FRAMES

Description

Technical Area

Invention is about sieving machines and sieving frames used for sieving milled grain products.

Mentioned invention being related to sieving machines used for sieving grain products which contains monoblock cage sieving passage having modular characteristic and a single plate placed between two passages, is related to channels formed on surfaces of case edges, sieving frames, and sieving cases containing a corner profile having curved surfaces placed in the channels

Background of the Invention

Sieving machines consist of sieving blocks and sieving blocks consist of sieving passages.

Production of sieving blocks were made as welded monoblocks in previous systems.

By a developed technique Useful Model application with number TR2008/02439 belonging to Yukselis Makine describing production of sieving passages as monoblock cages, is related to assembly of passage wall panels in modular form.

In another applied method, sieving blocks are formed combining sieving passages with bolts in modular form after producing them one by one. But these sieving passages are not monoblock, but they are formed combining with bolts. In these sieving passages every block has its own mobile lateral walls. When the sieving blocks are assembled to each other, there are two walls between each two sieving blocks. This situation is seen in patent application number US6260710.

Again another application of Yukselis number TR 2007/03389 being related to sieving machines used to sieve grain products having one drive shaft and sieving blocks connected as to generate a swinging motion by means of oscillatory parts and rails which fix the sieving blocks to the upper

ceiling area of that place, is describing drive plates connected with mentioned sieving blocks,

sieving groups in which the mentioned drive plates formed a bearing on the mentioned drive shaft by means of at least one eccentric ring, sieving group having upper drive plate and lower drive plate forming a bearing in normal position independent from the mentioned sieving group.

In current tecnique metal profile application is made on case corners. On these profiles case lateral surfaces are connected with screws. This method having a high cost, also brings the risk of loosening of corner joints. In these profiles 45° bevel was applied at the corners. But in the method developed profile channels are made at the corners of completed sieving cases and the profiles are placed in these channels. With these metal profiles having round corners, sharp corners were removed and corner reinforcement was applied in a simple way. At the same time easy movement of sieving cases into the passages was maintained.

In present applications, wood and plastic sieving frames being used, durability problems arise inside, in support laths and in their joints where the cleaners operate and are deformed in a shorter time.

In present applications welded aluminium sieving frames are produced and used.

Explanation of the Invention

The aim of the invention is forming modular sieving passages assembling with sieving piles without including lateral walls, combining two sieving passages with modular inter wall plate and saving from panel cost, also mounting and dismounting of panel for maintenance.

In order to perform this aim, there are isolation struts mounted on the inner side of the cage struts of single sieving passage which is produced as a cage. Between the isolation struts of two sieving passages modular plate is mounted and two passages are connected with bolts. So a modular sieving block could be formed and placing a common mobile modular plate between two sieving passages, a sieving machine with modular passage could be made with a lower cost. At the same time mobile walls could be used which can be mounted and dismounted for maintenance or can be changed while the machine is mounted.

Another aim of the invention is to provide stable and cheap production of the modular cage sieving passages and uniform mounting of the modules.

In order to realize above mentioned aim, mounting plates were welded to the back of cage sieving passages which were produced in monoblock welded form etc. and modules were obtained by processing the plates. At the back of the sieving block which is formed combining the sieving passage modules side by side there are processed mounting plates. Mounting upper and lower drive plates on these mounting plate sequences the sieve is formed in a practical way.

Another aim of the invention is to make possible mounting and dismounting of shutter by means of the gaskets which are placed in the shutter profiles.

In order to perform above mentioned aim, by addition of gaskets to a new designed profile, light shutter plate was mounted with inner profile piece and a light, sealed shutter was obtained.

Another aim of the invention is easy opening-closing of sieve lateral maintenance shutters in short distance and narrow area.

In order to perform above mentioned aim, sieve lateral maintenance shutters are not designed as single wing but made as double wing, enabling opening and dismounting.

One aim of the invention is removal of sharp corners and increasing durability of corner joints for easy mounting of sieve cases to isolation struts.

In order to perform above mentioned aim, new developed comer profile was mounted inside the channels which were made on jointed case corners.

Another aim of the invention is to reinforce support laths of sieving frames and prolong their lifes.

In order to perform above mentioned aim, durability of the support laths of sieving frames is increased by mounting them aluminium U and L profiles.

Another aim of the invention is to produce durable sieving frame for using in big dimension sieving cases.

In order to perform above mentioned aim, bottom grid wire was mounted to the channels of the sieving frame which was produced by splined aluminium profiles and screwed with holder.

Another aim of the invention is to produce the surface of sieving frames made of aluminium etc. metallic materials more hygienic using smooth processed material (anodized aluminium).

In order to perform above mentioned aim, sieving frame was developed which can be combined with unwelded bolts. As welding will not be used, aluminium etc. profiles subjected to surface treatment (anodized) can also be used and it made possible the production of maximum hygienic sieving frames. Drawings Which Help Understanding The Invention

Drawing 1 : Demounted perspective view of the modular passage and lateral plates, which are the subject of the invention.

Drawing 2: Perspective view of the sieving block which is formed by combining the modular passage and lateral plates, which are the subject of the invention.

Drawing 3: Upper demounted view of the modular passage and lateral plates.

Drawing 4: Upper view of the sieving block which is formed by combining the modular passages and lateral plates.

Drawing 5: Upper cross-section view of wedge splined shutter profile, shutter inner profile and gaskets.

Drawing 6: Detailed cross-section view of wedge splined shutter profile, shutter inner profile and gaskets.

Drawing 7; Perspective view showing fixing application of guide profile in the shutter.

Drawing 8: Upper cross-section view of, shutter outer profile, gaskets and, shutter profile without wedge channel.

Drawing 9: Detailed cross-section view of, shutter outer profile, gaskets and, shutter profile without wedge channel.

Drawing 10: Perspective view showing interior of the shutter.

Drawing 11 : Demounted perspective view of sieving block, lower drive plate and upper drive plate.

Drawing 12: Perspective view which shows mounting of sieving block, lower drive plate and upper drive plate using mounting plates.

Drawing 13: Perspective view showing application of lateral maintenance shutter with double wings.

Drawing 14: Upper view showing application of lateral maintenance shutter with double wings.

Drawing 15: Perspective views showing comer profile application detail on sieving case. Drawing 16: Perspective view showing corner profile application on sieving case.

Drawing 17: Perspective view of sieving frame supporting laths and reinforcing U profile. Drawing 18: Perspective view which shows mounting of reinforcing U profiles to supporting laths of sieving frame.

Drawing 19: Side cross-section view which shows mounting of bottom wire grid to aluminium sieving frame.

Drawing 20: Side cross-section view showing bottom wire grid mounted aluminium sieving frame.

Drawing 21 : Upper view showing bottom wire grid mounted aluminium sieving frame.

Drawing 22: Perspective view which shows mounting of bottom wire grid to aluminium sieving frame.

Drawing 23: Perspective view which shows mounting of bottom wire grid holder.

Drawing 24: Perspective view showing bottom wire grid mounted aluminium sieving frame.

Drawing 25: Perspective view which shows mounting of aluminium sieving frame to sieving case.

Drawing 26: Perspective view showing demounted aluminium sieving frame which is combined with bolts.

Drawing 27: Perspective view showing mounted aluminium sieving frame combined with bolts.

Numbering Parts

1. Sieving Frame 4. Connection Part

2. Lateral Plate 5. Isolation Strut

2.1. Back Plate 6. Sieving Case

2.2. Shutter Plate 6.1 Case Lateral Surfaces

3. Sieving Block 6.2 Juts

3.1. Block Head Hanger Frame 6.3 Pits 7. Shutter 20. Corner channel

8. Shutter Profile 30 21. Corner profile

8.1. Shutter Profile Hole 21.1. Corner profile claw

8.2. Shutter Profile Wedge 21.2. Curved surface

Channel 22. Sieving frame

8.3. Shutter tightening channel 23. Frame supporting lath

8.4. Panel interior gasket channel ^ 23.1. Frame head lath

8.5. Panel interior seal 23.2. Frame outer lath

9. Panel interior profile 24. Reinforcing U profile for supporting

9.1. Shutter interior profile hole lath

9.2. Fixing jut 24.1. Supporting frame with U profile

10. Shutter outer profile 40 24.2. L profile for frame lath

10.1. Panel flexible wedge 25. Splined metal sieving frame

11. Case gasket 26. Base cage wire grid

11.1. Case gasket channel 27. Cage wire grid holder

11.2. External gasket 28. Holder bolt

11.3. External gasket channel 45 29. Splined frame

12. Shutter panel gasket 29.1. Cage wire grid channel

12.1. Panel gasket channel 29.2. Frame profile hole

13. Guide profile 30. Sieving frame

13.1. Wedge socket 31. Frame head profile

14. Guide profile wedge 50 32. Frame outer profile

15. Mounting plate 33. Frame reinforcement profile

16. Cage strut 34. Connection bolts

17. Upper drive plate 35. Pit

18. Lower drive plate 36. Connection juts

19. Double wing lateral 55 37. Connection pits

maintenance shutter 38. Sieve Detailed Explanation of The Invention

The Invention, being related to sieving machines used for sieving grain products containing cage sieving passage (1) having modular characteristic and lateral plate (2) placed between these passages (1), includes a cage sieving passage (1) having welded monoblock structure, block head hanger frame (3.1) which is adapted to the mentioned sieving block (3) by means of connection parts (4), isolation strut (5), an external gasket (11.2) which is placed in the gasket hole formed on the external surface of the mentioned isolation strut (5), and shutter panel gasket (12) and cage strut (16) on which the isolation strut (5) fixed, shutter plate (2.2) which is used to fix the shutter (7) to the mentioned sieving case (6), and back plate (2.1).

In diagram-1 ; Modular cage sieving passages (1) without lateral walls are assembled with sieving piles and with a modular lateral plate (2) two sieving passages are combined using connection parts(4). Formed by two or more sieving passages (1) having a lateral plate(2) between two sieving passages, the sieving block (3) contains at least one shutter profile (8) which has gasket channels (11.1 , 11.3, 12.1) and channels (8.2, 8.3) used for connecting the shutter (7) to cage sieving passage (1), at least one shutter profile hole (8.1) formed in the mentioned shutter profile, at least one fixing jut (9.2) placed in the wedge channel (8.2) of mentioned shutter profile (8) and shutter inner profile(9) with profile hole (9.1), panel gasket channel (12.1) where the mentioned shutter panel gasket (12) is placed, at least one case gasket (1 1) which is placed in the mentioned case gasket channel, wedge hole (13.1) formed on at least one guide profile (13) and profile wedge (14) placed in this hole (13.1).

In another application of the mentioned sieving shutter at least one shutter profile (8) having gasket channels (11.1 , 11.3, 8.4) contains at least one shutter profile hole (8.1) formed in the mentioned shutter profile (8), seal (8.5) which isolates interior of panel of the mentioned shutter profile (8) and shutter outer profile (10) with seal channel (8.4) and panel flexible wedge (10.1) which holds and tightens the shutter plate (2.2).

Sieving blocks (3) of the mentioned sieving machine contains double wing lateral maintenance shutter (19) found at the head of upper and lower drive plates (17-18) mounted to the connection plates (15).

The mentioned sieving case (6) contains juts and pits (6.2, 6.3) formed on the case lateral surfaces (6.1) and connected by inserting in each other, formed channels (20), and corner profile (21) which has curved surfaces (21.2), and corner profile claws (21.1) which are placed in the mentioned channels (20).

The durability of the sieving frame (22) and support laths(23), which are adapted on the sieving case (6) and placed on the mentioned sieving case (6), is increased by aluminium reinforcement U profiles (24) and L profiles (24.2). Placing bottom cage wire grid (26) to the channels (29.1) formed on the splined frames (29) forming the splined metal sieving frame (25) adapted on the sieving case (6) and placed on the mentioned sieving case (6), fixed by using holding bolts (28) and cage wire grid holder (27). (See Diagram 19,20)

Support profiles (33), forming the sieving frame (30) which is adapted on the sieving case (6) and placed on the mentioned sieving case (6) are combined by means of head and outer profiles (31 ,32), connection juts (36) and connection pits (37) and connection bolts (34) providing fixing and pit (35) formed on the combining surface in order to adapt mentioned support profiles (33). (See Drawing 26,27)

Unwelded sieving frames (22) produced from aluminium and metallic materials are combined by connection bolts (34). As welding will not be done aluminium and similar profiles subjected to surface treatment (anodizing) can be used. In this way highly hiygienic sieving frames (22) are obtained. On all outer corners of sieving case (6) corner channels (20) are formed and corner profiles (21) are placed by inserting their claws in these channels (20) by sliping on. (See Drawing 15,16). Corner profiles, being metallic provides durability where it is placed and also by their curved surfaces (21.2) sieving cases (6) can be slided in the passages easily without snagging isolation struts (5).

By this developed method sieving frame (22), made of wood, plastic, etc. and by U profile application on support laths, connection points were strengthened, and the durability of sieving frame (22) is increased. In this application, as wood, plastic, etc. are used, sieve can be fastened to the frame by stapler and this is an advantage for situations where glue is not wanted to be used. Because for aluminium etc. metallic frames the sieve must be sticked with glue. In another developed application, with bottom wire grid inserted in the channels of splined aluminium sieving frames, durable sieving frame having bigger dimensions could be obtained.