CN113500696A - Cement sealed cement stirring device for building - Google Patents

Abstract

The invention discloses a cement sealed cement stirring device for construction, which comprises: mounting a support; the particle grinding assembly is transversely fixed on the upper end surface of the mounting support through a support frame, and a feeding end seat is arranged above the particle grinding assembly; the sealing stirring component is vertically arranged on the upper end face of the mounting support, a feeding pipe fitting is connected to the upper end of the sealing stirring component, and one end of the feeding pipe fitting is communicated with the particle grinding component; the water inlet pipe fitting is vertically penetrated and connected with one side of the upper end surface of the sealed stirring component; and an outer discharge branch pipe transversely erected below one side of the sealed stirring assembly.

Description

Cement sealed cement stirring device for building

Technical Field

The invention belongs to the technical field of building construction equipment, and particularly relates to a cement sealed cement stirring device for buildings.

Background

The cement is a powdery hydraulic inorganic cementing material, is added with water and stirred into slurry, can be hardened in the air or in water, and can firmly bond materials such as sand, stone and the like together, and the cement is taken as an important cementing material and widely applied to engineering such as civil construction, water conservancy, national defense and the like for a long time; before being used in building construction, cement is required to be mixed and stirred with water for use, and is generally finished by using a cement stirrer in construction; in addition, the existing stirring equipment is not closed and opened, so that the phenomena of inconsistent stirring viscosity, air moisture doped in the cement and excessive dilution easily occur in the cement stirring process, especially in the environment with higher air humidity, and therefore, technical personnel in the field provide a cement stirring device for the cement sealed type for buildings to solve the problems in the background technology.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a cement-sealed type cement mixing device for construction, comprising:

mounting a support;

the particle grinding assembly is transversely fixed on the upper end surface of the mounting support through a support frame, and a feeding end seat is arranged above the particle grinding assembly;

the sealing stirring component is vertically arranged on the upper end face of the mounting support, a feeding pipe fitting is connected to the upper end of the sealing stirring component, and one end of the feeding pipe fitting is communicated with the particle grinding component;

the water inlet pipe fitting is vertically penetrated and connected with one side of the upper end surface of the sealed stirring component; and

the outer discharge branch pipe is transversely erected below one side of the sealed stirring assembly;

the cement concrete is introduced into the particle grinding component through the feeding end seat, and the particle grinding component is used for grinding and refining the cement concrete which is agglomerated into blocks, so that the cement concrete is in uniform particles when entering the sealed stirring component through the feeding pipe for mixing and stirring; the sealed stirring assembly can efficiently mix and stir cement concrete, so that the cement concrete can roll up and down in the sealed stirring assembly, meanwhile, the cement concrete can be prevented from being locally precipitated in the stirring process, and the cement concrete after stirring and mixing is conveyed to an external material barrel through the external discharge branch pipe.

Further, as a preference, the particle milling assembly comprises:

fixing the outer cylinder;

the inner sealing cylinder is coaxially and relatively slidably arranged in the fixed outer cylinder;

the telescopic shaft lever is transversely arranged in the inner sealing cylinder in a relatively rotatable manner through a bearing, one end of the telescopic shaft lever extends out of the fixed outer cylinder, a transmission tooth holder is arranged on the fixed outer cylinder, and a rotating motor is arranged on the transmission tooth holder and used for driving the telescopic shaft lever to rotate;

the upper shaft coupling pipe is arranged on the inner sealing cylinder in a penetrating and connecting mode, and one end of the upper shaft coupling pipe is communicated with the feeding end seat;

the grinding disc seats are transversely arranged and are coaxially sleeved and fixed on the telescopic shaft rod;

the material guide vane plates are arranged transversely and are arranged at intervals with the grinding disc seat;

the telescopic guide pipe is transversely connected with one end, far away from the transmission tooth holder, of the inner sealing cylinder, and one end of the telescopic guide pipe is communicated with the feeding pipe fitting; and

and the axial pushing assemblies are arranged in a circumferential array, and one end of each axial pushing assembly is abutted and contacted with the inner sealing barrel.

Preferably, a plurality of extrusion shaft collars are attached to the inner side wall of the inner sealing cylinder, and the extrusion shaft collars are arranged in the inner sealing cylinder in the order of inner diameter;

heating pipes are arranged on the outer circumference of the inner sealing cylinder in an array mode.

Further, preferably, the axial thrust assembly includes:

the fixed bracket is transversely fixed in the fixed outer cylinder;

a transmission rod hinged on the fixed bracket, wherein one end of the transmission rod is constructed into a two-section telescopic structure;

the rotating disc is arranged on the fixed support in a relatively rotating mode and is driven to rotate by an external motor on the fixed support, and one end of the transmission rod is hinged to the rotating disc; and

the guide rail parts are arranged in a circumferential array mode, are constructed into arc structures and are arranged in one-to-one correspondence with the fixing supports, and the other ends of the transmission rods slide along the guide rail parts in a limiting mode through rolling shafts.

Preferably, a plurality of supporting springs are further connected to one side of the inner sealing cylinder, which is far away from the axial pushing assembly, and one end of each supporting spring is connected with the fixed outer cylinder.

Further, preferably, the seal-agitating assembly includes:

receiving the outer cylinder;

the upper connection inner cylinder is coaxially and relatively slidably limited and arranged in the bearing outer cylinder;

the fixing support frame is vertically fixed on one side of the mounting support;

the transmission chain plates are arranged on the fixing support frames in parallel, one ends of the transmission chain plates are connected and fixed with the upper connection inner cylinders and assist in driving the upper connection inner cylinders to slide vertically;

the adjusting pipe is vertically arranged on the upper connecting inner cylinder in a penetrating mode and communicated with one end of the feeding pipe fitting; and

the adjusting and stirring device can be arranged in the upper connection inner cylinder and the bearing outer cylinder in a relatively rotating mode, and one end of the adjusting and stirring device is rotationally driven by a driving motor arranged below the bearing outer cylinder.

Further, preferably, the adjusting and stirring device further includes:

a central shaft configured in a two-end collapsible configuration;

the upper connecting rods are arranged in a circumferential array, and one end of each upper connecting rod is fixed with the central shaft;

the stirring shaft is hinged on the upper connecting rod; and

the inner adjusting support rod is vertically fixed in the bearing outer barrel, one end of the inner adjusting support rod is hinged to a telescopic support rod, one end of the telescopic support rod is hinged to the guide shaft sleeve, the guide shaft sleeve is sleeved on the central shaft in a sliding mode, and the other end of the telescopic support rod is hinged to the stirring shaft.

Further, preferably, the inner adjusting stay bar is of a multi-section type telescopic structure.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, bagged cement concrete can be fed into the particle milling assembly through the feeding end seat, the milling disc seat in the inner sealing cylinder is matched with the extrusion shaft ring to mill and mix the cement concrete, and drying treatment is carried out under the auxiliary heating of the heating pipe, so that the uniform particles and internal drying of the cement concrete are kept before mixing and stirring, and the proportion of the cement concrete in water adding and stirring is ensured; in order to prevent the cement concrete from being bonded and adhered in the inner sealing cylinder by the water concrete in the grinding and crushing process, the axial pushing component provides axial reciprocating displacement for the inner sealing cylinder, so that the internal fluidity of the cement concrete is improved; the mounting support is provided with a sealing stirring component for sealing, isolating and stirring cement concrete, and can perform internal auxiliary pressurization by relative sliding action between the bearing outer cylinder and the upper connecting inner cylinder, so that the integration in stirring is ensured.

Drawings

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

FIG. 2 is a schematic view of the particle milling assembly of the present invention;

FIG. 3 is a schematic view of an axial thrust assembly of the present invention;

FIG. 4 is a schematic structural view of a seal agitator assembly according to the present invention;

FIG. 5 is a schematic view of the structure of the adjusting stirring device of the present invention;

in the figure: the device comprises a mounting support 1, a 101 outer discharge branch pipe, a 102 support frame, a 2 water inlet pipe, a 3 feeding pipe, a 4 particle grinding assembly, a 401 fixed outer cylinder, a 402 inner sealing cylinder, a 403 transmission tooth seat, a 404 rotating motor, a 405 telescopic shaft rod, a 406 grinding disc seat, a 407 upper connecting shaft pipe, a 5 feeding end seat, a 6 sealing stirring assembly, a 601 receiving outer cylinder, a 602 upper connecting inner cylinder, a 603 fixed support frame, a 604 transmission chain plate, a 605 adjusting pipe, a 606 driving motor, a 7 axial pushing assembly, a 701 fixed support, a 702 rotating disc, a 703 transmission rod, a 704 guide rail element, an 8 adjusting stirring device, a 801 central shaft, an 802 upper connecting rod, a 803 stirring shaft, 804 inner adjusting support rod and a 805 telescopic support rod.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a cement mixer for construction includes:

installing a support 1;

the particle milling assembly 4 is transversely fixed on the upper end face of the mounting support 1 through a support frame 102, and a feeding end seat 5 is arranged above the particle milling assembly 4;

the sealing stirring component 6 is vertically arranged on the upper end face of the mounting support 1, a feeding pipe fitting 3 is connected to the upper end of the sealing stirring component 6, and one end of the feeding pipe fitting 3 is communicated with the particle grinding component 4;

the water inlet pipe fitting 2 is vertically penetrated and connected with one side of the upper end surface of the sealed stirring component 6; and

the outer discharge branch pipe 101 is transversely erected below one side of the sealing and stirring assembly 6;

wherein, the cement concrete is introduced into the particle grinding component 4 through the feeding end seat 5, and the particle grinding component 4 crushes and refines the cement concrete which is agglomerated into blocks, so that the cement concrete is in uniform particle shape when entering the sealed stirring component 6 through the feeding pipe 3 for mixing and stirring; the sealed stirring assembly 6 can efficiently mix and stir cement concrete, so that the cement concrete can roll up and down inside the sealed stirring assembly, meanwhile, the cement concrete can be prevented from being locally precipitated during stirring, and the cement concrete after stirring and mixing is conveyed to an external material barrel (not shown in the figure) through the external discharge branch pipe 101.

In this embodiment, the particle milling assembly 4 comprises:

a fixed outer cylinder 401;

an inner sealing cylinder 402 coaxially and relatively slidably arranged in the fixed outer cylinder 401;

the telescopic shaft rod 405 is transversely arranged in the inner sealing cylinder 402 in a relatively rotatable manner through a bearing, one end of the telescopic shaft rod extends out of the fixed outer cylinder 401, a transmission tooth holder 403 is arranged on the fixed outer cylinder 401, and a rotating motor 404 is arranged on the transmission tooth holder 403 and used for driving the telescopic shaft rod 405 to rotate;

the upper shaft coupling pipe 407 is penetratingly connected to the inner sealing cylinder 402, and one end of the upper shaft coupling pipe 407 is communicated with the feeding end seat 5;

a plurality of milling disc seats 406 are arranged in a transverse direction, and the milling disc seats 406 are coaxially sleeved and fixed on the telescopic shaft rod 405;

the guide vane plates are transversely arranged, and are arranged at intervals with the grinding disc seat 406 and used for guiding the cement concrete internally and improving the discharging efficiency;

the telescopic guide pipe is transversely connected to one end, far away from the transmission tooth holder 403, of the inner sealing barrel 402, and one end of the telescopic guide pipe is communicated with the feeding pipe fitting 3; and

the axial pushing assemblies 7 are arranged in a circumferential array, one end of each axial pushing assembly 7 is abutted and contacted with the inner sealing barrel 402, the axial pushing assemblies can provide axial sliding power for the inner sealing barrel, so that cement concrete adhered to the barrel wall of the inner sealing barrel can fall off timely, and particularly under the condition that part of the cement concrete is doped with air moisture, the cement concrete can be effectively prevented from being combined and hardened, and damage to equipment is prevented.

As a preferred embodiment, a plurality of extrusion collars are attached to the inner side wall of the inner sealing cylinder 402, and the extrusion collars are arranged in the inner sealing cylinder 402 in the order of inner diameter, specifically, the extrusion collars are sequentially reduced from left to right in shaft diameter, so as to prevent the material jamming inside;

the outer circumferential array of the inner sealing cylinder 402 is provided with heating pipes (not shown in the figure) for drying the cement concrete so as to separate the cement concrete from water in time.

In this embodiment, the axial thrust assembly 7 comprises:

a fixing bracket 701 fixed in the fixing outer cylinder 401 in a transverse direction;

a transmission rod 703 hinged to the fixing bracket 701, wherein one end of the transmission rod 703 is configured as a two-segment telescopic structure;

the rotating disc 702 is arranged on the fixed bracket 701 in a relatively rotatable manner and is driven to rotate by an external motor on the fixed bracket 701, and one end of the transmission rod 703 is hinged with the rotating disc 702; and

the guide rail members 704 are arranged in a circumferential array, are constructed in an arc structure, and are arranged in one-to-one correspondence with the fixing brackets 701, and the other ends of the transmission rods 703 slide along the guide rail members 704 in a limited manner through rollers.

In this embodiment, a plurality of supporting springs are further connected to a side of the inner sealing cylinder 402 away from the axial pushing assembly 7, and one end of each supporting spring is connected to the fixed outer cylinder 401, so that the sliding frequency effect of the inner sealing cylinder is improved, and the external vibration influence can be reduced.

In this embodiment, the seal agitation assembly 6 includes:

a receiving outer cylinder 601;

the upper connection inner cylinder 602 is coaxially and relatively slidably limited and arranged in the bearing outer cylinder 601;

the fixing support 603 is vertically fixed on one side of the mounting support 1;

the transmission chain plates 604 are arranged on the fixing support frames 603 in parallel, one ends of the transmission chain plates 604 are connected and fixed with the upper connection inner cylinder 602, and assist in driving the upper connection inner cylinder 602 to slide vertically; it is noted that the upper connecting inner cylinder and the receiving outer cylinder are in a sealing connection state, so that when the upper connecting inner cylinder descends gradually along with the transmission chain plate, the cement concrete in the receiving outer cylinder can be pressurized and stirred to ensure the stirring integration,

the adjusting pipe 605 vertically penetrates through the upper connecting inner cylinder 602, and the adjusting pipe 605 is communicated with one end of the feeding pipe fitting 3; and

the adjusting and stirring device 8 is arranged in the upper coupling inner cylinder 602 and the receiving outer cylinder 601 in a relatively rotatable manner, and one end of the adjusting and stirring device 8 is rotationally driven by a driving motor 606 arranged below the receiving outer cylinder 601.

As a preferred embodiment, the adjusting stirring device 8 further comprises:

a central shaft 801 configured in a two-ended collapsible configuration;

a plurality of upper links 802 arranged in a circumferential array, one end of each upper link 802 being fixed to the central shaft 801;

a stirring shaft 803 hinged on the upper link 802; and

the inner adjusting support rod 804 is vertically fixed in the bearing outer cylinder 601, one end of the inner adjusting support rod 804 is hinged with a telescopic support rod 805, one end of the telescopic support rod 805 is hinged with a guide shaft sleeve, the guide shaft sleeve is sleeved on the central shaft in a sliding mode, and the other end of the telescopic support rod 805 is hinged with the stirring shaft 803.

In this embodiment, the inner adjusting support rod 804 is a multi-section telescopic structure, and is used to adjust the initial stirring inclination angle of the stirring shaft, especially for hydraulic concrete with easily adhered clots, so as to ensure the stirring integrity.

Particularly, in cement mixing, in the interior sealed section of thick bamboo is sent into by the feed end seat to bagged cement, through rotating electrical machines rotary drive grinding disc seat and guide vane, make cement concrete grind the smashing under the cooperation of grinding disc seat and extrusion shaft collar, the heating pipe can provide constant temperature drying effect to it, realize dehydration, simultaneously, axial lapse subassembly can provide axial motion for the interior sealed section of thick bamboo, reinforcing cement concrete mobility, send it to accepting in the urceolus by the pay-off pipe fitting again, it is the local relative roll-off state with accepting the urceolus to go up to ally oneself with the inner tube this moment, mix the stirring through adjusting agitating unit to cement concrete, it slides down to linking up the inner tube by transmission link joint synchronous drive, so that provide the fusion pressure, guarantee its fusibility, and simultaneously, adjusting agitating unit corresponds the adjustment, thereby improve the stirring effect.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (8)

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

a mounting support (1);

the particle grinding component (4) is transversely fixed on the upper end face of the mounting support (1) through a support frame (102), and a feeding end seat (5) is arranged above the particle grinding component (4);

the sealing and stirring assembly (6) is vertically arranged on the upper end face of the mounting support (1), a feeding pipe fitting (3) is connected to the upper end of the sealing and stirring assembly (6), and one end of the feeding pipe fitting (3) is communicated with the particle grinding assembly (4);

the water inlet pipe fitting (2) is vertically penetrated and connected with one side of the upper end surface of the sealed stirring component (6); and

the outer discharge branch pipe (101) is transversely erected below one side of the sealing and stirring assembly (6);

wherein, the cement concrete is introduced into the particle grinding component (4) through the feeding end seat (5), and the particle grinding component (4) grinds and refines the cement concrete which is agglomerated into blocks, so that the cement concrete is in uniform particle shape when entering the sealed stirring component (6) through the feeding pipe (3) for mixing and stirring; the sealed stirring assembly (6) can efficiently mix and stir cement concrete, so that the cement concrete can roll up and down in the sealed stirring assembly, meanwhile, the cement concrete can be prevented from being locally precipitated in the stirring process, and the cement concrete after stirring and mixing is conveyed to an external material barrel through the external discharge branch pipe (101).

2. The cement-sealed type cement mixer for construction as set forth in claim 1, wherein: the particle milling assembly (4) comprises:

a fixed outer cylinder (401);

the inner sealing cylinder (402) is coaxially and relatively slidably arranged in the fixed outer cylinder (401);

the telescopic shaft lever (405) is transversely arranged in the inner sealing cylinder (402) in a relatively rotating mode through a bearing, one end of the telescopic shaft lever extends out of the fixed outer cylinder (401), a transmission tooth holder (403) is installed on the fixed outer cylinder (401), and a rotating motor (404) is arranged on the transmission tooth holder (403) and used for driving the telescopic shaft lever (405) to rotate;

the upper shaft coupling pipe (407) is connected to the inner sealing cylinder (402) in a penetrating manner, and one end of the upper shaft coupling pipe (407) is communicated with the feeding end seat (5);

the grinding disc seats (406) are arranged transversely, and the grinding disc seats (406) are coaxially sleeved and fixed on the telescopic shaft rod (405);

the material guide vanes are arranged transversely, and are arranged at intervals with the grinding disc seat (406);

the telescopic guide pipe is transversely connected with one end, far away from the transmission tooth holder (403), of the inner sealing barrel (402), and one end of the telescopic guide pipe is communicated with the feeding pipe fitting (3); and

the axial pushing assemblies (7) are arranged in a circumferential array, and one end of each axial pushing assembly (7) is abutted and contacted with the inner sealing cylinder (402).

3. The cement-sealed type cement mixer for construction as set forth in claim 2, wherein: a plurality of extrusion collars are arranged on the inner side wall of the inner sealing cylinder (402) in an attaching mode, and the extrusion collars are arranged in the inner sealing cylinder (402) according to the inner diameter sequence;

heating pipes are arranged on the outer circumference of the inner sealing cylinder (402) in an array mode.

4. The cement-sealed type cement mixer for construction as set forth in claim 3, wherein: the axial thrust assembly (7) comprises:

the fixing bracket (701) is transversely fixed in the fixing outer cylinder (401);

a transmission rod (703) hinged on the fixed bracket (701), wherein one end of the transmission rod (703) is constructed into a two-segment telescopic structure;

the rotating disc (702) is arranged on the fixed support (701) in a relatively rotating mode and is driven to rotate by an external motor on the fixed support (701), and one end of the transmission rod (703) is hinged to the rotating disc (702); and

the guide rail parts (704) are arranged in a circumferential array, are constructed into arc structures and are arranged in one-to-one correspondence with the fixing supports (701), and the other ends of the transmission rods (703) slide along the guide rail parts (704) in a limiting mode through rolling shafts.

5. The cement-sealed type cement mixer for construction as set forth in claim 3, wherein: a plurality of supporting springs are further connected to one side, far away from the axial pushing assembly (7), of the inner sealing barrel (402), and one end of each supporting spring is connected with the fixed outer barrel (401).

6. The cement-sealed type cement mixer for construction as set forth in claim 5, wherein: the seal agitation assembly (6) comprises:

a receiving outer cylinder (601);

the upper connection inner cylinder (602) is coaxially and relatively slidably limited and arranged in the bearing outer cylinder (601);

the fixing support frame (603) is vertically fixed on one side of the mounting support (1);

the transmission chain plates (604) are arranged on the fixing support frames (603) in parallel, one ends of the transmission chain plates (604) are connected and fixed with the upper connection inner cylinders (602), and the transmission chain plates assist in driving the upper connection inner cylinders (602) to slide vertically;

the adjusting pipe (605) vertically penetrates through the upper connecting inner cylinder (602), and the adjusting pipe (605) is communicated with one end of the feeding pipe fitting (3); and

the adjusting and stirring device (8) is arranged in the upper connecting inner cylinder (602) and the bearing outer cylinder (601) in a relatively rotating mode, and one end of the adjusting and stirring device (8) is rotationally driven by a driving motor (606) arranged below the bearing outer cylinder (601).

7. The cement-sealed type cement mixer for construction as set forth in claim 6, wherein: the adjusting and stirring device (8) further comprises:

a central shaft (801) configured in a two-ended collapsible configuration;

a plurality of upper links (802) arranged in a circumferential array, one end of each upper link (802) being fixed to the central shaft (801);

the stirring shaft (803) is hinged on the upper connecting rod (802); and

the inner adjusting support rod (804) is vertically fixed in the bearing outer barrel (601), one end of the inner adjusting support rod (804) is hinged to a telescopic support rod (805), one end of the telescopic support rod (805) is hinged to a guide shaft sleeve, the guide shaft sleeve is sleeved on the central shaft in a sliding mode, and the other end of the telescopic support rod (805) is hinged to the stirring shaft (803).

8. The cement-sealed type cement mixer for construction as set forth in claim 7, wherein: the inner adjusting support rod (804) is of a multi-section type telescopic structure.

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