CN220361101U - High-temperature lubricating grease stirring device - Google Patents

Abstract

The high-temperature lubricating grease stirring device comprises a first stirring tank, a stirring rod and a first driving motor, wherein a discharge hole is formed in the bottom of the first stirring tank, and the stirring rod comprises a plurality of vertical rod bodies connected together; including first electric putter, install the second driving motor in first electric putter upper end and connect second driving motor's connecting rod, first driving motor and puddler are installed in the connecting rod head end, and second electric putter is installed to the connecting rod end, and second electric putter lower extreme is equipped with the piston. When the operator need scrape down the high temperature grease that glues on first agitator tank inner wall, just let first electric putter make the puddler leave first agitator tank, then let second driving motor and make the connecting rod end drive second electric putter and piston remove to first agitator tank top. The operating personnel can let the piston scrape down the high temperature grease who glues on first agitator tank inner wall, need not to hang down the high temperature grease who glues on first agitator tank inner wall with the scraper is manual, and the operation is laborsaving.

Description

High-temperature lubricating grease stirring device

Technical Field

The utility model relates to the technical field of high-temperature lubricating grease, in particular to a high-temperature lubricating grease stirring device.

Background

The high-temperature lubricating grease is mainly prepared from raw materials such as base oil, thickening agent and the like, and the high-temperature lubricating grease stirring device can stir the raw materials to uniformly mix the raw materials into the high-temperature lubricating grease. The stirring device generally comprises a stirring tank for placing raw materials, a stirring rod positioned in the tank and a driving motor for driving the stirring rod to rotate so as to stir the raw materials placed in the tank, wherein a discharge port is formed in the bottom of the stirring tank for leaving the stirred high-temperature lubricating grease. However, the high-temperature grease is viscous and easily adheres to the inner wall of the stirring tank, and an operator often needs to manually scrape off the high-temperature grease adhering to the inner wall of the stirring tank by using a scraper, so that the operation is laborious.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the high-temperature lubricating grease stirring device, which can scrape off the high-temperature lubricating grease stuck on the inner wall of the stirring tank, and an operator does not need to manually scrape off the high-temperature lubricating grease stuck on the inner wall of the stirring tank by using a scraper, so that the operation is labor-saving.

In order to solve the technical problems, the high-temperature lubricating grease stirring device comprises a first stirring tank, a stirring rod and a first driving motor, wherein the top of the first stirring tank is provided with a feed inlet for placing raw materials, the stirring rod stretches into the first stirring tank from the feed inlet, the first driving motor is in driving connection with the stirring rod, the stirring rod is driven by the first driving motor to stir the raw materials placed in the first stirring tank to uniformly mix the raw materials into high-temperature lubricating grease, the bottom of the first stirring tank is provided with a discharge outlet for leaving the stirred high-temperature lubricating grease, and the stirring rod comprises a plurality of vertical rod bodies connected together; including first electric putter, install the second driving motor in first electric putter upper end and connect the connecting rod of second driving motor, first driving motor and puddler are installed at the connecting rod head end, first electric putter lifting second driving motor then lifts the connecting rod, thereby first driving motor and puddler make the puddler leave first agitator tank, second driving motor drive connecting rod rotates and makes connecting rod head end drive first driving motor and puddler remove from first agitator tank top and make the connecting rod terminal remove to first agitator tank top, the second electric putter is installed to the connecting rod terminal, second electric putter lower extreme is equipped with the piston, first electric putter resets and the second electric putter descends the piston then the piston down motion from the feed inlet plug in the first agitator tank and continue the down motion scrape down and glue the high temperature lubricating grease on first agitator tank inner wall.

Further, a plurality of vertical rod bodies are circumferentially arranged around the inner wall of the first stirring tank.

Still further, including the cover that covers the feed inlet, cover fixed mounting is at the connecting rod head end, and first driving motor installs on the cover, installs at the connecting rod head end indirectly through the cover, and the puddler is installed in first driving motor's drive shaft, installs at the connecting rod head end indirectly through first driving motor and cover.

Further, a discharging pipe is connected to the discharging hole, and a normally closed valve is arranged at the discharging pipe.

Still further, including the second agitator tank that can supply the raw materials to put into the stirring the same with first agitator tank structure, the connecting rod end moves to first agitator tank top then the connecting rod head end drives first driving motor and puddler and moves to second agitator tank top, and first electric putter resets then the puddler stretches into in the second agitator tank from the feed inlet of second agitator tank and receive first driving motor drive to put into the raw materials in the second agitator tank and stir and make the raw materials evenly mix into high temperature grease.

An operator firstly puts raw materials into a first stirring tank from a feed inlet, then a first driving motor drives a stirring rod to stir the raw materials put into the first stirring tank, so that the raw materials are uniformly mixed into high-temperature lubricating grease, and the stirred high-temperature lubricating grease leaves from a discharge outlet. When the operator need scrape down the high temperature grease who glues on first agitator tank inner wall, thereby just let first electric putter lifting second driving motor lifting connecting rod, first driving motor and puddler make the puddler leave first agitator tank, then let second driving motor drive connecting rod rotate and make connecting rod head end drive first driving motor and puddler remove from first agitator tank top and make the connecting rod end drive second electric putter and piston and remove to first agitator tank top. The operating personnel only need let first electric putter reset and let the second electric putter drop the piston alright let the piston down move from the feed inlet of first agitator tank to fill in the first agitator tank and continue down the motion and scrape down the high temperature grease that glues on first agitator tank inner wall, need not to hang down the high temperature grease that glues on first agitator tank inner wall with the scraper is manual, and the operation is laborsaving. Because the puddler needs upwards leave first agitator tank through the feed inlet, if the body of rod of puddler transversely sets up, the body of rod is in the in-process of leaving first agitator tank carelessly scrapes out high temperature grease, then the puddler is in the in-process of removing from first agitator tank top, by the high temperature grease of its scraping off easily drops from the body of rod and pollutes ground. The plurality of rod bodies of the stirring rod are vertical, and compared with the transverse rod body, the vertical rod body cannot scrape high-temperature lubricating grease in the first stirring tank when leaving the first stirring tank, so that the high-temperature lubricating grease is not easy to pollute the ground.

Drawings

FIG. 1 is a schematic cross-sectional view of a high temperature grease stirring device.

Fig. 2 is a schematic cross-sectional view of a high temperature grease stirring device in which a first electric push rod lifts a stirring rod away from a first stirring tank.

Fig. 3 is a schematic cross-sectional view of a high temperature grease stirring apparatus with the stirring rod moved above the second stirring tank and the piston moved above the first stirring tank.

Fig. 4 is a schematic cross-sectional view of the high temperature grease stirring device, with the first electric pushrod reset and the second electric pushrod lowering the piston.

Fig. 5 is a schematic view of a stirring rod.

Fig. 6 is a schematic view of six bars of the stirring rod circumferentially arranged around the inner wall of the first stirring tank.

Detailed Description

The utility model is further described in detail below in connection with the detailed description.

The high-temperature lubricating grease stirring device is shown in fig. 1 and comprises a first stirring tank 1, wherein a first feed inlet 11 is formed in the top of the first stirring tank 1, and a first discharge outlet 12 is formed in the bottom of the first stirring tank. A first discharging pipe 13 is connected to the first discharging hole 12, and a first normally closed valve 14 is arranged at the first discharging pipe 13. A first tank cover 15 for covering the first feed inlet 11 is arranged at the first feed inlet 11, a first through shaft hole 151 is formed in the first tank cover 15, a first driving motor 31 is fixedly arranged on the first tank cover, and a driving shaft of the first driving motor 31 downwards penetrates through the first through shaft hole 151 and stretches into the first stirring tank 1. A stirring rod 2 is arranged in the first stirring tank 1, and as shown in fig. 5 and 6, the stirring rod 2 comprises a mounting plate 21 and six vertical rod bodies 22 fixed on the mounting plate, and the six vertical rod bodies 22 are connected together through the mounting plate 21. Six vertical rod bodies 22 are circumferentially arranged around the inner wall of the first stirring tank 1, and the mounting plate 21 is fixedly mounted on the driving shaft of the first driving motor 31, so that the first driving motor 31 is in driving connection with the stirring rod 2. A first electric putter 41 is provided on the right side of the first agitator tank 1, and a second drive motor 32 having an upward drive shaft is mounted on the upper end of the first electric putter 41. The device comprises a connecting rod 5, a driving shaft of a second driving motor 32 is fixedly connected to the middle of the connecting rod 5, the head end 51 of the connecting rod 5 extends to the upper side of a first tank cover 15, and the first tank cover 15 is fixedly installed at the head end 51 of the connecting rod 5. Since the mounting plate 21 of the stirring rod 2 is fixedly mounted on the driving shaft of the first driving motor 31 and the first driving motor 31 is fixedly mounted on the first can cover 15, and the first can cover 15 is fixedly mounted on the head end 51 of the connecting rod 5, the first driving motor 31 is indirectly mounted on the head end 51 of the connecting rod 5 through the first can cover 15, and the stirring rod 2 is indirectly mounted on the head end 51 of the connecting rod 5 through the first driving motor 31 and the first can cover 15. The operator first makes the first electric push rod 41 lift the second driving motor 32 so as to lift the connecting rod 5, the first tank cover 15, the first driving motor 31 and the stirring rod 2, so that the first tank cover 15 does not cover the first feed inlet 11 any more, see fig. 2, and thus raw materials can be put into the first stirring tank 1 from the first feed inlet 11. After the operator puts in the raw materials, let first electric putter 41 reset and descend second driving motor 32, connecting rod 5, first cover 15, first driving motor 31 and connecting rod 2 make first cover 15 cover first feed inlet 11 again, make puddler 2 stretch into in the first agitator tank 1 from first feed inlet 11, see fig. 1. The operator lets first driving motor 31 drive puddler 2 stir the raw materials of putting into in the first agitator tank 1 and make the raw materials evenly mix into high temperature grease, and the operator opens first normally closed valve 14, and then the high temperature grease after stirring just leaves first agitator tank 1 and flows from first discharging pipe 13 from first discharge gate 12, and the operator just can collect these high temperature grease. Because six vertical rod bodies 2 of the stirring rod 2 are circumferentially distributed around the inner wall of the first stirring tank 1, the stirring effect is good.

Referring to fig. 1, a second stirring tank 7 is disposed on the right side of the first electric push rod 41, and the second stirring tank 7 has the same structure as the first stirring tank 1, that is, the second stirring tank 7 is provided with a second feeding hole 71 and a second discharging hole 72, so that raw materials can be put into and stirred. A second outlet pipe 73 is provided at the second outlet 72 and a second normally closed valve 74 is provided at the second outlet pipe 73. A second tank cover 75 covering the second feed inlet 71 is arranged at the second feed inlet 71, a second through-hole 751 is formed in the second tank cover 75, a second electric push rod 42 is fixedly arranged on the second electric push rod 42, and the lower end of the second electric push rod 42 penetrates through the second through-hole 751 to extend into the second stirring tank 7 and is fixedly provided with a piston 6. The end 52 of the connecting rod 5 extends above the second cap 75, and the second cap 75 is fixedly mounted on the end 52 of the connecting rod 5, so that the second electric putter 42 is indirectly mounted on the end 52 of the connecting rod 5 through the second cap 75. When the operator needs to scrape off the high-temperature grease adhering to the inner wall of the first stirring tank 1, the first driving motor 31 stops driving the stirring rod 2. Referring to fig. 2, the operator lifts the second driving motor 32 by the first electric push rod 41 to lift the connecting rod 5, the first can lid 15, the first driving motor 31, the stirring rod 2, the second can lid 75, the second electric push rod 42 and the piston 6, so that the stirring rod 2 is moved away from the first stirring can 1 and above the first stirring can 1, the second electric push rod 42 and the piston 6 are moved away from the second stirring can 7 and above the second stirring can 7, and the first and second can lids 15 and 75 do not cover the first and second feed inlets 11 and 71. The operator puts the next batch of raw materials to be stirred into the second stirring tank 7 from the second feeding port 71, and makes the second driving motor 32 drive the connecting rod 5 to rotate, and as shown in fig. 3, makes the head end 51 of the connecting rod 5 move from the upper part of the first stirring tank 1 to the upper part of the second stirring tank 2, drives the first tank cover 15, the first driving motor 31 and the stirring rod 2 to move from the upper part of the first stirring tank 1 to the upper part of the second stirring tank 2, and simultaneously makes the tail end 52 of the connecting rod 5 move from the upper part of the second stirring tank 2 to the upper part of the first stirring tank 1, and drives the second tank cover 75, the second electric push rod 42 and the piston 6 to move from the upper part of the second stirring tank 2 to the upper part of the first stirring tank 1. Referring to fig. 4, the operator lets the first electric putter 41 reset and descend the end 52 of the connecting rod 5, so that the second electric putter 42 and the piston 6 are driven to move downwards through the second can cover 75, so that the piston 6 is plugged into the first stirring can 1 from the first feed inlet 11, and the operator lets the second electric putter 42 descend the piston 6, so that the piston 6 can be driven to move downwards continuously to scrape the high-temperature grease adhered to the inner wall of the first stirring can 1. The first electric push rod 41 resets and drives the connecting rod head end 51 to move downwards so as to drive the first tank cover 15 to cover the second feed inlet 71 of the second stirring tank 7 and drive the first driving motor 31 and the stirring rod 2 to move downwards so that the stirring rod 2 stretches into the second stirring tank 2 from the second feed inlet 71 of the second stirring tank 2, and an operator can enable the first driving motor 31 to drive the stirring rod 2 to stir raw materials placed into the second stirring tank 2 to uniformly mix the raw materials into high-temperature lubricating grease. Due to the arrangement of the second stirring tank 2, the stirring rod 2 is not empty in the process of scraping high-temperature lubricating grease adhered to the inner wall of the first stirring tank 1 by the piston 6, and raw materials placed in the second stirring tank 2 can be stirred, so that the device has higher working efficiency. The operator opens the second normally closed valve 74 to enable the high-temperature grease in the second stirring tank 7 to leave the second stirring tank 7 from the second discharge port 72 and flow out from the second discharge pipe 73, see fig. 1, and the operator can scrape the high-temperature grease adhered to the inner wall of the second stirring tank 2 by using the piston 6 and stir the raw materials placed in the first stirring tank 1 by using the stirring rod 2, which is not described herein. The operator does not need to manually hang down the high-temperature lubricating grease adhered to the inner wall of the first stirring tank 1 and the inner wall of the second stirring tank 2 by using a scraper, so that the operation is labor-saving.

Referring to fig. 1 and 2, since the stirring rod 2 needs to leave the first stirring tank 1 upward through the first feed inlet 11, if the rod body 22 of the stirring rod 2 is laterally disposed, the rod body 22 carelessly scrapes out high-temperature grease during the process of leaving the first stirring tank 1, and then the high-temperature grease scraped out by the stirring rod 2 during the process of moving away from above the first stirring tank 1 easily falls from the rod body 22 to pollute the ground. The plurality of rod bodies 22 of the stirring rod 2 are all vertical, and compared with the transverse rod bodies, the vertical rod bodies 22 cannot scrape high-temperature lubricating grease in the first stirring tank 1 when leaving the first stirring tank 1, so that the high-temperature lubricating grease is not easy to pollute the ground. Similarly, the vertical rod 22 does not scrape the high-temperature grease in the second stirring tank 2 when leaving the second stirring tank 2, and will not be described here.

The above-described embodiments are provided for the present utility model only and are not intended to limit the scope of patent protection. Insubstantial changes and substitutions can be made by one skilled in the art in light of the teachings of the utility model, as yet fall within the scope of the claims.

Claims (5)

1. High temperature grease agitating unit, open at the top has the feed inlet in order for the raw materials to put into first agitator tank, stretches into the puddler in the first agitator tank and the first driving motor of drive connection puddler from the feed inlet, first driving motor drive puddler stirs the raw materials of putting into in the first agitator tank and makes the raw materials evenly mix into high temperature grease, and open at first agitator tank bottom has the discharge gate to supply the high temperature grease after the stirring to leave its characterized in that: the stirring rod comprises a plurality of vertical rod bodies connected together; including first electric putter, install the second driving motor in first electric putter upper end and connect the connecting rod of second driving motor, first driving motor and puddler are installed at the connecting rod head end, first electric putter lifting second driving motor then lifts the connecting rod, thereby first driving motor and puddler make the puddler leave first agitator tank, second driving motor drive connecting rod rotates and makes connecting rod head end drive first driving motor and puddler remove from first agitator tank top and make the connecting rod terminal remove to first agitator tank top, the second electric putter is installed to the connecting rod terminal, second electric putter lower extreme is equipped with the piston, first electric putter resets and the second electric putter descends the piston then the piston down motion from the feed inlet plug in the first agitator tank and continue the down motion scrape down and glue the high temperature lubricating grease on first agitator tank inner wall.

2. The high temperature grease stirring device of claim 1, wherein: the plurality of vertical rod bodies are circumferentially distributed around the inner wall of the first stirring tank.

3. The high temperature grease stirring device of claim 1, wherein: including covering the cover of feed inlet, cover fixed mounting is at the connecting rod head end, and first driving motor installs on the cover, installs at the connecting rod head end indirectly through the cover, and the puddler is installed in first driving motor's drive shaft, installs at the connecting rod head end indirectly through first driving motor and cover.

4. The high temperature grease stirring device of claim 1, wherein: the discharge hole is connected with a discharge pipe, and a normally closed valve is arranged at the discharge pipe.

5. The high temperature grease stirring device of claim 1, wherein: including the second agitator tank that can supply the raw materials to put into the stirring the same with first agitator tank structure, the connecting rod end moves to first agitator tank top then the connecting rod head end drives first driving motor and puddler and moves to second agitator tank top, and first electric putter resets then the puddler stretches into in the second agitator tank from the feed inlet of second agitator tank and receive first driving motor drive to stir the raw materials of putting into in the second agitator tank and make the raw materials evenly mix into high temperature lubricating grease.