ES2965583A1 - METHOD AND EQUIPMENT FOR CONTROLLING THE TEMPERATURE OF PARTICLES IN POLISHING PROCESSES USING SOLID PARTICLES WITH ELECTROLYTE IN A LIQUID ENVIRONMENT (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Method and equipment for controlling the temperature of particles in polishing processes using solid particles with electrolyte in a liquid environment. The method comprises: a stage of absorption of the liquid (4) from the tank (3) where the particles (2) are; a liquid cooling stage (4) externally to the tank (3); and a stage of reincorporation of the cooled liquid (4) into the tank (3) to reduce the temperature of the particles. And the equipment (1) includes: a circuit of ducts (10), with an inlet mouth (101) and an outlet mouth (102) in the tank (3); a suction pump (11); a filter (12) with mesh (121) that does not allow particles (2) to pass through; and a heat exchanger (13). (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

METHOD AND EQUIPMENT FOR CONTROLLING THE TEMPERATURE OF PARTICLES IN POLISHING PROCESSES USING SOLID PARTICLES WITH ELECTROLYTE IN

LIQUID ENVIRONMENT

OBJECT OF THE INVENTION

The invention, as expressed in the statement of this descriptive report, refers to a method and equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, contributing to the function to which It is intended, advantages and features, which are described in detail below.

The object of the present invention lies in a method applicable in polishing processes using solid particles with an electrolyte inside a tank, said particles being submerged in a liquid environment, conductive or not, with the objective of maintaining a constant temperature of the particles, specifically at a low temperature, preventing an increase in temperature produced in the process, for example by the conduction of current, from degrading said particles, thereby reducing their useful life, affecting the conductivity and, therefore, the effectiveness of the polishing process that may no longer be homogeneous, said method being based on the cooling of the liquid in which the particles are submerged to, once cooled, reduce the temperature of the particles.

On the other hand, a second aspect of the invention refers to a cooling device applicable to a tank of a polishing system using solid particles in a liquid environment, which essentially comprises a circuit with a specific filter that sucks only the liquid. from the bottom of the tank and leads it to a heat exchanger, being returned to the tank again.

FIELD OF APPLICATION OF THE INVENTION

The field of application of the present invention falls within the industry sector dedicated to the treatment of metal surfaces, especially the industrial sector dedicated to the polishing of metal surfaces, with applications in any field, particularly encompassing electropolishing processes using solid particles in liquid environment.

BACKGROUND OF THE INVENTION

Surface polishing procedures are known in the state of the art in which the pieces to be treated are polished by friction through conductive solid particles incorporated in a vat.

For example, through document PCT/ES2017/070247, a “Process for smoothing and polishing metals by ionic transport using free solid bodies, and solid bodies to carry out said process” is known. that after, the connection of the pieces to be treated to the positive pole (anode) of a current generator, is essentially based on the friction of the piece with a set of particles made up of free electrically conductive solid bodies charged with a negative electrical charge in a gaseous environment and in the introduction of said pieces, inside a container or tank, by friction with a set of particles which are incorporated in said container and that electrically contact the negative pole (cathode) of the current generator, contact electrical connection of the particles with the negative pole of the current generator which, preferably, is carried out through the container that acts as a cathode as it is connected directly to said negative pole of the generator.

The problem is that, during this type of polishing process using solid particles with an electrolyte inside a vat, the particles increase in temperature due to the passage of current through them. The process can be in a gaseous environment, as in the case of the aforementioned patent, but it can also be carried out in a liquid environment, in which case the conductive particles are inside a conductive or non-conductive liquid that surrounds them.

In any case, said increase in temperature can degrade the solid particles, causing less useful life. Furthermore, the increase in temperature also affects the conductivity and, therefore, the polishing process that depends on the conductivity of the process is not homogeneous. This means that, depending on the temperature of the particles, the polishing is one or the other, which is not acceptable for the desired result in certain products.

This method, although in the case of processes carried out in a gaseous environment it is efficient, in the case of processes carried out in a liquid environment it is susceptible to improvement, especially because in the liquid environment the cooling by Air is not as efficient as in a gaseous environment.

The objective of the present invention is therefore the development of an alternative method and equipment that is more efficient in controlling the temperature of the particles when the polishing process is carried out in a liquid environment.

On the other hand, and as a reference to the current state of the art, it should be noted that, at least on the part of the applicant, the existence of any other method or equipment that presents technical and constitutive characteristics equal or similar to those presented by those presented is unknown. here it is claimed.

EXPLANATION OF THE INVENTION

The method and equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment that the invention proposes are configured as the ideal solution for the aforementioned objective, being the characterizing details that make it possible and that They distinguish it conveniently included in the final claims that accompany this description.

Specifically, what the invention proposes, as noted above, is a method applicable in polishing processes using solid particles with an electrolyte submerged in a liquid, conductive or not, inside a tank, the purpose of which is to maintain constant the temperature of the particles, preferably at a low temperature, preventing an increase in said temperature produced in the process due to conductivity from degrading the particles, thereby reducing their useful life, affecting the conductivity and, therefore, the effectiveness of the process that may no longer be homogeneous.

To this end, the method object of the present invention essentially comprises at least:

- a stage of absorption of the liquid contained in the tank where the particles are submerged;

- a stage of cooling said liquid, preferably by passing it through a heat exchanger located externally to the tank; and

- a stage of reincorporation of the refrigerated liquid into the tank to, in turn, reduce the temperature of the particles.

Furthermore, it is important to highlight that, to correctly carry out the described cooling of the liquid, it is advisable to prevent the particles from being absorbed together with said liquid in the absorption stage, since this can affect both the cooling process of the liquid in the exchanger as well as the polishing process that can continue to be carried out in the tank during the liquid cooling process, since polishing and liquid cooling can occur simultaneously, thus avoiding interrupting productivity.

For this reason, preferably, previously or in the liquid absorption stage itself, the method comprises a liquid filtering stage prior to the cooling stage that prevents the passage of particles to the exchanger from the outside of the tank together with the liquid to be refrigerated.

On the other hand, as previously mentioned, a second aspect of the present invention refers to cooling equipment applicable to a tank of a polishing system using solid particles in a liquid environment, according to the method described above, which comprises, essentially:

- a circuit of ducts with entry and exit into the tank;

- a suction pump, suitable for causing the circulation of the liquid through the duct circuit;

- a filter equipped with a fine mesh of such a size that it allows the passage of the liquid sucked by the pump but not the particles; and

- a heat exchanger to which the liquid is led after passing through the filter for cooling and being returned to the tank again

Preferably, the entrance to the circuit of the liquid drawn by the pump is located in the lower part of the tank and the outlet of the already cooled liquid for its return to the tank is located in the upper part of it.

Preferably, the filter is configured as an elongated piece that is attached to the wall of the tank, with a lower portion that defines a body with an equally long and narrow inlet mouth, where it incorporates the mesh that prevents the passage of particles. particles through it, and an upper portion that connects with the conduction of the circuit in which the suction pump is inserted.

For its part, preferably, the heat exchanger is a plate exchanger with one-pass joints for liquids/liquids, where the liquid of the circuit from the tank runs through them alternately and in countercurrent of a refrigerant fluid that circulates through the remaining ones. plates and which is introduced into the exchanger through respective inlet and outlet connections.

Finally, in the preferred embodiment, the conduit circuit of the equipment includes a return line to the tank that, starting from the exchanger, leads the liquid to the top of the tank and from which it falls into its interior by gravity.

DESCRIPTION OF THE DRAWINGS

To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, this descriptive report is accompanied, as an integral part thereof, by some plans in which, with an illustrative and non-limiting nature, The following has been represented:

Figure number 1.- Shows a schematic perspective view of a tank used in a polishing process using solid particles in a liquid environment in which an example of the equipment for controlling the temperature of the particles has been incorporated, appreciating the main parts and elements it comprises, as well as their arrangement;

Figure number 2.- Shows a section view of the tank with the equipment of the invention shown in Figure 1;

Figures number 3, 4 and 5.- Show respective front, rear and section perspective views of the filter that comprises the equipment of the invention, showing its configuration and main parts;

Figures number 6, 7 and 8.- Show respective perspective views, top floor and elevation of an example of the heat exchanger that comprises the equipment of the invention;

Figure number 9.- Shows a plan view of the tank with the equipment for controlling the temperature of the particles, in this case incorporated within a cooling jacket; and

Figures number 10 and 11.- Show sectional views of the tank with the cooling jacket, according to the section A-A indicated in figure 9, with figure 11 being a tank with a central elevation.

PREFERRED EMBODIMENT OF THE INVENTION

In view of the aforementioned figures, and in accordance with the numbering adopted, an example of a non-limiting embodiment of the equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment can be seen in them. the invention, which comprises what is described in detail below.

Thus, as seen in Figures 1 and 2, the equipment (1) of the invention, particularly applicable in processes of polishing parts (not represented) by means of solid particles (2) with an electrolyte submerged, inside a tank (3), in a conductive or non-conductive liquid (4), essentially comprises:

- a circuit of ducts (10), suitable for the circulation of the liquid (4), which has an inlet mouth (101) and an outlet mouth (102) in the tank (3);

- a suction pump (11), with a power capable of causing the circulation of the liquid (4) throughout the entire route of the conduit circuit (10);

- a filter (12) equipped with a fine mesh (121) with a light size such that it allows the liquid (4) to pass through it when it is sucked in by the pump (11) but not the particles (2) solid; and

- a heat exchanger (13), inserted in the duct circuit (10) downstream of the filter (12) and the pump (11), where the liquid (4), as it passes through it, is cooled before of its return to the tank (3) through the outlet (102).

Preferably, as seen in Figure 2, the inlet mouth (101) to the duct circuit (10) from which the liquid (4) is sucked by the pump (11) is integrated into the filter (12). and located at the bottom of the tank (3).

Preferably, the outlet (102) of the duct circuit (10), from which the already cooled liquid (4) is returned to the tank (3), is located in the upper part of the tank. Preferably suspended above the surface of the liquid (4) contained in the tank (3), so that, after cooling, it falls into its interior by gravity.

Preferably, as shown in Figures 3 to 5, the filter (12) consists of a device that comprises a hollow body (122) of elongated configuration that is incorporated attached to the wall of the tank (3), having a lower portion (123) which has an equally long and narrow front entrance opening (124), where it incorporates the mesh (121) that allows the passage of the liquid (4) and prevents the passage of the particles (2) through it, and a upper portion (125) orifice and internally separated from the lower portion (123) in the upper part of which it has a support (126) for fixing the device to the upper edge of the tank (3).

Furthermore, internally said filter body (12) incorporates a tube (103) that runs along its entire length and has a splice connector (127) on top, acting as an extension of the duct circuit (10) with the inlet mouth (101). at its lower end, through which the liquid rises (4).

For its part, taking into account Figures 6 to 8, it can be seen how, preferably, the heat exchanger (13) is a plate exchanger (131) provided with a first pair of inlet (132) and outlet connections ( 133), for coupling to the conduit circuit (10) through which the liquid (4) from the tank (3) passes, alternating through half of said plates (131), and a second pair of inlet connections (134). and outlet (135), intended for coupling to another circuit (not shown) of cooling fluid that circulates through the remaining plates (131).

Finally, optionally, the tank (3), as seen in Figures 9 and 10, is incorporated inside a cooling jacket (5) that surrounds it externally and has a cooling fluid inlet (51) at the bottom. and a refrigerant fluid outlet (52) at the top. Furthermore, so that said cooling jacket (5) has a greater effect, the tank (3), optionally, defines a central elevation (31), such that the liquid (4) is always closer to its walls.

Having sufficiently described the nature of the present invention, as well as the way of putting it into practice, it is not considered necessary to make its explanation more extensive so that any expert in the field understands its scope and the advantages that derive from it.

Claims (11)

1 Method for controlling the temperature of particles in polishing processes using solid particles with electrolyte in a liquid environment that, applicable in polishing processes using solid particles (2) with an electrolyte submerged in a liquid (4), conductive or not, inside a tank (3), to keep the temperature of the particles (2) low, preventing an increase in said temperature produced for example due to the conduction of current, it is characterized by comprising, at least: - a stage of absorption of the liquid (4) contained in the tank (3) where the particles (2) are submerged; - a cooling stage of said liquid (4) externally to the tank (3); and - a stage of reincorporation of the cooled liquid (4) into the tank (3) to, in turn, reduce the temperature of the particles. 2. - Method for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 1, characterized in that the cooling stage of the liquid (4) externally to the tank (3) is carried out. carried out by passing through a heat exchanger (13) located externally to the tank (3). 3. - Method for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 1 or 2, characterized in that previously or in the liquid absorption stage itself (4), a liquid filtering stage (4) prior to the cooling stage that prevents the passage of particles (2). 4. - Equipment for controlling the temperature of particles in polishing processes using solid particles with electrolyte in a liquid environment that, applicable in part polishing processes using solid particles (2) with an electrolyte submerged, inside a tank (3), in a conductive or non-conductive liquid (4), is characterized by essentially comprising: - a circuit of ducts (10), suitable for the circulation of the liquid (4), which has an inlet mouth (101) and an outlet mouth (102) in the tank (3); - a suction pump (11), with a power capable of causing the circulation of the liquid (4) throughout the entire route of the conduit circuit (10); - a filter (12) equipped with a fine mesh (121) with a light size such that it allows the liquid (4) to pass through it when it is sucked in by the pump (11) but not the particles (2) solid; and - a heat exchanger (13), inserted in the duct circuit (10) downstream of the filter (12) and the pump (11), where the liquid (4), as it passes through it, is cooled before of its return to the tank (3) through the outlet (102). 5. - Equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 4, characterized in that the inlet mouth (101) to the conduit circuit (10) from which the liquid (4) is sucked in by the pump (11) and is integrated into the filter (12) and located at the bottom of the tank (3). 6. - Equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 4 or 5, characterized in that the outlet mouth (102) of the conduit circuit (10), from the The cooled liquid (4) is returned to the tank (3) and is located in the upper part of the tank. 7. - Equipment for controlling the temperature of particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 6, characterized in that the outlet mouth (102) of the conduit circuit (10), from which liquid (4), once cooled, is returned to the tank (3) and is suspended above the surface of the liquid (4) that the tank (3) contains, so that, after cooling, it falls into its interior by gravity. 8.- Equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to any of claims 4 to 7, characterized in that the filter (12) is a device that comprises a hollow body (122). ) of elongated configuration that is incorporated attached to the wall of the tank (3), having a lower portion (123) that has an equally long and narrow front entrance opening (124), where it incorporates the mesh (121) that allows the passage of the liquid (4) and prevents the passage of the particles (2) through it, and an upper portion (125) with a support (126) for fixing to the upper edge of the tank (3). 9. - Equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to claim 8, characterized in that said filter (12) internally incorporates a tube (103) that runs through its entire length and has superiorly with a connection connector (127) acting as an extension of the conduit circuit (10) with the inlet mouth (101) at its lower end, through which the liquid (4) rises. 10. - Equipment for controlling the temperature of the particles in polishing processes using solid particles with electrolyte in a liquid environment, according to any of claims 4 to 9, characterized in that the heat exchanger (13) is a plate exchanger (131). . 11. - Equipment for controlling the temperature of particles in polishing processes using solid particles with electrolyte in a liquid environment, according to any of claims 4 to 10, characterized in that the tank (3) is incorporated inside a cooling jacket (5). which surrounds it externally and has a refrigerant fluid inlet (51) on its lower part and a refrigerant fluid outlet (52) on its upper part.