CN218838180U - Heat preservation mortar agitating unit - Google Patents

Abstract

The utility model relates to a mortar stirring technical field discloses a heat preservation mortar agitating unit, and it includes the agitator tank, and the upper end department of agitator tank is equipped with the inlet pipe in the intercommunication agitator tank, and the lower tip department of agitator tank is equipped with the blowing pipe in the intercommunication agitator tank, is equipped with in the agitator tank to be used for carrying out the seal assembly of shutoff to the blowing pipe, and the seal assembly overcoat is equipped with the stirring subassembly that is used for carrying out the stirring to the mortar in the agitator tank. Through the structure, the sealing assembly can plug the opening of the discharge pipe communicated with the stirring tank in the stirring tank, and can prevent the heat-preservation mortar injected into the stirring tank from flowing into the discharge pipe, so that the heat-preservation mortar in the stirring tank is fully stirred; through the setting of stirring subassembly, realize stirring the operation to the heat preservation mortar in the agitator tank better.

Description

Heat preservation mortar agitating unit

Technical Field

The utility model relates to a mortar stirring technical field, specifically speaking relates to a heat preservation mortar agitating unit.

Background

The heat-insulating mortar is prepared by mixing various light materials as aggregate, cement as a cementing material and some modified additives, and stirring and mixing the materials by a production enterprise. At present, in the production process of the thermal insulation mortar, a stirring device is generally adopted to stir and mix the thermal insulation mortar.

Most of the existing stirring devices are used for injecting heat-insulating mortar into a stirring tank for stirring, and discharging is carried out by a discharging pipe at the bottom of the stirring tank after stirring is finished, for example, a heat-insulating mortar stirring device disclosed in the patent No. CN216400059U can drive a stirring rod and a scraper to rotate in a matching way through a rotating rod, so that the heat-insulating mortar in a shell is stirred; the control valve is arranged on the discharging pipe, and the opening and closing of the discharging pipe are controlled through the control valve, so that the discharging operation is realized; however, the open and close mode of the discharging pipe is controlled by installing the control valve on the discharging pipe, so that the position, above the control valve, of the discharging pipe is also provided with a communicating cavity communicated with the stirring tank, and then the thermal insulation mortar added into the stirring tank can flow into the communicating cavity, so that the thermal insulation mortar cannot be stirred and mixed, and the mixing effect of the thermal insulation mortar is influenced.

SUMMERY OF THE UTILITY MODEL

The heat preservation mortar to the agitator tank that exists among the prior art can flow into to the blowing intraductal, causes this part heat preservation mortar to obtain the defect of stirring, the utility model provides a heat preservation mortar agitating unit.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

heat preservation mortar agitating unit, it includes the agitator tank, and the upper end department of agitator tank is equipped with the inlet pipe in the intercommunication agitator tank, and the lower tip department of agitator tank is equipped with the blowing pipe in the intercommunication agitator tank, is equipped with in the agitator tank to be used for carrying out the seal assembly of shutoff to the blowing pipe, and the seal assembly overcoat is equipped with the stirring subassembly that is used for carrying out the stirring to the mortar in the agitator tank.

As preferred, seal assembly includes the fixed pipe of vertical setting, and fixed intraductal both ends open-ended installation cavity that is equipped with the piston post of liftable through the driving piece in the installation cavity, and driving piece drive piston post moves down and realizes that the piston post carries out the shutoff to the blowing pipe, and driving piece drive piston post shifts up and realizes opening of blowing pipe.

Preferably, a separating ring is arranged in the mounting cavity and is used for separating the mounting cavity into an upper mounting cavity and a lower mounting cavity;

the piston column is arranged in the lower mounting cavity, the upper end part of the piston column is provided with a fixed rod which penetrates through the separating ring and extends into the upper mounting cavity, the upper end part of the fixed rod is provided with a sliding column which is positioned in the upper mounting cavity and slides, and the fixed rod positioned in the upper mounting cavity is sleeved with a spring for driving the piston column to move upwards;

the driving piece comprises a rotating block which is rotatably arranged in the upper mounting cavity, and ejector rods of which the lower ends are abutted against the upper end part of the sliding column are uniformly distributed on the rotating block;

the lateral wall of slip post just is located upper end department and is equipped with the recess that supplies to correspond the ejector pin and stretch into, is equipped with the direction inclined plane that supplies to correspond the ejector pin and slide into or the roll-off recess on the recess, and the turning block rotates in the drive ejector pin slides into the recess and realizes in the piston post withdrawal fixed tube, and the turning block rotates in the drive ejector pin roll-off recess and realizes that the piston post stretches out the fixed tube and carries out the shutoff to the blowing pipe.

Preferably, a rotating rod extending out of the upper end part of the stirring tank is arranged on the rotating block, and a hand-operated wheel is arranged at the end part of the rotating rod extending out of the upper end part of the stirring tank.

Preferably, the stirring assembly comprises a stirring pipe which is rotatably sleeved outside the fixed cylinder, and stirring frames for stirring are uniformly distributed on the outer wall of the stirring pipe along the circumferential direction.

Preferably, the stirring frame comprises two mounting plates which are arranged in parallel along the axial direction of the stirring pipe, a plurality of scraping plates are arranged between the two mounting plates along the axial direction of the two mounting plates, and the scraping plate positioned at the outermost end of each mounting plate is used for scraping and sweeping the inner wall of the stirring tank.

Preferably, the lower end part of the fixed pipe is provided with a mounting ring for mounting the stirring pipe, and the upper end part of the stirring pipe is provided with a first gear;

the upper end of agitator tank department is equipped with the motor, is equipped with on the output shaft of motor to be used for with the second gear of first gear engaged with.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, through the positive and negative rotation of turning block can make the ejector pin slide in or the roll-off recess, realize the lift of piston post to opening and shutting of control blowing pipe, it can avoid the heat preservation mortar to flow in the blowing pipe effectively, thereby makes the heat preservation mortar in the blowing jar obtain abundant stirring.

2. The utility model discloses in, when driving the agitator through motor drive agitator pipe and rotate and stir, the scraper blade that is located the mounting panel outermost end can scrape the agitator tank inner wall and sweep, prevents that the heat preservation mortar from adhering to on the agitator tank inner wall to make the heat preservation mortar obtain abundant stirring.

Drawings

FIG. 1 is a schematic view of an apparatus for stirring a thermal mortar in example 1.

FIG. 2 is a schematic sectional view of the thermal mortar stirring apparatus in example 1.

Fig. 3 is a schematic structural view of the assembly between the driver and the piston cylinder in embodiment 1.

Fig. 4 is a schematic structural view of a stirring assembly in embodiment 1.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1-2, the present embodiment provides a thermal mortar stirring apparatus, which includes a stirring tank 100, a feeding pipe 101 connected to the inside of the stirring tank 100 is disposed at an upper end of the stirring tank 100, a discharging pipe 102 connected to the inside of the stirring tank 100 is disposed at a lower end of the stirring tank 100, a sealing assembly for sealing the discharging pipe 102 is disposed in the stirring tank 100, and a stirring assembly for stirring mortar in the stirring tank 100 is sleeved outside the sealing assembly.

By the structure in the embodiment, the heat-insulating mortar can be injected into the stirring tank 100 through the feeding pipe 101, and the stirred heat-insulating mortar can be discharged through the discharging pipe 102;

through the arrangement of the sealing assembly, the sealing assembly can plug an opening of the discharging pipe 102 in the stirring tank 100, which is communicated with the stirring tank 100, so that the heat-insulating mortar injected into the stirring tank 100 can be prevented from flowing into the discharging pipe 102, and the heat-insulating mortar in the stirring tank 100 is fully stirred;

wherein, through the setting of stirring subassembly, realize carrying out the stirring operation to the heat preservation mortar in agitator tank 100 better.

Referring to fig. 2, in this embodiment, the sealing assembly includes a vertically arranged fixed tube 210, an installation cavity 211 with openings at two ends is arranged in the fixed tube 210, a liftable piston column 220 is arranged in the installation cavity 211 through a driving member, the driving member drives the piston column 220 to move down to plug the discharging tube 102, and the driving member drives the piston column 220 to move up to open the discharging tube 102.

In this embodiment, a mounting flange is disposed at an upper end of the fixing pipe 210, and the fixing pipe is mounted in the stirring tank 100 through the mounting flange; when the device is actually used, the lower end part of the fixed pipe 210 is arranged corresponding to the opening of the discharging pipe 102, and a height difference exists between the lower end part and the opening, so that when the piston column 220 in the fixed pipe 210 moves downwards, the lower end of the piston column 220 extends out of the fixed pipe 210 and moves downwards to the opening of the discharging pipe 102, the opening of the discharging pipe 102 is blocked, the discharging pipe 102 is closed, and the heat-preservation mortar in the stirring tank 100 is prevented from flowing into the discharging pipe 102; when the piston column 220 moves upwards to retract into the fixed pipe 210, the discharging pipe 102 is opened, and the thermal mortar in the stirring tank 100 can be discharged from the discharging pipe 102;

wherein, through the setting of driving piece, realize the lift of piston column 220 in fixed section of thick bamboo 210 better, realize opening and shutting of blowing pipe 102.

Referring to fig. 3, in the present embodiment, a separating ring 212 is disposed in the mounting cavity 211, and the separating ring 212 is used to separate the mounting cavity 211 into an upper mounting cavity 211a and a lower mounting cavity 211b;

the piston column 220 is arranged in the lower mounting cavity 211b, the upper end part of the piston column 220 is provided with a fixed rod 221 which penetrates through the separation ring 212 and extends into the upper mounting cavity 211a, the upper end part of the fixed rod 221 is provided with a sliding column 230 which is positioned in the upper mounting cavity 211a and slides, and the fixed rod 221 positioned in the upper mounting cavity 211a is sleeved with a spring 240 for driving the piston column 220 to move upwards;

the driving piece comprises a rotating block 250 which can be rotatably arranged in the upper mounting cavity 211a, and push rods 301 of which the lower ends are abutted against the upper end part of the sliding column 230 are uniformly distributed on the rotating block 250;

the outer side wall of the sliding column 230 is provided with a groove 311 at the upper end part, into which the corresponding push rod 301 extends, the groove 311 is provided with a guide inclined surface 312, into which the corresponding push rod 301 slides or slides out of the groove 311, the rotating block 250 rotates to drive the push rod 301 to slide into the groove 311 to retract the piston column 220 into the fixed tube 210, and the rotating block 250 rotates to drive the push rod 301 to slide out of the groove 311 to drive the piston column 220 to extend out of the fixed tube 210 to block the discharging tube 102.

Through the structure in the embodiment, the rotating block 250 can be rotated forward and backward in both directions to drive the top rod 301 to slide out of or into the groove 311 along the guide inclined plane 312, and the piston column 220 can be lifted and lowered in the fixed cylinder 210 under the action of the spring 240;

in order to avoid that the rotating block 250 rotates to drive the piston column 220 to rotate circumferentially, the outer wall of the fixing rod 221 is provided with a sliding groove 331 along the axial direction thereof, the inner ring of the separation ring 212 is provided with a sliding block which is positioned in the sliding groove 331 to slide, and circumferential limit on the piston column 220 is realized through the matching of the sliding groove 311 and the sliding block;

in order to attach the slide column 230, a screw 332 penetrating the slide column 230 is provided at an upper end of the fixing rod 221, and a nut 333 for attaching the slide column 230 to the screw 332 is threadedly mounted at an upper end of the screw 332.

In this embodiment, the rotating block 250 is provided with a rotating rod 302 extending out of the upper end of the stirring tank 100, and the end of the rotating rod 302 extending out of the upper end of the stirring tank 100 is provided with a hand-operated wheel 303.

Through the structure in this embodiment for the user can drive the two-way rotation of turning block 250 through hand rocking wheel 303 better, thereby makes control piston post 220 go up and down to realize that blowing pipe 102 opens and shuts more convenient.

Referring to fig. 2, in this embodiment, the stirring assembly includes a stirring tube 260 rotatably sleeved outside the fixed cylinder 210, and stirring frames 261 for stirring are uniformly distributed on an outer wall of the stirring tube 260 along a circumferential direction.

Through the structure in this embodiment, make the rotation of agitator tube 260 can drive agitator 261 and stir the heat preservation mortar in agitator tank 100.

Referring to fig. 4, in this embodiment, the stirring frame 261 includes two mounting plates 410 disposed in parallel along the axial direction of the stirring pipe 260, a plurality of scrapers 411 are disposed between the two mounting plates 410 along the axial direction, and the scraper 411 located at the outermost end of the mounting plates 410 is used for scraping the inner wall of the stirring tank 100.

Through the structure in this embodiment for the in-process that agitator pipe 260 drove agitator 261 and rotates and stir, the scraper blade 411 that is located the mounting panel 410 outermost end can scrape the agitator tank 100 inner wall and sweep, and then makes the heat preservation mortar attached to on agitator tank 100 inner wall drop better, thereby makes the heat preservation mortar obtain the stirring of preferred.

In this embodiment, a mounting ring 270 for mounting the agitation pipe 260 is disposed at the lower end of the fixed pipe 210, and a first gear 421 is disposed at the upper end of the agitation pipe 260;

the upper end of the stirring tank 100 is provided with a motor 110, and an output shaft of the motor 110 is provided with a second gear engaged with the first gear 421.

Through the structure in the embodiment, the motor 110 can drive the stirring pipe 260 to rotate, so that the stirring component can stir the thermal mortar better.

When the thermal insulation mortar stirring device is used specifically, firstly, the piston column 220 is driven to move downwards by rotating the hand-operated wheel 303, so that the discharging pipe 102 is closed; then, the thermal insulation mortar is injected into the stirring tank 100 through the feeding pipe 101, the stirring pipe 260 is driven to rotate by the starting motor 110 to drive the stirring frame 261 to stir the thermal insulation mortar, after the stirring operation is completed, the piston column 220 is driven to move upwards by rotating the hand-operated wheel 303 in the opposite direction, so that the discharging pipe 102 is opened, and the discharging operation of the thermal insulation mortar is realized.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (7)

1. Heat preservation mortar agitating unit, its characterized in that: including agitator tank (100), the upper end department of agitator tank (100) is equipped with inlet pipe (101) in the intercommunication agitator tank (100), and the lower tip department of agitator tank (100) is equipped with blowing pipe (102) in the intercommunication agitator tank (100), is equipped with in agitator tank (100) to be used for carrying out the seal assembly of shutoff to blowing pipe (102), and the seal assembly overcoat is equipped with and is used for carrying out the stirring subassembly that stirs to the mortar in agitator tank (100).

2. The thermal mortar stirring apparatus of claim 1, wherein: sealing assembly includes fixed pipe (210) of vertical setting, is equipped with both ends open-ended installation cavity (211) in fixed pipe (210), is equipped with piston post (220) of liftable through the driving piece in installation cavity (211), and driving piece drive piston post (220) move down and realize piston post (220) and carry out the shutoff to blowing pipe (102), and driving piece drive piston post (220) are shifted up and are realized opening of blowing pipe (102).

3. The thermal mortar stirring apparatus of claim 2, wherein: a separating ring (212) is arranged in the mounting cavity (211), and the separating ring (212) is used for separating the mounting cavity (211) into an upper mounting cavity (211 a) and a lower mounting cavity (211 b);

the piston column (220) is arranged in the lower mounting cavity (211 b), the upper end part of the piston column (220) is provided with a fixed rod (221) which penetrates through the separating ring (212) and extends into the upper mounting cavity (211 a), the upper end part of the fixed rod (221) is provided with a sliding column (230) which is positioned in the upper mounting cavity (211 a) and slides, and the fixed rod (221) positioned in the upper mounting cavity (211 a) is sleeved with a spring (240) used for driving the piston column (220) to move upwards;

the driving piece comprises a rotating block (250) which can be rotatably arranged in the upper mounting cavity (211 a), and ejector rods (301) of which the lower ends are abutted against the upper end part of the sliding column (230) are uniformly distributed on the rotating block (250);

the lateral wall of slip post (230) just is located upper end department and is equipped with recess (311) that supply to correspond ejector pin (301) and stretch into, be equipped with on recess (311) and supply to correspond guide inclined plane (312) that ejector pin (301) slided in or roll-off recess (311), turning block (250) rotate drive ejector pin (301) and realize in piston post (220) withdrawal fixed pipe (210) in sliding recess (311), turning block (250) rotate drive ejector pin (301) and realize in roll-off recess (311) that piston post (220) stretch out fixed pipe (210) and carry out the shutoff to discharging pipe (102).

4. The thermal mortar stirring apparatus of claim 3, wherein: a rotating rod (302) extending out of the upper end part of the stirring tank (100) is arranged on the rotating block (250), and a hand-operated wheel (303) is arranged at the end part of the rotating rod (302) extending out of the upper end part of the stirring tank (100).

5. The thermal mortar mixing device of claim 2, wherein: the stirring subassembly includes rotatable cover stirring pipe (260) outside fixed pipe (210), evenly has been laid along circumference on the outer wall of stirring pipe (260) and is used for stirring frame (261).

6. The thermal mortar mixing device of claim 5, wherein: stirring frame (261) is including two mounting panels (410) along stirred tube (260) axial parallel arrangement, has laid a plurality of scraper blades (411) along its axial between two mounting panels (410), and scraper blade (411) that are located mounting panel (410) outermost end are used for scraping agitator tank (100) inner wall and sweep.

7. The thermal mortar mixing device of claim 5, wherein: a mounting ring (270) for mounting the stirring pipe (260) is arranged at the lower end part of the fixed pipe (210), and a first gear (421) is arranged at the upper end part of the stirring pipe (260);

the upper end of the stirring tank (100) is provided with a motor (110), and an output shaft of the motor (110) is provided with a second gear meshed with the first gear (421).

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