CN110975713A

CN110975713A - Building site is with energy-efficient agitating unit

Info

Publication number: CN110975713A
Application number: CN202010004071.4A
Authority: CN
Inventors: 王丽华
Original assignee: 王丽华
Current assignee: Shandong Lvcheng Qinghe Architectural Design Co., Ltd
Priority date: 2020-01-03
Filing date: 2020-01-03
Publication date: 2020-04-10
Anticipated expiration: 2040-01-03
Also published as: JP6975300B2; CN110975713B; JP2021109169A

Abstract

The invention discloses an efficient energy-saving stirring device for a construction site, which comprises a bearing base, wherein an energy-saving stirring mechanism is arranged on the upper surface of the bearing base, and a supporting and moving mechanism is arranged on the lower surface of the bearing base. The invention has the advantages of convenient use, energy conservation, rapid stirring and uniform stirring.

Description

Building site is with energy-efficient agitating unit

Technical Field

The invention relates to the field of stirring, in particular to an efficient energy-saving stirring device for a construction site.

Background

Stirring is an operation of uniformly stirring a plurality of raw materials.

In the building, in order to make to connect more reliably between the building, need fill the mixture in building material's space department, in order to make the misce bene, all use agitating unit traditionally, but agitating unit volume ratio is bigger, and all be unilateral stir, stirring time is long, extravagant electric energy is also more, if manual stirring, intensity is too big, consequently, in order to solve the problem, it is very necessary to design an energy-efficient agitating unit that building site used.

Disclosure of Invention

The invention aims to solve the problems and designs an efficient energy-saving stirring device for a construction site.

The technical scheme of the invention is that the efficient energy-saving stirring device for the construction site comprises a bearing base, wherein an energy-saving stirring mechanism is arranged on the upper surface of the bearing base, a supporting and moving mechanism is arranged on the lower surface of the bearing base, the energy-saving stirring mechanism mainly comprises a rotating disc arranged on the upper surface of the bearing base, a first uncovered bearing box fixedly connected to the upper surface of the rotating disc, a rotating supporting ring fixedly connected to the edge of the upper surface of the first uncovered bearing box, a circular hollow cylinder fixedly connected to the upper surface of the rotating supporting ring, a rotating sealing ring fixedly connected to the side surface of the inner lower end of the circular hollow cylinder and lapped with the upper end of the inner side surface of the first uncovered bearing box, a pair of horizontal annular stirring frames fixedly connected to the inner side surfaces of the first uncovered bearing box and the circular hollow cylinder, a folded suspension frame fixedly connected to one end of the upper surface of the bearing base, the device comprises a vertical telescopic device arranged on the upper surface of a folded suspension frame, a suspension bearing frame sleeved on the telescopic end of the vertical telescopic device, a rotating device arranged in the suspension bearing frame and with a downward rotating end, a folded push handle sleeved on the rotating end of the rotating device and extending into a circular hollow cylinder and a uncovered bearing box and arranged on the vertical stirring frame in a way of being crossed with a horizontal annular stirring frame, a folded push handle fixedly connected to the outer side surfaces of the uncovered bearing box and the circular hollow cylinder and positioned on the inner side of the folded suspension frame, and a drainage pipeline arranged at one end of the lower surface of the uncovered bearing box and penetrating through a rotating disc, wherein a starting switch group is embedded on the side surface of the folded suspension frame, and the vertical telescopic device and the rotating device are electrically connected with the starting switch group through corresponding single-chip microcomputer.

The supporting and moving mechanism mainly comprises a plurality of circular supporting platforms arranged on the lower surface of the bearing base, cross fixing frames embedded on the lower surface of each circular supporting platform, two pairs of vertical supporting frames arranged on the lower surface of each cross fixing frame, supporting universal wheels arranged on the lower surface of each vertical supporting frame, and braking frames arranged on each supporting universal wheel.

The two opposite side surfaces of the folded suspension bracket are fixedly connected with folded fixing brackets, and each folded fixing bracket is internally provided with a conical feeding hopper corresponding to the circular hollow cylinder.

An annular pedal pad is embedded on the upper surface of the bearing base and positioned between the folded suspension bracket and the rotating disc.

Each folding pushing handle is sleeved with a protective soft layer.

The lower end face of the vertical stirring frame is sleeved with a rotating block lapped on the inner lower surface of the first uncovered bearing box, and rotating fan blades lapped on the inner lower surface of the first uncovered bearing box are embedded in the side surface of the rotating block.

Vertical hand-held handles are fixedly connected to the surfaces of the left side and the right side of the folded suspension frame.

The outer side surface of the rotary supporting ring is sleeved with a sealing ring which is in lap joint with the first uncovered bearing box and the outer side surface of the circular hollow cylinder.

The hanging bearing frame is sleeved with an elastic protective sleeve.

The utility model discloses a bearing base, start switch group, the side surface of bearing base inlays and is equipped with the commercial power interface, start switch group passes through wire and commercial power interface electric connection.

The efficient energy-saving stirring device for the construction site, which is manufactured by the technical scheme of the invention, is a device which is convenient to use, saves energy sources, and is rapid in stirring and uniform in stirring.

Drawings

FIG. 1 is a schematic structural diagram of an efficient energy-saving stirring device for construction sites, which is disclosed by the invention;

FIG. 2 is a top sectional view of the energy-efficient mixing apparatus for construction site according to the present invention;

FIG. 3 is a side view of the energy-efficient mixing apparatus for construction site according to the present invention;

FIG. 4 is a partial bottom view of a support moving mechanism of the energy-efficient mixing device for construction site according to the present invention;

in the figure, 1, a bearing base; 2. rotating the disc; 3. a first uncovered carrying box; 4. rotating the support ring; 5. a circular hollow cylinder; 6. rotating the sealing ring; 7. a horizontal annular stirring frame; 8. a fold-shaped suspension bracket; 9. a vertical telescopic device; 10. suspending a carrier; 11. a rotating device; 12. a vertical stirring rack; 13. a fold-shaped push handle; 14. a drain conduit; 15. starting a switch group; 16. a circular support table; 17. a cross mount; 18. a vertical support frame; 19. supporting a universal wheel; 20. a brake frame; 21. a fold-shaped fixing frame; 22. a conical feed hopper; 23. an annular foot mat; 24. a protective soft layer; 25. rotating the block; 26. rotating the fan blades; 27. the handle is held vertically; 28. a seal ring; 29. an elastic protective sleeve; 30. and a mains supply interface.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, as shown in fig. 1-4, an efficient energy-saving stirring device for construction sites comprises a bearing base 1, an energy-saving stirring mechanism is arranged on the upper surface of the bearing base 1, a supporting and moving mechanism is arranged on the lower surface of the bearing base 1, and the energy-saving stirring mechanism mainly comprises a rotating disc 2 arranged on the upper surface of the bearing base 1, a first uncovered bearing box 3 fixedly connected to the upper surface of the rotating disc 2, a rotating supporting ring 4 fixedly connected to the edge of the upper surface of the first uncovered bearing box 3, a circular hollow cylinder 5 fixedly connected to the upper surface of the rotating supporting ring 4, a rotating sealing ring 6 fixedly connected to the side surface of the inner lower end of the circular hollow cylinder 5 and lapped with the upper end of the inner side surface of the first uncovered bearing box 3, a pair of horizontal annular stirring frames 7 fixedly connected to the inner side surfaces of the first uncovered bearing box 3 and the circular hollow cylinder 5, A fold-shaped suspension bracket 8 fixedly connected with one end of the upper surface of the bearing base 1, a vertical expansion device 9 arranged on the upper surface of the fold-shaped suspension bracket 8, a suspension bearing bracket 10 sleeved on the expansion end of the vertical expansion device 9, a rotating device 11 arranged in the suspension bearing bracket 10 and with the downward rotating end, a fold-shaped pushing handle 13 sleeved on the rotating end of the rotating device 11 and extending into the circular hollow cylinder 5 and the first uncovered bearing box 3 to be crossed with the horizontal annular stirring frame 7 and arranged on the vertical stirring frame 12, a fold-shaped pushing handle 13 fixedly connected on the outer side surfaces of the first uncovered bearing box 3 and the circular hollow cylinder 5 and positioned on the inner side of the fold-shaped suspension bracket 8, and a drainage pipeline 14 arranged at one end of the lower surface of the first uncovered bearing box 3 and penetrating through the rotating disc 2, a starting switch group 15 is embedded in the side surface of the folded suspension bracket 8, and the vertical telescopic device 9 and the rotating device 11 are electrically connected with the starting switch group 15 through corresponding singlechips; the supporting and moving mechanism mainly comprises a plurality of circular supporting platforms 16 arranged on the lower surface of the bearing base 1, cross fixing frames 17 embedded on the lower surface of each circular supporting platform 16, two pairs of vertical supporting frames 18 arranged on the lower surface of each cross fixing frame 17, supporting universal wheels 19 arranged on the lower surface of each vertical supporting frame 18, and braking frames 20 arranged on each supporting universal wheel 19; the two opposite side surfaces of the fold-shaped suspension bracket 8 are fixedly connected with fold-shaped fixing brackets 21, and a conical feed hopper 22 corresponding to the circular hollow cylinder 5 is arranged in each fold-shaped fixing bracket 21; an annular pedal pad 23 is embedded on the upper surface of the bearing base 1 and positioned between the folded suspension bracket 8 and the rotating disc 2; each folding pushing handle 13 is sleeved with a protective soft layer 24; the lower end surface of the vertical stirring frame 12 is sleeved with a rotating block 25 lapped on the inner lower surface of the first uncovered bearing box 3, and the side surface of the rotating block 25 is embedded with a rotating fan blade 26 lapped on the inner lower surface of the first uncovered bearing box 3; vertical hand-held handles 27 are fixedly connected to the surfaces of the left side and the right side of the folded suspension bracket 8; the outer side surface of the rotary supporting ring 4 is sleeved with a sealing ring 28 which is lapped with the outer side surfaces of the first uncovered bearing box 3 and the circular hollow cylinder 5; the hanging bearing frame 10 is sleeved with an elastic protective sleeve 29; the side surface of the bearing base 1 is embedded with a commercial power interface 30, and the starting switch group 15 is electrically connected with the commercial power interface 30 through a lead.

The characteristic of this embodiment is, when using this apparatus, put the raw materials needing to stir into round hollow cylinder 5 and No. one uncovered bearing box 3, press the starting switch group 15 located on the side surface of the zigzag hanger 8, make the vertical telescoping device 9 located on zigzag hanger 8 stretch vertically, drive the vertical stirring rack 12 to stretch downward through the slewing gear 11, make the turning block 25 located on the lower end surface of the vertical stirring rack 12 contact the inner lower surface of No. one uncovered bearing box 1, make the rotating fan 26 located on the side surface of the turning block 25 contact the inner surface, through pressing the corresponding starting switch, make the slewing gear 11 rotate, make the vertical stirring rack 12 rotate, facilitate the raw materials in the inside to stir, wherein when the machine rotates and stirs automatically, two hands hold the zigzag push handle 13 located on the outer surface of No. one uncovered bearing box 3 and round hollow cylinder 5, the rotation is carried out towards the opposite direction, so that the circular hollow cylinder 5 rotates on the corresponding rotating support ring 4, the first uncovered bearing box 3 rotates on the rotating disc 2 positioned on the upper surface of the bearing base 1, the cross rotation is convenient, the uniform stirring is convenient, the electric quantity is saved, the whole manual stirring intensity is reduced, a pair of horizontal annular stirring frames 7 on the inner side surfaces of the first uncovered bearing box 3 and the circular hollow cylinder 5 are convenient for carrying out auxiliary stirring on raw materials, the stirring is more uniform, the stirring is also convenient to be rapid during the uniform stirring, a rotating sealing ring 6 positioned on the inner side surface of the circular hollow cylinder 5 and overlapped with the inner side surface of the first uncovered bearing box 3 is convenient for good sealing, a hanging bearing frame 10 positioned between a vertical telescopic device 9 and a rotating device 11 is convenient for bearing the rotating device 11, wherein the discharge pipeline 14 which is positioned on the lower surface of the first uncovered bearing box 3 and passes through the rotating disc 2 is convenient for discharging, and the device has the advantages of more convenient use, more energy conservation, quick stirring and even stirring.

In this embodiment, when using the device, the raw material to be stirred is placed in the circular hollow cylinder 5 and the first uncovered box 3, the start switch group 15 on the side surface of the zigzag suspension bracket 8 is pressed to vertically extend and retract the vertical extension device 9 on the zigzag suspension bracket 8, the rotating device 11 drives the vertical stirring bracket 12 to extend downwards, the rotating block 25 on the lower end surface of the vertical stirring bracket 12 is contacted with the inner lower surface of the first uncovered box 1, the rotating fan blades 26 on the side surface of the rotating block 25 are contacted with the inner surface, the rotating device 11 is rotated by pressing the corresponding start switch, the vertical stirring bracket 12 is rotated to facilitate stirring the raw material inside, wherein when the machine automatically rotates to stir, two hands hold the zigzag push handles 13 on the outer side surfaces of the first uncovered box 3 and the circular hollow cylinder 5, the rotation is carried out towards the opposite direction, so that the circular hollow cylinder 5 rotates on the corresponding rotating support ring 4, the first uncovered bearing box 3 rotates on the rotating disc 2 positioned on the upper surface of the bearing base 1, the cross rotation is convenient, the uniform stirring is convenient, the electric quantity is saved, the whole manual stirring intensity is reduced, a pair of horizontal annular stirring frames 7 on the inner side surfaces of the first uncovered bearing box 3 and the circular hollow cylinder 5 are convenient for carrying out auxiliary stirring on raw materials, the stirring is more uniform, the stirring is also convenient to be rapid during the uniform stirring, a rotating sealing ring 6 positioned on the inner side surface of the circular hollow cylinder 5 and overlapped with the inner side surface of the first uncovered bearing box 3 is convenient for good sealing, a hanging bearing frame 10 positioned between a vertical telescopic device 9 and a rotating device 11 is convenient for bearing the rotating device 11, wherein the discharging pipe 14 which is positioned on the lower surface of the first uncovered bearing box 3 and passes through the rotating disc 2 is convenient for discharging, a plurality of supporting universal wheels 19 which are positioned below the bearing base 1 are convenient for supporting and moving, the device is convenient for moving, wherein each supporting universal wheel 19 is connected with a corresponding cross fixing frame 17 through a vertical supporting frame 18, each cross fixing frame 17 is connected with the lower surface of the bearing base 1 through a circular supporting platform 16 and is convenient for supporting, a braking frame 20 which is positioned on each supporting universal wheel 19 is convenient for swinging downwards, the corresponding supporting universal wheel 19 is locked, the device is convenient for fixing, a pair of conical feeding hoppers 22 which are positioned on the side surface of the folded suspension frame 8 are convenient for feeding, and each conical feeding hopper 22 is connected with the side surface of the folded suspension frame 8 through a folded fixing frame 21, wherein the annular foot pads 23 on the upper surface of the carrying base 1 and between the rotating discs 2 are convenient for stepping during rotation, wherein the protective soft layer 24 on each fold-shaped pushing handle 13 is convenient for holding by hand, wherein a pair of vertical holding handles 27 on the two side surfaces of the fold-shaped suspension bracket 8 is convenient for pushing the device as a whole, wherein the outer sides of the first uncovered carrying case 3 and the circular hollow cylinder 5 are more sealed than the sealing ring 28 between the flanges, wherein the elastic protective sleeve 29 on the suspension carrying frame 10 is convenient for protecting the internal rotating device 11, wherein the mains interface 30 on the side surface of the carrying base 1 is convenient for connecting with an external power supply for supplying power to the electrical components in the device, wherein the electrical connection is not described because it belongs to the protection content.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The utility model provides a building site is with high-efficient energy-conserving agitating unit, is including bearing base (1), its characterized in that, it is equipped with energy-conserving rabbling mechanism to bear base (1) upper surface, bear base (1) lower surface and be equipped with and support moving mechanism, energy-conserving rabbling mechanism is mainly by setting up at the rotating disc (2) that bears base (1) upper surface, No. one uncovered bearing box (3) of fixed connection at rotating disc (2) upper surface, fixed connection bear rotating support ring (4) of box (3) upper surface edge at No. one uncovered, fixed connection is at the circular hollow section of thick bamboo (5) of rotating support ring (4) upper surface, fixed connection in circular hollow section of thick bamboo (5) the lower extreme side surface just bear box (3) inboard surface upper end looks lapped rotation sealing washer (6) with No. one uncovered bearing box (3), a pair of horizontal annular stirring frame (7) on the inboard surface of a uncovered bearing box (3) and circular hollow section of thick bamboo (5) fixed connection, A fold-shaped suspension bracket (8) fixedly connected with one end of the upper surface of the bearing base (1), a vertical expansion device (9) arranged on the upper surface of the fold-shaped suspension bracket (8), a suspension bearing frame (10) sleeved on the expansion end of the vertical expansion device (9), a rotating device (11) arranged in the suspension bearing frame (10) and with the downward rotating end, a fold-shaped pushing handle (13) sleeved on the rotating end of the rotating device (11) and extending into the round hollow cylinder (5) and the first uncovered bearing box (3) and crossed with the horizontal annular stirring frame (7) and arranged on the vertical stirring frame (12), a fold-shaped pushing handle (13) fixedly connected on the outer surfaces of the first uncovered bearing box (3) and the round hollow cylinder (5) and positioned at the inner side of the fold-shaped suspension bracket (8), and a drainage pipeline (14) arranged at one end of the lower surface of the first uncovered bearing box (3) and penetrating through the rotating disc (2), the side surface of the folded suspension frame (8) is embedded with a starting switch group (15), and the vertical telescopic device (9) and the rotating device (11) are electrically connected with the starting switch group (15) through corresponding single chips.

2. An efficient energy-saving stirring device for construction sites as claimed in claim 1, wherein the supporting and moving mechanism mainly comprises a plurality of circular supporting platforms (16) arranged on the lower surface of the bearing base (1), a cross fixing frame (17) embedded on the lower surface of each circular supporting platform (16), two pairs of vertical supporting frames (18) arranged on the lower surface of each cross fixing frame (17), supporting universal wheels (19) arranged on the lower surface of each vertical supporting frame (18), and a braking frame (20) arranged on each supporting universal wheel (19).

3. An efficient and energy-saving stirring device for construction sites as claimed in claim 1, wherein the fold-shaped suspension bracket (8) is fixedly connected with fold-shaped fixing brackets (21) on two opposite side surfaces, and each fold-shaped fixing bracket (21) is internally provided with a conical feeding hopper (22) corresponding to the circular hollow cylinder (5).

4. An efficient energy-saving stirring device for construction sites as claimed in claim 1, characterized in that an annular pedal pad (23) is embedded on the upper surface of the bearing base (1) between the fold-shaped suspension bracket (8) and the rotating disc (2).

5. An efficient and energy-saving stirring device for construction sites as claimed in claim 1, wherein each of the fold-shaped pushing handles (13) is sleeved with a protective soft layer (24).

6. The efficient energy-saving stirring device for the construction site as claimed in claim 1, wherein the lower end surface of the vertical stirring frame (12) is sleeved with a rotating block (25) lapped on the inner lower surface of the first uncovered bearing box (3), and the side surface of the rotating block (25) is embedded with a rotating fan blade (26) lapped on the inner lower surface of the first uncovered bearing box (3).

7. An efficient energy-saving stirring device for construction sites as claimed in claim 1, wherein vertical hand-held handles (27) are fixedly connected to the left and right opposite side surfaces of the fold-shaped suspension bracket (8).

8. The efficient energy-saving stirring device for the construction site as claimed in claim 1, wherein the outer side surface of the rotary supporting ring (4) is sleeved with a sealing ring (28) which is overlapped with the outer side surfaces of the first uncovered bearing box (3) and the circular hollow cylinder (5).

9. An efficient energy-saving stirring device for construction sites as claimed in claim 1, wherein the hanging carrier (10) is sleeved with an elastic protection sleeve (29).

10. The efficient energy-saving stirring device for the construction site as claimed in claim 1, wherein a mains supply interface (30) is embedded in the side surface of the bearing base (1), and the starting switch set (15) is electrically connected with the mains supply interface (30) through a wire.