CN108906757B - Section bar cleaning method and cleaning equipment - Google Patents

Abstract

The invention discloses a cleaning method and cleaning equipment for sectional materials, which comprise a feeding area, a cleaning pool, a discharging area and a conveying mechanism, wherein the feeding area, the cleaning pool and the discharging area are sequentially arranged; the conveying mechanism is used for continuously conveying the section bars from the feeding area to the discharging area after passing through the cleaning tank. Firstly, limiting the section bar to a conveying mechanism, and continuously conveying the section bar into a cleaning pool by the conveying mechanism; continuously delivering the section from the cleaning tank; the conveying mechanism tilts the section bar when the section bar is sent out of the cleaning pool, and any end of the section bar leaves the liquid surface before the other end. The advantage lies in that carry the section bar into the wash pond by conveying mechanism is automatic to accomplish the washing, has solved the breakpoint link of section bar production line. Saving a great deal of cleaning manpower, improving the cleaning efficiency and ensuring the consistency of the cleaning effect. Meanwhile, the method of single-point water inlet and outlet is utilized, so that the power applied to the profile when the profile leaves the liquid level is reduced, the pressure of the liquid on the middle part of the slender profile is reduced, and deformation stress on the profile in the cleaning process is avoided.

Description

Section bar cleaning method and cleaning equipment

Technical Field

The invention relates to a processing method and equipment of a section bar, in particular to a cleaning method and cleaning equipment of the section bar.

Background

After the profile is produced by extrusion, stretching, rolling and other processes, various redundant components such as oil stains, lubricants and the like can be carried on the surface. The cleaning is carried out by various acidic, alkaline or neutral cleaning liquids, and the cleaning is carried out by rinsing with clear water to obtain a clean finished product. The existing technology is that the profiles are firstly stacked after being produced, and the cleaning procedure is carried out manually. The cleaning station is always a stagnation link in a section production chain, when the section is long in size, for example, the length is close to ten meters, more than two workers are required to manually operate, the cleaning station is labor-consuming and labor-consuming, the efficiency is low, and continuous work from the production station to the cleaning station cannot be realized. And the profile is horizontally moved into and out of the liquid level of the cleaning tank, the middle part of the profile bears larger pressure, and the profile is easy to deform and bend, so that the stability of the profile is not facilitated.

Disclosure of Invention

In order to solve the problems of the prior art, the present invention aims to provide a cleaning method capable of simultaneously achieving draining and cleaning transfer, and a cleaning apparatus using the same.

The invention relates to a cleaning method of a section bar, which comprises the following steps: s1, limiting the section bar on a conveying mechanism, and continuously conveying the section bar into a cleaning pool by the conveying mechanism; s2, continuously sending the section bars out of the cleaning pool; and when the section bar is sent out of the cleaning pool, the conveying mechanism inclines the section bar, and any end of the section bar leaves the liquid level before the other end.

Preferably, the conveying mechanism is used for obliquely conveying the profile into the cleaning tank, and one end of the profile enters the liquid level before the other end of the profile.

Preferably, the conveying mechanism adjusts the profile to be in opposite inclined directions under the liquid surface, so that one end which enters the liquid surface first leaves the liquid surface before the other end.

Preferably, after the section bar is sent out of the cleaning tank by the conveying mechanism in the step S2, the section bar is continuously sent into the next cleaning tank, and the steps S1 to S2 are repeated until the section bar is sent out of the last cleaning tank.

Preferably, the conveying mechanism is used for drying the section bar after the section bar is sent out of the last cleaning tank.

Preferably, the section bar is blown above the liquid surface at one end which is firstly separated from the liquid surface, and the blowing direction is the same as the extending direction of the section bar.

Preferably, the conveying mechanism continues conveying again after the two ends of the section bar leave the liquid level.

The invention relates to a section bar cleaning device, which comprises a feeding area, a cleaning pool, a discharging area and a conveying mechanism, wherein the feeding area, the cleaning pool and the discharging area are sequentially arranged; the conveying mechanism is used for continuously conveying the section bars from the feeding area to the discharging area after passing through the cleaning tank.

Preferably, the conveying mechanism comprises a first conveying belt and a second conveying belt which are arranged in parallel, the first conveying belt and the second conveying belt extend into and out of the cleaning pool respectively, and a section of the conveying mechanism, which is away from the liquid level, forms unequal included angles with the liquid level respectively.

Preferably, the conveying mechanism comprises a first conveying belt and a second conveying belt which are arranged in parallel, the first conveying belt and the second conveying belt extend into and out of the cleaning pool respectively, and the lengths of the first conveying belt and the second conveying belt under the liquid level are unequal.

Preferably, a section of the first conveyor belt and a section of the second conveyor belt entering the liquid level form unequal included angles with the liquid level respectively.

Preferably, the conveying mechanism comprises a first conveying belt, a second conveying belt, a differential mechanism and a transmission motor which are arranged in parallel; the transmission motor is in transmission connection with the first conveying belt and is in transmission connection with the second conveying belt after passing through the differential mechanism.

Preferably, the conveying mechanism comprises a supporting rod for supporting the section bar and a third conveying belt for driving the supporting rod to move, and the third conveying belt extends into and out of the cleaning pool; one end of the supporting rod freely extends, and the other end of the supporting rod is hinged with the support and then connected with a third conveying belt; and an adjusting mechanism for adjusting the included angle between the support rod and the horizontal plane is also arranged.

Preferably, the adjusting mechanism is a convex plate, is arranged below the supporting rod, has the same extending direction as the third conveying belt, and has a section of height larger than the support before leaving the liquid.

Preferably, the free end of the supporting rod is provided with a locking mechanism for preventing the section from sliding off.

Preferably, the height of the section of the convex plate before entering the liquid is smaller than that of the support.

Preferably, the conveying mechanism comprises a first suspension arm and a second suspension arm which are arranged in parallel, and a transmission mechanism for driving the two suspension arms to sequentially pass through the feeding area, the cleaning tank and the discharging area; the upper ends of the two suspension arms are respectively connected with a transmission mechanism, the lower ends of the two suspension arms extend downwards freely and are respectively provided with a clamping mechanism for clamping the section bar, and the middle parts of the two suspension arms are respectively provided with a length adjusting mechanism.

Preferably, the cleaning tanks are arranged in series, and the conveying mechanism extends from the feeding area to the discharging area sequentially through the cleaning tanks.

The section bar cleaning method and the section bar cleaning equipment have the advantages that the section bar is automatically brought into the cleaning pool by the conveying mechanism to finish cleaning, and the breakpoint link of the section bar production line is solved. Saving a great deal of cleaning manpower, improving the cleaning efficiency and ensuring the consistency of the cleaning effect. Meanwhile, the method of single-point water inlet and outlet is utilized, so that the power applied to the profile when the profile leaves the liquid level is reduced, the pressure of the liquid on the middle part of the slender profile is reduced, and deformation stress on the profile in the cleaning process is avoided. The section bar is enabled to start the draining step when leaving the liquid level, and the working efficiency is improved. The method comprises the steps of adjusting the angle difference of the liquid inlet and outlet surfaces, adjusting the travel under the liquid and adjusting the conveying speed difference of two ends of the profile. A plurality of cleaning devices for implementing the method are also disclosed, and the embodiments of lifting, supporting and the like are covered.

Drawings

FIG. 1 is a schematic illustration of the arrangement of the feed zone, wash basin and discharge zone of the washing apparatus of the present invention;

FIG. 2 is a schematic view of a first embodiment of a conveyor mechanism of the cleaning apparatus of the present invention;

FIG. 3 is a schematic view of the mechanism of the cleaning apparatus of the present invention;

FIG. 4 is a schematic view of a mechanism for continuously arranging a plurality of cleaning tanks of the cleaning apparatus according to the present invention;

FIG. 5 is a schematic view of a second embodiment of a conveyor mechanism of the cleaning apparatus of the present invention;

FIG. 6 is a cross-sectional view taken along the direction A-A in FIG. 5;

FIG. 7 is a cross-sectional view taken along the direction B-B in FIG. 5;

FIG. 8 is an assembly view of a strut of the cleaning apparatus of the present invention;

fig. 9 is a schematic view of a third embodiment of a conveying mechanism of the cleaning apparatus according to the present invention.

Reference numerals: 1-feeding area, 2-cleaning pool, 3-discharging area and 4-section bar; 10-liquid level, 11-a first conveying belt and 12-a second conveying belt; an included angle formed by a section of the alpha 1-first conveying belt leaving the liquid surface and the liquid surface, an included angle formed by a section of the alpha 2-first conveying belt entering the liquid surface and the liquid surface, an included angle formed by a section of the beta 1-second conveying belt leaving the liquid surface and the liquid surface, and an included angle formed by a section of the beta 2-second conveying belt entering the liquid surface and the liquid surface; the device comprises a supporting rod 21-, a third conveying belt 22-, a support 23-, a convex plate 24-and a locking mechanism 25-; 31-first suspension arm, 32-second suspension arm, 33-transmission mechanism, 34-clamping mechanism and 35-length adjusting mechanism.

Detailed Description

As shown in fig. 1, the cleaning equipment for the sectional material comprises a feeding area 1, a cleaning tank 2, a discharging area 3 and a conveying mechanism for obliquely taking the sectional material away from the liquid surface 10 of the cleaning tank, wherein the feeding area 1, the cleaning tank 2 and the discharging area 3 are sequentially arranged; the conveying mechanism is used for continuously conveying the section bars from the feeding area to the discharging area after passing through the cleaning tank. The working principle and the cleaning method thereof are as follows: s1, firstly limiting the section bar to a conveying mechanism, and continuously conveying the section bar into a cleaning pool by the conveying mechanism; s2, continuously sending the section from the cleaning pool; and when the section bar is sent out of the cleaning pool, the conveying mechanism inclines the section bar, and any end of the section bar leaves the liquid level before the other end.

In order to prevent the profile from floating up due to the instant large buoyancy change when the profile enters, the conveying mechanism is used for obliquely conveying the profile into the cleaning tank, one end of the profile firstly enters the liquid level, and then one end of the profile firstly leaves the liquid level. The liquid level can be continuously kept at a single point, the cleaning time difference under the liquid level can be ensured to be close to zero, and the cleaning effect stability is better. The concrete operation method is that the conveying mechanism adjusts the section bar to the opposite inclined direction under the liquid surface, so that one end which enters the liquid surface first leaves the liquid surface before the other end.

As shown in fig. 4, the cleaning apparatus for the profile according to the present invention may include a plurality of cleaning tanks arranged in series, for example, a first cleaning tank for placing a chemical cleaning liquid, a subsequent cleaning tank for placing clean water, etc. And (2) after the section bar is sent out of one cleaning pool by the conveying mechanism in the step (S2), continuously sending the section bar into the next cleaning pool, and repeating the steps (S1) to (S2) until the section bar is sent out of the last cleaning pool. The continuous automatic conveying function of the section bar among various cleaning solutions is realized, and the continuous automatic conveying device is more suitable for multiple cleaning processes in actual production. After the section bar is sent out of the last cleaning pool by the conveying mechanism, the section bar can be sent into a discharging area or a drying device arranged at the rear of the discharging area for drying. Directly obtaining a clean and dry finished product of the section bar, and realizing automatic operation in the whole process from the output to the cleaning and the storage of the section bar.

The cleaning method and the cleaning equipment can realize the draining function while solving the deformation problem due to the inclination away from the liquid level. In order to further enhance the draining effect, air is supplied to one end of the profile, which is firstly separated from the liquid surface, above the liquid surface, and the air supply direction is the same as the extending direction of the profile. The effect is further enhanced, and after two ends of the section bar leave the liquid level, the conveying mechanism continues conveying again in the pause time T. The air supply is still kept in the suspension time T, so that the liquid carried by the profile away from the cleaning tank can be drained in the corresponding cleaning tank, and the profile cannot be carried to the next cleaning tank to cause inter-tank pollution. The time T may vary from 3 seconds to 1 minute.

In order to achieve the aim of the invention of single-point water outlet, the invention at least provides three embodiments of the conveying mechanism:

example 1

As shown in fig. 2 and 3, the conveying mechanism comprises a first conveying belt 11 and a second conveying belt 12 which are arranged in parallel, wherein the first conveying belt 11 and the second conveying belt 12 respectively extend into and out of the cleaning tank 2, and a section away from the liquid level 10 respectively forms unequal included angles alpha 1 and beta 1 with the liquid level. Because the included angles alpha 1 and beta 1 are unequal, the velocity components of the two ends of the profile at the vertical height are different, the larger the included angle is, the larger the velocity component is, and the corresponding one end reaches the liquid level faster than the other end.

The first conveyor belt 11 and the second conveyor belt 12 enter a section of the liquid surface 12 to form unequal included angles alpha 2 and beta 2 with the liquid surface 12 respectively. The principle is as above, and the effect that one end of the section firstly enters the liquid level is realized by utilizing the difference of components of the speed in the vertical direction. In combination with the above-mentioned technical features of "a section leaving the liquid surface 10 forms respectively unequal angles α1 and β1 with the liquid surface", a cleaning step of "adjusting the profile to an opposite oblique direction under the liquid surface" can also be achieved. The specific principle is that, taking fig. 2 as an example, the first conveyor belt 11 and the second conveyor belt 12 are respectively arranged in the feeding area 1 and the discharging area 2 and are horizontal and parallel to each other. The included angle alpha 2 is smaller than the included angle beta 2, so that one end of the profile supported by the second conveying belt descends faster after leaving the feeding area, and enters the liquid level 10 first. One end of the section bar corresponding to the second conveyer belt reaches the bottom of the cleaning pool first and then rises in a turning way, and at the moment, the other end of the section bar corresponding to the first conveyer belt also keeps the descending direction. I.e. it is achieved that the profile is adjusted to an opposite tilting direction under the liquid surface, and then the corresponding profile end of the second conveyor belt rises relatively slowly and first leaves the liquid surface 10. According to the geometric triangular relationship, one end of the profile corresponding to the second conveyer belt can reach the same horizontal plane with the other end of the profile at the same time when reaching the discharging area 3 as long as the two conveyer belts leave the feeding area and travel between the two conveyer belts is the same until reaching the discharging area, and then the profile is horizontally sent out of the discharging area.

The lengths of the first conveyor belt 11 and the second conveyor belt 12 below the liquid surface may be unequal. Under the drive of the same speed, the conveying belt with longer length under the liquid level needs longer to leave the liquid level, so that the technical effect that two ends of the profile leave the liquid level asynchronously is realized. The technical means of unequal lengths can be combined with different implementation of the included angles, and also can be independently implemented.

In addition, the differential mechanism can also be used for enabling the transmission motor to output different driving speeds to the two conveying belts: the transmission motor is in transmission connection with the first conveying belt and is in transmission connection with the second conveying belt after passing through the differential mechanism. The end of the profile corresponding to the conveyor belt with higher driving speed enters the liquid level faster and leaves the liquid level faster.

Example two

As shown in fig. 5-8, the conveying mechanism comprises a supporting rod 21 for supporting the section bar and a third conveying belt 22 for driving the supporting rod 21 to move, and the third conveying belt 22 extends into and out of the cleaning pool; one end of the supporting rod 21 freely extends, and the other end of the supporting rod is hinged with the support 23 and then connected with the third conveying belt 22; an adjusting mechanism for adjusting the included angle between the support rod 21 and the horizontal plane is also provided. The adjusting mechanism is a convex plate 24, which is arranged below the supporting rod 21, has the same extending direction as the third conveying belt 22, and has a section of height greater than the support 23 before leaving the liquid and a section of height less than the support 23 before entering the liquid. The free end of the supporting rod 21 is provided with a locking mechanism 25 for preventing the profile 4 from sliding down.

During working, the section bar can be inserted into the support bar, and the support bar swings around the support to adjust the relative angle between the section bar and the liquid level. The convex plate is used for supporting a section of the supporting rod close to the support, and the height of the convex plate relative to the support can directly adjust the relative distance between the supporting rod and the horizontal plane. The section leaving the liquid and the section entering the liquid have the height changed, so that the cleaning step of converting the inclined direction of the section under the liquid level is realized. Specifically, along with the continuous conveying of the third conveying belt, the angle of the supporting rod is continuously adjusted by the convex plate, and before entering the liquid, as the height of the convex plate is lower, as shown in fig. 7, one end of the supporting rod, which is close to the support, is higher than the horizontal plane, and one end, which is far away from the support, is lower than the horizontal plane, so that the section bar firstly enters the liquid level from one end, which is far away from the support, to be cleaned. The height of the convex plate continuously changes in the cleaning pool, one end of the supporting rod, which is close to the support, is lower than the horizontal plane, and one end of the supporting rod, which is far away from the support, is higher than the horizontal plane, so that the profile firstly leaves the liquid level from the end of the profile, which is far away from the support.

Example III

As shown in fig. 9, the conveying mechanism comprises a first suspension arm 31 and a second suspension arm 32 which are arranged in parallel, and a transmission mechanism 33 for driving the two suspension arms to sequentially pass through a feeding area, a cleaning tank and a discharging area; the two hanging arms are hung above the feeding area, the cleaning tank and the discharging area, the upper ends of the two hanging arms are respectively connected with the transmission mechanism 33, the lower ends of the two hanging arms extend downwards freely and are respectively provided with the clamping mechanisms 34 for clamping the sectional materials, and the middle parts of the two hanging arms are respectively provided with the length adjusting mechanisms 35.

After the two suspension arms clamp the section bar, the relative distance between the two suspension arms and the cleaning tank is realized through the length adjusting mechanism, so that the inclination angle of the section bar is adjusted. For example, in the conveying process, the two clamping mechanisms stably clamp the section bar in the feeding area, the section bar is in a horizontal state at the moment, then the transmission mechanism drives the two suspension arms to enter the cleaning pool, the two length adjusting mechanisms enable the two suspension arms to extend into the liquid level respectively, the extending speed of the first suspension arm is higher than that of the second suspension arm, and one end of the section bar, which is close to the first suspension arm, can enter the liquid level first. After cleaning, the two suspension arms are retracted through the length adjusting mechanism, and the retraction speed of the first suspension arm is higher than that of the second suspension arm, so that one end of the section bar, which is close to the first suspension arm, firstly leaves the liquid level. That is, the adjusting speed of the length adjusting mechanism corresponding to the first suspension arm is larger than that of the length adjusting mechanism corresponding to the second suspension arm.

The three embodiments can realize the invention conception that the section bar single point enters and exits the liquid level, and can continuously operate in a plurality of cleaning tanks so as to heighten the cleaning effect of the section bar.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the invention as defined in the appended claims.

Claims (17)

1. The section bar cleaning equipment is characterized by comprising a feeding area, a cleaning tank, a discharging area and a conveying mechanism, wherein the feeding area, the cleaning tank and the discharging area are sequentially arranged; the conveying mechanism is used for continuously conveying the section bars from the feeding area to the discharging area after passing through the cleaning tank;

the conveying mechanism comprises a first conveying belt and a second conveying belt which are arranged in parallel, the first conveying belt and the second conveying belt respectively extend into and out of the cleaning pool, and a section of the conveying mechanism which leaves the liquid level respectively forms unequal included angles with the liquid level.

2. The apparatus according to claim 1, wherein the first conveyor belt and the second conveyor belt each have a section that enters the liquid surface at an unequal angle to the liquid surface.

3. The profile washing apparatus of claim 1, wherein the first conveyor belt and the second conveyor belt are not equal in length below the liquid surface.

4. The profile washing apparatus of claim 1, wherein the conveyor mechanism comprises a differential and a drive motor; the transmission motor is in transmission connection with the first conveying belt and is in transmission connection with the second conveying belt after passing through the differential mechanism.

5. The apparatus of claim 1, wherein the conveyor mechanism includes a bar for supporting the profile and a third conveyor belt for moving the bar, the third conveyor belt extending into and out of the cleaning bath; one end of the supporting rod freely extends, and the other end of the supporting rod is hinged with the support and then connected with a third conveying belt; and an adjusting mechanism for adjusting the included angle between the support rod and the horizontal plane is also arranged.

6. The apparatus according to claim 5, wherein the adjusting mechanism is a convex plate, which is disposed below the supporting rod and extends in the same direction as the third conveyor belt, and a section of the adjusting mechanism which leaves the liquid surface is greater than the support.

7. The profile washing device according to claim 5, wherein the free ends of the struts are provided with locking means for preventing the profile from sliding off.

8. The apparatus according to claim 6, wherein the projection has a height less than the support in front of the liquid.

9. The cleaning apparatus according to claim 1, wherein the conveying mechanism comprises a first suspension arm and a second suspension arm which are arranged in parallel, and a transmission mechanism for driving the two suspension arms to sequentially pass through the feeding area, the cleaning tank and the discharging area; the upper ends of the two suspension arms are respectively connected with a transmission mechanism, the lower ends of the two suspension arms extend downwards freely and are respectively provided with a clamping mechanism for clamping the section bar, and the middle parts of the two suspension arms are respectively provided with a length adjusting mechanism.

10. The apparatus according to any one of claims 1 to 9, wherein a plurality of said washing tanks are provided in series, and said conveying means is provided to extend from the feeding zone to the discharging zone sequentially through the plurality of washing tanks.

11. A method for cleaning profiles, characterized in that it is realized on the basis of a cleaning device according to any one of claims 1 to 10, comprising the following steps:

s1, limiting the section bar on a conveying mechanism, and continuously conveying the section bar into a cleaning pool by the conveying mechanism;

s2, continuously sending the section bars out of the cleaning pool; and when the section bar is sent out of the cleaning pool, the conveying mechanism inclines the section bar, and any end of the section bar leaves the liquid level before the other end.

12. The method of claim 11, wherein the conveyor mechanism tilts the profile into the cleaning tank such that either end of the profile enters the liquid surface before the other end.

13. The method of claim 12, wherein the conveyor mechanism adjusts the profile to an opposite tilt under the surface of the liquid so that one end of the liquid surface exits the surface before the other end.

14. The method according to claim 11, wherein the conveying mechanism in step S2 conveys the profile out of the washing tank, and then continuously conveys the profile into the next washing tank, and steps S1 to S2 are repeated until the profile is conveyed out of the last washing tank.

15. The method of claim 14, wherein the conveyor mechanism dries the profile after the profile is removed from the last cleaning tank.

16. The method of cleaning a profile according to claim 11, wherein the profile is blown over the surface of the liquid in a direction substantially equal to the direction in which the profile extends at the end of the profile that first leaves the surface of the liquid.

17. The method of claim 16, wherein the conveyor mechanism resumes the conveyance for a pause time T after both ends of the profile leave the liquid surface.