NL1008309C2 - Scraped surface heat exchanger. - Google Patents

Description

The invention relates to a scraping heat exchanger comprising a housing, which is formed by a product treatment cylinder, the wall of which can be heated or cooled, and in which a central unit provided with a drive is mounted, whereby the rotary axis carriers are attached with scrapers, which can cooperate with the inner surface of the product cylinder and means are provided for supplying and extracting a heating or cooling medium to resp. from the outer surface of the product cylinder and wherein the smooth inner wall product cylinder, preferably at one end, contains a product feed and, preferably at its other end, a product discharge.

Such a heat exchanger is known from EP-0271459. Although reasonable results can be achieved with this known device, it has been found after investigation and on the basis of experience that the heat exchanger of this type can be improved. The outer surface of the heat exchanger product cylinder according to EP-0271459 is entirely formed by successive grooves. Although these grooves favorably influence heat transfer, the manufacture of the product cylinder becomes considerably more expensive and complicated as a result. Furthermore, the product cylinder 20 at EP-0271459 thereby obtains a strongly irregular wall thickness, namely a wall thickness which differs strongly at the location of the "mountains" and the "valleys" of the grooves. Partly as a result of the correspondingly irregular stiffness of the cylinder wall, such an irregular wall thickness will lead to undesired stress concentrations, which may also lead to out-of-roundness of the inner surface of the product cylinder and to the unfavorable effect of the scraper members along the inner wall of the product cylinder. being influenced. Furthermore, the process taking place in the product cylinder is slower due to the irregular and locally quite large wall thickness 1008309 -2. A drawback of known heat exchangers of this type (see also NL-7809531) is that the manufacturing of the product cylinder is based on a flat stainless steel plate, which is formed into a cylindrical tube by means of rolling and in which the seam is then must be welded shut 5. Because the inner surface of the tube thus manufactured must be particularly smooth in view of the high requirements imposed on the products to be treated, the weld seam must then be carefully removed. It is also difficult to make the tube manufactured by means of rollers purely cylindrical.

The object of the invention is to provide an improved heat exchanger of the type stated in the preamble, wherein the drawbacks mentioned are obviated. The heat exchanger according to the invention is primarily characterized in that the product cylinder is formed by a seamless extruded tube. According to the invention, a particularly simple and favorable embodiment of a heat exchanger with a product cylinder mainly formed of metal, such as stainless steel, is characterized in that the inner and outer surfaces of the product cylinder are formed by two concentric cylinder surfaces and that the wall thickness of the product cylinder is constant over almost its entire length and is, for example, 1 mm to 8 mm, but preferably 3.0 mm to 7.0 mm. According to the invention, the axis of rotation is carried out to the external drive only at one end of the product cylinder.

The product cylinder according to the invention is advantageously formed from austenitic or duplex stainless steel. According to the invention, the inner surface of the product cylinder may optionally be coated with a polytetrafluoroethylene coating. As a result, an even smoother surface can be obtained for specific applications and a better processing of the product to be treated, while the cleaning of the product nuisance is also easier.

An efficient embodiment of the heat exchanger according to the invention is characterized in that an outer cylinder is arranged around the product cylinder, the annular space between the product cylinder and the outer cylinder being connected to an inlet and an outlet for the heating or cooling medium and that the cylinders are provided with a removable cover at the end remote from the external drive. According to the invention, in order to improve the heat transfer, a helical guide member for the heating or cooling medium extending over the length of the cylinders is arranged in the annular space between the product cylinder and the outer cylinder.

According to the invention, a simple embodiment of the scraping heat exchanger is characterized in that the rotation axis is provided with a number of cross arms placed at an angular distance of, for example, 90 °, a rod extending parallel to the rotation axis detachably at the outer ends of each cross arm. and wherein a number of scraper members are detachably attached to each of the rods forming a kind of cage together. The heat exchanger according to the invention is advantageously characterized in that the detachable rods are each fixed, preferably by means of a welded connection, with a bracket, which is detachably close to the lid of the product cylinder, secured with a spring or key ring, is attached to the axis of rotation. The brackets form a handle for easy mounting and dismounting of the rods with scrapers and provide for scraper positioning and axial confinement of the rods with attached scrapers. No tools are required for assembly and disassembly.

1008309 -4-

A more flexible attachment and less chance of accumulation of product residues is obtained when the heat exchanger according to the invention is characterized in that the scraper members, preferably with a flat surface part, are attached to the cylindrical cage rods in such a way that the contact between the scrapers and the cage rods are generally formed by a line contact. An improved construction is further obtained when the heat exchanger according to the invention is characterized in that the product cylinder and the outer cylinder are provided with a flange at each end and the two cylinders are each, preferably with an butt weld, welded to annular edges protruding from the flange surface. This prevents crack initiation and creates a more favorable stress concentration, thereby increasing mechanical strength. This design is also favorable for corrosion technical reasons.

A particularly simple embodiment of the heat exchanger according to the invention is characterized in that the rotary axis is mounted on one end located on the side of the external drive. According to the invention, limiting means can be arranged at the other free end of the axis of rotation, such as for instance three pins placed at an angular distance of 120 ° around the shaft end, preferably coated with polytetrafluoroethylene 20.

A stable construction of the heat exchanger according to the invention is characterized in that a first support disc, which is provided with a seal at the location of the passage of the rotation shaft, is arranged against the support flange on one bearing end of the rotary shaft. that at a distance from and rigidly connected to the first support disc a second support disc parallel thereto is arranged, all this such that an accessible space is formed between the two plan parallel support discs. According to the invention, the bearing housing for the rotary shaft is attached to the second supporting disc, 1008309 -5- preferably on the outside thereof. According to the invention, the bearing housing is thereby connected to a transmission coupled to the drive motor for the rotary shaft. According to the invention, the two plan-parallel support discs can be kept at a distance of, for example 200 - 300 mm, by a number of support columns arranged between those discs.

A particularly favorable embodiment of the heat exchanger according to the invention is characterized in that means for collecting and / or signaling leakage liquid are arranged around the axis of rotation in the space between the two plan-parallel supporting discs, such as a collar arranged with an oblique arrangement about the axis sloping outward sloping surface.

According to the invention, the product cylinder has an inner diameter of 180 to 320 mm. The scraping heat exchanger according to the invention is particularly efficient and simple and is suitable for heating or cooling (highly) viscous products.

The invention will be further elucidated with reference to the schematic drawing.

Fig 1. Shows the composition of a vertical scraping heat exchanger.

20 Fig 2. Shows the axis of rotation with the cage rods and the placement of the scrapers.

Fig 3. Shows the attachment of the product cylinder and outer cylinder to the top flange.

The vertical scraping heat exchanger shown in Fig. 1 comprises a product treatment cylinder 1 formed by a seamless extruded stainless steel tube. An outer cylinder 2 is arranged around the product cylinder 1 with an inner diameter of, for example, 205 mm and a wall thickness of 6 mm.

1008309 -6-

The product cylinder 1 and the outer cylinder 2 are butt-welded at their top and bottom ends to annular edges 5, 6 and 6 respectively protruding from the top flange 3 and the bottom flange 4. 7, 8 (see also Fig. 3).

As a result, a closed annular space 9 is formed between the product cylinder 1 and the outer cylinder 2, which is provided with an inlet 10 and an outlet 11 for a heating or cooling medium.

In the annular space 9 there is a helically running strip 12, through which the heating or cooling medium is likewise screwed through space 9. A casing 13 with insulating material is provided around the outer cylinder 2, which is bounded at the top and bottom by flanges 3 and 4. A cover 14 is mounted on top flange 3. A discharge 15 for the product treated in the product cylinder 1 is arranged in the lid 14. The bottom flange 4 is fixed on a first rigid support disc 16, which is provided with a feed 17 for the product to be treated.

At the center of the product cylinder 1 is the axis of rotation 18, which is guided only at one end, ie the lower end, of the product cylinder 1 to the external drive designed as a compact unit 19, which is mainly formed by a electric motor 20 and a bearing housing 21 with a ball or roller bearing (not shown) for the rotary shaft 18 and a transmission. The unit 19 with the rotation axis 18 mounted therein is mounted on the second support disc 22. The two plane-parallel support discs 16 and 22 are kept at a distance from each other and are rigidly connected. The upper support disc 22 is provided with a seal 23 at the location of the passage opening for the rotary shaft 18. The two plan-parallel support discs 16 and 25 22 together form a rigid and stable support for the heat exchanger.

Attached to the lower support disc 22 are three angled outwardly extending legs 24 at an angular distance of 120, which are provided at their lower ends with adjusting members 25 which rest on the working floor 26.

In the externally accessible space between the support columns 27 and the two plane-parallel support discs 16 and 22, a collar 28, for example made of plastic, formed around the axis of rotation 18, with which any leakage liquid from the treatment space 29 for the product can be signaled and discharged .

Near the free end 30 of the rotary axis 18, means 31 for limiting any undesired lateral projections of the free shaft end 10 are provided.

At the centric position of the axis of rotation 18 in the product cylinder 1, a small free space is provided between the limiter 31 and the axis of rotation 18.

The rotary axis 18 is provided on its upper free side with four diametrical cross arms 32 placed at an angle of 90 °. The cross arms 32 are provided at their ends with bores, in which a rod 33 is detachably mounted at each end of the cross arms 32. . A bracket 34 with one end is welded to each of the four cage-like rods 33. The bracket 34 extends inwardly to the periphery of the rotary axis 18 (see Fig. 2) and is secured.

Due to this construction, each of the cage rods 33 can be easily assembled or disassembled after opening the lid 14, without auxiliary tools.

In the heat exchanger shown, six staggered scraper members 35 are releasably mounted on each of the four cage rods 33 (see Fig. 2). As shown in FIG. 2, each of the cage rods 33 is provided with a relatively narrow flat side 36.

Due to the relatively narrow side 36 on which the scrapers are mounted, the contact between the scrapers 35 and the cage rods 33 is virtually a line contact.

1008300 -8-

As a result, a flexible attachment of the scrapers is achieved, which promotes the favorable and smooth operation of the scrapers, and increases the cleanability.

According to the invention, the product barrier 1 may be internally coated with a polytetrafluoroethylene coating.

Various modifications can be made within the scope of the invention and the invention is not limited to the embodiment shown. In particular, the heat exchanger according to the invention can also be arranged horizontally instead of vertically.

1008309

Claims (19)

1. Scraped surface heat exchanger comprising a housing formed by a product handling cylinder, the walls of which can be cooled or heated and in which a rotary shaft provided with a drive is mounted, with bearings with scrapers attached to the inner surface of the rotary shaft. the product cylinder can cooperate and means are provided for supplying and extracting a heating or cooling medium to resp. from the outer surface of the product cylinder and wherein the smooth inner wall product cylinder, preferably at one end, contains a product feed and, preferably at its other end, a product discharge, characterized in that the product cylinder (1) is formed by a seamless extruded tube. 2. Heat exchanger according to claim 1 with a product cylinder formed substantially, preferably of metal, such as stainless steel, characterized in that the inner and outer surfaces of the product cylinder (1) are formed by two concentric cylinder surfaces and that the wall thickness of the product cylinder is constant throughout its entire length and is, preferably, 1 mm to 8 mm. Heat exchanger according to claim 2, characterized in that the constant wall thickness of the product cylinder (1) is 3.0 mm to 7.0 mm. Heat exchanger according to claim 1, characterized in that the axis of rotation (18) is guided outwardly only at one end of the product cylinder (1) to the external drive (19). Heat exchanger according to claim 1, characterized in that the rotary axis (18) 25 is mounted on one end located on the side of the external drive (19). 1008309 -10- Heat exchanger according to claim 5, characterized in that the bearing housing (21) is combined with a transmission coupled to the drive motor (20) for the rotary axis (18). Heat exchanger according to claim 1, characterized in that an outer cylinder (2) is arranged around the product cylinder (1), the annular space (29) between the product cylinder and the outer cylinder being connected to a supply (10) and a outlet (11) for the heating or cooling medium and that the cylinders are provided with a removable cover (14) at the end remote from the external drive (19). Heat exchanger according to claim 7, characterized in that the product cylinder (1) and the outer cylinder (2) are provided at each end with a flange (3,4) and that the two cylinders are each, preferably butt welded welded to annular edges (5,6,7,8) protruding from the flange surface. Heat exchanger according to claim 1, characterized in that the product cylinder (1) has an inner diameter of 180 to 320 mm. Heat exchanger according to claim 1, characterized in that the inner surface of the product cylinder (1) is covered with a coating based on wear-resistant polytetrafluoroethylene. 20 Heat exchanger according to claim 7, characterized in that in the annular treatment space (29) between the product cylinder (1) and the outer cylinder (2) there is a helical guide member (12) extending over the length of the cylinders for the heating or cooling medium is installed. Heat exchanger according to one or more of the preceding claims, characterized in that the rotary axis (18) is provided with a number of cross arms (32) placed at an angular distance from, for example, 900, with a parallel to the outer ends of each cross arm. the axis of rotation 1008309 -11- extending rod (33) is arranged releasably and a number of scraper members (35) are releasably mounted on each of the rods forming a type of cage. 13. Heat exchanger according to claim 5, characterized in that bounding means (31) are arranged at the other free end (30) of the rotary axis (18), such as three placed at an angular distance of 1200 around the shaft end, preferably pins coated with polytetrafluoroethylene. Heat exchanger according to claim 12, characterized in that the rods 10 (33) are each fixedly connected, for example by means of a welded connection, to an associated bracket (34), which is close to the cover (14) of the product nuisance (1). ) is mounted releasably, for example with a spring or key ring, on the axis of rotation (18). Heat exchanger according to one or more of the preceding claims, characterized in that a first support disc (16) is provided against the support flange (4) at one end of the rotary shaft (18) which has a bearing. the passage of the axis of rotation is provided with a seal (23), and that at a distance from and rigidly connected to the first support disc (16) a second parallel support disc (22) is arranged, such that between the Both plan-parallel support discs (16, 22) have an accessible space. Heat exchanger according to claim 15, characterized in that the bearing housing (21) for the axis of rotation (18) is attached to the second support disc (22), preferably on the outside thereof. 25 Heat exchanger according to Claim 15, characterized in that means for collecting leakage liquid are arranged around the axis of rotation (18) in the space between the two plane-parallel support discs (16, 22), such as an axis of rotation arranged around the axis of rotation. collar (28) with an inclined radial outwardly sloping surface. Heat exchanger according to claim 12, characterized in that the scraper members (35), preferably with a flat surface part, are attached to the substantially cylindrical cage rods (33) such that the contact between the scrapers and the cage rods is essentially formed by line contact. Vertical heat exchanger according to claim 15, characterized in that three angled outwardly extending legs (24) are mounted on the second and bottom support disc (22) at an angular distance of 120 °. 1008309