RU2032604C1 - Conveyor system of food products air treatment installation - Google Patents

Abstract

FIELD: refrigerating installations. SUBSTANCE: conveyor system for food products air treatment installation has main endless conveyor belt with several spiral coils arranged one on the other on lower coil and with edge sections, and it has supporting device with endless chains and chain holders installed for supporting edge sections of main endless conveyor belt along its lower coil. Conveyor system has additional endless conveyor belt partially laid in spiral coils arranged one on the other. Coils of additional endless conveyor belt alternate in height with coils of main endless conveyor belt to form self-supporting belt column. Each coil of main endless conveyor belt (except for lower coil) is arranged to rest on corresponding underlying coil of additional endless conveyor belt, and vice versa, by means of separating members adjoining edge sections of both endless conveyor belts. Height of lifting of endless chains on length of lower coil of main endless conveyor belt is equal to height of lifting of both endless conveyor belts over a length of one coil. EFFECT: enlarged operating capabilities. 7 cl, 5 dwg

Description

 The invention relates to conveyor systems for transporting goods and can be used in refrigeration units created by the flow of cooling air.

 A known installation with a conveyor belt moving helically along superimposed on one another turns. The installation contains two chains supporting the cargo transported along the route and moving opposite the route along the return route, which has more curved sections than the transportation route. As a result, closed paths are formed, the links of each chain are superimposed on one another so that the chain and frame form a closed channel for the rollers along the entire return path.

 Known conveyor systems containing an endless belt, which along part of its length follows a path made of several spiral turns laid one on top of the other, and a support device containing two endless chains that are mounted on supports and support the lowest of the spiral turns of the tape by maintaining the edge sections of the tape along this turn.

 An object of the present invention is to provide a conveyor system capable of fully utilizing the performance of a chiller in a chiller, regardless of whether the products to be frozen are easy or difficult to freeze.

 It is also an object of the present invention to achieve the named improvement without the need to increase the space occupied by the refrigeration unit.

 According to the present invention, such goals are achieved by using a second endless conveyor belt, which has almost the same shape as the first conveyor belt, and which along a part of its length follows a path that includes several spiral turns nested on top of each other and alternating with turns of the first conveyor belt, and each turn of one conveyor belt (with the exception of the lowest turn of the first conveyor belt) is supported located below the turns of another conveyor belt, and n on the contrary, with the help of distance elements located near the edges of the belt, as a result of which a self-supporting tape column is formed consisting of spiral turns of such two conveyor belts.

 By arranging the double conveyor belts in the form of a self-supporting column, which is usually associated with significant difficulties, it is possible to obtain the advantage of doubling the freezing performance for easily frozen products and maintaining the freezing performance for products that are difficult to freeze.

 To make possible the implementation of double conveyor belts, the lifting height of the endless chains along the length of the lower turn of the main endless conveyor belt is equal to the lifting height of both endless conveyor belts over one turn. At the same time, at least the inner chain is located with the possibility of supporting the main endless conveyor belt along the specified chain on the site to the beginning of the lower turn of the main endless conveyor belt with an angle of elevation greater than the angle of elevation of the lower turn.

 According to the present invention, there is a fixed support device for the second conveyor belt in its area under the beginning of the lowest turn of the first conveyor belt, and this device gives the second conveyor belt a third lift, which is less than the second lift. As a result, the second conveyor belt begins to rest on the first conveyor belt no later than the beginning of the lowest turn of this belt, and then the second belt moves together with the first belt as a whole.

 Such a support device is preferably self-supporting at its end near the beginning of the lowest turn of the first conveyor belt, and it is desirable that it includes two parallel beams spaced apart from each other by a distance less than the distance between the distance elements of the second conveyor belt.

 The fact that the second conveyor belt has almost the same shape as the first conveyor belt means that these two belts are identical, with the possible exception of the height of the spacing elements.

 Finally, portions of these two conveyor belts to the column can preferably form an angle with each other in the horizontal plane. This makes it easy to load products onto conveyor belts.

 In the same way, the sections of two conveyor belts, after exiting the self-supporting belt column, form an angle with each other in the horizontal plane, which provides a simple separate load of products from two belts.

 In FIG. 1 shows a support device and the entrance of two conveyor belts to the lowest turn of a tape column according to the invention; in FIG. 2, section AA in FIG. 1; in FIG. 3 conveyor located inside the refrigeration unit, top view; in FIG. 4, the inlet side of the refrigerator in FIG. 3, front view; in FIG. 5 the output side of the refrigeration unit in FIG. 3, rear view.

 The known conveyor comprises a conveyor belt 1, which is capable of following a path along part of its length, including several spiral turns stacked on top of each other in the form of a tape column 2. The conveyor belt 1 is infinite and extends from the upper end of the column along a path 3 outside the column 2 to the lower end of this foot. However, the direction of rotation in the column 2 is optional, so the tape can exit the column 2 from both its upper end and the lower end.

 In order to be able to move in a spiral, as shown in FIG. 1, the tape 1 comprises a plurality of links 4 (FIG. 3). These links extend in the lateral direction of the tape 1 and have the ability to horizontally move relative to each other in the longitudinal direction of the tape so that the tape can rotate in the lateral direction. They can also be pivotally rotated relative to each other about an axis parallel to the lateral direction. As a result, the tape has the ability to follow an infinite path with straight sections and curved sections formed during vertical and horizontal rotation of the tape. In fact, laying in the column becomes possible due to the fact that each link 4 contains a spoke-shaped section 5 (Fig. 2), which is part of the bottom of the tape 1 and at the ends of which are installed vertical fingers 6. The fingers 6 form the sides of the tape 1 and serve as remote elements, the upper ends 7 of which are able to attach to the lower ends of the distance elements located on top of the coil of tape and maintain this coil.

 Column 2, consisting of spiral, superimposed turns of an endless conveyor belt 1, is supported by a supporting device. It contains two endless chains 8 and 9, located under the lowest coil of the column 2 of tapes, supporting the two side edges of the tape 1 and themselves mounted on supports. Each of the chains 8 and 9 has the ability to support the tape 1 with the rise for at least one full revolution. Then the chains 8 and 9 are moved in the opposite direction to the conveyor belt 1, along the return sections 10 and 11, respectively, outside the column 2 of the belt, as a result of which endless chains are formed. Chain 8 follows the return section 10, which is narrower than the column 2, and is located outside this column 2, and chain 9 follows the return section 11, which is located inside the column 2 and is also narrower than the column 2.

 At the starting point of the return portion 10, the circuit 8 is driven by an electric motor 12 and in turn drives a supported conveyor belt 1. The chain 9 can also be driven by a second electric motor 13.

 As shown in FIG. 2, each of chains 8 and 9 consists of links 14 and 15 that overlap each other. The links 14 are external and overlap the links 15, which are internal. The links 14 and 15 are interconnected by pins 16, on which the rollers 17 are also rotatably mounted, located between the links 15 and 15 and the lower beam 18 of the chain, which is almost the same length as the inner link 15. Each inner link 15 runs along support guide 19 and has a downward inclined edge 20, the bending radius of which is almost equal to the radius of the balls 21, which serve as rolling elements between the guide 19 and the chains 8 and 9, respectively. The guide 19 has a clip 22 located opposite the downwardly inclined edge 20 of the inner link 15 and serves as a support for rolling the balls 21 while transmitting the load from the string 2 of the tapes to the guide 19. The guide 19 is supported on the console 23 or on the cross-members 24, which are fixedly mounted on the uprights 25.

 According to the invention, the column 2 is formed by a conveyor belt 1 and a second conveyor belt 1 ', as shown in detail in FIG. 1 and 2. Conveyor belt 1 on the path of its movement to the lowest turn of the foot of foot 2 of the belts has a first section 1, and going almost horizontally, and a second section 18 with a rise exceeding the rise of chains 8 and 9 along the lowest turn of the belt 1 in the column 2. The last named lift corresponds to the full height of the two conveyor belts 1 and 1 '. Section 18 of the conveyor belt 1 at its inner edge is supported by the inner chain 9, and the outer edge of this section 1 is supported by a fixed support, which is not shown.

 On the trajectory of its movement towards the conveyor column, the second conveyor belt 2 has an outer section 1 ', and going almost horizontally, and an inner section 1', in, having a lift that is less than the rise of section 1, in the conveyor belt 1. As a result, the conveyor belt 1 'lies on the conveyor belt 1 and is supported by the fingers 6 of the latter, as shown in the upper part of FIG. 2.

 The second conveyor belt 1 'lies on the conveyor belt 1, starting from the point in front of the radius 26 of the lowest turn. Starting from radius 26, the conveyor belt is supported by chains 8 and 9 for at least one turn. To support the second conveyor belt 1 'to the point where it begins to support the conveyor belt 1, there is a fixed support device that supports the second conveyor belt 1' in sections 1 ', a and 1', c. This support device consists of two parallel beams 27 and 28, the upper surfaces of which are coated with a material with a low coefficient of friction, and these beams are fixed on the cross members 29, which are fixedly mounted on the struts 25. However, these beams 27 and 28 are self-supporting on their ends near the beginning of the lowest turn of the conveyor belt 1, i.e. the point at which the second conveyor belt 1 'comes into contact with the conveyor belt 1.

 As shown in FIG. 2, the conveyor belt 1 and the conveyor belt 1 ′ are led to the column 2 at different angles. As a result, the loading stations of conveyor belts 1 and 1 ', located on the continuation of sections 1, a and 1', a, are separated, which, of course, facilitates the loading of products.

 The use of a conveyor system in a refrigeration unit is shown in FIG. 3-5. As can be seen from FIG. 3, the tape column 2 is located in the container 30, the shorter sides of which are provided with doors 31 for access into the container 30, as well as openings for the entry of tapes 1 and 1 'from the loading stations 32 and 32' into the container 30 and for the exit of tapes 1 and 1 'to unloading stations (33 and 33'). A container (not shown) is located in the container 30, capable of generating a flow of cooling air along the axis of the tape foot 2. As shown in FIG. 3 sections of two conveyor belts 1 and 1 'before entering the column 2 form an angle between themselves in the horizontal plane. In the same way, sections of tapes 1 and 1 'are located between themselves from the exit from the tape column 2 to the discharge stations 33 and 33'.

 In the embodiment shown in FIG. 3-5, the loading stations 32 and 32 'are located at different heights and the unloading stations 33 and 33' are located in the same way.

 In the construction of the conveyor described above, various modifications are possible that fall within the scope of the present invention, which is defined by the claims.

Claims (7)

 1. CONVEYOR SYSTEM FOR INSTALLATION OF FOOD PRODUCTS AIR TREATMENT, including the main endless conveyor belt, stacked in several coils arranged on top of each other with a lower turn and with edge sections and a support device with endless chains and with support legs supporting the chain, installed with the possibility of supporting edges sections of the main endless conveyor belt along its lower turn, characterized in that it is provided with an additional endless conveyor belt, partially laid into several turns spirally spaced on top of each other, and the turns of the additional endless conveyor belt are arranged alternately in height with the turns of the main endless conveyor belt in the form of a self-supporting belt column, with each turn of the main endless conveyor belt, with the exception of the lower turn, being supported the corresponding underlying coil of an additional endless conveyor belt, and vice versa by means of dividing elements mounted adjacent to the edge parts of both endless conveyor belts, and the lifting height of the endless chains along the length of the lower turn of the main endless conveyor belt is equal to the lifting height of both endless conveyor belts over one turn.  2. The system according to claim 1, characterized in that at least the inner chain is arranged to support the main endless conveyor belt along the chain in the area up to the beginning of the lower turn of the main endless conveyor belt with an angle of elevation greater than the angle of elevation of the lower turn.  3. The system according to claim 2, characterized in that it is equipped with an additional fixed support device for supporting an additional endless conveyor belt at a section of its length up to the beginning of its lower turn indicated and for guiding an additional endless conveyor belt at an angle of elevation less than the angle of elevation in the area bottom turn of the main endless conveyor belt.  4. The system according to claim 3, characterized in that the additional stationary support device is made self-supporting at its end before the start of the lower turn of the main endless conveyor belt.  5. The system according to claim 4, characterized in that the additional stationary support device is made in the form of two parallel beams spaced one from the other at a distance less than the distance between the spacer elements of the additional endless conveyor belt.  6. The system according to one of paragraphs. 1-5, characterized in that the main endless conveyor belt in the section to the self-supporting belt column is located at an angle to the additional endless conveyor belt in the same section.  7. The system according to one of paragraphs. 1-5, characterized in that both endless conveyor belts in the area after the self-supporting tape columns are located one to the other at an angle in the horizontal plane.

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