DE202022105077U1 - Device for collecting rust dust - Google Patents

Abstract

A rust dust collecting device comprising a circulating water tank (1), characterized in that a spray water tank (2) is disposed on the circulating water tank (1) in communication with the bottom of the spray water tank (2); and a dust inlet (3) is provided on the circulating water tank (1) and located at a side of the spray water tank (2); further comprising a rainwater tank (4) and a circulation drive device (5), the rainwater tank (4) communicating with the top of the spray water tank (2) via a connecting pipe (6); wherein the circulation drive device (5) is used to convey the water in the circulation water tank (1) to the spray water tank (2); and the circulation driving device (5) is electrically connected to a switch of an impeller blast machine.

Description

technical field

The utility model belongs to the technical fields of metal processing treatment and environmental protection, and particularly relates to a device for collecting rust dust.

background

Impeller blasting is a process that uses the high speed of mechanical equipment to eject steel shots of a specified particle size using the centrifugal force of the ram head, and the ejected steel shots hit the component violently to remove the rust on the steel surface. The steel balls are crushed by repeated impacts during impeller blasting, creating a large amount of dust. Generally, the rust dust is discharged directly into the atmosphere through a chimney under high pressure pulse, resulting in heavy rust dust pollution. Some of the rust dust collectors known in the prior art have the technical disadvantage that during operation, the recovery rate of the rust dust is low and the motor of the collector is idling, resulting in loss of the device.

Summary of the utility model

The object of the invention of the utility model is to provide a device for collecting rust dust, in view of the technical defects existing in the prior art, such as the low recovery rate of rust dust and the idling of the motor of the collector, which leads to the loss of the device leads.

In order to achieve the above objective, the technical solution of the utility model is as follows.

A device for collecting rust dust comprises a circulating water tank, wherein a spray water tank is disposed on the circulating water tank in communication with the bottom of the spray water tank; and a dust inlet is provided on the circulating water tank and located at a side of the spray water tank;
the device further comprises a rainwater tank and a circulation drive device, the rainwater tank communicating with the top of the spray water tank via a connecting pipe; the circulation driving device is used to send the water in the circulation water tank to the spray water tank; and the circulation driving device is electrically connected to a switch of an impeller blast machine.

According to the utility model, water in a circulation water tank is conveyed to a spray water tank by a circulation drive device; Rust dust enters the circulating water tank through a dust inlet and enters the spray water tank through the circulating water tank; the rust dust is settled by the spraying operation of the spray water tank for storage in the circulation water tank; the rust dust settles into the circulating water tank through the spraying process of the spray water tank and is stored there; the recovery of the rust dust is carried out periodically, and the residual gas escaping from the spray water tank goes to the rainwater tank through a connecting pipe for secondary capture, avoiding air pollution. By controlling the connection between the circulation drive device and the impeller blast system switch, the dust collection device and the impeller blast system can be opened and closed at the same time, so that the idling of the dust collection system motor is avoided.

In a preferred solution of the present utility model, the dust inlet is connected to an outlet for dust discharge via an air intake pipe during impeller blasting. The air intake pipe and the spray water tank are located side by side on the top of the circulation water tank.

In a preferred solution of the present utility model, a first baffle plate is arranged in the circulation water tank; the first baffle plate is arranged between the dust inlet and the spray water tank; and the first baffle is inclined to a side of the spray water tank.

In a preferred solution of the present utility model, multiple spray heads are provided in the spray water tank and arranged in layers; and a plurality of spray heads at the same level are arranged in the circumferential direction in the spray water tank.

In a preferred embodiment of the present utility model, the spray heads are arranged in three layers in the spray water tank, wherein a first spray head, a second spray head and a third spray head are sequentially arranged at intervals from bottom to top.

It is further preferred that the distance between adjacent layers is 30-45 cm in longitudinal height. In particular, the first spray head, the second spray head and the third spray head each comprise four spray heads, and the distance between adjacent spray heads is equal at the same level.

In a preferred solution of the present utility model, a water inlet is arranged on a side wall of the circulation water tank, the water inlet being connected to a water inlet pipe; and a float ball valve disposed at the water inlet, the float ball valve being used to control the water level of the circulating water tank. The float ball valve can control the entry level into the circulating water tank to be no higher than the level at which the lowest end of the first baffle is located.

In a preferred solution of the present utility model, the bottoms of the side walls of the precipitation water tank and the circulation water tank are each provided with a water outlet.

In a preferred embodiment of the present utility model, the top of the rainwater tank is further provided with an air exhaust pipe, and the air exhaust pipe opens below the soil layer.

In a preferred embodiment of the present utility model, a second baffle plate is provided in the rainwater tank, which is arranged between an outlet of the gas discharge pipe and an inlet of the connection pipe.

In a preferred embodiment of the present utility model, dust collection openings are provided on the circulation water tank and the precipitation water tank.

1. 1. Das Konstruktionsschema des vorliegenden Gebrauchsmusters ist zweckmäßig und hat eine einfache Struktur. Der Roststaub wird in ausreichendem Maße für die Behandlung durch dreistufige Abscheidung gesammelt, wodurch die Verschmutzung der Luft im Prozess des Impellerstrahlens weitgehend vermieden wird.
2. 2. Der im vorliegenden Gebrauchsmuster vorgesehene Zyklusmotor ist mit dem Schalter im Impellerstrahlverfahren verbunden, wodurch sichergestellt wird, dass beide gleichzeitig geöffnet und geschlossen werden und dass der Motor des Staubsammelsystems nicht im Leerlauf läuft.

In summary, by applying the technical solution, the utility model has the following beneficial effects.

1. 1. The construction scheme of the present utility model is convenient and has a simple structure. The rust dust is collected sufficiently for treatment by three-stage separation, which largely avoids air pollution in the impeller blasting process.
2. 2. The cycle motor provided in the present utility model is connected to the switch in the impeller jet method, which ensures that both are opened and closed at the same time and that the motor of the dust collection system does not idle.

character list

• 1 Fig. 12 is a schematic structural view of the utility model;

reference list

1

circulation water tank,

2

spray water tank,

3

dust inlet,

4

rainwater tank,

5

circulation drive device,

6

connection line,

7

air intake pipe,

8th

first baffle,

9

third spray head,

10

second spray head,

11

first spray head,

12

water inlet,

13

float ball valve,

14

water outlet,

15

air exhaust pipe,

16

second baffle.

Detailed description of the utility model

Hereinafter, the present utility model will be described in detail with reference to the attached drawings.

In order that the objects, aspects and advantages of the present utility model may become clearer, a more detailed description of the utility model will be given with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to be limiting thereof.

Embodiment 1

A device for collecting rust dust, as in 1 shown includes a circula cation water tank 1, a spray water tank 2 is arranged on the circulating water tank 1 in communication with the bottom of the spray water tank 2, and a dust inlet 3 is provided on the circulating water tank 1 and arranged at a side of the spray water tank 2. Specifically, the dust inlet 3 is connected to an outlet for dust discharge via an air intake pipe 7 during impeller blasting. The air intake pipe 7 and the spray water tank 2 are located side by side on the top of the circulation water tank 1.

In the circulation water tank 1, a first baffle plate 8 is provided. The first baffle plate 8 is arranged between the junctions of the dust inlet 3, the spray water tank 2 and the circulating water tank, and the first baffle plate 8 is inclined to a side of the spray water tank 2. It is inclined at an angle between 15° and 35°.

In addition, a plurality of spray heads are provided in the water spray tank 2 and arranged in layers, and a plurality of spray heads at the same height are arranged in the circumferential direction in the water spray tank. More specifically, the spray heads in the spray water tank are arranged in three layers sequentially comprising a first spray head 11, a second spray head 10 and a third spray head 9 spaced from bottom to top. The distance between adjacent layers in the longitudinal height is 30-45 cm. The first spray head 11, the second spray head 10 and the third spray head 9 are each provided with four individual ones, and the distance between adjacent spray heads is equal at the same level.

The device further comprises a precipitation water tank 4 and a circulation drive device 5, which in this embodiment is a disposable motor IET-1100S with a power of 1100 W, a maximum head of 45 m and a maximum flow of 5 m ³ /hour. The precipitation water tank 4 is connected to the upper part of the spray water tank 2 via a connecting line 6 . The circulation driving device 5 serves to convey the water in the circulating water tank 1 to the spray water tank 2, and the circulation driving device 5 is electrically connected to a switch of an impeller jet machine. That is, when the impeller blast machine is turned on, the circulation drive device is started, and the bottoms of the side walls of the rainwater tank 4 and the circulation water tank 1 are provided with a water outlet 14, respectively. The top of the rainwater tank 4 is also provided with an air vent pipe 15 which opens under the water vent pipe. In particular, a second baffle plate 16 is provided in the precipitation water tank 4 and is arranged between an outlet of the air discharge pipe 15 and an inlet of the connecting line 6 .

A water inlet 12 is arranged on a side wall of the circulating water tank 1 . The water inlet 12 is connected to a water inlet pipe; a floating ball valve 13 is provided at the water inlet 12 , and the floating ball valve 13 is used to control opening or closing of the water inlet 12 to achieve the water level of the circulating water tank 1 . The float ball valve 13 can control the entry level into the circulating water tank 1 not to be higher than the level at which the lowermost end of the first baffle plate 8 is located.

The principle of operation is as follows.

After starting the impeller blast machine, the motor of the device for collecting rust dust of the present utility model is started at the same time. The high-pressure rust dust wind enters the circulation water tank from the dust inlet. The high-pressure rust dust wind is blocked by the first baffle and enters the spray water tank near the water surface to complete the primary separation. The high-pressure rust dust wind settles in the connecting pipe by spraying three times, and the rust dust settles in the rainwater tank, and the high-pressure air continues to be blocked by the second baffle plate from the rainwater tank, and is discharged near the water surface through the air discharge pipe to complete the final separation complete. The water outlet is gradually opened to discharge the water in the circulation water tank and rainwater tank, and the rust dust in the circulation water tank and rainwater tank is collected.

The above examples are only preferred embodiments of the utility model and are not intended to limit the utility model. Any modification, equivalent replacement and improvement made within the spirit and principles of the utility model falls under the scope of protection of the utility model.

The utility model belongs to the technical fields of metal processing treatment and environmental protection, and particularly relates to a device for collecting rust dust. The device comprises a circulation water tank, wherein a spray water tank is arranged on the circulation water tank, which is connected to the bottom of the spray water tank; and a dust inlet is provided on the circulating water tank and located on a side of the spray water tank; the device further comprises a rainwater tank and a circulation drive device, the rainwater tank communicating with the top of the spray water tank via a connecting pipe; the circulation driving device is used for feeding the water in the circulation water tank to the spray water tank; and the circulation driving device is electrically connected to a switch of an impeller blast machine. The construction scheme of the present utility model is convenient and has a simple structure. The rust dust is sufficiently collected for treatment by three-stage separation, which largely prevents air pollution during impeller blasting.

Claims (10)

A device for collecting rust dust, comprising a circulating water tank (1), characterized in that a spray water tank (2) is arranged on the circulating water tank (1) in connection with the bottom of the spray water tank (2); and a dust inlet (3) is provided on the circulating water tank (1) and located at a side of the spray water tank (2); further comprising a rainwater tank (4) and a circulation drive device (5), the rainwater tank (4) communicating with the top of the spray water tank (2) via a connecting pipe (6); wherein the circulation drive device (5) is used to convey the water in the circulation water tank (1) to the spray water tank (2); and the circulation driving device (5) is electrically connected to a switch of an impeller blast machine. Device for collecting rust dust claim 1 , characterized in that the dust inlet (3) is connected to an outlet for dust discharge via an air intake pipe (7) during impeller blasting. Device for collecting rust dust claim 2 , characterized in that a first baffle (8) is provided in the circulation water tank (1); said first baffle (8) being interposed between said air intake pipe (7) and said spray tank (2); and the first baffle (8) is inclined to one side of the spray water tank (2). Device for collecting rust dust claim 1 , characterized in that a plurality of spray heads are provided in the spray water tank (2) and arranged in layers; and that a plurality of spray heads are arranged at the same level in the circumferential direction in the spray water tank (2). Device for collecting rust dust claim 4 , characterized in that the spray heads in the spray water tank (2) are arranged in three layers, comprising in sequence a first spray head (11), a second spray head (10) and a third spray head (9), spaced from bottom to top are arranged. Device for collecting rust dust claim 1 , characterized in that a water inlet (12) is arranged on a side wall of the circulation water tank (1), the water inlet (12) being connected to a water inlet pipe; and a float ball valve (13) is disposed at the water inlet (12), the float ball valve (13) being used to control the water level of the circulation water tank (1). Device for collecting rust dust claim 1 , characterized in that the bottoms of the side walls of both the precipitation water tank (4) and the circulation water tank (1) are each provided with a water outlet (14). Device for collecting rust dust claim 1 , characterized in that the top of the precipitation water tank (4) is further provided with an air vent pipe (15) for gas discharge below the layer. Device for collecting rust dust claim 8 , characterized in that in the precipitation water tank (4) a second baffle plate (16) is provided, which is arranged between the air discharge pipe (15) and the connecting line (6). Device for collecting rust dust claim 1 , characterized in that dust collection openings are provided on the circulation water tank (1) and on the precipitation water tank (4).

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