CN108748681B - Working method of mortar stirrer for building - Google Patents

Abstract

The invention relates to the field of building equipment, in particular to a working method of a mortar mixer for buildings, which comprises a bearing and accommodating device, a positioning and stirring device and a stirring driving device, wherein the bearing and accommodating device comprises an accommodating box and an accommodating and supporting part, the positioning and stirring device comprises a stirring fixing frame arranged at the top of the accommodating box and a bearing and stirring part which is arranged at the bottom of the stirring fixing frame and can swing in an arc shape, the stirring driving device comprises a driving and positioning frame arranged at the top of the stirring fixing frame and a stirring driving part arranged on the driving and positioning frame, the stirring driving part is in transmission connection with the bearing and stirring part, two sides of the accommodating box are provided with feeding pipelines, the bottom of the accommodating box is provided with discharging pipelines, and the feeding pipelines and the discharging pipelines are both. The invention can avoid the condition that the raw materials are not uniformly mixed and layered in the traditional stirring operation; the mixing operation of the raw materials is improved, and the working efficiency of raw material mixing is improved.

Description

Working method of mortar stirrer for building

Technical Field

The invention relates to the field of building equipment, in particular to a working method of a mortar stirrer for buildings.

Background

The mortar mixer is a machine for mixing and stirring cement, sandstone aggregate and water into a mortar mixture. The device mainly comprises a mixing barrel, a feeding and discharging mechanism, a water supply system, a prime motor, a transmission mechanism, a frame, a supporting device and the like. The heat-insulating mortar stirrer equipment can meet the production requirements of dry-mixed mortar, dry-mixed materials, dry-mixed adhesives and the like with different performance requirements, such as: putty powder, dry powder coating, masonry mortar, plastering mortar, mortar required by a heat insulation system, decorative mortar and other dry powder mortars.

However, the existing mortar mixer has some disadvantages in the using process, the common mortar mixer cannot uniformly mix the raw materials, the raw materials can be layered, and the mixing time is long during mixing, so that the mixing efficiency is affected.

Disclosure of Invention

The invention aims to provide a mortar stirrer for buildings, which aims to solve the problems of uneven stirring and mixing of raw materials and raw material layering.

The technical scheme of the invention is as follows: including bearing the accommodate device, install the location agitating unit who bears the accommodate device in and install the stirring drive arrangement who is used for driving location agitating unit motion at bearing the accommodate device top, bear the accommodate box that accommodate device set up including being vertical state and set up the support component that holds the bottom of the case portion, location agitating unit is including setting up the stirring mount that holds the top of the case portion and installing and can do the circular arc wobbling stirring component that bears in stirring mount bottom, stirring drive arrangement is including installing the drive location frame at stirring mount top and installing the stirring drive part on the drive location frame, this stirring drive part is connected with bearing the transmission of stirring component, the both sides that hold the case all are equipped with charge-in pipeline, the bottom that holds the case is equipped with ejection of compact pipeline, charge-in pipeline and ejection of compact pipeline all with hold incasement intercommunication.

In a preferred embodiment of the present invention, the accommodating box includes a conical box and a rectangular box which are integrally formed from top to bottom along a vertical direction, a cross section of the conical box is gradually reduced in size from top to bottom, a first accommodating cavity with an upward opening is formed at a top of the rectangular box, the stirring fixing frame is erected at the top of the rectangular box, the stirring bearing component includes a stirring linkage component in transmission connection with the stirring fixing frame, a stirring transmission component mounted on an output end of the stirring linkage component, and a swinging stirring component arranged at the bottom of the stirring linkage component, and in an operating state, the swinging stirring component can perform circular arc swinging in the rectangular box.

In a preferred embodiment of the invention, the driving positioning frame is installed on the top of the stirring fixing frame, and the stirring driving component comprises a transmission stirring assembly installed on the stirring fixing frame and a stirring driving assembly installed on the driving positioning frame, and the stirring driving assembly is in transmission connection with the transmission stirring assembly.

In a preferred embodiment of the present invention, the stirring linkage assembly includes a first transmission rod disposed at a central position of the stirring fixing frame, a stirring rotating portion installed at a bottom of the stirring fixing frame, and a stirring sliding portion for connecting the first transmission rod and the stirring rotating portion, the swinging stirring assembly includes a connection box covered on an outer side wall of the stirring rotating portion, a plurality of connection portions installed on an outer side wall of the connection box, and a special-shaped stirring plate installed at bottom ends of the connection portions at the same time, and the special-shaped stirring plate can move along a length direction of the connection box.

In a preferred embodiment of the present invention, the stirring sliding portion includes a first rotating shaft, a second rotating shaft, and a rotating cylinder, wherein the first rotating shaft is mounted at an end of the first rotating shaft, the second rotating shaft is mounted at a bottom of the other end of the second rotating shaft, and the rotating cylinder is slidably mounted in the annular groove.

In a preferred embodiment of the invention, the connecting box is of a rectangular structure, the connecting parts are respectively arranged on two side walls of the connecting box and at the bottom of the connecting box, each connecting part comprises a hinge seat arranged on the connecting box and a connecting rod with one end hinged on the hinge seat, the other end of the connecting rod is fixedly connected with the top end of the special-shaped stirring plate, a plurality of through grooves arranged at equal intervals are arranged on the side wall of the special-shaped stirring plate, and each through groove is of a rectangular structure.

In a preferred embodiment of the present invention, the transmission and stirring assembly includes a fluted disc disposed on the stirring fixing frame, a plurality of first gears uniformly distributed around an axis of the fluted disc, and a second gear engaged with the plurality of first gears, each of the first gears is engaged with the fluted disc, a second transmission rod is fixedly mounted at a central position of each of the first gears, each of the second transmission rods is disposed in a vertical state, and a bottom end of each of the first transmission rods is fixedly connected to a central position of the first gear.

In a preferred embodiment of the present invention, a top end of each second transmission rod penetrates through the driving positioning frame along the vertical direction, and a first rotating ring is sleeved on the top end of each second transmission rod.

In a preferred embodiment of the invention, the accommodating and supporting part comprises a plurality of supporting legs distributed at the bottom of the rectangular box in a rectangular structure, each supporting leg is arranged in a vertical state, and two adjacent supporting legs are connected through a connecting column.

In a preferred embodiment of the present invention, the discharge pipe is of an L-shaped structure, one end of the discharge pipe is fixedly connected to the bottom of the rectangular box, and the feed pipe includes two positioning pipes respectively mounted on the side walls of the conical box, each positioning pipe being communicated with the first accommodating cavity.

The invention provides a mortar mixer for buildings through improvement, compared with the prior art, the mortar mixer for buildings has the following improvements and advantages:

(1) because the stirring drive assembly comprises transmission stirring subassembly and stirring drive assembly, the transmission stirring subassembly has the second gear, a plurality of first gears and fluted disc are constituteed, the drive ratio that the precision drive through second gear and a plurality of first gears can be accurate, the realization is to swing stirring subassembly drive operation, and then can realize the cement to holding the incasement and treating the stirring, grit and water stir the operation, the raw materials that traditional stirring operation appeared can be avoided to such driving method mixes inhomogeneously, the condition that the layering was realized to the raw materials appears.

(2) Drive the stirring sliding part through stirring transmission portion and do convex swing, because dysmorphism stirring board ann is installed in the bottom of stirring sliding part, then can drive special-shaped stirring board and do the arc swing in holding the incasement, realize carrying out the mixing to the raw materials that hold the incasement, improved the mixing operation to the raw materials, improved the work efficiency that the raw materials mixes.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic partial perspective view of the present invention;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a partial perspective view of the positioning and stirring device and the stirring driving device of the present invention;

FIG. 7 is an enlarged view at C in FIG. 6;

FIG. 8 is a schematic view of a second partial perspective structure of the positioning stirring device and the stirring driving device of the present invention;

FIG. 9 is a first exploded view of the stirring linkage assembly of the present invention;

FIG. 10 is a second exploded perspective view of the stirring linkage assembly of the present invention;

description of reference numerals: a bearing and containing device 1, a containing box 1a, a conical box 1a1, a rectangular box 1a2, a first containing cavity 1a3, a containing and supporting part 1b, a supporting leg 1b1, a feeding pipeline 1c, a positioning pipe 1c1, a discharging pipeline 1d, a positioning and stirring device 2, a stirring and fixing frame 2a, a bearing and stirring part 2b, a stirring linkage component 2c, a stirring and transmission component 2d, a swinging and stirring component 2e, a first transmission rod 2f, a stirring and rotating part 2g, a bearing seat 2g1, a first rotating shaft 2g2, an arc plate 2g3, an annular groove 2g4, a stirring and sliding part 2h, a folded plate 2h1, a second rotating shaft 2h2, a rotating cylinder 2h3, a connecting box 2i, a connecting part 2j, a hinged seat 2j1, a connecting rod 2j2, a special-shaped stirring plate 2k, a stirring and driving device 3, a driving and positioning frame 3a stirring and driving and stirring component 3c, the stirring device comprises a fluted disc 3c1, a first gear 3c2, a second gear 3c3, a second transmission rod 3c4, a first rotating ring 3c5, a stirring driving component 3d, a driving motor 3d1, a second rotating ring 3d2 and a belt 3d 3.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 10, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a building mortar mixer through improvement, as shown in fig. 1-10, comprising a bearing and containing device 1, a positioning and stirring device 2 arranged in the bearing and containing device 1 and a stirring driving device 3 arranged at the top of the bearing and containing device 1 and used for driving the positioning and stirring device 2 to move, wherein the bearing and containing device 1 comprises a containing box 1a arranged in a vertical state and a containing and supporting part 1b arranged at the bottom of the containing box 1a, the positioning and stirring device 2 comprises a stirring fixing frame 2a arranged at the top of the containing box 1a and a bearing and stirring part 2b arranged at the bottom of the stirring fixing frame 2a and capable of making circular arc swinging, the stirring driving device 3 comprises a driving and positioning frame 3a arranged at the top of the stirring fixing frame 2a and a stirring driving part 3b arranged on the driving and positioning frame 3a, the stirring driving part 3b is in transmission connection with the bearing and stirring part 2b, both sides that hold case 1a all are equipped with charge-in pipeline 1c, and the bottom that holds case 1a is equipped with ejection of compact pipeline 1d, charge-in pipeline 1c and ejection of compact pipeline 1d all with hold case 1a interior intercommunication.

The working principle is as follows: when the raw materials that need to be stirred stir the operation, at first add the raw materials and hold in case 1a, bear the swing of stirring part 2b through the drive of stirring driver part 3b, because bear the setting of stirring part 2b and hold in case 1a, then the drive bears the raw materials that stirring part 2b will hold in case 1a and carry out the mixing operation, it moves to carry out continuous drive and bears stirring part 2b, the realization is stirred the raw materials, after the raw materials stirring is accomplished, the mortar that will mix the completion through ejection of compact pipeline 1d is discharged.

The containing box 1a comprises a conical box 1a1 and a rectangular box 1a2 which are integrally formed from top to bottom along the vertical direction, the size of the cross section of the conical box 1a1 is gradually reduced from top to bottom, a first containing cavity 1a3 which is opened and upwards arranged is arranged at the top of the rectangular box 1a2, a stirring fixing frame 2a is erected at the top of the rectangular box 1a2, a bearing stirring part 2b comprises a stirring linkage component 2c which is in transmission connection with the stirring fixing frame 2a, a stirring transmission component 2d which is arranged on the output end of the stirring linkage component 2c and a swinging stirring component 2e which is arranged at the bottom of the stirring linkage component 2c, in a working state, the swinging stirring component 2e can do circular arc swinging in the rectangular box 1a2, the feeding and operation of mortar raw materials can be realized through the arrangement of the conical box 1a1 and the rectangular box 1a2, and the stirring transmission component 2d is driven to rotate through the stirring linkage component 2c, stirring transmission assembly 2d drives swing stirring assembly 2e and has realized that the raw materials stirs the mixing operation.

Drive locating rack 3a installs at stirring mount 2a top, stirring drive unit 3b stirs subassembly 3c and installs the stirring drive subassembly 3d on drive locating rack 3a including installing the transmission on stirring mount 2a, this stirring drive subassembly 3d is connected with transmission stirring subassembly 3c transmission, stirring drive subassembly 3d drives transmission stirring subassembly 3c and rotates, the realization is to stirring linkage subassembly 2c drive operation, and then can realize carrying out the drive operation to swing stirring subassembly 2e, the mixed operation to the mortar raw materials has been realized.

Stirring linkage subassembly 2c is including setting up the first transmission pole 2f of department of putting at stirring mount 2a central point, install the stirring rotation part 2g in stirring mount 2a bottom and be used for connecting the stirring sliding part 2h of first transmission pole 2f and stirring rotation part 2g, swing stirring subassembly 2e is including covering the connecting-box 2i of establishing on stirring rotation part 2g lateral wall, a plurality of connecting portion 2j of installing on connecting-box 2i lateral wall and one install the dysmorphism stirring board 2k in a plurality of connecting portion 2j bottoms simultaneously, this dysmorphism stirring board 2k can remove along connecting-box 2 i's length direction, drive stirring sliding part 2h through stirring rotation part 2g and remove, realize the drive operation to dysmorphism stirring board 2k, can avoid the emergence of raw materials at the inhomogeneous phenomenon of mixing process.

Stirring rotating portion 2g includes bearing frame 2g1, install first axis of rotation 2g2 and the arc 2g3 that one end was installed at first axis of rotation 2g2 tip at bearing frame 2g1 tip, be equipped with annular groove 2g4 on the arc 2g3, stirring sliding portion 2h is including installing the folded plate 2h1 at first drive rod 2f bottom, install second axis of rotation 2h2 and the rotation cylinder 2h3 of cover outside second axis of rotation 2h2 at folded plate 2h1 other end bottom, this rotation cylinder 2h3 can be slided and install in annular groove 2g4, drive arc 2g3 through first axis of rotation 2g2 and rotate, because annular groove 2g4 is gone up on arc 2g3, then can make stirring sliding portion 2h can slide the operation on arc 2g3, folded plate 2h 1's setting can realize connecting the shaping with arc 2g 3.

Connecting box 2i is the rectangle structure, a plurality of connecting portion 2j set up respectively on connecting box 2 i's both sides wall and connecting box 2 i's bottom, every connecting portion 2j is including installing articulated seat 2j1 on connecting box 2i and the connecting rod 2j2 that one end articulates on articulated seat 2j1, connecting rod 2j 2's the other end and special-shaped stirring board 2 k's top fixed connection, be equipped with the logical groove of a plurality of equidistant settings on special-shaped stirring board 2 k's the lateral wall, every logical groove is the rectangle structure, because connecting rod 2j2 and articulated seat 2j1 connection shaping, because special-shaped stirring board 2k can realize mixing the stirring to the mortar raw materials, the passing through of supplying the mortar raw materials can be realized to a plurality of logical grooves that set up on special-shaped stirring board 2 k.

The transmission and stirring assembly 3c comprises a fluted disc 3c1 arranged on the stirring fixing frame 2a, a plurality of first gears 3c2 uniformly distributed around the axis of the fluted disc 3c1 and a second gear 3c3 meshed with the plurality of first gears 3c2, each first gear 3c2 is meshed with the fluted disc 3c1, a second transmission rod 3c4 is fixedly arranged at the central position of each first gear 3c2, each second transmission rod 3c4 is vertically arranged, the bottom end of the first transmission rod 2f is fixedly connected with the central position of the first gear 3c2, the plurality of first gears 3c2 are driven to rotate by the plurality of second transmission rods 3c4, and the second gear 3c3 is driven to rotate with the first transmission rod 2f because the plurality of first gears 3c2 are meshed with the second gear 3c 3.

The top end of each second transmission rod 3c4 penetrates through the driving positioning frame 3a along the vertical direction, and the top end is sleeved with a first rotating ring 3c5, the stirring driving assembly 3d comprises a driving motor 3d1 installed at the top of the driving positioning frame 3a, a second rotating ring 3d2 installed on a main shaft of the driving motor 3d1 and a belt 3d3 used for connecting all the first rotating rings 3c5 and the second rotating rings 3d2, the driving motor 3d1 drives the second rotating ring 3d2 to rotate, because the second rotating ring 3d2 is connected with all the first rotating rings 3c5 through the belt 3d3, all the first rotating rings 3c5 are driven to rotate, and each first rotating ring 3c5 is sleeved on one second transmission rod 3c4, all the first gears 3c2 are driven to rotate.

Hold supporting part 1b and include that a plurality of being the rectangle structure distributes at the supporting leg 1b1 of rectangle case 1a2 bottom, every supporting leg 1b1 all is vertical state setting, connects through the spliced pole between two adjacent supporting legs 1b1, and the support operation to holding case 1a can be realized to the setting of a plurality of supporting legs 1b 1.

Discharge conduit 1d is L shape structure, discharge conduit 1 d's one end and rectangle case 1a 2's bottom of the case fixed connection, and charge conduit 1c includes that two install the registration arm 1c1 on toper case 1a1 lateral wall respectively, and every registration arm 1c1 all communicates with first chamber 1a3 that holds, and the setting of two registration arms 1c1 can realize the feeding operation to the mortar raw materials, can realize the mixed operation to the mortar.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A working method of a mortar mixer for buildings is characterized in that: the mortar mixer for the building comprises a bearing and containing device (1), a positioning and stirring device (2) arranged in the bearing and containing device (1) and a stirring driving device (3) arranged at the top of the bearing and containing device (1) and used for driving the positioning and stirring device (2) to move, wherein the bearing and containing device (1) comprises a containing box (1a) arranged in a vertical state and a containing and supporting part (1 b) arranged at the bottom of the containing box (1a), the positioning and stirring device (2) comprises a stirring fixing frame (2 a) arranged at the top of the containing box (1a) and a bearing and stirring part (2b) arranged at the bottom of the stirring fixing frame (2 a) and capable of swinging in an arc shape, the stirring driving device (3) comprises a driving and positioning frame (3 a) arranged at the top of the stirring fixing frame (2 a) and a stirring driving part (3b) arranged on the driving and positioning frame (3 a), the stirring driving part (3b) is in transmission connection with the bearing stirring part (2b), both sides of the containing box (1a) are provided with feeding pipelines (1 c), the bottom of the containing box (1a) is provided with discharging pipelines (1d), and the feeding pipelines (1 c) and the discharging pipelines (1d) are communicated with the inside of the containing box (1 a); the method comprises the following steps: when the raw materials to be stirred need to be stirred, the raw materials are added into the containing box (1a), the stirring driving component (3b) drives the bearing stirring component (2b) to swing, the bearing stirring component (2b) is arranged in the containing box (1a), the bearing stirring component (2b) is driven to mix the raw materials in the containing box (1a), the bearing stirring component (2b) is continuously driven to move, the raw materials are stirred, and after the raw materials are stirred, the mixed mortar is discharged through the discharging pipeline (1 d); the accommodating box (1a) comprises an integrally formed conical box (1a 1) and a rectangular box (1a 2) from top to bottom along the vertical direction, the size of the cross section of the conical box (1a 1) is gradually reduced from top to bottom, a first accommodating cavity (1a 3) with an opening and arranged upwards is arranged at the top of the rectangular box (1a 2), a stirring fixing frame (2 a) is erected at the top of the rectangular box (1a 2), a bearing stirring part (2b) comprises a stirring linkage component (2 c) in transmission connection with the stirring fixing frame (2 a), a stirring transmission component (2 d) arranged on the output end of the stirring linkage component (2 c) and a swinging stirring component (2 e) arranged at the bottom of the stirring linkage component (2 c), and in a working state, the swinging stirring component (2 e) can do circular arc swinging in the rectangular box (1a 2); the stirring device is characterized in that the driving positioning frame (3 a) is arranged at the top of the stirring fixing frame (2 a), the stirring driving part (3b) comprises a transmission stirring component (3 c) arranged on the stirring fixing frame (2 a) and a stirring driving component (3 d) arranged on the driving positioning frame (3 a), and the stirring driving component (3 d) is in transmission connection with the transmission stirring component (3 c); stirring linkage subassembly (2 c) including setting up first transfer line (2 f) in stirring mount (2 a) central point department of putting, install stirring rotation portion (2 g) and the stirring sliding part (2 h) that are used for connecting first transfer line (2 f) and stirring rotation portion (2 g) in stirring mount (2 a) bottom, swing stirring subassembly (2 e) are established connecting-box (2 i) on stirring rotation portion (2 g) lateral wall including the cover, a plurality of connecting portion (2 j) of installing on connecting-box (2 i) lateral wall and one install dysmorphism stirring board (2 k) in a plurality of connecting portion (2 j) bottom simultaneously, this dysmorphism stirring board (2 k) can remove along the length direction of connecting-box (2 i).

2. The method of claim 1, wherein the method comprises the steps of: stirring rotating portion (2 g) includes bearing frame (2 g 1), install first rotating shaft (2 g 2) and the arc (2 g 3) that one end was installed at first rotating shaft (2 g 2) tip at bearing frame (2 g 1) tip, be equipped with annular groove (2 g 4) on arc (2 g 3), stirring sliding portion (2 h) is including installing zigzag board (2 h 1) at first drive rod (2 f) bottom, install second rotating shaft (2 h 2) and the cover of folding board (2 h 1) other end bottom and establish the rotation cylinder (2 h 3) of second rotating shaft (2 h 2) outside, this rotation cylinder (2 h 3) can be slidable install in annular groove (2 g 4).

3. The method of claim 1, wherein the method comprises the steps of: connecting box (2 i) are the rectangle structure, a plurality of connecting portion (2 j) set up respectively on the both sides wall of connecting box (2 i) and the bottom of connecting box (2 i), every connecting portion (2 j) articulate connecting rod (2 j 2) on articulated seat (2 j 1) including articulated seat (2 j 1) and the one end of installing on connecting box (2 i), the top fixed connection of the other end and special-shaped stirring board (2 k) of connecting rod (2 j 2), be equipped with the logical groove of a plurality of equidistant settings on the lateral wall of special-shaped stirring board (2 k), every leads to the groove and is the rectangle structure.

4. The method of claim 1, wherein the method comprises the steps of: the transmission and stirring assembly (3 c) comprises a fluted disc (3 c 1) arranged on the stirring fixing frame (2 a), a plurality of first gears (3 c 2) uniformly distributed around the axis of the fluted disc (3 c 1) and a second gear (3 c 3) meshed with the first gears (3 c 2), each first gear (3 c 2) is meshed with the fluted disc (3 c 1), a second transmission rod (3 c 4) is fixedly arranged at the central position of each first gear (3 c 2), each second transmission rod (3 c 4) is vertically arranged, and the bottom end of the first transmission rod (2 f) is fixedly connected with the central position of the first gear (3 c 2).

5. The method of claim 4, wherein the step of operating the architectural mortar mixer further comprises the steps of: the top end of each second transmission rod (3 c 4) penetrates through the driving positioning frame (3 a) along the vertical direction, the top end of each second transmission rod is sleeved with a first rotating circular ring (3 c 5), and each stirring driving assembly (3 d) comprises a driving motor (3 d 1) arranged at the top of the driving positioning frame (3 a), a second rotating circular ring (3 d 2) arranged on a main shaft of the driving motor (3 d 1) and a belt (3 d 3) used for connecting all the first rotating circular rings (3 c 5) with the second rotating circular ring (3 d 2).

6. The method of claim 1, wherein the method comprises the steps of: the accommodating support part (1 b) comprises a plurality of support legs (1 b 1) which are distributed at the bottom of the rectangular box (1a 2) in a rectangular structure, each support leg (1 b 1) is arranged in a vertical state, and two adjacent support legs (1 b 1) are connected through a connecting column.

7. The method of claim 2, wherein the step of operating the architectural mortar mixer further comprises the steps of: discharge conduit (1d) is L shape structure, and the bottom of the case fixed connection of the one end of discharge conduit (1d) and rectangle case (1a 2), charge-in pipeline (1 c) include two and install locating tube (1 c 1) on toper case (1a 1) lateral wall respectively, and every locating tube (1 c 1) all communicates with first chamber (1a 3) that holds.

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