RU2708364C1 - Sector element of disc filter, drain connector and plate for it - Google Patents

Abstract

FIELD: filters.

SUBSTANCE: invention relates to vacuum disc filters intended for separation of liquid and particles suspended therein and can be used in ore dressing processes. Sector element comprises a plate and a drain connector, connected to each other by mutually complementing contact surfaces. Drain connector comprises interconnected element and insert element connected to each other. Attachment element has an overhead contact surface made in the form of a flat surface. Plug-in element has a male contact surface and an open surface. In plug-in element there is through hole, longitudinal axis of which passes parallel to contact surface. First section of the through hole with its open end opens through the enclosed contact surface. Second section of the through hole with its open end opens through the open surface. On the entire length of the first section, the first cross-section dimension of the first portion is greater than the first cross-sectional dimension of the second portion. At that, the first cross-section dimension of each section is defined in the direction parallel to the applied contact surface.

EFFECT: increased flow section at connection point of drain connector and plate ensuring compactness of sector element in axial direction of disk filter.

17 cl, 12 dwg

Description

Technical field

[1] The invention relates to the field of vacuum disk filters designed to separate liquid and particles suspended in it, and can be used in ore dressing processes.

BACKGROUND OF THE INVENTION

[2] A disk filter, the operating principle of which is widely known, contains a number of filter disks mounted on a rotating shaft, each of which is formed by several sector elements. Each sector element contains a sector element plate, the side walls of which are made of porous permeable ceramic, and a sealed internal cavity is formed between the side walls. When a sector element plate passes through a bath with pulp, a vacuum is created in the plate cavity, which, together with the capillary effect characteristic of porous ceramics, causes the liquid to leak into the plate cavity, from where the liquid enters the drainage system of the disk filter and is removed.

[3] During the lifting of the sector element plate from the bath, on the outer surfaces of its side walls there remains a layer of adhering particles, which is a dehydrated concentrate - cake, which, when it is above the bath, is dried under continuous vacuum. Then, using special scrapers, the cake is cleaned onto the conveyor and removed as a finished product of the filtering process. After that, excess pressure of air or liquid is fed into the cavity of the plate of the sector element in order to clean the pores - the so-called backwash, and then the described cycle is repeated again.

[4] In patent publication RU2205057C1, 05.27.2003, a sector element is disclosed in a plate of which a cylindrical connecting hole having a circular cross section is made on its end surface facing the axis of the disk filter. The connecting hole extends parallel to the outer surfaces of the side walls and connects the cavity of the plate with the external environment. The first nozzle of the nozzle is inserted into the connecting hole, while the nozzle also contains a second nozzle connected to the hose of the drainage system, through which a vacuum is created and the liquid is sucked out. Thus, this design of the fitting, which performs the function of a drainage connector, allows for a tight connection of the hose of the drainage system to the sector element plate, forming a single closed loop from the inside of the drainage system and the sector cavity of the sector element plate.

[5] The configuration described above is characterized by compactness in the axial direction of the disk filter, however, it also has a number of significant drawbacks. First, the diameter of the first nozzle of the fitting is naturally limited by the thickness of the plate of the sector element, which is small. Accordingly, compared with the size of the passage section of the cavity of the plate, determined in a direction parallel to the outer surfaces of the side walls, the size of the passage section of the first nozzle of the fitting is small. Even if the diameter of the passage section of the first nozzle of the fitting exceeds the thickness of the cavity, then part of the passage of the first nozzle of the nozzle is blocked by the side walls of the plate. Therefore, in this case, the area of the passage section of the connection of the first nozzle of the nozzle and the plate is only part of the already limited area of the passage section of the first nozzle of the nozzle.

[6] This circumstance creates a significant difference between the pressure in the first nozzle of the nozzle and the pressure in the cavity of the plate of the sector element, which in turn reduces both the efficiency of creating a vacuum for filtration and the efficiency of creating excess pressure for cleaning pores.

[7] Secondly, with a possible external impact on the second nozzle pipe directed perpendicular to the side walls of the plate, the first nozzle pipe reproduces the force on the fastening portion of the side wall of the plate surrounding the first pipe. Since the diameter of the first nozzle is small, the area of action of this force is small, respectively, the pressure on the mounting portion of the side wall of the plate is significant. To ensure the strength of the plate with respect to the described effects, the thickness of the fastening portion of the side wall of the plate is increased, which at a given plate thickness leads to a further decrease in the diameter of the first nozzle of the nozzle, exacerbating the problems associated with the pressure drop.

[8] Thirdly, during the backwash, increased pressure in the cavity of the plate exerts a pushing effect on the nozzle, which, upon repeated cyclic repetition, can violate the tightness of the connection between the first nozzle of the nozzle and the plate.

[9] The above-described disadvantages of the sector element disclosed in patent publication RU2205057C1 are mainly eliminated in the sector element disclosed in patent publication WO2014108602A1, 07.17.2014 and which is a prototype of the invention. Here, the cylindrical connecting hole passes through the side stacks of the plates perpendicular to their outer surfaces and at some distance from the end surface. Therefore, the connecting hole is not rigidly limited in diameter, which allows to ensure a sufficient value of the passage section of the drainage connector inserted into it.

[10] In addition, this drainage connector has a large contact area of its fasteners, resting both on sections of both outer surfaces of the side walls and on the inner surfaces of the connecting hole located along the thickness of the side walls, which contributes to a significant reduction in pressure on the fixing sections of the side walls when exposed to external force. Further, the buoyancy force during backwash is balanced by the fasteners of the drain connector, resting on the opposite outer surfaces of the side walls and having a reliable screw connection to each other. Thus, this configuration allows both to ensure a sufficient value of the bore in the drainage connector, and to preserve the strength of the plate in the place of its connection with the drainage connector.

[11] However, in this configuration, the drainage connector increases the size of the sector element in the axial direction of the disk filter, which may complicate the installation of the sector element in the working position or require additional structural solutions. In addition, the fluid flow here undergoes a double change of direction at a right angle, which increases the hydraulic resistance and reduces the filtering efficiency. It should also be noted the complexity of the design of this drainage connector in terms of ensuring the tightness of the fastening between each other of its fasteners.

[12] The aim of the invention is to provide a sector element of a disk filter in which an increase in the flow area at the junction of the drain connector and plate is achieved without increasing the axial dimension of the sector element and without changing the direction of fluid flow, and also does not require complex sealing solutions.

SUMMARY OF THE INVENTION

[13] To achieve the goal, the present invention is implemented through three objects of the invention.

The first object of the invention is a drainage connector comprising a patch element and an insertion element connected to each other. The patch element has a patch contact surface made in the form of a flat surface. The insert element has a male contact surface and an open surface, wherein a through hole is made in the insert element, the longitudinal axis of which runs parallel to the contact surface patch. The first section of the through hole with its open end opens through the male contact surface, and the second section of the through hole with its open end opens through the open surface. Along the entire length of the first section, the first cross-sectional dimension of the first section is larger than the first cross-sectional size of the second section, the first cross-sectional size of each section being determined in a direction parallel to the contact surface patch.

[14] In the particular case of the first object of the invention along the entire length of the first section, the first cross-sectional size of the first section continuously increases from the first cross-sectional size of the second section.

[15] In another particular case of the first object of the invention, at least in part of the length of the first section, determined from the male contact surface, the second cross-sectional dimension of the first section is smaller than the second cross-sectional size of the second section, the second cross-sectional size of each section being determined in the direction perpendicular to the patch contact surface. In this case, the second cross-sectional size of the first section may continuously decrease from the second cross-sectional size of the second section.

[16] In another particular case of the first aspect of the invention, the open end of the first section of the through hole has an oval shape.

[17] In another particular case of the first object of the invention, the drainage connector is provided with a connecting pipe fixed in the second section of the through hole. It is preferable if the cross section of the second section is a circle, and the connecting pipe is fixed in the second section of the through hole through a threaded connection.

[18] In another particular case of the first object of the invention, the insertion element is provided with an end element that has an outer surface forming said open surface and two end contact surfaces facing the male contact surface and located on both sides of the through hole perpendicular to the contact surface .

[19] In another particular case of the first object of the invention, the patch element is the first patch element, and the patch contact surface is the first patch contact surface. The connector is provided with a second patch element having a second patch contact surface and configured to connect to the plug element so that the second patch contact surface is parallel to the first patch contact surface.

[20] In a preferred case of the first aspect of the invention, the male contact surface is formed by parallelly shifting the generatrix of a straight line along a guide line, the guide line lying in a plane parallel to the contact surface of the contact surface and the generatrix extending perpendicular to the plane of the contact surface of the contact.

[21] The second object of the invention is a plate of a sector element of a disk filter having two side surfaces parallel to each other and a small end surface, which in the operational position of the plate faces the shaft of the disk filter. The lateral surfaces of the plate are formed by the outer surfaces of the side walls made of permeable porous ceramics and located so that between their inner surfaces there is a sealed cavity. At the edge of the plate adjacent to its small end surface, a recess is made having a female contact surface onto which the mouth of the sealed cavity extends with its open end. The female contact surface intersects with both side surfaces and the small end surface to form an open gap in the small end surface. The first size of the open end of the mouth of the sealed cavity is larger than the second size of the open end of the mouth of the sealed cavity. In this case, the first size of the open end of the mouth of the sealed cavity is determined in the direction parallel to the side surfaces of the plate, and the second size of the open end of the mouth of the sealed cavity is determined in the direction perpendicular to the side surfaces of the plate.

[22] In a preferred case of the second aspect of the invention, the female contact surface is formed by parallelly shifting the generatrix of a straight line along a guide line, with the guide line lying in a plane parallel to the side surfaces of the plate, and the generatrix line extending perpendicular to the side surfaces of the plate.

[23] In the particular case of the second object of the invention, the female contact surface is characterized by the fact that there is such a section of the female contact surface made parallel to the side surfaces, which has a section in which the secant line, drawn perpendicular to the line connecting the ends of the given section, crosses this section more once.

[24] In another particular case of the second aspect of the invention, the open end of the mouth of the sealed cavity has an oval shape.

[25] A third aspect of the invention is a sectorial disk filter element comprising a plate and a drain connector. The plate is made according to any of the above options for the second object of the invention. The drain connector is made according to any of the above options for the first object of the invention. The drainage connector is attached to the plate so that its male contact surface is adjacent to the female contact surface of the recess of the plate, and the open end of the first section of the through hole is opposite the open end of the mouth of the sealed cavity.

[26] In a preferred case of the third aspect of the invention, the shape and size of the open end of the first portion of the through hole coincide with the shape and size of the open end of the mouth of the sealed cavity.

Brief Description of the Drawings

[27] The implementation of the invention will be explained with reference to the figures:

FIG. 1 is a general view of a sector element of a disk filter made in accordance with a third aspect of the invention;

FIG. 2 is a general view of a sector element plate made in accordance with a second aspect of the invention;

FIG. 3 is an enlarged view of section A of FIG. 2;

FIG. 4 is a perspective view of a sector element plate with a display of its internal structure;

FIG. 5 is a general view of a drain connector made in accordance with a first aspect of the invention;

FIG. 6 is a General view of the drainage connector with the display of its internal structure;

FIG. 7 is a view of the drainage connector of FIG. 5 in sections AA and BB, as well as a bottom view;

FIG. 8 is a view of a connecting pipe for a drainage connector;

FIG. 9 is a perspective view of the drainage connector of FIG. 5, when viewed from front to bottom;

FIG. 10 is a perspective view of a second patch member for a drain connector;

FIG. 11 is a perspective view of a drain connector made in accordance with the most preferred case of the second aspect of the invention;

FIG. 12 is a side view of a drain connector made in accordance with the most preferred case of the second aspect of the invention.

The implementation of the invention

[28] The implementation of the invention will be shown in the best-known examples of the invention, which are not restrictions on the scope of protected rights.

[29] A disk filter sector element 1, a general view of which is shown in FIG. 1 includes a plate 10 and a drain connector 100. Since the structural features of the drain connector 100 are associated with those of the plate 10, which is the main component of the sector element 1, for a more consistent presentation, the plate 10, which is the second object of the invention, will first be described.

The design and technical results of the second object of the invention

[30] The plate 10 (Fig. 2, Fig. 4) contains two parallel side surfaces 20 and 40, as well as a small end surface 70, a large end surface 80 and two radial end surfaces 81 and 82. The small end surface 70 in the operating position of the plate 10 is turned towards the shaft of the disk filter, the large end surface 80 is turned in the opposite direction, and the radial end surfaces 81 and 82 extend in the radial direction and connect the small end surface 70 to the large end surface 80.

[31] The radial end surfaces 81 and 82 are made flat, and the large end surface 80 is made in the form of an arc of a circle. In turn, the small end surface 70 contains two flat sections 71 and 72, which are in a plan view arranged symmetrically to each other with respect to the axis of symmetry of the plate with the formation of an angle open towards the large end surface 80.

[32] The side surfaces 20 and 40 of the plate 10 are formed by the lateral outer surfaces 21 and 41 of the side walls 22 and 42, respectively. Small 70, large 80 and radial end surfaces 81 and 82 of the plate 10 are formed by the end outer surfaces 23 and 43 of the side walls 22 and 42, respectively. Note that the positions 23 or 43 are the same positions for all end outer surfaces of the corresponding side walls 22 and 42.

[33] The side wall 22 has an inner surface 25 including contact portions, a flow part, and vertical portions. The contact portions and the flow portion of the inner surface 25 are substantially parallel to the lateral outer surface 21, the thickness of the side wall 22 in the region of the contact portions being greater than its thickness in the region of the flow portion. Vertical portions of the inner surface 25 connect the contact portions and the flow part, forming the edge portions and protruding portions of the side wall 22 described below. The side wall 42 has an inner surface 45 with a similar configuration.

[34] Between the flowing part of the inner surface 25 of the side wall 22 and the flowing part of the inner surface 45 of the side wall 42 there is a sealed cavity 30 (Fig. 4). It should be noted that the feature of the second object of the invention “there is a sealed cavity between the inner surfaces (side walls)” includes the case when the sealed cavity is only between parts of the inner surfaces, in this case, between flowing parts.

[35] In the area of its end outer surface 23, the side wall 22 has edge portions 24 indicated by a single position, on which its inner surface 25 is represented by contact portions. Accordingly, the thickness of the side wall 22 at its edge portions 24 is greater than the thickness of the side wall 22 in the region of the flow part of its inner surface 25. The side wall 42 in the region of its end outer surface 43 has the same positioned edge portions 44 with a similar configuration.

[36] The contact sections of the inner surfaces 25 and 45 of the side walls 22 and 42 located on the edge sections 24 and 44 are closed, as a result of which, by means of an adhesive placed between them, the side walls 22 and 42 are secured to form a plate 10, and sealing the cavity 30. United in this way, the edge sections 24 and 44 of the side walls 22 and 42 form the edge sections 11, 12, 13, 14 of the plate 10, located respectively near the small 70, large 80 and radial end surfaces 81 and 82 of the plate 10.

[37] In addition to the edge sections 11, 12, 13, 14 of the plate 10, the configuration of the sealed cavity 30 is also formed by the intracavitary walls 31 extending perpendicular to the side surfaces 20 and 40 of the plate 10. In this case, each intracavitary wall 31 is formed by a pair of protruding sections connected to each other side walls 22 and 42, which protrude from the side of the flowing parts of each of the inner surfaces 25 and 45 (individually protruding sections in Fig. 4 are not shown). The inner surfaces 25 and 45 of the side walls 22 and 42 in the region of the protruding portions are represented by contact portions that close when connecting the protruding portions. Between the contact areas located on the protruding sections that make up the pair for the formation of any intracavitary wall 31, glue is placed for more durable bonding of the side walls 22 and 42 to each other.

[38] The intracavitary walls 31 form channels 32 for flow of the filtrate. The sealed cavity 30 itself communicates with the outer space through the mouth 34. Although the configuration of the intracavitary walls 31 and channels 32 is not the subject of the present invention, it should be noted that their location is determined in order to minimize hydraulic losses during filtrate flow to the mouth 34, i.e. to the exit from the sealed cavity 30.

[39] Thus, one part of the area of each of the side surfaces 20 and 40 of the plate 10, located opposite the flowing parts of the inner surfaces 25 and 45 of the side walls 22 and 42, represents the working part involved in the filtering process. The other part of the area of each of the side surfaces 20 and 40 of the plate 10, located opposite the edge sections 11, 12, 13, 14 and intracavitary walls 31, is a technological part. This part of the area mainly performs technological functions of fastening the side walls 22 and 42, sealing the cavity 30, and also forming its optimal internal configuration.

[40] The side walls 22 and 42 are made of permeable porous ceramics, preferably alumina ceramic with the addition of aluminosilicates. At the same time, in the particular case of the implementation of the plate 10 between the side walls 22 and 42 can be enclosed in a polymer honeycomb structure that facilitates the plate 10, made to a predetermined size. This configuration does not prevent the achievement of the predominant effects of the second object of the invention.

[41] In this case, the protruding sections, as well as the edge sections 24 and 44 of the side walls 22 and 42, are supported by the honeycomb structure. Corresponding protruding sections of the side walls 22 and 42, together forming any intracavitary wall 31, are fastened together and with a honeycomb structure using glue placed in those cells that overlap with the contact sections located on these protruding sections of the side walls 22 and 42.

[42] In a similar manner, the edge sections 24 and 44 of the side walls 22 and 42 are fastened together to form the edge sections 11, 12, 13, 14 of the plate 10. It should be noted that in this case a small 70, a large 80 and radial end surfaces 81 and 82 plates 10 are only partially formed by the end outer surfaces 23 and 43 of the side walls 22 and 42. Moreover, another part of these end surfaces is formed by the surface of the adhesive covering the honeycomb structure from the side of the end outer surfaces 23 and 43 and sealing the cavity 30.

[43] The edge portion 11 of the plate 10 adjacent to the small end surface 70 has an increased width in the direction of the sealed cavity 30, compared with the edge portions 12-14. Holes 15 are provided on the edge portion 11 for mounting fasteners for securing the sector element on the disk filter shaft. A waterproof coating can be applied to the side surfaces 20 and 40 of the plate 10 in the region of the edge portion 11 to prevent air inflow through areas not immersed in the pulp bath.

[44] At the edge portion 11 of the plate 10 adjacent to the flat portion 72 of its small end surface 70, a recess 90 is made across the entire thickness of the plate 10. Note that the thickness of the plate 10 is equal to the distance between the side surfaces 20 and 40. The recess 90 has a female contact a surface 91 onto which the mouth 34 of the sealed cavity 30 extends, with its open end 35, i.e., in other words, the sealed cavity 30 opens outward through the female contact surface 91.

[45] Thus, the mouth 34 is a channel passing through the edge portion 11 of the plate 10 and connecting the sealed cavity 30 with the outer space. In turn, the open end 35 of the mouth 34 refers to the cross section of the mouth 34, made at that point of the longitudinal axis of the mouth 34 (point F in Fig. 3), behind which, with the advance from the sealed cavity 30 in the direction of the small end surface 70, is the cross section of the mouth 34 ceases to have a closed loop. Since, as follows from FIG. 4, the open end 35 of the mouth 34 is a cross section of the minimum area of all cross sections of the mouth 34 having a closed loop, namely, the open section of the mouth 34 is determined by the magnitude of the open end 35.

[46] Further, as seen in FIG. 4, the first size of the open end 35 of the mouth 34 is larger than the second size of the open end 35 of the mouth 34. In this case, the first size of the open end 35 of the mouth 34 is determined in a direction parallel to the side surfaces of the plate 20 and 40, and the second size of the open end 35 of the mouth 34 is defined in in a direction perpendicular to the lateral surfaces of the plate 20 and 40. Under the conditions of the flat shape of the plate 10, it is this, elongated in a direction parallel to the side surfaces of the plate 20 and 40, or, in other words, the flattened shape of the open end 35 of the mouth 34 allows you to maximize to bore the cross section of the mouth 34, in contrast, for example, from the known cylindrical shape. Moreover, from the point of view of processing technology and reduction of hydraulic resistance, it seems preferable that the open end 35 of the mouth 34 was in the form of an oval.

[47] The female contact surface 91 intersects with both side surfaces 20 and 40 and with the small end surface 70 to form an open gap 92 in the small end surface 70 (Fig. 3). The presence of an open gap 92 in the small end surface 70 allows you to place in the recess 90 described below the plug-in element 110 of the drain connector 100 so that it is possible to output the connecting pipe 150 of the drain connector 100 outward through the small end surface 70. This, in turn, allows for compactness sector element 1 in the axial direction of the disk filter, as well as to provide a rectilinear fluid flow that reduces hydraulic losses, which is unattainable in the prototype of the invention.

[48] It should be noted that the small end surface 70 may not have flat sections 71 and 72, but, for example, be cylindrical. In this case, to perform the recess 90, it is advisable to choose the portion of the small end surface 70 that has the least curvature.

[49] The intersection line 93 of the female contact surface 91 and the side surface 20 (hereinafter, the recess intersection line 93) has a section 98 in which the secant line 94, drawn perpendicular to the line 95 connecting the ends of the recess intersection line 93, intersects the intersection line 93 of the recess two times (Fig. 3).

[50] This means that the region of the plate 10 located between section 98 and the small end surface 70 will prevent free passage from the recess of the insert element 110 of the drain connector 100 in the direction perpendicular to the small end surface 70. It should be noted that in the assembled state of the sector element 1 the female contact surface 91 is adjacent to the male contact surface 111 of the insertion element 110 of the drain connector 100, i.e. essentially in contact with it through the adhesive layer.

[51] Thus, the specified embodiment of the recess 90 ensures the fastening of the drainage connector 100 not only by means of an adhesive joint or other fastening means such as a screw-nut, but also by the body of the plate 10 itself.

[52] It should be noted that in this case, the intersection line 93 of the recess coincides with any section of the female contact surface 91 made parallel to the side surfaces 20 and 40. According to conventional terminology, the section of the female contact surface 91 is understood to be the line of intersection of the female contact surface 91 with a secant plane , which is a plane parallel to the side surfaces 20 and 40.

[53] At the same time, in order to achieve the above technical results, the intersection line 93 of the recess does not have to coincide with the cross section of the female contact surface 91. For example, U-shaped chamfers and the like can be made on the side surfaces 20 and 40 along the recess. closed to the small end surface 70, which means that the intersection line 93 of the notch will also take the form U, through which it is impossible to draw a line 94 that could intersect the intersection line 93 of the notch more than once. However, regardless of the shape of the intersection line 93 of the recess according to the invention, there is such a section of the female contact surface 91 made parallel to the side surfaces 20 and 40, which has a section 98, on which the secant line 94, drawn perpendicular to the line 95 connecting the ends of this section, crosses this section more than once.

[54] As for the female contact surface 91, in this embodiment, it has a cylindrical shape, i.e. formed by a parallel shift of the generatrix of a straight line along a guide line lying in a plane parallel to the side surfaces 20 and 40 of the plate 10. The guide line here coincides with the intersection line 93 of the recess and is an arc of a circle, and the generatrix of the straight line runs perpendicular to the side surfaces 20 and 40 of the plate 10.

The design and technical results of the first object of the invention

[55] The drain connector 100 (Figs. 5-12) is for connecting a sector element 1 of a disk filter to a drain system of a disk filter. The drain connector 100 includes an insertion element 110 and an attachment element 130, which are connected to each other. In this case, the plug-in element 110 and the patch element 130 are integral.

[56] The patch element 130 has a patch contact surface 131 made in the form of a flat surface. The insertion element 110 has a male contact surface 111 and an open surface 112. A through hole 120 is made in the insertion element 110, the longitudinal axis 125 of which extends parallel to the contact surface 131. The first portion 121 of the through hole 120 opens with its open end 123 through the male contact surface 111, and the second portion 122 of the through hole 120 opens with its open end 124 through the open surface 112.

[57] Over the entire length of the first portion 121, the first cross-sectional dimension L1 of the first portion 121 is larger than the first cross-sectional dimension L2 of the second portion 122, the first cross-sectional size of each portion being determined in a direction parallel to the contact surface patch plate 131. Accordingly, the boundary between the first portion 121 and the second section 122 should be considered the point N (Fig. 7).

[58] It should be noted that the open end 123 of the first section 121 refers to the cross section of the first section 121, made at that point of the longitudinal axis of the through hole 120 (point S in Fig. 7), behind which, with the advance from the second section 122, the cross section of the through holes 120 ceases to have a closed loop.

[59] The specified configuration of the through hole 120 allows for a transition in the drain connector 100 from a flattened cross section of the mouth of the sealed cavity of the plate 10 to a round section of the hose of the drain system, which is not accompanied by the formation of a section with a reduced passage section, which is inherent, for example, to the first of the described above known solutions.

[60] In addition, with lateral influences on the drain connector 100, the force in this case is not sensed by the thin fastening portion of the plate, which is characteristic of the known solution, but is transmitted through the male contact surface 111 and the patch contact surface 131 to the extensive female contact surface and side surface plate 10. Accordingly, the magnitude of such an effort that can cause damage to the plate 10 is significantly increased.

[61] At the same time, the first section 121 of the through hole 120 into which the filtrate enters, and the second section 122 of the through hole 120 through which the filtrate is discharged, lie on a common longitudinal axis 125. This avoids turning sections of the hydraulic circuit that increase the hydraulic resistance and placement on the sector element 1 of additional structural elements in the axial direction of the disk filter that can complicate the installation of the sector element, which is inherent in the prototype of the invention.

[62] Further, the entire length of the first portion 121, i.e. starting from point N to point S, the first cross-sectional size L1 of the first section 121 continuously increases from the first cross-sectional size L2 of the second section 122. This ensures a smooth transition from the first section 121 of the through hole 120 to its second section 122, which further reduces hydraulic resistance.

[63] Furthermore, at least a portion of the length of the first portion 121 determined from the male contact surface 111, in this case, portion 127 of the first portion 121, the second cross-sectional dimension L3 of the first portion 121 is smaller than the second cross-sectional dimension L4 the second section 122. In this case, the second cross-sectional size of each section is determined in the direction perpendicular to the patch contact surface 131. In addition, on the indicated part 127 of the first section 121, the second cross-sectional dimension L3 of the first section 121 is not reryvno reduced from L4 of the second cross-sectional size of the second portion 122. Note also that in this case on the other side of the first portion 121 is different from the part 127, the size L3 of the second first portion 121 is equal to the second dimension L4 of the second portion 122.

[64] Note that the transition from the large second size L3 of the first section 121 (point N) to the small second size of the first section 121 at its open end 123 (point S) is made in the area where the first size of the first section 121 is already large enough . This configuration allows to prevent the occurrence of a section of the through hole 120 with a passage section reduced relative to the second section 122, which would be inevitable in case of a sharp transition from the first section 121 with a flattened cross section to the second section 122 with a circular cross section.

[65] In the second section 122 of the through hole 120, a connecting pipe 150 is fixed (Fig. 8, 11, 12), to which, for example, by means of clamps, a hose for the drainage system of the disk filter is connected. In a preferred case, the cross section of the second section 122 is a circle, and the connecting pipe 150 can be fixed in the second section 122, for example, by means of a threaded connection. However, the fastening of the connecting pipe in the second section 122 of the through hole 120 can be carried out in another way, for example, by fitting in an interference fit with or without an adhesive joint. In addition, the connecting pipe 150 and the insertion element 110 can be made integral.

[66] The shape of the open end 123 of the first portion 121 of the through hole 120 corresponds to the shape of the open end 35 of the mouth 34 of the sealed cavity 30 of the plate 10, and in this case has an oval shape. The shape of the open end 124 of the second portion 122 of the through hole 120, as mentioned above, is circular in this case. Since the shape of the open end 123 of the first portion 121 of the through hole 120 may be different for different cases of the shape of the open end 35 of the mouth 34 of the sealed cavity 30, the longitudinal axis 125 of the through hole 120 means the longitudinal axis of the second portion 122 of the through hole 120.

[67] The male contact surface 111 is designed to contact the female contact surface 91 and is made in full accordance with the female contact surface 91 to be adjacent to it. Therefore, all the features of the female contact surface 91 are inherent in the male contact surface 111, taking into account the relationships described below. In addition, since the technical results achieved by the drain connector 100 are manifested when used together with the plate 10, all the technical results described above for the plate 10 and obtained as a result of the recess 90 described above are also valid for the drain connector 100.

[68] For the male contact surface 111 there is such a section made parallel to the patch contact surface 131 that has a portion 119 (FIG. 7), on which the secant line 113, drawn parallel to the longitudinal axis 125 of the through hole 120, crosses this section more than once .

[69] Thus, as an analogue to the secant plane of the female contact surface 91 drawn parallel to the side surfaces 20 and 40, in the case of the male contact surface 111, a secant plane drawn parallel to the contact surface of the contact surface 131 is used. As an analogue of the secant line 94 intersecting the section of the female contact surface 91 and drawn perpendicular to the straight line 95 connecting the ends of the section line 93; in the case of the male contact surface 111, a secant line 113, The behavior parallel to the axis 125 of the through hole 120.

[70] In this case, the male contact surface 111 is formed by parallelly shifting the generatrix of a straight line along the guide line, the guide line lying in a plane parallel to the patch contact surface 131. In the case shown in FIG. 5 to 7, the guide line is an arc of a circle, and the generatrix of the straight line runs perpendicular to the plane of the contact surface 131.

[71] In the case of the drainage connector 100 under consideration, the insertion element 110 is provided with an end element 140, which has an outer surface 143 forming said open surface 112. The end element 140 also has two end contact surfaces 141 and 142 (FIG. 9) that face male contact surface 111 and are located on both sides of the through hole 120 perpendicular to the patch contact surface 131.

[72] The end contact surfaces 141 and 142 allow, in addition to the male contact surface 111 and the patch contact surface 131, to increase the total contact area of the drain connector 100 with the plate 10. Since in this configuration all contact surfaces are for adhesive bonding, increasing the contact area increases the reliability of fixing the drainage connector 100 on the plate 10. We also note that when inserting the element 110 with the end element 140, an additional adhesive layer is disposed between the end contact surfaces 141 and 142 and the small end surface 70, helps to ensure the tightness of the connection of the drain connector 100 and the plate 10.

[73] In addition, when a force is applied to the connecting pipe 150 in a direction parallel to the side surfaces 20, 40 and the small end surface 70 of the plate 10, the end contact surfaces 141 and 142 take on the bulk of this force, transferring it to the small end surface 70 in the direction perpendicular to it. It should be noted that in the direction perpendicular to the small end surface 70, the plate 10 is able to absorb a relatively large load. Since the specified force is distributed over the entire area of the end contact surfaces 141 and 142, the magnitude of such a force that can cause damage to both the plate 10 and the drain connector 100 is significantly increased.

[74] In the present case of the drain connector 100, the patch 130 is the first patch 133 and the patch contact 131 is the first patch contact 134. The drain 100 is provided with a second patch 135 having a second patch contact 136 and the ability to connect with the insertion element 110 so that the second patch contact surface 136 is parallel to the first patch contact surface 134 (Fig. 9 - 12).

[75] The second patch element 135 is secured to the insertion element 110 after the insertion element 110 is inserted into the recess 90 of the plate 10. The second patch contact surface 136 further increases the contact area of the drain connector 100 and the plate 10 with a corresponding strengthening of their bonding to each other by means of glue. It should also be noted that the second patch element 135 provides additional sealing of the connection of the drain connector 100 and the plate 10 on the opposite side from the first patch element 133.

[76] Further, when a force is applied to the connecting pipe 150 in a direction perpendicular to the side surfaces 20 and 40 of the plate 10, the patch contact surfaces 134 and 136 take up the bulk of this force, transferring it to the side surfaces 20 and 40 in the direction perpendicular to them . those. in the direction in which the plate 10 is capable of absorbing a relatively large load. Thus, the breaking effect on the plate, as in the case when the fitting is inserted into the edge portion of the plate from its end side, does not occur.

[77] Since the indicated force is distributed over the entire area of the contact surfaces 134 and 136 in addition to the area of the covered contact surface 111, the magnitude of such a force that can cause damage to both the plate 10 and the drain connector 100 is significantly increased. In addition, this configuration allows you to make a through hole 120 of the drain connector 100 with a maximum cross-sectional size in its second section 122.

[78] The second patch element 135 is secured to the insertion element 110 by means of a screw connection 137 in addition to the adhesive connection (Figs. 11, 12). Using a screw connection 137 to secure the second patch member 135 to the plug-in element 110 allows both the first patch contact surface 134 and the second patch contact surface 136 to be pressed firmly against the side surfaces 20 and 40, respectively, and thereby provide mechanical fixation of the drain connector 100 to the plate 10. This solution also allows for the efficiency of bonding the first and second patch contact surfaces 134 and 136 to the side surfaces 20 and 40, respectively.

[79] It should be noted that the screw connection 137 can be made as a screw-nut connection, as shown in FIG. 11 and 12, and in the form of one or more screws screwed into the internal thread made in the body of the insertion element 110.

[80] For ease of mutual positioning, the insertion element 110 and the second patch element 135 are provided with complementary positioning elements 138 and 139, respectively (Figs. 9, 10). Moreover, the positioning elements 138 of the insertion element 110 in this case are made in the form of grooves, and the positioning elements 139 of the second patch element 135 are made in the form of ridges, the length, width and shape of which correspond to the corresponding parameters of the said grooves.

[81] In the drain connector 100 on the male contact surface 111, the end contact surfaces 141 and 142, as well as the patch contact surfaces 134 and 136, the corrugation 132. The corrugation 132 allows to increase the area of the adhesive joint from the side of the drain connector 100 and increase the bond strength of the drain connector 100 and plates 10. In addition, the implementation of corrugation 132 on the contact surfaces of the drain connector 100 allows you to place an excessive amount of glue near them, which ensures tightness the connecting portion of the contact of the drain connector 100 and the plate 10.

[82] It should be noted that corrugation 132 can only be performed on some of the above contact surfaces. Note also that on all or some contact surfaces of the plate 10 in contact with said contact surfaces of the drain connector 100, corrugation can also be performed, or these contact surfaces may have an increased roughness.

[83] Various polymers can be used to make the drain connector 100, however, it is preferable to use a polyamide, in particular a glass-filled polyamide.

The design and technical results of the third object of the invention

[84] The disk filter sector element 1 comprises a plate 10 and a drain connector 100. The drain connector 100 is inserted into a recess 90 of the plate 10 so that its male contact surface 111 is adjacent to the female contact surface 91 of the plate 10 and the open end 123 of the first portion 121 the through hole 120 is located opposite the open end 35 of the mouth 34 of the sealed cavity 30. In addition, the first patch contact surface 134 is adjacent to the portion of the side surface 20, two end contact rotate NOSTA 141 and 142 are located adjacent to corresponding portions of the small end face 70 and the second bill contact surface 136 is located adjacent the side surface portion 40.

[85] Note also that if the male contact surface 111 of the drain connector 100 is adjacent to the female contact surface 91 of the plate 10, then the open end 123 of the first portion 121 of the through hole 120 of the drain connector 100 is naturally located exactly opposite the open end 35 of the sealed mouth 34 cavity 30 of the plate 10. Thus, to accurately position the open end 123 of the first section 121 of the through hole 120 of the drainage connector 100 relative to the open end 35 of the mouth 34 g rmetizirovannoy cavity 30 plate 10 is sufficient to position the male contact surface 111 and the female contact surface 91 adjacent to each other.

[86] Preferably, if the shape and size of the open end 123 of the first portion 121 of the through hole 120 of the drain connector 100 exactly match the shape and size of the open end 35 of the mouth 34 of the sealed cavity 30. In this case, additional hydraulic resistance caused by the transition from the open end 35 of the mouth 34 to the open end 123 of the first section 121 of the through hole 120.

[87] An adhesive layer is applied between each contact surface of the drainage connector 100 and a corresponding portion of the surface of the plate 10 to securely fasten the drainage connector 100 to the plate 10. It should be noted that both for bonding the side walls 22 and 42 to each other when receiving the plate 10, and for fixing on the plate 10 of the drainage connector 100, in the preferred case, structural adhesive based on epoxy resins with inert fillers is used. Additional mechanical fixation, as well as an increase in bonding efficiency, is provided by screw connection 137.

[88] Other technical results achieved using the sector element 1 are a combination of technical results achieved using the plate 10 and the drain connector 100.

Claims (22)

1. A drainage connector comprising a patch element and an insert element connected to each other, wherein the patch element has a patch contact surface made in the form of a flat surface, and the plug element has a male contact surface and an open surface, wherein a through hole is made in the plug element, the longitudinal axis of which runs parallel to the contact surface contact, and the first section of the through hole with its open end opens through the male contact surface, and the second section of the through hole with its open end opens through the open surface, while along the entire length of the first section, the first cross-sectional dimension of the first section is larger than the first cross-sectional size of the second section, the first cross-sectional size of each section being determined in the direction parallel to the contact patch surface. 2. The connector according to claim 1, in which along the entire length of the first section, the first cross-sectional dimension of the first section continuously increases from the first cross-sectional size of the second section. 3. The connector according to claim 1, wherein at least a portion of the length of the first section, determined from the side of the male contact surface, the second cross-sectional dimension of the first section is smaller than the second cross-sectional size of the second section, the second cross-sectional size of each section being determined in the direction perpendicular to the contact surface. 4. The connector of claim 3, wherein at least a portion of the length of the first portion, the second cross-sectional dimension of the first portion is continuously reduced from the second cross-sectional dimension of the second portion. 5. The connector according to claim 1, which is equipped with a connecting pipe fixed in the second section of the through hole. 6. The connector of claim 1, wherein the cross section of the second portion is a circle. 7. The connector according to claim 1, wherein the open end of the first portion of the through hole has an oval shape. 8. The connector according to claim 1, in which the insertion element is provided with an end element that has an outer surface forming said open surface and two end contact surfaces facing the male contact surface and located on both sides of the through hole perpendicular to the contact surface. 9. The connector according to claim 1, wherein the patch element is the first patch element and the patch contact surface is the first patch contact surface, wherein the connector is provided with a second patch element having a second patch contact surface and configured to connect to the plug element so that the second patch contact surface is parallel to the first patch contact surface. 10. The connector according to claim 1, in which the male contact surface is formed by a parallel shift of the generatrix of a straight line along the guide line, the guide line lying in a plane parallel to the contact surface of the invoice, and the generatrix line extends perpendicular to the plane of the contact surface of the invoice. 11. The connector according to claim 1, in which the male contact surface is characterized in that there is such a section of the male contact surface made parallel to the patch contact surface, which has a section in which a secant line drawn parallel to the axis of the through hole intersects this section for more than one times. 12. The plate sector element of the disk filter having two parallel to each other side surfaces and a small end surface, which in the operational position of the plate faces the shaft of the disk filter, moreover the lateral surfaces of the plate are formed by the outer surfaces of the side walls made of permeable porous ceramics and located so that between their inner surfaces there is a sealed cavity, while on the edge portion of the plate adjacent to its small end surface, a recess is made having a female contact surface onto which the mouth of the sealed cavity extends with its open end, wherein the female contact surface intersects with both side surfaces and the small end surface to form an open gap in the small end surface, wherein the first size of the open end of the mouth of the sealed cavity is larger than the second size of the open end of the mouth of the sealed cavity, the first size of the open end of the mouth of the sealed cavity is determined in a direction parallel to the side surfaces of the plate, and the second size of the open end of the mouth of the sealed cavity is determined in the direction perpendicular to the side surfaces of the plate. 13. The plate according to claim 12, in which the female contact surface is formed by a parallel shift of the generatrix of a straight line along the guide line, while the guide line lies in a plane parallel to the side surfaces of the plate, and the generatrix line runs perpendicular to the side surfaces of the plate. 14. The plate according to claim 12, in which the female contact surface is characterized by the fact that there is such a section of the female contact surface made parallel to the side surfaces, which has a section in which the secant line, drawn perpendicular to the line connecting the ends of the given section, intersects this section more than once. 15. The plate according to claim 12, in which the open end of the mouth of the sealed cavity has an oval shape. 16. Sector element of a disk filter containing a plate according to any one of paragraphs. 12-15 and drainage connector according to any one of paragraphs. 1-11, which is attached to the plate so that its male contact surface is adjacent to the female contact surface of the recess of the plate, and the open end of the first section of the through hole is located opposite the open end of the mouth of the sealed cavity. 17. The sector element according to claim 16, in which the shape and size of the open end of the first section of the through hole coincides with the shape and size of the open end of the mouth of the sealed cavity.

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