CN108031873B - Lathe with waste water recycling device - Google Patents

Abstract

The invention relates to the field of lathes and discloses a lathe with a wastewater recycling device, which comprises a lathe body and the wastewater recycling device, wherein the wastewater recycling device comprises a wastewater collecting box and a cleaning and cooling device connected with the wastewater collecting box, the cleaning and cooling device comprises a first water pipe of which one end is connected with the wastewater collecting box, the other end of the first water pipe is connected with a second water pipe, a water pump is arranged on the first water pipe, the second water pipe is arranged along the length direction of the lathe body, a plurality of water spraying pipes vertical to the second water pipe are arranged on the second water pipe, and one end of the water spraying pipe, far away from the second water pipe, is provided with a spraying head facing the lathe body. The lathe is provided with the waste water recycling device, so that waste water generated in the machining process of the lathe is collected and used for cleaning the surface of the lathe or cooling the machined part of the lathe.

Description

Lathe with waste water recycling device

Technical Field

The invention relates to the field of lathes, in particular to a lathe with a waste water recycling device.

Background

A lathe is a machine tool for turning a rotating workpiece mainly with a lathe tool. The lathe can also be used for corresponding processing by using a drill bit, a reamer, a screw tap, a die, a knurling tool and the like. Lathe often can produce a large amount of waste water and sweeps in the in-process of work piece processing, and traditional lathe is concentrated the processing by operating personnel again with waste water accumulation to a certain extent, and the sweeps must then be shut down and cleaned, operates the machining efficiency that not only reduces the lathe like this, and waste water can serious environmental pollution moreover. In addition, the lathe machining part can generate heat in the working process, so that the temperature of the machined part is overhigh, and the lathe is in failure.

Disclosure of Invention

The invention aims to provide a lathe with a waste water recycling device, wherein the waste water recycling device is arranged on the lathe, so that waste water generated in the process of machining the lathe is collected and used for cleaning the surface of the lathe or cooling a machined part of the lathe.

In order to achieve the above object, an embodiment of the present invention provides a lathe with a wastewater recycling device, the lathe includes a lathe body and the wastewater recycling device, the wastewater recycling device includes a wastewater collection box disposed at the bottom of the lathe body and a cleaning and cooling device connected to the wastewater collection box, the cleaning and cooling device includes a first water pipe having one end connected to the wastewater collection box, the other end of the first water pipe is connected to a second water pipe, a water pump is disposed on the first water pipe, the second water pipe is disposed along the length direction of the lathe body, a plurality of spaced water spray pipes are disposed on the second water pipe, and a spray head facing the lathe body is disposed at one end of the water spray pipe away from the second water pipe.

Preferably, the lathe further comprises a hydraulic cylinder arranged on one side, close to the second water pipe, of the lathe body, an expansion rod is arranged at the output end of the hydraulic cylinder, and the top of the expansion rod is connected with the second water pipe.

Preferably, a water filtering device is arranged between the wastewater collecting box and the first water pipe.

Preferably, the water filtering device comprises a wastewater tank communicated with the wastewater collecting box, a clean water tank communicated with the first water pipe at the top, and a filter screen arranged between the wastewater tank and the clean water tank.

Preferably, a drying lamp is further provided at one side of the spray pipe where the sprinkler head is provided.

Preferably, the lathe further comprises a dust blowing gun positioned on one side of the lathe body far away from the second water pipe and a hook for hanging the dust blowing gun.

Preferably, the lathe further includes a position sensor for detecting a position of the second water pipe, and a first controller for:

controlling the hydraulic cylinder to work before the cleaning and cooling device starts to clean the lathe body, and extending the telescopic rod to enable the second water pipe to ascend to the top end of the lathe body;

after the second water pipe rises to the top end of the lathe body, the water pump is controlled to be started, and the cleaning and cooling device starts to clean the lathe body;

the hydraulic cylinder is controlled to work in the process of cleaning the lathe body by the cleaning and cooling device, so that the telescopic rod contracts at a constant speed, and the second water pipe descends from the top end of the lathe body to the bottom end of the lathe body at a constant speed; and

after the second water pipe rises to the bottom end of the lathe body, the water pump is controlled to be closed, and the cleaning and cooling device finishes the cleaning process of the lathe body.

Preferably, the first controller is further configured to:

after the cleaning and cooling device finishes the cleaning process of the lathe body, the drying lamp is controlled to be started, the hydraulic cylinder is controlled to work, and therefore the telescopic rod extends at a constant speed, so that the second water pipe rises from the bottom end of the lathe body to the top end of the lathe body at a constant speed;

and the second water pipe ascends from the bottom end of the lathe body to the top end of the lathe body at a constant speed and then controls the drying lamp to be turned off.

Preferably, the lathe further comprises a temperature sensor and a second controller disposed inside the lathe body, the second controller being configured to:

when the working temperature in the lathe body detected by the temperature sensor is greater than a temperature threshold value, controlling the water pump to start, and starting to cool the lathe body by the cleaning and cooling device;

when the working temperature in the lathe body is reduced to be lower than the temperature threshold value, the water pump is controlled to be closed, and the cooling device is cleaned to complete the cooling process of the lathe body.

Preferably, the spray pipe is provided with an electromagnetic valve, the temperature sensors include a plurality of temperature sensors respectively arranged at a plurality of processing positions of the lathe body, and the second controller is configured to:

when any one of the temperature sensors detects that the working temperature of the corresponding processing part is greater than a temperature threshold value, controlling the electromagnetic valve on the water spray pipe closest to the processing part to be opened, controlling the electromagnetic valves on the other water spray pipes to be closed, controlling the water pump to be started, and starting the cleaning and cooling device to cool the processing part;

and when the working temperature of the machining part is reduced to be lower than the temperature threshold value, the water pump is controlled to be closed, and the cleaning and cooling device finishes the cooling process of the machining part.

Through the technical scheme, the lathe includes that waste water collects the box and collects the washing heat sink of being connected with the waste water collection box, waste water that the waste water collection box produced in with lathe course is collected, wash the waste water that the heat sink utilized collection of waste water in the waste water collection box to wash lathe surperficial sweeps and dust etc, perhaps reduce the temperature of lathe when the lathe temperature is too high, not only realized the recovery of the waste water that produces the lathe and recycled, waste water discharge has been reduced, the polluted environment, the washing of the lathe of also being convenient for, and in time can avoid the lathe to break down to the cooling of lathe warm position.

Drawings

FIG. 1 is a schematic view showing the construction of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view showing the construction of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view showing the construction of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Fig. 1 shows a schematic structural view of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention. As shown in fig. 1, one embodiment of the present invention discloses a lathe with a waste water recycling device, the lathe may include a lathe body 1 and the waste water recycling device, the waste water recycling device includes a waste water collecting box 2 disposed at the bottom of the lathe body 1 and a cleaning and cooling device 3 connected to the waste water collecting box 2, the cleaning and cooling device 3 includes a first water pipe 31 having one end connected to the waste water collecting box 2, the other end of the first water pipe 31 is connected to a second water pipe 32, a water pump 311 is disposed on the first water pipe 31, the second water pipe 32 is disposed along the length direction of the lathe body 1, a plurality of water spray pipes 33 are disposed at intervals on the second water pipe 32, and a spray head 331 facing the lathe body 1 is disposed at one end of the water spray pipes 33 far from the second water pipe 32.

The water spray pipe 33 may be provided, for example, perpendicularly to the second water pipe 32, i.e., in the width direction of the lathe body 1, or may be slightly inclined upward or downward in the height direction of the lathe body 1.

The waste water collecting box 2 can move along the width direction of the lathe and can be drawn out from the lathe body, so that a worker can conveniently treat waste water accumulated in the waste water collecting box 2.

Fig. 2 is a schematic view showing the construction of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention. As shown in fig. 2, one embodiment of the present invention discloses a lathe with a wastewater recycling device, which may further include a hydraulic cylinder 34 disposed on one side of the lathe body 1 near the second water pipe 32, as compared with the lathe shown in fig. 1, wherein an output end of the hydraulic cylinder 34 is provided with a telescopic rod 35, and a top of the telescopic rod 35 is connected to the second water pipe 32. The extension or contraction of the telescopic rod 35 drives the second water pipe 32 and the water spraying pipe 33 to move on the height of the lathe body.

The first water pipe 31 may be made of a soft plastic material, for example, and the second water pipe 32 and the water spray pipe 33 may be made of an aluminum-plastic composite material, for example.

The number of the hydraulic cylinders 34 and the telescopic rods 35 may be 2, and the hydraulic cylinders and the telescopic rods are respectively arranged at two ends of the lathe body 1 in the length direction.

The waste water generated in the machining process of the lathe is often doped with a plurality of scraps, and the waste water directly doped with the scraps can not only play a role in cleaning the lathe but also possibly enable more scraps on the surface of the lathe. It is therefore necessary to filter the waste water of the waste water collecting box 2 before use.

Fig. 3 shows a schematic structural view of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention. As shown in fig. 3, an embodiment of the present invention discloses a lathe having a wastewater recycling apparatus, which may further include a water filtering device 36 disposed between the wastewater collection box 2 and the first water pipe 31, compared to the lathe shown in fig. 2.

In an embodiment of the present invention, the water filtering means 36 may include, for example, a wastewater tank communicating with the wastewater collecting box 2, a clean water tank communicating with the first water pipe 31 at the top, and a filter screen disposed between the wastewater tank and the clean water tank. The sweeps in the waste water are left in the waste water tank through the filter screen, the filtered waste water flows into the clean water tank, and the water in the clean water tank is used for cleaning the lathe body 1.

In order to dry the surface of the lathe quickly, a drying lamp may be further provided at a side of the spray pipe 33 where the spray head 331 is provided, for example.

Fig. 4 is a schematic view showing the construction of a lathe having a wastewater recycling apparatus according to an embodiment of the present invention. As shown in fig. 4, an embodiment of the present invention discloses a lathe having a waste water recycling device, which may further include a dust blowing gun 4 located on a side of the lathe body 1 away from the second water pipe 32 and a hook 41 for hanging the dust blowing gun 4, compared to the lathe shown in fig. 3. The dust blowing gun 4 can be used for cleaning a lathe, and the condition that key parts of the lathe enter scrap iron to cause blocking and the like is avoided. The hook 41 for hanging the dust blowing gun 4 is convenient for placing the dust blowing gun 4.

In an embodiment of the present invention, the lathe may further include a position sensor for detecting a position of the second water pipe 32, and a first controller for:

controlling the hydraulic cylinder 34 to work before the cleaning and cooling device 3 starts cleaning the lathe body 1, so that the telescopic rod 35 extends to enable the second water pipe 32 to ascend to the top end of the lathe body 1;

after the second water pipe 32 rises to the top end of the lathe body 1, the water pump 311 is controlled to be started, and the cleaning and cooling device 3 starts to clean the lathe body 1;

controlling the hydraulic cylinder 34 to work in the process of cleaning the lathe body 1 by the cleaning and cooling device 3, so that the telescopic rod 35 contracts at a constant speed, and the second water pipe 32 descends from the top end of the lathe body 1 to the bottom end of the lathe body 1 at a constant speed; and

after the second water pipe 32 rises to the bottom end of the lathe body 1, the water pump 311 is controlled to be closed, and the cleaning and cooling device 3 finishes the cleaning process of the lathe body 1.

In the case where the end of the sprinkler pipe 33 is provided with a drying lamp, the first controller may also be configured to:

after the cleaning and cooling device 3 finishes the cleaning process of the lathe body 1, the drying lamp 332 is controlled to be turned on, and the hydraulic cylinder 34 is controlled to work, so that the telescopic rod 35 extends at a constant speed, and the second water pipe 32 rises from the bottom end of the lathe body 1 to the top end of the lathe body 1 at a constant speed;

after the second water pipe 32 ascends from the bottom end of the lathe body 1 to the top end of the lathe body 1 at a constant speed, the drying lamp 332 is controlled to be turned off.

In an embodiment of the present invention, the lathe may further include a temperature sensor and a second controller provided inside the lathe body 1, and the second controller may be configured to:

when the working temperature inside the lathe body 1 detected by the temperature sensor is greater than the temperature threshold value, the water pump 331 is controlled to be started, and the cleaning and cooling device 3 starts to cool the lathe body 1;

when the working temperature in the lathe body 1 is reduced to be lower than the temperature threshold value, the water pump 331 is controlled to be turned off, and the cleaning and cooling device 3 completes the cooling process of the lathe body 1.

Because the lathe includes a plurality of processing positions, when the operating temperature of a certain processing position is in the excess temperature state, can cause the wasting of resources of certain degree to the whole lathe cooling, increase the cost, reduce work efficiency. In an embodiment of the present invention, the water spray pipe 33 may be provided with an electromagnetic valve, and the opening/closing of the electromagnetic valve is controlled to control whether the water spray head sprays water on the lathe body 1. The temperature sensor may include a plurality of temperature sensors provided at a plurality of machining sites of the lathe body 1, respectively, and the second controller may be configured to:

when any one of the temperature sensors detects that the working temperature of the corresponding processing part is greater than the temperature threshold value, the electromagnetic valve on the spray pipe 33 closest to the processing part is controlled to be opened, the electromagnetic valves on the other spray pipes 33 are controlled to be closed, the water pump 331 is controlled to be started, and the cleaning and cooling device 3 starts cooling the processing part;

when the working temperature of the machining part is reduced to be lower than the temperature threshold value, the water pump 331 is controlled to be closed, and the cleaning and cooling device 3 completes the cooling process of the machining part.

Through the technical scheme, the lathe includes that waste water collects the box and collects the washing heat sink of being connected with the waste water collection box, waste water that the waste water collection box produced in with lathe course is collected, wash the waste water that the heat sink utilized collection of waste water in the waste water collection box to wash lathe surperficial sweeps and dust etc, perhaps reduce the temperature of lathe when the lathe temperature is too high, not only realized the recovery of the waste water that produces the lathe and recycled, waste water discharge has been reduced, the polluted environment, the washing of the lathe of also being convenient for, and in time can avoid the lathe to break down to the cooling of lathe warm position.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the invention, numerous simple modifications can be made to the technical solution of the invention, including combinations of the individual specific technical features in any suitable way. The invention is not described in detail in order to avoid unnecessary repetition. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims (1)

1. A lathe with a waste water recycling device is characterized by comprising a lathe body (1) and the waste water recycling device, wherein the waste water recycling device comprises a waste water collecting box (2) arranged at the bottom of the lathe body (1) and a cleaning and cooling device (3) connected with the waste water collecting box (2), the cleaning and cooling device (3) comprises a first water pipe (31) with one end connected with the waste water collecting box (2), the other end of the first water pipe (31) is connected with a second water pipe (32), a water pump (311) is arranged on the first water pipe (31), the second water pipe (32) is arranged along the length direction of the lathe body (1), a plurality of spaced water spraying pipes (33) are arranged on the second water pipe (32), and a spraying head (331) facing the lathe body (1) is arranged at one end, far away from the second water pipe (32), of each water spraying pipe (33), the lathe further comprises a dust blowing gun (4) and a hook (41) for hanging the dust blowing gun (4), wherein the dust blowing gun (4) is located on one side, far away from the second water pipe (32), of the lathe body (1), the lathe further comprises a hydraulic cylinder (34) arranged on one side, close to the second water pipe (32), of the lathe body (1), an expansion rod (35) is arranged at the output end of the hydraulic cylinder (34), and the top of the expansion rod (35) is connected with the second water pipe (32);

the lathe further comprises a position sensor for detecting the position of the second water pipe (32), and a first controller for:

controlling the hydraulic cylinder (34) to work before the cleaning and cooling device (3) starts cleaning the lathe body (1), so that the telescopic rod (35) extends to enable the second water pipe (32) to ascend to the top end of the lathe body (1);

after the second water pipe (32) rises to the top end of the lathe body (1), the water pump (311) is controlled to be started, and the cleaning and cooling device (3) starts to clean the lathe body (1);

controlling the hydraulic cylinder (34) to work in the process that the cleaning and cooling device (3) cleans the lathe body (1), so that the telescopic rod (35) contracts at a constant speed, and the second water pipe (32) descends from the top end of the lathe body (1) to the bottom end of the lathe body (1) at a constant speed; and

after the second water pipe (32) rises to the bottom end of the lathe body (1), the water pump (311) is controlled to be closed, and the cleaning and cooling device (3) finishes the cleaning process of the lathe body (1);

a water filtering device (36) is arranged between the wastewater collecting box (2) and the first water pipe (31);

the water filtering device (36) comprises a wastewater pool communicated with the wastewater collecting box (2), a clean water pool with the top communicated with the first water pipe (31) and a filter screen arranged between the wastewater pool and the clean water pool;

a drying lamp is also arranged on one side of the spray pipe (33) provided with the spray head (331);

the first controller is further configured to:

after the cleaning and cooling device (3) finishes the cleaning process of the lathe body (1), controlling the drying lamp to be turned on, and controlling the hydraulic cylinder (34) to work, so that the telescopic rod (35) extends at a constant speed, and the second water pipe (32) rises from the bottom end of the lathe body (1) to the top end of the lathe body (1) at a constant speed;

after the second water pipe (32) rises from the bottom end of the lathe body (1) to the top end of the lathe body (1) at a constant speed, the drying lamp is controlled to be turned off;

the lathe further comprises a temperature sensor and a second controller arranged inside the lathe body (1), the second controller being used for:

when the working temperature in the lathe body (1) detected by the temperature sensor is greater than a temperature threshold value, the water pump (311) is controlled to be started, and the cleaning and cooling device (3) starts to cool the lathe body (1);

when the working temperature in the lathe body (1) is reduced to be lower than the temperature threshold value, the water pump (311) is controlled to be closed, and the cleaning and cooling device (3) completes the cooling process of the lathe body (1);

the water spray pipe (33) is provided with an electromagnetic valve, the temperature sensors comprise a plurality of temperature sensors respectively arranged at a plurality of processing positions of the lathe body (1), and the second controller is used for:

when any one of the temperature sensors detects that the working temperature of the corresponding processing part is greater than a temperature threshold value, controlling the electromagnetic valve on the water spray pipe (33) nearest to the processing part to be opened, closing the electromagnetic valves on the other water spray pipes (33), controlling the water pump (311) to be started, and starting the cleaning and cooling device (3) to cool the processing part;

when the working temperature of the processing part is reduced to be lower than the temperature threshold value, the water pump (311) is controlled to be closed, and the cleaning and cooling device (3) completes the cooling process of the processing part.

Images