CN212948438U

CN212948438U - Cement mixing plant for construction

Info

Publication number: CN212948438U
Application number: CN202020249006.3U
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Xuancheng Shengan Construction Co ltd
Priority date: 2020-03-04
Filing date: 2020-03-04
Publication date: 2021-04-13
Anticipated expiration: 2030-03-04

Abstract

The utility model discloses a cement agitating unit for construction, include: the device comprises a base, a control box, a feeding mechanism and a stirring mechanism; the control box is arranged at the center of the right side of the top end of the base along the vertical direction; the feeding mechanism is arranged on the front side of the top end of the base along the up-down direction; the stirring mechanism is arranged at the top end of the base along the vertical direction and is positioned at the rear side of the feeding mechanism; this cement agitating unit for construction, adopt screw conveyer to carry out the material loading to among the prior art, raw materials such as rubble in the material loading are great to blade wearing and tearing, and then lead to the device maintenance rate higher to cause the problem of jam in the pipeline easily, can adopt the automatic feeding that novel material loading mode realized the cement raw materials, avoid adopting screw conveyer to carry out the material loading and lead to wearing and tearing helical blade, when preventing pipe blockage, reduce equipment failure rate, the practicality is strong.

Description

Cement mixing plant for construction

Technical Field

The utility model relates to a construction technical field specifically is a cement mixing plant for construction.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and can also be said to be the process of changing various lines on design drawings into real objects in specified places, and comprises basic engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like, and the construction operation places are called as 'construction sites' or 'construction sites', also called as construction sites;

in the prior art, the utility model discloses a stirrer for building construction, which comprises a roller, wherein the upper end of the roller is provided with a roller feeding hopper, the right end of the roller is provided with a gear groove, the body side of the roller is provided with a discharge hole, the left end of the discharge hole is provided with an observation port, the lower end of the observation port is provided with a roller, the middle of the roller is provided with a rotating shaft, the lower end of the roller is provided with a support frame, the right end of the support frame is provided with a driving wheel, the surface of the driving wheel is provided with a driving belt, the right end of the driving belt is provided with a gear, the lower end of the support frame is provided with a support table, one side of the support table is provided with a controller, the lower end of the support table is provided with table legs, the inside of the roller is provided with a stirrer, the right end of the stirrer is provided with, artificially wash unclean and the material loading not only tired but also inconvenient problem, but this mixer for construction adopts screw conveyer to carry out the material loading, and raw materials such as rubble in the material loading are great to the blade wearing and tearing, and then lead to the device maintenance rate higher to cause the jam in the pipeline easily, to above-mentioned problem, we propose a cement agitating unit for construction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cement agitating unit for construction to solve prior art's adoption screw conveyer at least and carry out the material loading, raw materials such as rubble in the material loading are great to blade wearing and tearing, and then lead to the device maintenance rate higher, and cause the problem of jam in the pipeline easily.

In order to achieve the above object, the utility model provides a following technical scheme: a cement mixing device for building construction, comprising:

a base;

the control box is arranged at the center of the right side of the top end of the base along the vertical direction;

the feeding mechanism is arranged on the front side of the top end of the base along the vertical direction;

and the stirring mechanism is arranged at the top end of the base along the vertical direction and is positioned at the rear side of the feeding mechanism.

Preferably, the feeding mechanism includes: the device comprises a guide rail frame, a positioning shaft, a chain wheel, a first motor, a chain and a base block; the guide rail bracket is arranged at the left end of the front side of the top end of the base along the up-down direction; the number of the positioning shafts is two, the two positioning shafts are respectively connected to the upper end and the lower end of the inner cavity of the guide rail frame in a rotating mode through bearings along the left-right direction, the inner ring of each bearing is in interference fit with the outer wall of each positioning shaft, and the outer ring of each bearing is fixedly connected with the inner wall of the guide rail frame; the number of the chain wheels is two, and the two chain wheels are respectively in interference fit with the outer walls of the upper positioning shaft and the lower positioning shaft; the first motor is arranged on the left side of the bottom end of the guide rail frame, the output end of the first motor is connected with a left screw of a positioning shaft at the bottom end of the inner cavity of the guide rail frame, and the first motor is electrically connected with the control box; the inner side of the chain is sleeved on the outer walls of the upper chain wheel and the lower chain wheel and meshed with the upper chain wheel and the lower chain wheel; the base block is fixedly connected to the left side of the outer wall of the chain.

Preferably, the feeding mechanism further comprises: the device comprises a rotating shaft, a limiting roller and a feeding hopper; the rotating shaft is rotatably connected to the inner side of the base block through a bearing along the left-right direction, an inner ring of the bearing is in interference fit with the outer wall of the rotating shaft, an outer ring of the bearing is fixedly connected with the inner wall of the base block, and the left end and the right end of the rotating shaft respectively extend out of the outer wall of the base block and the left side and the right side of an inner cavity of the guide rail frame; the number of the limiting rollers is two, the number of the limiting rollers in each group is four, the two groups of limiting rollers are respectively rotatably connected to four corners of the left side and the right side of the base block through pin shafts, and grooves in the outer wall of each limiting roller are in adaptive clamping connection with the inner cavity of the guide rail frame; the feeding hopper is arranged at the right end of the rotating shaft through a fixed seat.

Preferably, the feeding mechanism further comprises: the device comprises a half gear, a sliding block, a first sliding rail, a second sliding rail and a rack block; the half gear is in interference fit with the left side of the outer wall of the rotating shaft; the slide block is connected to the left end of the rotating shaft through a screw; the first sliding rail is arranged at the bottom end of the left side of the guide rail frame along the up-down direction, and the sliding block is inserted into the inner cavity of the first sliding rail in a matching manner; the second slide rail is arranged at the top end of the first slide rail, the bottom end of an inner cavity of the second slide rail is communicated with the top end of the inner cavity of the first slide rail, and the top end of the inner cavity of the second slide rail is arc-shaped; the rack block is arranged on the right side of the second sliding rail and located at the corresponding position of the arc, and the rack block can be meshed with the half gear.

Preferably, the stirring mechanism includes: the stirring mechanism comprises a shell, a stirring cabin, a feed hopper, a water inlet valve pipe, a discharge cabin door, a second motor and a stirring rod; the stirring mechanism shell is arranged at the top end of the base along the vertical direction through a support, a stirring cabin positioned at the rear side of the feeding hopper is arranged at the bottom end of an inner cavity of the stirring mechanism shell along the vertical direction, and the bottom end of the stirring cabin extends out of the lower surface of the stirring mechanism shell; the feeding hopper is arranged at the position, corresponding to the feeding hopper, of the top end of the outer wall of the stirring mechanism shell, and a feeding pipe at the bottom end of the feeding hopper extends into an inner cavity of the stirring mechanism shell; the water inlet valve pipe is arranged on the outer wall of the stirring cabin, and the outer side of the water inlet valve pipe extends out of the outer wall of the stirring mechanism shell; the discharge cabin door is arranged at the bottom end of the inner cavity of the stirring cabin; the second motor is arranged at the top end of the stirring mechanism shell, the output end of the second motor extends into the inner cavity of the stirring mechanism shell, and the second motor is electrically connected with the control box; the puddler is in along upper and lower direction screw connection the output of second motor, the bottom of puddler extends into the inner chamber of agitator tank.

Compared with the prior art, the beneficial effects of the utility model are that: the cement stirring device for building construction drives the upper chain wheel at the corresponding position to rotate by the driving of the lower positioning shaft by the first motor, so that the chain drives the base block to move upwards under the action of the rotation force of the lower chain wheel, the base block drives the cement raw material in the feeding hopper to lift under the coordination of the rotating shaft, and the rotating shaft drives the sliding block to move to the arc position above the inner cavity of the second sliding rail along the inner cavity of the first sliding rail, the half gear is meshed with the rack block, so that the half gear rotates under the action of the rack block and drives the rotating shaft to drive the feeding hopper to turn over, so that the cement raw material in the feeding hopper is poured into the inner cavity of the feeding hopper, the raw material enters the stirring cabin from the inner cavity of the feeding hopper, the stirring rod is driven by the second motor to mix and stir the raw material and water in the inner cavity of the stirring cabin to form cement for construction and is discharged from the discharging, avoid adopting screw conveyer to carry out the material loading and lead to wearing and tearing helical blade, when preventing the pipeline jam, reduce equipment failure rate, the practicality is strong.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the feed mechanism of FIG. 1;

fig. 3 is an exploded view of the stirring mechanism of fig. 1.

In the figure: 1. the automatic stirring device comprises a base, 2, a control box, 3, a feeding mechanism, 31, a guide rail frame, 32, a positioning shaft, 33, a chain wheel, 34, a first motor, 35, a base block, 36, a rotating shaft, 37, a limiting roller, 38, a feeding hopper, 39, a half gear, 310, a sliding block, 311, a first sliding rail, 312, a second sliding rail, 313, a chain, 314, a rack block, 4, a stirring mechanism, 41, a stirring mechanism shell, 42, a stirring cabin, 43, a feeding hopper, 44, a water inlet valve pipe, 45, a discharging cabin door, 46, a second motor, 47 and a stirring rod.

Detailed Description

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.

Referring to fig. 1-3, the present invention provides a technical solution: a cement mixing device for building construction, comprising: the device comprises a base 1, a control box 2, a feeding mechanism 3 and a stirring mechanism 4, wherein four corners of the bottom end of the base 1 are provided with universal wheels so as to facilitate the movement of the device; the control box 2 is arranged at the center of the right side of the top end of the base 1 in the vertical direction, and the specific use model of the control box 2 is directly purchased, installed and used from the market according to specific use requirements; the feeding mechanism 3 is arranged on the front side of the top end of the base 1 along the vertical direction; the stirring mechanism 4 is disposed at the top end of the base 1 in the vertical direction and is located at the rear side of the feeding mechanism 3.

Preferably, the feeding mechanism 3 further includes: the guide rail bracket 31, the positioning shaft 32, the chain wheel 33, the first motor 34, the chain 313 and the base block 35; the guide rail bracket 31 is arranged at the left end of the front side of the top end of the base 1 along the up-down direction; the number of the positioning shafts 32 is two, the two positioning shafts 32 are respectively connected to the upper end and the lower end of the inner cavity of the guide rail frame 31 in a left-right direction through bearings in a rotating mode, the inner ring of each bearing is in interference fit with the outer wall of each positioning shaft 32, and the outer ring of each bearing is fixedly connected with the inner wall of the guide rail frame 31; the number of the chain wheels 33 is two, and the two chain wheels 33 are respectively in interference fit with the outer walls of the upper positioning shaft 32 and the lower positioning shaft 32; the first motor 34 is installed on the left side of the bottom end of the guide rail frame 31, the output end of the first motor 34 is connected with a left screw of the positioning shaft 32 located at the bottom end of the inner cavity of the guide rail frame 31, the first motor 34 is electrically connected with the control box 2, the specific usage model of the first motor 34 is directly purchased and installed from the market and used according to specific usage requirements, and the motor 34 drives the lower positioning shaft 32 to rotate; the inner side of the chain 313 is sleeved on the outer walls of the upper chain wheel 33 and the lower chain wheel 33 and is meshed with the outer walls, the chain 313 can rotate clockwise or anticlockwise under the action of the rotating force of the lower chain wheel 33, and the base block 35 is driven to move up and down under the action of the tensioning limiting action of the upper chain wheel 33; the base block 35 is fixedly attached to the left side of the outer wall of the chain 313.

Preferably, the feeding mechanism 3 further includes: a rotating shaft 36, a limiting roller 37 and a feeding hopper 38; the rotating shaft 36 is rotatably connected to the inner side of the base block 35 through a bearing along the left-right direction, an inner ring of the bearing is in interference fit with the outer wall of the rotating shaft 36, an outer ring of the bearing is fixedly connected with the inner wall of the base block 35, and the left end and the right end of the rotating shaft 36 respectively extend out of the outer wall of the base block 35 and the left side and the right side of the inner cavity of the guide rail frame 31; the number of the limiting rollers 37 is two, the number of each group of limiting rollers 37 is four, the two groups of limiting rollers 37 are rotatably connected to four corners of the left side and the right side of the base block 35 through pin shafts respectively, grooves in the outer wall of the limiting rollers 37 are in adaptive clamping connection with the inner cavity of the guide rail frame 31, and the limiting rollers 37 can slide up and down in the inner cavity of the guide rail frame 31 to limit the base block 35; the feeding hopper 38 is arranged at the right end of the rotating shaft 36 through a fixed seat, and workers can pour cement or gravel into the feeding hopper 38 in sequence.

Preferably, the feeding mechanism 3 further includes: a half gear 39, a slider 310, a first slide rail 311, a second slide rail 312, and a rack block 314; the half gear 39 is in interference fit with the left side of the outer wall of the rotating shaft 36; the sliding block 310 is screwed at the left end of the rotating shaft 36; the first slide rail 311 is installed at the bottom end of the left side of the guide rail frame 31 along the up-down direction, the slide block 310 is inserted into the inner cavity of the first slide rail 311 in a matching manner, and the first slide rail 311 limits the slide block 310 to prevent the slide block 310 from rotating; the second slide rail 312 is arranged at the top end of the first slide rail 311, the bottom end of the inner cavity of the second slide rail 312 is communicated with the top end of the inner cavity of the first slide rail 311, and the top end of the inner cavity of the second slide rail 312 is arc-shaped; the rack block 314 is installed on the right side of the second slide rail 312 and located at a corresponding position of the arc, the rack block 314 can be meshed with the half gear 39, when the slide block 310 moves to the arc above the inner cavity of the second slide rail 312 along the inner cavity of the first slide rail 311, the half gear 39 is meshed with the rack block 314, the half gear 39 is enabled to rotate clockwise under the action of the rack block 314, the half gear 39 drives the slide block 310 to rotate clockwise in the arc groove of the rack block 314 and simultaneously drives the rotating shaft 36 to rotate clockwise, and the rotating shaft 36 drives the feeding hopper 38 to turn clockwise to pour materials into the feeding hopper 43.

Preferably, the stirring mechanism 4 further includes: a stirring mechanism shell 41, a stirring cabin 42, a feed hopper 43, a water inlet valve pipe 44, a discharge cabin door 45, a second motor 46 and a stirring rod 47; the stirring mechanism shell 41 is arranged at the top end of the base 1 along the vertical direction through a support, and a stirring cabin 42 at the rear side of the feeding hopper 38 is arranged at the bottom end of an inner cavity of the stirring mechanism shell 41 along the vertical direction, and the bottom end of the stirring cabin 42 extends out of the lower surface of the stirring mechanism shell 41; the feed hopper 43 is arranged at the top end of the outer wall of the stirring mechanism shell 41 and at the corresponding position of the upper hopper 38, and a feed pipe at the bottom end of the feed hopper 43 extends into the inner cavity of the stirring mechanism shell 41; the water inlet valve pipe 44 is arranged on the outer wall of the stirring cabin 42, the outer side of the water inlet valve pipe 44 extends out of the outer wall of the stirring mechanism shell 41, and the water inlet valve pipe 44 is connected with an external water source so as to add quantitative water into the stirring cabin 42; the discharge cabin door 45 is arranged at the bottom end of the inner cavity of the stirring cabin 42; the second motor 46 is installed at the top end of the stirring mechanism shell 41, the output end of the second motor 46 extends into the inner cavity of the stirring mechanism shell 41, the second motor 46 is electrically connected with the control box 2, and the specific use model of the second motor 46 is directly purchased, installed and used from the market according to the specific use requirement; the puddler 47 is connected at the output of second motor 46 along upper and lower direction screw, and the bottom of puddler 47 extends into the inner chamber of agitator tank 42, and second motor 46 can drive puddler 47 and mix the raw materials and water at the inner chamber of agitator tank 42 and stir formation cement for the construction.

All the electrical components in the present application can be connected with an external adaptive power supply through a wire, and an adaptive external controller should be selected to connect according to specific actual use conditions to meet the control requirements of all the electrical components, and the specific connection mode and the control sequence thereof should be referred to in the following working principle that the electrical components are electrically connected in sequence, the detailed connection means thereof is a known technology in the art and is not described, and the following main description of the working principle and the process specifically works as follows.

When the cement or gravel-sand combined type vertical-motion conveying device is used, a worker sequentially pours cement or gravel into the upper hopper 38, the control box 2 starts the first motor 34, the first motor 34 drives the lower positioning shaft 32 to rotate clockwise, the upper chain wheel 33 and the lower chain wheel 33 are meshed and driven through the chain 313, the chain 313 is driven to rotate under the rotating force of the lower chain wheel 33 and rotate anticlockwise under the tensioning limiting action of the upper chain wheel 33, the chain 313 drives the base block 35 to move upwards, the limiting rollers 37 on the left side and the right side of the base block 35 slide upwards in the inner cavity of the guide rail frame 31, the base block 35 is limited, the base block 35 drives the cement raw material in the upper hopper 38 to be lifted under the cooperation of the rotating shaft 36, the rotating shaft 36 drives the sliding block 310 to move upwards in the inner cavity of the first sliding rail 311, the first sliding rail 311 limits the sliding block 310 to prevent the sliding block 310 from rotating, when the sliding block 310 moves to the upper arc-shaped position above the inner cavity of the, the half gear 39 is engaged with the rack block 314, so that the half gear 39 rotates clockwise under the action of the rack block 314, the half gear 39 drives the sliding block 310 to rotate clockwise in the arc-shaped groove of the rack block 314, simultaneously, the half gear 39 drives the rotating shaft 36 to rotate clockwise, the rotating shaft 36 drives the feeding hopper 38 to turn clockwise, cement raw materials in the feeding hopper 38 are poured into the inner cavity of the feeding hopper 43, the cement raw materials enter the stirring cabin 42 along the inner cavity of the feeding hopper 43, a worker connects the water inlet valve pipe 44 with an external water source to add quantitative water into the stirring cabin 42, the second motor 46 is controlled to be started, the second motor 46 drives the stirring rod 47 to mix and stir the raw materials and the water in the inner cavity of the stirring cabin 42 to form cement for construction, the worker opens the inner cabin door of the discharging cabin door 45 to discharge cement finished products from the discharging cabin door 45, and automatic feeding of the cement raw materials can be realized by adopting a novel feeding method, avoid adopting screw conveyer to carry out the material loading and lead to wearing and tearing helical blade, when preventing the pipeline jam, reduce equipment failure rate, the practicality is strong.

In the description of the present invention, it is to be understood that the terms "top end", "bottom end", "one end", "front side", "rear side", "other end", "upper", "lower", "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 in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated; also, unless expressly stated or limited otherwise, the terms "mounted," "screwed," "plugged," "interference fit," "disposed," and the like are to be construed broadly, e.g., as a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a cement agitating unit for construction which characterized in that includes:

a base (1);

the control box (2) is arranged at the center of the right side of the top end of the base (1) along the vertical direction;

the feeding mechanism (3) is arranged on the front side of the top end of the base (1) along the vertical direction;

and the stirring mechanism (4) is arranged at the top end of the base (1) along the vertical direction and is positioned at the rear side of the feeding mechanism (3).

2. The cement mixer for building construction according to claim 1, wherein: the feeding mechanism (3) comprises:

the guide rail bracket (31) is arranged at the left end of the front side of the top end of the base (1) along the vertical direction;

the number of the positioning shafts (32) is two, the two positioning shafts (32) are respectively connected to the upper end and the lower end of the inner cavity of the guide rail frame (31) in the left-right direction in a rotating mode through bearings, the inner ring of each bearing is in interference fit with the outer wall of each positioning shaft (32), and the outer ring of each bearing is fixedly connected with the inner wall of the guide rail frame (31);

the number of the chain wheels (33) is two, and the two chain wheels (33) are respectively in interference fit with the outer walls of the upper positioning shaft (32) and the lower positioning shaft (32);

the first motor (34) is installed on the left side of the bottom end of the guide rail frame (31), the output end of the first motor (34) is connected with a left side screw of a positioning shaft (32) located at the bottom end of the inner cavity of the guide rail frame (31), and the first motor (34) is electrically connected with the control box (2);

the inner side of the chain (313) is sleeved on the outer walls of the upper chain wheel (33) and the lower chain wheel (33) and meshed with the inner side of the chain (313);

and the base block (35) is fixedly connected to the left side of the outer wall of the chain (313).

3. The cement mixer for building construction as claimed in claim 2, wherein: the feeding mechanism (3) further comprises:

the rotating shaft (36) is rotatably connected to the inner side of the base block (35) through a bearing in the left-right direction, an inner ring of the bearing is in interference fit with the outer wall of the rotating shaft (36), an outer ring of the bearing is fixedly connected with the inner wall of the base block (35), and the left end and the right end of the rotating shaft (36) respectively extend out of the outer wall of the base block (35) and the left side and the right side of an inner cavity of the guide rail frame (31);

the number of the limiting rollers (37) is two, the number of the limiting rollers (37) in each group is four, the two groups of limiting rollers (37) are rotatably connected to four corners of the left side and the right side of the base block (35) through pin shafts respectively, and grooves in the outer wall of each limiting roller (37) are in adaptive clamping connection with the inner cavity of the guide rail frame (31);

and the feeding hopper (38) is installed at the right end of the rotating shaft (36) through a fixed seat.

4. The cement mixer for building construction according to claim 3, wherein: the feeding mechanism (3) further comprises:

a half gear (39) which is in interference fit with the left side of the outer wall of the rotating shaft (36);

a slide block (310) which is connected to the left end of the rotating shaft (36) through a screw;

the first sliding rail (311) is arranged at the bottom end of the left side of the guide rail frame (31) along the vertical direction, and the sliding block (310) is in adaptive insertion connection with the inner cavity of the first sliding rail (311);

the second sliding rail (312) is arranged at the top end of the first sliding rail (311), the bottom end of an inner cavity of the second sliding rail (312) is communicated with the top end of the inner cavity of the first sliding rail (311), and the top end of the inner cavity of the second sliding rail (312) is arc-shaped;

and the rack block (314) is arranged on the right side of the second sliding rail (312) and is positioned at the corresponding position of the arc, and the rack block (314) can be meshed with the half gear (39).

5. The cement mixer for building construction according to claim 1, wherein: the stirring mechanism (4) comprises:

a stirring mechanism housing (41) which is arranged at the top end of the base (1) along the vertical direction through a bracket and is positioned at the rear side of the feeding hopper (38)

The stirring cabin (42) is arranged at the bottom end of the inner cavity of the stirring mechanism shell (41) along the vertical direction, and the bottom end of the stirring cabin (42) extends out of the lower surface of the stirring mechanism shell (41);

the feeding hopper (43) is arranged at the position corresponding to the top end of the outer wall of the stirring mechanism shell (41) and the feeding hopper (38), and a feeding pipe at the bottom end of the feeding hopper (43) extends into the inner cavity of the stirring mechanism shell (41);

the water inlet valve pipe (44) is arranged on the outer wall of the stirring cabin (42), and the outer side of the water inlet valve pipe (44) extends out of the outer wall of the stirring mechanism shell (41);

the discharging cabin door (45) is arranged at the bottom end of the inner cavity of the stirring cabin (42);

the second motor (46) is installed at the top end of the stirring mechanism shell (41), the output end of the second motor (46) extends into the inner cavity of the stirring mechanism shell (41), and the second motor (46) is electrically connected with the control box (2);

and the stirring rod (47) is connected to the output end of the second motor (46) through screws in the up-down direction, and the bottom end of the stirring rod (47) extends into the inner cavity of the stirring cabin (42).