CN210849420U - Novel cooling liquid atomizing device - Google Patents

Abstract

The utility model provides a novel coolant liquid atomizing device, it relates to process units technical field, aims at solving current deep hole processing cooling and does not fully cause the part hole poor problem of quality that the cutter easily damaged processing goes out. Including coolant liquid box, bayonet through joint, cylinder head, box diaphragm, box riser, box baffle, cylinder body, piston rod, cylinder bottom, rubber seal, connecting plate, its characterized in that, box diaphragm, box riser and box baffle are installed to the coolant liquid box, the top of box diaphragm is equipped with the cylinder head, the cylinder body is installed to the lower extreme of cylinder head, the upper end of cylinder body is equipped with the piston rod and is arranged in the cylinder body inner chamber, it is sealed through rubber seal between cylinder body and the cylinder head, the cylinder body is equipped with the cylinder bottom, the connecting plate is installed to the cylinder bottom lower extreme, cylinder bottom, cylinder body and cylinder head link into an integrated entity through the fastener, cylinder bottom and cylinder head all are equipped with through pipe joint and are located central point and put.

Description

Novel cooling liquid atomizing device

Technical Field

The utility model relates to a process units field, concretely relates to novel coolant liquid atomizing device.

Background

In the prior art, the common machining needs to be carried out after the cutting tool is cooled. The problems that the cutter is not sufficiently lubricated by cooling liquid can cause temperature rise, chip removal is difficult, and the cutter is easy to wear, so that the surface roughness of parts machined by the cutter is poor, and the straightness difference has serious technical problems for subsequent machining procedures. The influence on normal processing procedures results in high processing cost, low production efficiency and poor quality of produced products.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel coolant liquid atomizing device to solve the current deep hole processing cooling that prior art exists and not fully cause the part hole poor problem of quality that the cutter easily damaged processing goes out.

In order to solve the technical problem, the utility model provides a novel cooling liquid atomization device, which comprises a cooling liquid box body, a plug-in type straight pipe joint, a cylinder cover, a box body transverse plate, a box body vertical plate, a box body clapboard, a cylinder body, a piston rod, a cylinder bottom, a rubber sealing ring, a copper lining ring, a spring and a connecting plate, wherein the box body transverse plate, the box body vertical plate and the box body clapboard are arranged on the cooling liquid box body, the cylinder cover is arranged above the box body transverse plate, the cylinder body is arranged at the lower end of the cylinder cover, the piston rod is arranged at the upper end of the cylinder body and is positioned in an inner cavity of the cylinder body, the cylinder body and the cylinder cover are sealed through the rubber sealing ring, the cylinder body is provided with the cylinder bottom, the copper lining ring is arranged at the cylinder bottom, the, the cylinder bottom and the cylinder cover are both provided with plug-in straight-through type pipe joints and are positioned in the center.

Preferably, the device comprises a combined sealing ring, a first connecting bolt, a second connecting bolt, a third connecting bolt, a first check valve, a second check valve, filter screen cloth, a pressing ring and a check ring, the left end of the cylinder cover is connected with a first connecting bolt, the first connecting bolt and the cylinder cover are sealed through a combined sealing ring, a first check valve is connected below the first connecting bolt, a second connecting bolt is connected at the lower end of the first check valve, a second check valve is connected below the second connecting bolt, the first check valve and the second check valve are sealed with the connecting bolt by a combined sealing ring, a third connecting bolt is connected below the second one-way valve, the inner cavity of the third connecting bolt is sequentially provided with a filter screen cloth and a pressing ring, and a check ring is installed at the bottom of the third bolt, and the upper end of the first connecting bolt is connected with an inserted straight-through pipe joint.

Preferably, the side surface of the first connecting bolt is connected with an elbow type speed regulating valve, and a valve core is arranged in an inner cavity of the elbow type speed regulating valve.

Preferably, the cooling liquid box body is connected with a valve body, the right side of the valve body is connected with a drill chuck, and the drill chuck is connected with a deep hole cutter and a cutter head thereof.

Preferably, the cooling system comprises a one-way speed regulating valve, a two-position five-way delay valve and a throttle valve, and is characterized in that the cooling liquid tank body is connected with the two-position five-way valve, the two-position five-way valve is connected with the two-position five-way delay valve, the one-way speed regulating valve is connected between the two-position five-way delay valve and the cooling liquid tank body, and the other end of the two-position five-way valve, which is connected with the two-position five-way delay.

The utility model discloses the beneficial effect who brings:

(1) the utility model can fully lubricate the tool bit of the tool, reduce the temperature of the tool bit, improve the reliability of chip removal and reduce the abrasion of the surface of the tool bit;

(2) the utility model provides high deep hole machining's roughness and straightness accuracy improve surface quality, reduction in production cost improves production efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an implementation of the cooling liquid atomizing device according to the present invention;

FIG. 2 is a schematic view of the throttle valve of the coolant atomization device according to the present invention;

fig. 3 is a control schematic diagram of the cooling liquid atomizing device according to the present invention;

wherein, 1-a cooling liquid box body, 2-a plug-in type straight-through pipe joint, 3-a cylinder cover, 4-a box body transverse plate, 5-a box body vertical plate, 6-a box body clapboard, 7-a cylinder body, 8-a piston rod, 9-a cylinder bottom, 10-a rubber sealing ring, 11-a copper lining ring, 12-a spring, 13-a connecting plate, 14-a combined sealing ring, 15-a first connecting bolt, 16-a second connecting bolt, 17-a third connecting bolt, 18-a one-way valve I, 19-a one-way valve II, 20-a filter screen cloth, 21-a pressing ring, 22-a check ring, 23-a bent head type speed regulating valve, 24-a valve core, 25-a valve body, 26-a drill chuck, 27-a deep hole cutter and a cutter head thereof, 28-a one-way speed, 30-two-position five-way delay valve and 31-throttle valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to specific embodiments.

As shown in fig. 1-3, the utility model provides a novel cooling liquid atomizing device, which comprises a cooling liquid box body 1, a plug-in through joint 2, a cylinder cover 3, a box transverse plate 4, a box vertical plate 5, a box partition plate 6, a cylinder body 7, a piston rod 8, a cylinder bottom 9, a rubber seal ring 10, a copper liner ring 11, a spring 12 and a connecting plate 13, wherein the cooling liquid box body 1 is provided with the box transverse plate 4, the box vertical plate 5 and the box partition plate 6, the cylinder cover 3 is arranged above the box transverse plate 4, the cylinder body 7 is arranged at the lower end of the cylinder cover 3, the upper end of the cylinder body 7 is provided with the piston rod 8 and is positioned in the inner cavity of the cylinder body 7, the cylinder body 7 and the cylinder cover 3 are sealed by the rubber seal ring 10, the cylinder body 7 is provided with the cylinder bottom 9, the cylinder bottom 9 is provided with, the lower end of the cylinder bottom 9 is provided with a connecting plate 13, the cylinder bottom 9, the cylinder body 7 and the cylinder cover 3 are connected into a whole through a fastening piece, and the cylinder bottom 9 and the cylinder cover 3 are provided with plug-in straight-through type pipe joints 2 and are positioned in the center.

Further, the cylinder head comprises a combined sealing ring 14, a first connecting bolt 15, a second connecting bolt 16, a third connecting bolt 17, a first check valve 18, a second check valve 19, a filter mesh 20, a pressing ring 21 and a retainer ring 22, wherein the left end of the cylinder head 3 is connected with the first connecting bolt 15, the space between the first connecting bolt 15 and the cylinder head 3 is sealed through the combined sealing ring 14, the first check valve 18 is connected below the first connecting bolt 15, the lower end of the first check valve 18 is connected with the second connecting bolt 16, the lower part of the second connecting bolt 16 is connected with the second check valve 19, the combined sealing ring 14 between the first check valve 18 and the second check valve 19 and the connecting bolts completes sealing, the lower part of the second check valve 19 is connected with the third connecting bolt 17, the inner cavity of the third connecting bolt 17 is sequentially provided with the filter mesh 20 and the pressing ring 21, the bottom of the third bolt 17 is provided with a retainer ring, and the upper end of the first connecting bolt 15 is connected with an inserted straight-through pipe joint 2.

Further, the side surface of the first connecting bolt 15 is connected with an elbow type speed regulating valve 23, and a valve core 24 is arranged in the inner cavity of the elbow type speed regulating valve 23.

Further, the cooling liquid box 1 is connected with a valve body 25, the right side of the valve body 25 is connected with a drill chuck 26, and the drill chuck 26 is connected with a deep hole cutter and a cutter head 27 thereof.

The cooling system further comprises a one-way speed regulating valve 28, a two-position five-way valve 29, a two-position five-way delay valve 30 and a throttle valve 31, and is characterized in that the cooling liquid tank body 1 is connected with the two-position five-way valve 29, the two-position five-way valve 29 is connected with the two-position five-way delay valve 30, the one-way speed regulating valve 28 is connected between the two-position five-way delay valve 29 and the cooling liquid tank body 1, and the other end of the two-position five-way valve, which is connected with the 29-position five-way delay valve 30, is connected.

The utility model provides a novel cooling atomizing device's theory of operation: the opening and closing of the two-position five-way valve 29 are controlled by the time delay function of the two-position five-way time delay valve 30, so as to push the working of the cylinder, after a certain negative pressure is formed in the pipeline, the cooling liquid is extracted from the cooling liquid box body 1, the one-way valve in the pipeline can keep a certain pressure in the pipeline, the cooling liquid reaches the annular groove of the valve core in the valve body through the pipe after being extracted, after the compressed air P at the other end of the valve body acts on the cooling liquid in the annular groove of the valve core through the inner hole of the valve core, the atomized cooling liquid can fully lubricate a deep hole cutter and a cutter head clamped by a drill chuck through the pipeline, the temperature of the cutter head is reduced, the reliability of chip removal is improved, the abrasion of the cutter is reduced, and the quality factors such as the roughness and the straightness of the deep hole machining surface are improved.

To sum up, the utility model discloses can carry out abundant lubrication to the tool bit of cutter, reduce the temperature of tool bit, improve the reliability of chip removal, reduce the wearing and tearing on tool bit surface, improve deep hole machining's roughness and straightness accuracy, improve surface quality, reduction in production cost improves production efficiency.

It should be noted that, the utility model discloses the multiple standard component that uses all can be obtained from the market, and nonstandard component then can customize very much, the utility model discloses the connected mode that adopts such as bolted connection, welding etc. also are very common means in the mechanical field, and the inventor is no longer repeated here.

The above description is only an example of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. A novel cooling liquid atomizing device comprises a cooling liquid box body (1), an inserted straight pipe joint (2), a cylinder cover (3), a box body transverse plate (4), a box body vertical plate (5), a box body partition plate (6), a cylinder body (7), a piston rod (8), a cylinder bottom (9), a rubber sealing ring (10), a copper lining ring (11), a spring (12) and a connecting plate (13), and is characterized in that the box body transverse plate (4), the box body vertical plate (5) and the box body partition plate (6) are installed on the cooling liquid box body (1), the cylinder cover (3) is arranged above the box body transverse plate (4), the cylinder body (7) is installed at the lower end of the cylinder cover (3), the piston rod (8) is arranged at the upper end of the cylinder body (7) and is positioned in the inner cavity of the cylinder body (7), the cylinder body (7) and the cylinder cover (, the cylinder body (7) is provided with a cylinder bottom (9), a copper lining ring (11) is installed on the cylinder bottom (9), a spring (12) is arranged in an inner cavity of the piston rod (8) and the cylinder bottom (9), a connecting plate (13) is installed at the lower end of the cylinder bottom (9), the cylinder body (7) and the cylinder cover (3) are connected into a whole through fasteners, and the cylinder bottom (9) and the cylinder cover (3) are provided with an inserted through pipe joint (2) and are located at the center position.

2. The novel cooling liquid atomizing device according to claim 1, comprising a combined seal ring (14), a first connecting bolt (15), a second connecting bolt (16), a third connecting bolt (17), a first check valve (18), a second check valve (19), a filter screen cloth (20), a pressing ring (21) and a retainer ring (22), wherein the first connecting bolt (15) is connected to the left end of the cylinder head (3), the first connecting bolt (15) and the cylinder head (3) are sealed through the combined seal ring (14), the first check valve (18) is connected below the first connecting bolt (15), the second connecting bolt (16) is connected to the lower end of the first check valve (18), the second check valve (19) is connected below the second connecting bolt (16), and the first check valve (18) and the combined seal ring (14) between the second check valve (19) and the connecting bolt are sealed, the lower part of the second check valve (19) is connected with a third connecting bolt (17), an inner cavity of the third connecting bolt (17) is sequentially provided with a filter screen cloth (20) and a pressing ring (21), the bottom of the third connecting bolt (17) is provided with a check ring (22), and the upper end of the first connecting bolt (15) is connected with an inserted through pipe joint (2).

3. The new cooling liquid atomizing device according to claim 2, characterized in that an elbow type speed regulating valve (23) is connected to the side of said first connecting bolt (15), and a valve core (24) is disposed in the inner cavity of said elbow type speed regulating valve (23).

4. A novel cooling liquid atomizing device as set forth in claim 1, characterized in that said cooling liquid tank body (1) is connected with a valve body (25), a drill chuck (26) is connected to the right side of said valve body (25), and said drill chuck (26) is connected with a deep hole cutter and a cutter head (27) thereof.

5. The novel cooling liquid atomizing device according to claim 1, characterized in that the cooling liquid atomizing device comprises a one-way speed control valve (28), a two-position five-way valve (29), a two-position five-way time delay valve (30) and a throttle valve (31), the cooling liquid tank (1) is connected with the two-position five-way valve (29), the two-position five-way valve (29) is connected with the two-position five-way time delay valve (30), the one-way speed control valve (28) is connected between the two-position five-way time delay valve (30) and the cooling liquid tank (1), and the throttle valve (31) is connected to the other end of the two-position five-way valve (29) connected with the.

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