is provided to be coupled with the bottom beam portion 22 and the other end of the lower inner connecting rod portion 23 is provided to be coupled with the mixer 7, one of the ends of the lower inner connecting rod portion 23 and one of the ends of the upper first inner connecting rod portion 24 are respectively provided to be coupled with the upper portion of the peripheral inner wall of the shell portion 21 and the other of the ends of the lower inner connecting rod portion 23 and the other of the ends of the upper first inner connecting rod portion 24 are respectively provided to be coupled with the can body 1, the shell portion 21 is provided as a rectangular tubular body and the bottom beam portion 22 is provided as a rectangular bar-like body, the bottom beam portion 22 is provided to be arranged at intervals along the lower end port portion of the shell portion 21 and the lower inner connecting rod portion 23 and the upper first inner connecting rod portion 24 are respectively provided as bar-like bodies, the upper second inner connecting rod portion 25 is provided as an L-like bar-like body and the lifting hole bodies 26 and the leak-through hole bodies 27 are respectively provided as circular hole bodies, the lifting hole bodies 26 are provided to be arranged at intervals along the lateral center line of the bottom beam portion 22, and the leak-through hole bodies 27 are provided to be arranged at intervals along the outline line of the shell portion 21.

Through support frame 2, formed the support tie point to jar body 1, row material pipe 3, row material stop valve 4, power supply 6 and mixer 7, by section of thick bamboo shell portion 21, go up first interconnect link portion 24 and go up second interconnect link portion 25, realized being connected with jar body 1, by section of thick bamboo shell portion 21, realized being connected with row material pipe 3, realized being connected with row material stop valve 4, realized being connected with power supply 6, by sill portion 22 and lower interconnect link portion 23, realized being connected with mixer 7, by lifting eye body 26, realized being connected with lifting hook, by the through-leak orifice body 27, realized carrying out operation orifice processing to row material stop valve 4, its technical purpose is: for use as a support carrier for the tank 1 and the mixer 7.

In the present embodiment, the discharge pipe 3 is provided as a circular cylindrical body and a cross-sectional port portion of the discharge pipe 3 is provided to be coupled with the discharge shutoff valve 4, one of ports of the discharge pipe 3 is provided to be coupled with the tank 1 and the other of ports of the discharge pipe 3 is provided to be coupled with the mixer 7, the other of ports of the discharge pipe 3 is provided to be distributed in correspondence with the dispersing blades 5, and the discharge pipe 3 is provided to be distributed along the contour line of the tank 1.

Through arranging material pipe 3, formed the support tie point to jar body 1, row material stop valve 4, dispersion blade 5 and mixer 7, by arranging material pipe 3, realized being connected with jar body 1, realized being connected with row material stop valve 4, realized being connected with dispersion blade 5, realized being connected with mixer 7, its technical aim is: for being one of the components for injecting the mixer 7.

In the present embodiment, the discharge cutoff valve 4 is provided as an electrically controlled valve and the discharge cutoff valve 4 is provided in embedded connection with the discharge pipe 3, and the port portion of the discharge cutoff valve 4 is provided in connection with the cross-sectional port portion of the discharge pipe 3.

Through the discharge stop valve 4, formed the support tie point to the discharge pipe 3, realized by the discharge stop valve 4 with the connection of discharge pipe 3, its technical aim at: and a second part for injecting the mixer 7.

In the present embodiment, the dispersing blades 5 are provided as a convex-shaped strip-shaped plate and the inner ends of the dispersing blades 5 are provided to be coupled with the end shaft of the power source 6, the dispersing blades 5 are provided to be coupled with the mixer 7 in a submerged manner and the outer ends of the dispersing blades 5 are provided to be distributed corresponding to the discharge pipe 3.

Through dispersion blade 5, formed the support tie point to row material pipe 3, power supply 6 and mixer 7, by dispersion blade 5, realized being connected with row material pipe 3, realized being connected with power supply 6, realized being connected with mixer 7, its technical aim at: one of the components for distributing the raw material of the gypsum-based dry powder mortar in the mixer 7.

In the present embodiment, the power source 6 is provided as a driving motor and the housing of the power source 6 is provided to be coupled with the mixer 7, the end shaft of the power source 6 is provided to be coupled with the mixer 7 in a penetrating manner and the outer end portion of the end shaft of the power source 6 is provided to be coupled with the dispersing blade 5.

Through power supply 6, formed the support tie point of dispersing blade 5 and mixer 7, realized being connected with dispersing blade 5 by power supply 6, realized being connected with mixer 7, its technical aim is: and a second member for distributing the raw material of the gypsum-based dry-mixed mortar in the mixer 7.

In the present embodiment, the agitator 7 is provided to include a tank portion 71, a rotating shaft portion 72, a motor portion 73, a first blade portion 74, a second blade portion 75, an opening and closing door portion 76, an upper water spout 77, and a lower water spout 78, and left and right side face portions of the tank portion 71 are provided to be rotatably coupled with the ends of the rotating shaft portion 72, one of the ends of the rotating shaft portion 72 is provided to be coupled with the end shaft of the motor portion 73 and a front and rear side face intermediate portion of the tank portion 71 is provided to be coupled with the opening and closing door portion 76, upper end face edge portions of the tank portion 71 are provided to be respectively coupled with the discharge pipe 3 and the upper water spout 77 in a nested manner, and an upper end face intermediate portion of the tank portion 71 is provided to be coupled with an end shaft of the power source 6, a lower end face portion of the tank portion 71 is provided to be nested with the lower water spout 78, and a left-stage peripheral side face portion of the rotating shaft portion 72 is provided to be coupled with the first blade portion 74, the right-stage peripheral side surface portion of the rotating shaft portion 72 is provided to be coupled with the second blade portion 75 and the lower end surface portion of the box portion 71 is provided to be coupled with the supporting frame 2, the motor portion 73 is provided to be flush-coupled with the supporting frame 2 and the box portion 71 is provided to be flush-coupled with the dispersing blade 5, the box portion 71 is provided as a rectangular box-like body having two L-shaped rail bodies and rectangular discharge hole bodies in the middle portion of the front and rear side surfaces and the two L-shaped rail bodies of the box portion 71 are provided to be flush-coupled with the opening and closing door portion 76, the rectangular discharge hole bodies provided to the box portion 71 are provided to be flush-distributed corresponding to the opening and closing door portion 76 and the opening and closing door portion 76 is provided as a rectangular sheet-like body, the rotating shaft portion 72 is provided as a medium-shaped rod-like body and the intermediate disc-like body of the rotating shaft portion 72 located outside is provided to be flush-distributed corresponding to the rectangular discharge Kong Tixiang of the box portion 71, the motor portion 73 is provided as a driving motor and the first blade portion 74 is provided as a left-handed helical blade, the second vane portion 75 is provided as a right-handed helical vane and the upper water nozzle 77 and the lower water nozzle 78 are provided as spray nozzles, respectively.

Through mixer 7, formed the support tie point to support frame 2, row material pipe 3, dispersion blade 5 and power supply 6, by case portion 71, realized being connected with support frame 2, realized being connected with row material pipe 3, realized being connected with dispersion blade 5, realized being connected with power supply 6, by rotating shaft portion 72, motor portion 73, first blade portion 74, second blade portion 75, opening and closing door portion 76, upward water spout 77 and lower water spout 78, realized preparing the processing to gypsum base member dry powder mortar, its technical aim is: the component is used for spraying and stirring the raw materials of the gypsum matrix dry powder mortar.

In the present embodiment, one rotation shaft portion 72, one motor portion 73, one first blade portion 74, and one second blade portion 75 are provided to constitute one set of shaft members, at least three sets of shaft members are provided in the tank portion 71, the upper water spouts 77 are provided to be arranged at intervals along the upper end face edge portion of the tank portion 71, and the lower water spouts 78 are provided to be arranged at intervals along the lower end face portion of the tank portion 71.

The technical purpose is that: the preparation efficiency of the gypsum matrix dry powder mortar is improved.

In the present embodiment, an open groove 82 is provided on the peripheral side surface portion of the ring portion 81 of the collar 8 and the ring portion 81 is provided to be coupled with the can 1 in a sleeved manner, the ring portion 81 is provided as a ring-shaped body and the open groove 82 is provided as a U-shaped groove, and the open groove 82 is provided to be arranged along the outline line of the ring portion 81.

Through lantern ring 8, formed the support tie point to jar body 1, realized being connected with jar body 1 by ring portion 81, realized holding fixed processing to the lifting rope by open slot body 82, its technical aim is: for use as a means for safety protection of the tank 1.

In this embodiment, the tank 1, the support frame 2, and the agitator 7 are arranged to be distributed in a manner of dispersing cloth with the discharge pipe 3, the discharge stop valve 4, the dispersing blade 5, and the power source 6, and the tank 1, the support frame 2, the agitator 7, the discharge pipe 3, the discharge stop valve 4, the dispersing blade 5, and the power source 6 are arranged to be distributed in a manner of protecting the ends with the collar 8, the center line of the tank 1, the center line of the support frame 2, the center line of the dispersing blade 5, the center line of the power source 6, the center line of the agitator 7, and the center line of the collar 8 are arranged on the same straight line, one discharge pipe 3 and one discharge stop valve 4 are arranged to constitute a set of discharge members, at least four sets of discharge members are arranged between the tank 1 and the agitator 7, the ring portion 81 is arranged to be coupled with the tank portion 11, the tank portion 71 is arranged to be coupled with the lower inner connecting rod portion 23, the upper first connecting rod portion 24 is arranged to be coupled with the barrel portion 21, and the upper second inner connecting rod portion 25 is arranged to be coupled with the cone platen 14.

The application method of the embodiment comprises the following steps: when the gypsum matrix dry powder mortar is stored and prepared on the construction site, the cylinder shell part 21 and the ring part 81 are placed on a transportation chassis, the storage and preparation device is transported to the construction site by the transportation chassis, after the construction site is reached, a lifting hook is installed in the lifting hole body 26, a lifting rope is placed in the open groove body 82, the storage and preparation device is lifted by a crane, the bottom beam part 22 is placed on the foundation of the construction site, the lifting hook is separated from the lifting hole body 26, the lifting rope is separated from the open groove body 82, U-shaped ground nails are placed on the end head of the bottom beam part 22, the U-shaped ground nails are beaten into the foundation of the construction site, a conveying pipe of raw materials of the gypsum matrix dry powder mortar is connected with the outer port part of the feeding pipe part 12, the feeding stop valve 13 is in an open state, the raw materials of the gypsum matrix dry powder mortar is conveyed into the tank part 11 by a feeding pump positioned on the conveying pipe of raw materials of the gypsum matrix dry powder mortar, when the raw materials of the gypsum matrix dry powder mortar in the tank part 11 are in a state of being full, the feeding pipe of the raw materials of the gypsum matrix dry powder mortar is in a state, the feeding pipe is in a state of the end of the gypsum matrix dry powder mortar is separated from the end of the feeding pipe part 12 is in a state,

When the gypsum matrix dry powder mortar is prepared, the power source 6 is in an operating state, the end shaft of the power source 6 rotates at the middle part of the upper end surface of the box part 71, the power source 6 drives the dispersing blades 5 to rotate, the discharge stop valve 4 is in an open state, the raw materials of the gypsum matrix dry powder mortar in the tank part 11 are discharged into the box part 71 through the discharge pipe 3, the dispersing blades 5 in the rotating state break up the raw materials of the gypsum matrix dry powder mortar discharged into the box part 71 through the discharge pipe 3, the dispersed raw materials of the gypsum matrix dry powder mortar fall into the box part 71 layer by layer, when the raw materials of the gypsum matrix dry powder mortar in the box part 71 are in a full position, the power source 6 is in a non-operating state, the upper water spray nozzle 77 and the lower water spray nozzle 78 are in a communicating state with a high-pressure water pump, the upper water spray nozzle 77 and the lower water spray nozzle 78 are in a spraying state, the motor part 73 is in an operating state, the rotating shaft part 72 is driven to rotate at the left side surface part and the right side surface part of the box part 71, the first blade part 74 and the second blade part 75 are driven to rotate, the raw materials of the dry powder mortar of the gypsum matrix in a wet state are pushed and stirred towards the middle part, the dry powder mortar intermediate of the gypsum matrix is prepared, after the weight proportion of the added water and the raw materials of the dry powder mortar of the gypsum matrix is met, the upper water spray nozzle 77 and the lower water spray nozzle 78 are in a non-communicated state with a high-pressure water pump, the upper water spray nozzle 77 and the lower water spray nozzle 78 are in a non-spray water mist state, the middle disc-shaped body of the rotating shaft part 72 disperses the dry powder mortar intermediate of the gypsum matrix outwards and moves towards the left side surface part and the right side surface part of the box part 71, thereby the dry powder mortar of the gypsum matrix is prepared, after the dry powder mortar of the gypsum matrix is prepared, the opening and closing door 76 is moved upward in the two L-shaped rail bodies of the box portion 71, the rectangular discharge hole body of the box portion 71 is in an open state, the gypsum matrix dry powder mortar is discharged from the rectangular discharge hole body of the box portion 71 under the action of the first blade portion 74 and the second blade portion 75, after the gypsum matrix dry powder mortar in the box portion 71 is discharged, the opening and closing door 76 is moved downward in the two L-shaped rail bodies of the box portion 71, the rectangular discharge hole body of the box portion 71 is in a closed state, and after the gypsum matrix dry powder mortar is prepared, the motor portion 73 is in a non-working state.

In the verification of the utility model, the inventor abandons the prior art characteristic that the raw materials of the dry powder mortar are conveyed into a stirrer through an intermediate discharge pipe and are piled up at a feed port in the stirrer, firstly, the technical characteristic that the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state are in a layered and tiled state is provided, and the first unexpected technical effect is obtained: the material distribution stage and the stirring and mixing stage are established, the important performance of the material distribution stage is established, the time of the stirring and mixing stage is shortened, and a second unexpected technical effect is obtained: the method realizes the multi-part blanking and conveying of the raw materials of the gypsum matrix dry powder mortar, ensures the uniformity of the raw materials of the gypsum matrix dry powder mortar in the tank part 11, and obtains a third unexpected technical effect: the efficiency and the security performance of the installation of the storage preparation device are improved.

In the second embodiment of the present utility model, the storage and preparation device body, the dispersing blade 5 and the power source 6 are connected to each other in such a manner that the raw materials of the gypsum-based dry powder mortar in a stirred and mixed state are in a layered and laid state.

In this embodiment, the dispersing blade 5 and the power source 6 are connected to the storage and preparation apparatus body in such a manner that the raw material of the gypsum-based dry powder mortar is subjected to the rotational dispersion treatment.

In this embodiment, the storage preparation device body is configured to further include a tank 1, a support frame 2, and a discharge shutoff valve 4.

In this embodiment, a first accessory device is also included and is provided on the storage preparation device body, the first accessory device being provided as a collar 8.

The second embodiment of the present utility model is based on the first embodiment.

The utility model has the following characteristics:

1. due to the design of the storage preparation device body, the dispersing blades 5 and the power source 6, the preparation of the gypsum matrix dry powder mortar is realized through the storage preparation device body, the rotation scattering treatment of the raw materials of the gypsum matrix dry powder mortar is realized through the dispersing blades 5 and the power source 6, the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state are in a layered and tiling state, the technical problem that the raw materials of the dry powder mortar are conveyed into a stirrer through one middle discharging pipe and are piled up at a feeding port in the stirrer is solved, and therefore the effect of the gypsum matrix dry powder mortar is improved.

2. Due to the design of the tank body 1, the discharging pipe 3, the supporting frame 2, the discharging stop valve 4 and the stirrer 7, the raw materials of the gypsum matrix dry powder mortar are stirred and mixed in a sealed interval.

3. Due to the design of the lantern ring 8, the lifting rope is accommodated and fixed, and the lifting rope is prevented from swinging reversely.

4. Because the structure shape is designed to limit the numerical range, the numerical range is the technical characteristic in the technical scheme of the utility model, and the technical characteristic of the numerical range is not calculated through a formula or obtained through limited tests, and the tests show that the technical characteristic of the numerical range has good technical effect.

5. Because the technical characteristics of the utility model are designed, the experiment shows that the performance indexes of the utility model are at least 1.7 times of the existing performance indexes under the independent and mutually aggregated functions of the technical characteristics, and the utility model has good market value through evaluation.

Other technical features of the storage preparation device body, the dispersing blade 5 and the power source 6 which are connected with the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state in a layered and tiled state are one of the embodiments of the present utility model, and the technical features of the above embodiments can be arbitrarily combined, so that the requirements of patent laws, patent implementation rules and examination guidelines are satisfied, and the description of the embodiments of all possible combinations of the technical features of the above embodiments is omitted.

Therefore, in the technical field of storage and preparation devices for gypsum matrix dry powder mortar, the technical content of the storage and preparation device body with the discharge pipe 3 and the stirrer 7, the dispersing blade 5 arranged between the discharge port part of the discharge pipe 3 and the stirrer 7, and the power source 6 arranged between the dispersing blade 5 and the stirrer 7 is within the protection scope of the utility model.

Claims (8)

1. A store preparation facilities for gypsum matrix dry powder mortar, characterized by: comprises a storage preparation device body with a discharge pipe (3) and a stirrer (7), a dispersing blade (5) arranged between a discharge port part of the discharge pipe (3) and the stirrer (7), and a power source (6) arranged between the dispersing blade (5) and the stirrer (7),

the storage preparation device body, the dispersing blades (5) and the power source (6) are mutually connected in a mode of enabling the raw materials of the gypsum matrix dry powder mortar in a stirring and mixing state to be in a layered and tiled state,

the dispersing blades (5) and the power source (6) are connected with the storage preparation device body in a manner of carrying out rotary scattering treatment on the raw materials of the gypsum matrix dry powder mortar.

2. The storage and preparation device for gypsum matrix dry powder mortar according to claim 1, wherein: the storage preparation device body is arranged to further comprise a tank body (1), a supporting frame (2) and a discharge stop valve (4),

Or, a first accessory device is also included and is provided on the storage preparation device body, the first accessory device being provided as a collar (8).

3. The storage and preparation device for gypsum matrix dry powder mortar according to claim 2, characterized in that: be provided with jar body (1) and mixer (7) respectively on support frame (2), be provided with row material pipe (3) and be provided with row material stop valve (4) on row material pipe (3) between jar body (1) and mixer (7), be provided with dispersion blade (5) in mixer (7) and be provided with power supply (6) between dispersion blade (5) and mixer (7), be provided with lantern ring (8) on jar body (1).

4. A storage and preparation device for gypsum matrix dry powder mortar according to claim 3, characterized in that: the dispersing blades (5) are arranged as convex-shaped strip-shaped plates, the inner ends of the dispersing blades (5) are connected with the end shafts of the power source (6), the dispersing blades (5) are connected with the mixer (7) in a submerged mode, and the outer ends of the dispersing blades (5) are distributed corresponding to the discharge pipes (3).

5. A storage and preparation device for gypsum matrix dry powder mortar according to claim 3, characterized in that: the power source (6) is arranged as a driving motor, the shell of the power source (6) is arranged to be connected with the stirrer (7), the end shaft of the power source (6) is arranged to be connected with the stirrer (7) in a penetrating way, and the outer end part of the end shaft of the power source (6) is arranged to be connected with the dispersing blades (5).

6. A storage and preparation device for gypsum matrix dry powder mortar according to claim 3, characterized in that: the tank body (1) is provided with a tank part (11), a feed pipe part (12) and a feed stop valve (13), the bottom end surface part of the tank part (11) is provided with a frustum plate (14), the upper part of the peripheral side surface of the tank part (11) is connected with the inner end part of the feed pipe part (12) and the cross-section end part of the feed pipe part (12) is connected with the feed stop valve (13), the edge parts of the frustum plate (14) are respectively connected with a support frame (2) and a discharge pipe (3) and the lower part of the peripheral side surface of the tank part (11) is connected with the support frame (2), the upper end of the tank part (11) is connected with a lantern ring (8) in a penetrating way and the tank part (11) is provided with a vertical tank body, the feed pipe part (12) is provided with a circular cylinder body and the feed stop valve (13) is provided with an electric control valve, the feed stop valve (13) is provided with a feed pipe part (12) in embedded way and the frustum plate (14) is provided with a shape like a Chinese character 'qi',

or, the supporting frame (2) is provided with a cylinder shell part (21), a bottom beam part (22), a lower connecting rod part (23), an upper first connecting rod part (24) and an upper second connecting rod part (25) and is provided with a permeable hole body (27) at the peripheral side part of the cylinder shell part (21), a hoisting hole body (26) is arranged at the end of the bottom beam part (22) and the lower end port part of the cylinder shell part (21) is provided with a connection with the upper end face part of the bottom beam part (22), the cylinder shell part (21) is respectively provided with a tank body (1), a discharge pipe (3), a discharge stop valve (4), a power source (6) and a stirrer (7) in a holding way, one end of the lower connecting rod part (23) is provided with the bottom beam part (22) and the other end of the lower connecting rod part (23) is provided with a connection with a stirrer (7), one end of the inner connecting rod part of the lower connecting rod part (23) and the upper end part of the upper connecting rod part (24) is respectively provided with one of the upper connecting rod part (1) and the other one of the upper connecting rod part (24) is provided with the other peripheral part of the tank body (1) in a connection way, the cylinder shell part (21) is provided with a rectangular tubular body, the bottom beam part (22) is provided with a rectangular rod-shaped body, the bottom beam part (22) is arranged and distributed at intervals along the lower end port part of the cylinder shell part (21), the lower inner connecting rod part (23) and the upper first inner connecting rod part (24) are respectively provided with rod-shaped bodies, the upper second inner connecting rod part (25) is provided with L-shaped rod-shaped bodies, the lifting hole body (26) and the leak-through hole body (27) are respectively provided with round hole bodies, the lifting hole body (26) is arranged and distributed at intervals along the transverse central line of the bottom beam part (22), the leak-through hole body (27) is arranged and distributed at intervals along the outline line of the cylinder shell part (21),

Or the discharge pipe (3) is arranged into a circular cylinder body, the port part of the section of the discharge pipe (3) is connected with the discharge stop valve (4), one port of the discharge pipe (3) is connected with the tank body (1) and the other port of the discharge pipe (3) is connected with the stirrer (7), the other port of the discharge pipe (3) is distributed corresponding to the dispersing blades (5), the discharge pipe (3) is distributed along the interval of the contour line of the tank body (1),

or the discharge stop valve (4) is arranged as an electric control valve, the discharge stop valve (4) is arranged in embedded connection with the discharge pipe (3), the port part of the discharge stop valve (4) is arranged in connection with the port part of the section of the discharge pipe (3),

or, the stirrer (7) is arranged to comprise a box part (71), a rotating shaft part (72), a motor part (73), a first blade part (74), a second blade part (75), an opening and closing door part (76), an upper water spray nozzle (77) and a lower water spray nozzle (78), and the left and right side surface parts of the box part (71) are arranged to be rotationally connected with the end heads of the rotating shaft part (72), one of the end heads of the rotating shaft part (72) is arranged to be connected with the end shaft of the motor part (73) and the middle parts of the front and rear side surfaces of the box part (71) are arranged to be connected with the opening and closing door part (76), the upper end surface edge parts of the box part (71) are respectively arranged to be in sleeved connection with the discharge pipe (3) and the upper water spray nozzle (77), the middle parts of the upper end surface of the box part (71) are arranged to be in sleeved connection with the end shaft of the power source (6), the lower end surface part of the box part (71) is arranged to be in sleeved connection with the lower water spray nozzle (78), the left side surface part of the rotating shaft part (72) is arranged to be in connection with the end shaft of the first blade part (74), the middle part of the front and rear side surface of the box part (71) is arranged to be in sleeved connection with the upper end surface of the upper water spray nozzle (75) is arranged to be in sleeved connection with the end shaft part of the end shaft part (2, the box part (71) is provided as a rectangular box-shaped body with two L-shaped rail bodies and rectangular discharge hole bodies in the middle part of the front and rear side surfaces, the two L-shaped rail bodies of the box part (71) are provided to be connected with an opening and closing door part (76) in a holding way, the rectangular discharge hole bodies provided for the box part (71) are provided to be distributed corresponding to the opening and closing door part (76) and the opening and closing door part (76) is provided as a rectangular sheet-shaped body, the rotating shaft part (72) is provided as a medium-shaped rod-shaped body and the middle disc body of the rotating shaft part (72) positioned at the outer side is provided to be distributed corresponding to the rectangular discharge Kong Tixiang of the box part (71), the motor part (73) is provided as a driving motor and the first blade part (74) is provided as a left-handed screw blade, the second blade part (75) is provided as a right-handed screw blade and the upper water spray nozzle (77) and the lower water spray nozzle (78) are respectively provided as a spray nozzle,

Or, a rotating shaft portion (72), a motor portion (73), a first blade portion (74) and a second blade portion (75) are arranged to constitute a set of shaft members, at least three sets of shaft members are arranged in the tank portion (71), upper water spouts (77) are arranged to be arranged at intervals along an upper end face edge portion of the tank portion (71), and lower water spouts (78) are arranged to be arranged at intervals along a lower end face portion of the tank portion (71).

7. A storage and preparation device for gypsum matrix dry powder mortar according to claim 3, characterized in that: an open groove body (82) is arranged on the peripheral side surface part of a ring part (81) of the collar (8), the ring part (81) is connected with the tank body (1) in a sleeved mode, the ring part (81) is a ring-shaped body, the open groove body (82) is a U-shaped groove body, and the open groove bodies (82) are distributed in an arrayed mode along the outline space of the ring part (81).

8. The storage and preparation device for gypsum-based dry powder mortar according to any one of claims 1 to 7, characterized in that: the tank body (1), the supporting frame (2) and the stirrer (7) are distributed in a manner of distributing materials, the discharging material pipe (3), the discharging material stop valve (4), the dispersing blades (5) and the power source (6) are distributed in a manner of protecting ends, the tank body (1), the supporting frame (2), the stirrer (7), the discharging material pipe (3), the discharging material stop valve (4), the dispersing blades (5) and the power source (6) are distributed in a manner of protecting ends,

Or, the central line of the tank body (1), the central line of the supporting frame (2), the central line of the dispersing blades (5), the central line of the power source (6), the central line of the stirring machine (7) and the central line of the lantern ring (8) are arranged on the same straight line, one discharging pipe (3) and one discharging stop valve (4) are arranged to form a group of discharging components, at least four groups of discharging components are arranged between the tank body (1) and the stirring machine (7), the ring part (81) is arranged to be connected with the tank part (11), the tank part (71) is arranged to be connected with the lower connecting rod part (23), the upper first connecting rod part (24) is arranged to be connected with the cylinder shell part (21), and the upper second connecting rod part (25) is arranged to be connected with the frustum plate (14).