CN115156995A

CN115156995A - Cutting fluid spray set for machining

Info

Publication number: CN115156995A
Application number: CN202210899863.1A
Authority: CN
Inventors: 吴从兵; 周红霞; 黄林; 李鸿宾
Original assignee: West Anhui University
Current assignee: West Anhui University
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2022-10-11
Anticipated expiration: 2042-07-28
Also published as: CN115156995B

Abstract

The invention relates to the technical field of machining, and discloses a cutting fluid spraying device for machining, which aims to solve the problem that the existing cutting fluid spraying device for machining needs to be manually switched to spray when in use; a second drive member is also included. When the cutting fluid spraying device is used, the second driving part drives the placing seat to rotate horizontally, the sealing block drives the arc-shaped part to rotate to the horizontal position under the action of centrifugal force, cutting fluid in the second spraying shell is sprayed out from the opening of the liquid outlet hole, automatic spraying of a workpiece to be processed is achieved, meanwhile, the top of the workpiece to be processed is sprayed through the first spraying mechanism, the cutting fluid can be sprayed in multiple directions on the workpiece to be processed, automatic spraying when the placing seat rotates is achieved, spraying is automatically stopped when the placing seat stops rotating, and using efficiency is improved.

Description

Cutting fluid spray set for machining

Technical Field

The invention relates to the technical field of machining, in particular to a cutting fluid spraying device for machining.

Background

The cutting fluid is an industrial fluid used for cooling and lubricating cutters and workpieces in the metal cutting and grinding process, is formed by scientifically compounding and matching various super-strong functional additives, and has the characteristics of good cooling performance, lubricating performance, antirust performance, oil removal and cleaning functions, anticorrosion function and easiness in dilution.

The cutting fluid spraying device is needed to be used for spraying the workpiece to be machined in the machining process, and the existing cutting fluid spraying device for machining needs to be manually switched to spray when in use.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a cutting fluid spraying device for machining.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cutting fluid spraying device for machining comprises a shell, wherein a mounting screen plate is mounted inside the shell, and a placing seat is movably arranged at the top of the mounting screen plate and used for placing a workpiece to be machined; the second driving part is used for driving the placing seat to horizontally rotate; a fixing mechanism is arranged on the circumference of the top of the placing seat and used for fixing a workpiece to be machined; the top of the placing seat is provided with a second spraying mechanism which is used for spraying cutting fluid to the workpiece to be machined when the placing seat rotates horizontally; the second spraying mechanism comprises a second spraying shell arranged on the placing seat, and the side surface of the second spraying shell is provided with a liquid outlet hole; an arc-shaped part is movably arranged on the side surface of the second spraying shell, and a sealing block is arranged at one end of the arc-shaped part and used for blocking an opening of the liquid outlet hole when the placing seat does not rotate; the inner arc surface of the arc-shaped part is connected with the outer wall of the second spraying shell through a return spring; a rotating shaft is vertically arranged at the top of the shell, an obliquely arranged mounting shell is fixed at one end of the rotating shaft close to the placing seat, and a first spraying mechanism is movably mounted at one side of the mounting shell close to the placing seat through a connecting mechanism and used for spraying workpieces to be processed; the cutting fluid spraying device further comprises a delivery pump which is used for injecting cutting fluid into the first spraying mechanism and the second spraying shell.

Preferably, the fixing mechanism comprises a fixing groove formed at the top of the placing seat, and the bottom of the fixing groove is fixed with the electromagnetic component.

Preferably, the first spraying mechanism comprises a first spraying shell, and a spray head is arranged on one side, close to the placing seat, of the first spraying shell; the rotating shaft is of a hollow structure, and the interior of the rotating shaft is communicated with the interior of the first spraying shell through a liquid inlet pipe; the inside of the rotating shaft is communicated with the discharge end of the delivery pump through a connecting pipe.

Preferably, the connecting mechanism comprises a mounting hole formed in the side surface of the mounting shell; the extension part is arranged on the side surface of the first spraying shell, and one end of the extension part, which is far away from the first spraying shell, extends into the installation shell through the installation hole; the side surface of the extension part is connected with the inner wall of the mounting hole through a flexible connecting piece and is used for connecting the gap between the side surface of the extension part and the inner wall of the mounting hole.

Preferably, the device also comprises a driving mechanism for driving the rotating shaft to horizontally rotate; the driving mechanism comprises a driven tooth arranged on the side surface of the rotating shaft; the driving gear is movably arranged on the inner wall of the shell, and the side surface of the driving gear is meshed with the driven gear; the first driving component is used for driving the driving gear to rotate.

Preferably, the spraying device further comprises an air inlet mechanism for blowing air into the installation shell at intervals when the rotating shaft drives the installation shell and the first spraying shell to horizontally rotate.

Preferably, the air inlet mechanism comprises a transition shell of an annular structure fixed on the inner wall of the top of the shell; the air inlet pipe is arranged at one end of the mounting shell, which is far away from the rotating shaft; one end of the air inlet pipe, which is far away from the mounting shell, is provided with a connecting part with an annular structure; the top of the connecting part and the bottom of the transition shell are both provided with air inlets arranged at intervals; the transition shell is internally provided with a transition shell, and the transition shell is internally provided with an air pump for blowing air into the transition shell.

Preferably, one end of the mounting shell, which is close to the rotating shaft, is provided with an air outlet.

Preferably, the cutting fluid filtering device further comprises a filtering component for filtering the cutting fluid flowing to the bottom of the shell through the meshes of the installation mesh plate.

The invention has the beneficial effects that:

when the cutting fluid spraying device is used, the workpiece to be machined is fixed at the top of the placing seat through the fixing mechanism, the conveying pump sprays a shell and the first cutting fluid injected into the spraying mechanism to the second, the second driving part drives the placing seat to horizontally rotate, at the moment, the sealing block drives the arc-shaped part to rotate to the level under the action of centrifugal force, the cutting fluid sprayed in the second spraying shell is sprayed out from the opening of the fluid outlet hole, automatic spraying of the workpiece to be machined is achieved, meanwhile, the top of the workpiece to be machined is sprayed through the first spraying mechanism, diversified spraying of the cutting fluid to be machined can be achieved, after machining is completed, when the second driving part stops driving the placing seat to horizontally rotate, the arc-shaped part rotates under the action of the tensile force of the reset spring, at the moment, the sealing block blocks the opening of the fluid outlet hole to be blocked, automatic spraying when the placing seat rotates is achieved, automatic stopping spraying when the placing seat stops rotating, and use efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cutting fluid spraying device for machining according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a first spraying mechanism of the cutting fluid spraying device for machining according to the embodiment of the present invention;

fig. 3 is a schematic structural view of a second spraying mechanism and a fixing mechanism of the cutting fluid spraying device for machining according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of an overall cutting fluid spraying device for machining according to an embodiment of the present invention.

In the figure: 1-shell, 2-installation shell, 3-air inlet mechanism, 31-air inlet pipe, 32-transition shell, 33-air pump, 34-connecting part, 35-air inlet hole, 4-delivery pump, 5-driving mechanism, 51-driven gear, 52-first driving part, 53-driving gear, 6-placing seat, 7-second driving part, 8-first spraying mechanism, 81-first spraying shell, 82-spray head, 9-connecting mechanism, 91-extending part, 92-installation hole, 93-flexible connecting piece, 10-rotating shaft, 11-liquid inlet pipe, 12-second spraying mechanism, 121-second spraying shell, 122-reset spring, 123-sealing block, 124-arc part, 13-fixing mechanism, 131-fixing groove, 132-electromagnetic part, 14-liquid outlet hole, 15-installation screen plate, 16-filtering part and 17-air outlet hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 4, the cutting fluid spraying device for machining comprises a housing 1, wherein a mounting screen plate 15 is mounted inside the housing 1, and a placing seat 6 is movably arranged at the top of the mounting screen plate 15 and used for placing a workpiece to be machined; the second driving part 7 is used for driving the placing seat 6 to horizontally rotate; a fixing mechanism 13 is arranged on the circumference of the top of the placing seat 6 and used for fixing a workpiece to be processed; the top of the placing seat 6 is provided with a second spraying mechanism 12 which is used for spraying cutting fluid to the workpiece to be machined when the placing seat 6 horizontally rotates; the second spraying mechanism 12 comprises a second spraying shell 121 arranged on the placing seat 6, and the side surface of the second spraying shell 121 is provided with a liquid outlet 14; an arc-shaped part 124 is movably arranged on the side surface of the second spraying shell 121, and a sealing block 123 is arranged at one end of the arc-shaped part 124 and used for blocking the opening of the liquid outlet hole 14 when the placing seat 6 does not rotate; the inner arc surface of the arc-shaped part 124 is connected with the outer wall of the second spray shell 121 through a return spring 122; a rotating shaft 10 is vertically arranged at the top of the shell 1, an obliquely arranged mounting shell 2 is fixed at one end of the rotating shaft 10 close to the placing seat 6, and a first spraying mechanism 8 is movably mounted at one side of the mounting shell 2 close to the placing seat 6 through a connecting mechanism 9 and used for spraying a workpiece to be processed; the cutting fluid spraying device further comprises a delivery pump 4 which is used for injecting cutting fluid into the first spraying mechanism 8 and the second spraying shell 121.

When the automatic cutting machine is used, the workpiece to be machined is fixed at the top of the placing seat 6 through the fixing mechanism 13, the conveying pump 4 injects cutting fluid into the second spraying shell 121 and the first spraying mechanism 8, the second driving part 7 drives the placing seat 6 to horizontally rotate, the sealing block 123 drives the arc part 124 to rotate to the horizontal position under the action of centrifugal force, the cutting fluid in the second spraying shell 121 is sprayed out from an opening of the liquid outlet hole 14, automatic spraying of the workpiece to be machined is achieved, meanwhile, the top of the workpiece to be machined is sprayed through the first spraying mechanism 8, multidirectional spraying of the workpiece to be machined can be achieved, after machining is completed, when the second driving part 7 stops driving the placing seat 6 to horizontally rotate, the arc part 124 rotates under the tensile force action of the reset spring 122, the sealing block 123 blocks the opening of the liquid outlet hole 14 at the moment, automatic spraying when the placing seat 6 rotates is achieved, automatic spraying when the placing seat 6 stops rotating, and using efficiency is improved.

As a preferred embodiment of the present invention, the fixing mechanism 13 includes a fixing groove 131 opened at the top of the placing base 6, an electromagnetic component 132 is fixed at the bottom of the fixing groove 131, a workpiece to be processed is placed in the fixing groove 131, and the electromagnetic component 132 is energized to adsorb and fix the workpiece to be processed.

As a preferred embodiment of the present invention, the first spraying mechanism 8 includes a first spraying housing 81, and a spraying head 82 is provided on one side of the first spraying housing 81 close to the placing seat 6; the rotating shaft 10 is of a hollow structure, and the inside of the rotating shaft 10 is communicated with the inside of the first spraying shell 81 through a liquid inlet pipe 11; the inside of pivot 10 passes through the connecting pipe and communicates with the discharge end of delivery pump 4, and during the use delivery pump 4 carries the cutting fluid to the pivot 10 in, the cutting fluid is in injecting into first spraying shell 81 through feed liquor pipe 11, finally realizes spraying through shower nozzle 82.

As a preferred embodiment of the present invention, the connection mechanism 9 includes a mounting hole 92 opened in a side surface of the mounting case 2; an extension part 91 installed on the side of the first spray housing 81, wherein one end of the extension part 91 far away from the first spray housing 81 extends to the inside of the installation housing 2 through the installation hole 92; the side surface of the extension member 91 is connected to the inner wall of the mounting hole 92 by a flexible joint 93 for connecting the gap between the side surface of the extension member 91 and the inner wall of the mounting hole 92.

As a preferred embodiment of the present invention, the present invention further comprises a driving mechanism 5 for driving the rotating shaft 10 to rotate horizontally; the driving mechanism 5 comprises a driven tooth 51 arranged on the side surface of the rotating shaft 10; a driving gear 53 movably mounted on the inner wall of the housing 1, the side surface of the driving gear 53 being engaged with the driven gear 51; the first driving member 52 for driving the driving gear 53 to rotate can drive the driving gear 53 to rotate through the first driving member 52, so as to drive the rotating shaft 10 to rotate, drive the first spraying housing 81 and the spraying head 82 to horizontally rotate, and increase the spraying range of the spraying head 82.

As a preferred embodiment of the present invention, the present invention further comprises an air intake mechanism 3, which is used for blowing air into the installation housing 2 at intervals when the rotation shaft 10 drives the installation housing 2 and the first spraying housing 81 to rotate horizontally.

As a preferred embodiment of the present invention, the air intake mechanism 3 includes a transition casing 32 of annular structure fixed to the top inner wall of the casing 1; an air inlet pipe 31 installed at one end of the installation housing 2 far from the rotation shaft 10; an engagement part 34 with an annular structure is arranged at one end of the air inlet pipe 31 far away from the mounting shell 2; the top of the engaging part 34 and the bottom of the transition shell 32 are both provided with air inlets 35 arranged at intervals; an air pump 33 is also included for blowing air into the transition housing 32.

As a preferred embodiment of the present invention, an air outlet 17 is disposed at one end of the mounting housing 2 close to the rotating shaft 10, while the rotating shaft 10 drives the mounting housing 2 to rotate horizontally, the air inlet pipe 31 and the engaging part 34 rotate horizontally with the mounting housing 2, in the rotating process of the engaging part 34, when an opening of the air inlet 35 communicates with the inside of the transition housing 32 and the air inlet pipe 31, air in the transition housing 32 enters the mounting housing 2 through the air inlet pipe 31, and the air is exhausted to the outside of the mounting housing 2 through the air outlet 17, when the air flow flows in the mounting housing 2, the extending part 91 is pushed to move in a direction close to the rotating shaft 10, when the opening of the air inlet 35 is staggered, the air in the transition housing 32 stops entering the air inlet pipe 31, the first spraying housing 81 moves in a direction away from the rotating shaft 10 under the action of self gravity and centrifugal force, so that when the mounting housing 2 drives the first spraying housing 81 to rotate horizontally, the first spraying housing 81 moves back and forth relative to the mounting housing 2, thereby increasing the spraying range of the spraying head 82 and ensuring the overall spraying.

As a preferred embodiment of the present invention, a filtering part 16 is further included for filtering the cutting fluid flowing to the bottom of the housing 1 through the meshes of the installation mesh plate 15.

In a preferred embodiment of the present invention, the filter member 16 is a filter sponge, a nonwoven fabric, or the like, and in this embodiment, the filter member 16 is a filter sponge.

When the cutting machine is used, a workpiece to be machined is fixed at the top of the placing seat 6 through the fixing mechanism 13, the conveying pump 4 injects cutting fluid into the second spraying shell 121 and the first spraying mechanism 8, the second driving part 7 drives the placing seat 6 to horizontally rotate, the sealing block 123 drives the arc-shaped part 124 to horizontally rotate under the action of centrifugal force, the cutting fluid in the second spraying shell 121 is sprayed out from the opening of the liquid outlet hole 14, automatic spraying of the workpiece to be machined is achieved, meanwhile, the top of the workpiece to be machined is sprayed through the first spraying mechanism 8, multi-directional spraying of the cutting fluid to be machined can be achieved, after machining is completed, when the second driving part 7 stops driving the placing seat 6 to horizontally rotate, the arc-shaped part 124 rotates under the action of the tensile force of the reset spring 122, the sealing block 123 blocks the opening of the liquid outlet hole 14, automatic spraying when the placing seat 6 rotates is achieved, spraying is automatically stopped when the placing seat 6 stops rotating, and use efficiency is improved; when the cutting fluid spraying device is used, the cutting fluid is conveyed into the rotating shaft 10 by the conveying pump 4, is injected into the first spraying shell 81 through the fluid inlet pipe 11 and is finally sprayed through the spray head 82; the driving gear 53 can be driven to rotate by the first driving component 52, so that the rotating shaft 10 is driven to rotate, the first spraying shell 81 and the spray head 82 are driven to horizontally rotate, and the spraying range of the spray head 82 is increased; when the rotating shaft 10 drives the installation shell 2 to horizontally rotate, the air inlet pipe 31 and the connecting part 34 horizontally rotate along with the installation shell 2, in the rotating process of the connecting part 34, when the opening of the air inlet hole 35 is communicated with the inside of the transition shell 32 and the air inlet pipe 31, air in the transition shell 32 enters the installation shell 2 through the air inlet pipe 31 and then is discharged to the outside of the installation shell 2 through the air outlet hole 17, when air flows in the installation shell 2, the extension part 91 is pushed to move towards the direction close to the rotating shaft 10, when the opening of the air inlet hole 35 is staggered, air in the transition shell 32 stops entering the air inlet pipe 31, the first spraying shell 81 moves towards the direction far away from the rotating shaft 10 under the action of self gravity and centrifugal force, when the installation shell 2 drives the first spraying shell 81 to horizontally rotate, the first spraying shell 81 reciprocates relative to the installation shell 2, the spraying range of the spraying head 82 is increased, and the comprehensive spraying is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The cutting fluid spraying device for machining comprises a shell and is characterized in that a mounting screen plate is mounted inside the shell, and a placing seat is movably arranged at the top of the mounting screen plate and used for placing a workpiece to be machined;

the second driving part is used for driving the placing seat to horizontally rotate;

a fixing mechanism is arranged on the circumference of the top of the placing seat and used for fixing a workpiece to be machined;

the top of the placing seat is provided with a second spraying mechanism which is used for spraying cutting fluid to the workpiece to be machined when the placing seat horizontally rotates;

the second spraying mechanism comprises a second spraying shell arranged on the placing seat, and the side surface of the second spraying shell is provided with a liquid outlet hole;

an arc-shaped part is movably arranged on the side surface of the second spraying shell, and a sealing block is arranged at one end of the arc-shaped part and used for blocking an opening of the liquid outlet hole when the placing seat does not rotate;

the inner arc surface of the arc-shaped part is connected with the outer wall of the second spraying shell through a return spring;

the top of the shell is vertically provided with a rotating shaft, one end of the rotating shaft, which is close to the placing seat, is fixedly provided with an obliquely arranged installation shell, and one side of the installation shell, which is close to the placing seat, is movably provided with a first spraying mechanism through a connecting mechanism and is used for spraying a workpiece to be processed;

the cutting fluid spraying device further comprises a delivery pump which is used for injecting cutting fluid into the first spraying mechanism and the second spraying shell.

2. The cutting fluid spray apparatus for machining according to claim 1, wherein the fixing mechanism includes a fixing groove formed at a top of the placement base, and the electromagnetic member is fixed to a bottom of the fixing groove.

3. The cutting fluid spraying device for machining according to claim 1, wherein the first spraying mechanism comprises a first spraying shell, and a spray head is arranged on one side of the first spraying shell, which is close to the placing seat;

the rotating shaft is of a hollow structure, and the interior of the rotating shaft is communicated with the interior of the first spraying shell through a liquid inlet pipe;

the inside of the rotating shaft is communicated with the discharge end of the delivery pump through a connecting pipe.

4. The cutting fluid spray apparatus for machining according to claim 3, wherein the connection mechanism includes a mounting hole provided in a side surface of the mounting case;

the extension part is arranged on the side surface of the first spraying shell, and one end of the extension part, which is far away from the first spraying shell, extends to the inside of the mounting shell through the mounting hole;

the side surface of the extension part is connected with the inner wall of the mounting hole through a flexible connecting piece and is used for connecting the gap between the side surface of the extension part and the inner wall of the mounting hole.

5. The cutting fluid spray device for machining according to claim 4, further comprising a driving mechanism for driving the rotating shaft to horizontally rotate;

the driving mechanism comprises driven teeth arranged on the side surface of the rotating shaft;

the driving gear is movably arranged on the inner wall of the shell, and the side surface of the driving gear is meshed with the driven gear;

the first driving component is used for driving the driving gear to rotate.

6. The cutting fluid spray apparatus for machining according to claim 5, further comprising an air inlet mechanism for blowing air into the mounting housing at an interval when the rotating shaft drives the mounting housing and the first spray housing to rotate horizontally.

7. The cutting fluid spray apparatus for machining according to claim 6, wherein the air inlet mechanism includes a transition housing of an annular structure fixed to an inner wall of a top of the housing;

the air inlet pipe is arranged at one end of the mounting shell, which is far away from the rotating shaft;

one end of the air inlet pipe, which is far away from the mounting shell, is provided with a connecting part with an annular structure;

the top of the joining part and the bottom of the transition shell are both provided with air inlets which are arranged at intervals;

the air pump is used for blowing air into the transition shell.

8. The cutting fluid spraying device for machining according to claim 7, wherein an air outlet is formed in one end, close to the rotating shaft, of the mounting shell.

9. The cutting fluid spray apparatus for machining according to claim 1, further comprising a filter member for filtering the cutting fluid flowing to the bottom of the housing through the mesh of the mounting net.