CN220007404U - Superfine micropowder high-pressure sand blasting device for multiple groups of independent sand tanks - Google Patents

Abstract

The utility model discloses a multi-group independent sand cabin superfine powder high-pressure sand blasting device which comprises a sand storage cabin, a first high-pressure sand blasting tank, a second high-pressure sand blasting tank, a third high-pressure sand blasting tank and a fourth high-pressure sand blasting tank, wherein a sand storage cabin feeding port is arranged at the top end of the sand storage cabin, a first material level on-line detection probe is installed at the top end of the sand storage cabin, a sand blasting gas mixing automatic air valve is arranged below a second precise pressure regulating valve, auxiliary sand discharging vibrators are installed at the bottom ends of the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank, and automatic pneumatic sand valves are connected to the output ends of the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank. This superfine miropowder high pressure sand blasting unit in independent sand cabin of multiunit makes sand material vibration through supplementary sand vibrator down when the sandblast, improves sandblast efficiency, evenly distributes through the rotation of dividing the charging tray.

Description

Superfine micropowder high-pressure sand blasting device for multiple groups of independent sand tanks

Technical Field

The utility model relates to the technical field of high-pressure sand blasting, in particular to a high-pressure sand blasting device for superfine powder of a plurality of groups of independent sand tanks.

Background

The metal surface is subjected to rust removal and paint removal treatment by adopting air sand blasting, so that the metal matrix can be prevented from being corroded, the metal strength and the surface quality are influenced, the environmental pollution is reduced, and the metal surface is rapidly treated by arranging a plurality of groups of independent sand cabins to carry out superfine powder high-pressure sand blasting;

the existing multi-group independent sand cabin superfine powder high-pressure sand blasting device cannot vibrate sand materials during sand blasting, sand blasting efficiency is required to be improved, for example, the Chinese utility model with the bulletin number of CN207669137U proposes a high-pressure sand blasting device, sand falls to the bottom end by utilizing the gravity of sand and leaks out, and then a high-pressure air gun is adopted for pressurizing, so that the energy for sand blasting is effectively saved, but the sand materials cannot vibrate during sand blasting, and the sand blasting efficiency is required to be improved.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides a high-pressure sand blasting device with multiple groups of ultrafine powder in independent sand cabins, which has the characteristics that during sand blasting, sand materials vibrate through an auxiliary sand feeding vibrator, sand blasting efficiency is improved, and distribution is uniform through rotation of a distributing disc.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a multi-group independent sand cabin superfine micropowder high-pressure sand blasting device, comprising:

the sand storage bin is provided with a sand storage bin feeding port at the top end, a first material level online detection probe is installed at the top end of the sand storage bin, a high-pressure air storage diversion tank is arranged at the bottom end of the sand storage bin, a first precise pressure regulating valve is arranged at the left side of the sand storage bin, a compressed air precise filter is arranged below the first precise pressure regulating valve, a high-pressure air inlet hose is installed at the bottom end of the first precise pressure regulating valve, an automatic discharge valve is installed at the bottom end of the sand storage bin, a motor is fixed in the sand storage bin, a rotating rod is connected to the output end of the motor, and a distributing disc is fixed on the upper surface of the rotating rod;

the top end of the first high-pressure sand blasting tank is communicated with the sand storage cabin;

a second high pressure blasting tank located rearward of the first high pressure blasting tank;

a third high pressure blasting tank located on the right side of the first high pressure blasting tank;

the automatic sand blasting device comprises a fourth high-pressure sand blasting tank, wherein the fourth high-pressure sand blasting tank is positioned behind a third high-pressure sand blasting tank, the top ends of the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank are all provided with a second material level online detection probe, the outer side of the second material level online detection probe is provided with a sand tank automatic exhaust device, the side of the first high-pressure sand blasting tank, the side of the second high-pressure sand blasting tank, the side of the third high-pressure sand blasting tank and the side of the fourth high-pressure sand blasting tank is connected with a sand blasting tank automatic air control inlet valve, the lower part of the sand blasting tank automatic air control inlet valve is provided with a second precise pressure regulating valve, the lower part of the second precise pressure regulating valve is provided with a sand blasting air mixing automatic air valve, the bottom ends of the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank are provided with auxiliary sand discharging vibrators, and the output ends of the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank are connected with an air valve.

By adopting the technical scheme, when in sand blasting, the sand material is vibrated by the auxiliary sand feeding vibrator, the sand blasting efficiency is improved, and the material is uniformly distributed by the rotation of the material distribution disc.

As a preferable technical scheme of the utility model, the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank are symmetrically distributed below the sand storage cabin.

Through adopting above-mentioned technical scheme, first high pressure sand blasting jar, second high pressure sand blasting jar, third high pressure sand blasting jar and fourth high pressure sand blasting jar evenly distributed are in the below of sand material storage cabin.

As a preferable technical scheme of the utility model, the high-pressure air inlet hose is connected with an automatic air control air inlet valve of the sand blasting tank.

By adopting the technical scheme, the flow of the gas is convenient to control.

As the preferable technical scheme of the utility model, the material distributing disc is of a conical structure, and the central line of the material distributing disc is overlapped with the central line of the material inlet of the sand storage cabin.

Through adopting above-mentioned technical scheme for the feed divider is located the middle part of sand storage cabin pan feeding mouth, and the sand material falls on the feed divider.

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

1. according to the utility model, the auxiliary sand discharging vibrator is arranged to enable sand materials in the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank to vibrate, so that the sand materials are smoothly sprayed out during sand blasting, and the sand blasting efficiency is improved;

2. according to the utility model, the motor is arranged to drive the rotating rod and the distributing disc to rotate, and sand is uniformly distributed at the bottom end of the sand storage cabin by utilizing the rotation of the distributing disc, so that sand uniformly enters the first high-pressure sand blasting tank, the second high-pressure sand blasting tank, the third high-pressure sand blasting tank and the fourth high-pressure sand blasting tank, and uniform distribution is realized.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic elevational cut-away view of the present utility model;

FIG. 2 is a schematic side view in cross-section of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

fig. 4 is a schematic diagram of the overall structure of the connection between the material distributing disc and the rotating rod.

In the figure: 1. a sand storage cabin feed inlet; 2. a sand storage cabin; 3. a first material level online detection probe; 4. a high pressure gas storage diversion tank; 5. a first precision pressure regulating valve; 6. a compressed air precision filter; 7. a high pressure air intake hose; 8. an automatic discharge valve; 9. a second material level online detection probe; 10. an automatic exhaust device of the sand tank; 11. automatic pneumatic control air inlet valve of sand blasting tank; 12. a second precision pressure regulating valve; 13. automatic air valve for sand blasting and air mixing; 14. auxiliary sand feeding vibrator; 15. an automatic pneumatic sand valve; 16. a first high pressure blasting tank; 17. a second high pressure blasting tank; 18. a third high pressure blasting tank; 19. a fourth high pressure blasting tank; 20. a motor; 21. a rotating rod; 22. and a material distributing disc.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides the following technical solutions: a multi-group independent sand cabin superfine powder high-pressure sand blasting device comprises a sand cabin feed inlet 1, a sand material storage cabin 2, a first material level online detection probe 3, a high-pressure air storage diversion tank 4, a first precise pressure regulating valve 5, a compressed air precise filter 6, a high-pressure air inlet hose 7, an automatic discharge valve 8, a second material level online detection probe 9, a sand tank automatic exhaust device 10, a sand blasting tank automatic air control air inlet valve 11, a second precise pressure regulating valve 12, a sand blasting air mixing automatic air valve 13, an auxiliary sand discharging vibrator 14, an automatic pneumatic sand valve 15, a first high-pressure sand blasting tank 16, a second high-pressure sand blasting tank 17, a third high-pressure sand blasting tank 18, a fourth high-pressure sand blasting tank 19, a motor 20, a rotary rod 21 and a distributing disc 22, wherein the top end of the sand storage cabin 2 is provided with a sand cabin feed inlet 1, the sand cabin feed is fed into the sand storage cabin 2 from the sand storage cabin feed inlet 1, the inside of the sand cabin 2 is fixedly provided with a motor 20, the output end of the motor 20 is connected with a motor 21, the upper surface of the rotary rod 22 of the rotary rod 21 is fixedly arranged on the surface of the rotary disc 22 of the rotary disc 20, and the rotary disc 21 is uniformly superposed with the rotary disc 20, and the rotary disc 20 is arranged on the bottom of the rotary disc 20;

the method comprises the steps that a first material level online detection probe 3 is installed at the top end of a sand storage cabin 2, the storage amount of sand in the sand storage cabin 2 is detected through the first material level online detection probe 3, a high-pressure air storage diversion tank 4 is arranged at the bottom end of the sand storage cabin 2, a first precise pressure regulating valve 5 is arranged at the left side of the sand storage cabin 2, a compressed air precise filter 6 is arranged below the first precise pressure regulating valve 5, a high-pressure air inlet hose 7 is installed at the bottom end of the first precise pressure regulating valve 5, an automatic discharge valve 8 is installed at the bottom end of the sand storage cabin 2, and the sand enters the inside of a first high-pressure sand blasting tank 16, a second high-pressure sand blasting tank 17, a third high-pressure sand blasting tank 18 and a fourth high-pressure sand blasting tank 19 respectively;

pressurizing the first high-pressure sand blasting tank 16, the second high-pressure sand blasting tank 17, the third high-pressure sand blasting tank 18 and the fourth high-pressure sand blasting tank 19 through the high-pressure air inlet hose 7, wherein the second material level online detection probes 9 are respectively arranged at the top ends of the first high-pressure sand blasting tank 16, the second high-pressure sand blasting tank 17, the third high-pressure sand blasting tank 18 and the fourth high-pressure sand blasting tank 19, and the sand storage amounts inside the first high-pressure sand blasting tank 16, the second high-pressure sand blasting tank 17, the third high-pressure sand blasting tank 18 and the fourth high-pressure sand blasting tank 19 are detected through the second material level online detection probes 9;

as shown in fig. 1 and 2, a sand tank automatic exhaust device 10 is arranged on the outer side of the second material level online detection probe 9, when the pressure is too high, the sand tank automatic exhaust device 10 is used for exhausting, the sand tank automatic air control inlet valve 11 is connected to the side of the first high-pressure sand tank 16, the second high-pressure sand tank 17, the third high-pressure sand tank 18 and the fourth high-pressure sand tank 19, the second precise pressure regulating valve 12 is arranged below the sand tank automatic air control inlet valve 11, the sand-mixing automatic air valve 13 is arranged below the second precise pressure regulating valve 12, the output ends of the first high-pressure sand tank 16, the second high-pressure sand tank 17, the third high-pressure sand tank 18 and the fourth high-pressure sand tank 19 are connected with automatic pneumatic sand valves 15, the automatic pneumatic sand valves 15 are opened, and sand is sprayed out from the first high-pressure sand tank 16, the second high-pressure sand tank 17, the third high-pressure sand tank 18 and the fourth high-pressure sand tank 19;

during sand blasting, as shown in fig. 1, auxiliary sand-discharging vibrators 14 are mounted at the bottom ends of the first high-pressure sand-blasting tank 16, the second high-pressure sand-blasting tank 17, the third high-pressure sand-blasting tank 18 and the fourth high-pressure sand-blasting tank 19, and sand is vibrated under the action of the auxiliary sand-discharging vibrators 14, so that the sand is smoothly sprayed out, and blockage is avoided.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (4)

1. A multiunit independent sand cabin superfine powder high pressure sand blasting unit, its characterized in that: comprising the following steps:

the sand storage bin (2), sand storage bin's (2) top is provided with sand storage bin pan feeding mouth (1), first material level on-line measuring probe (3) are installed on the top of sand storage bin (2), sand storage bin's (2) bottom is provided with high-pressure gas storage shunt tank (4), sand storage bin's (2) left side is provided with first accurate pressure regulating valve (5), the below of first accurate pressure regulating valve (5) is provided with compressed air precision filter (6), high-pressure intake hose (7) are installed to the bottom of first accurate pressure regulating valve (5), automatic discharge valve (8) are installed to the bottom of sand storage bin (2), the inside of sand storage bin (2) is fixed with motor (20), the output of motor (20) is connected with bull stick (21), the upper surface of bull stick (21) is fixed with branch charging tray (22);

the top end of the first high-pressure sand blasting tank (16) is communicated with the sand storage cabin (2);

a second high pressure blasting tank (17), the second high pressure blasting tank (17) being located behind the first high pressure blasting tank (16);

a third high pressure blasting tank (18), the third high pressure blasting tank (18) being located to the right of the first high pressure blasting tank (16);

fourth high-pressure sand blasting jar (19), fourth high-pressure sand blasting jar (19) are located the rear of third high-pressure sand blasting jar (18), first high-pressure sand blasting jar (16), second high-pressure sand blasting jar (17), third high-pressure sand blasting jar (18) and the top of fourth high-pressure sand blasting jar (19) all install second material level on-line measuring probe (9), the outside of second material level on-line measuring probe (9) is provided with sand jar automatic exhaust apparatus (10), the side of first high-pressure sand blasting jar (16), second high-pressure sand blasting jar (17), third high-pressure sand blasting jar (18) and fourth high-pressure sand blasting jar (19) is connected with automatic pneumatic control admission valve (11), the below of automatic pneumatic control admission valve (11) of sand blasting jar is provided with second accurate pressure control valve (12), the below of second accurate pressure control valve (12) is provided with sand blast air valve (13), first high-pressure sand blasting jar (16), second high-pressure sand blasting jar (17), third high-pressure sand blasting jar (18) and fourth high-pressure sand blasting jar (19) are connected with the supplementary sand blasting jar (16), and the sand blast end (16) of high-pressure sand blasting jar (19).

2. The high-pressure blasting device for ultra-fine powder in a plurality of groups of independent sand chambers according to claim 1, wherein: the first high-pressure sand blasting tank (16), the second high-pressure sand blasting tank (17), the third high-pressure sand blasting tank (18) and the fourth high-pressure sand blasting tank (19) are symmetrically distributed below the sand storage cabin (2).

3. The high-pressure blasting device for ultra-fine powder in a plurality of groups of independent sand chambers according to claim 1, wherein: the high-pressure air inlet hose (7) is connected with an automatic air control air inlet valve (11) of the sand blasting tank.

4. The high-pressure blasting device for ultra-fine powder in a plurality of groups of independent sand chambers according to claim 1, wherein: the material distribution plate (22) is of a conical structure, and the central line of the material distribution plate (22) coincides with the central line of the sand storage cabin material inlet (1).