• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An apparatus (1) is disclosed for processing the skin side of a tubular pelt (3) and comprising a tapering mandrel (1) for supporting the pelt (3) with its skin side turned outwards, a scraping device (5) comprising a first (7, 8) and a second (9, 10) pair of primary scraping rollers arranged on opposing sides of the mandrel (1), and a first pair of secondary scraping rollers (21, 22) arranged to engage the pelt (3) on the same, opposing sides of the mandrel (1) as the first pair of primary scraping rollers (7, 8), wherein a scraping roller (7) of the first pair of primary scraping rollers and a scraping roller (21) of the first pair of secondary scraping rollers, which are arranged to engage the skin side of a pelt on the same side of the mandrel (1), each has helical scraping edges (15, 28), and are arranged to impose force components transversal to the longitudinal direction of the mandrel (1) acting in the same direction.
    公开号:DK201370372A1
    申请号:DK201370372
    申请日:2013-07-04
    公开日:2015-01-19
    发明作者:Kurt Pedersen
    申请人:Jasopels As;
    IPC主号:
    专利说明:

    APPARATUS FOR PROCESSING OF PELTS HAVING HELICAL SCRAPING ROLLERS
    The present invention relates to an apparatus for processing the skin side of a tubular pelt by scraping the skin side by means of rotating helical scraping rollers.
    Background A fresh pelt taken from a furred animal such as a mink normally has a layer or residues of fat, tendons and / or flesh that is firmly attached to the skin side of the pelt. Before the pelt can be used for further processing, such layers or residues must be removed from the skin side. A prior art apparatus for processing such pelts to remove layers or residues of fat, tendons and / or flesh on the skin side is described in Danish patent specification DK 156 669. This apparatus comprises a single scraper roller with V-shaped scraping elements to scrape the skin on each side of a mandrel, on which a tubular pelt is arranged with the skin side facing outwards.
    The area below the front leg skin parts, i.e. The skin parts used to cover the animal's front legs are difficult to process completely and a residue of fat may be left from the processing by the primary scraping rollers which may cause damages to the pelt as the fat may affect the fur side of the pelt negatively.
    Danish patent specification DK 173 611 describes an apparatus for processing pelts on a mandrel. The apparatus comprises several scraper rollers which, while scraping the skin side of the pelt, cause the pelt to rotate about its longitudinal axis in order to obtain a complete scraping of the entire surface of the skin side.
    European patent specification EP 2 093 299 discloses an apparatus for processing pelts comprising two scraper rollers engaging the same part of the pelt but driven in opposite directions of rotation to obtain an improved scraping behind and beneath the front legs by achieving both a friction force against a thick end of a mandrel on which a pelt is arranged and a friction force against the thin end of the mandrel. WO 2012/019606 A1 discloses an apparatus for scraping the skin side of a tubular pelt, where the relative motion of the mandrel and the scraper rollers is slower when the scraper roller processes the first part of the skin side of the tubular pelt for improved scraping of the area around the front legs and the neck of the pelt. Additionally or alternatively, the means for biasing the scraper rollers against the skin side may be equipped with a damper arrangement for damping the movement of the scraper rollers towards and away from the skin side, which is also intended to improve the scraping quality in particular around the front legs. Also, two scraper rollers on the same side of the mandrel are disclosed, where both scraping rollers apply a force to the pelt in the direction towards the thicker end of the mandrel. DK 177 165 discloses an apparatus for processing the skin side of a tubular pelt which apart from primary scraping rollers comprises at least one further treatment means having a direction of treatment which deviates at least 175 ° from the relative direction of movement of the mandrel and with one or more axes of rotation that deviates from the direction of rotation of the primary scraping roller.
    It is an object of the present invention to provide an improved apparatus for processing the skin side of a tubular pelt where the cleaning of the skin side is satisfactory.
    Brief description of the invention
    The present invention relates to an apparatus for processing the skin side of a tubular pelt, the apparatus comprising an elongated tapering mandrel of a substantially rectangular cross-section for supporting the pelt with its skin side turned outwards, the mandrel having a thinner, free end from which the tubular pelt is drawn over the mandrel and a thicker end, a scraping device comprising a first pair of primary scraping rollers arranged on opposite sides of the mandrel, a second pair of primary scraping rollers arranged on other opposite sides of the mandrel, and being substantially perpendicularly oriented with respect to the first pair of primary scraping rollers, and a first pair of secondary scraping rollers arranged to engage the skin side of a pelt on the same, opposite sides of the mandrel as the first pair of primary scraping rollers, the scraping device further includes rotation means for rotating said primary scraping rollers and secondary scraping rollers during process ing a pelt so as to engage a skin side of the pelt, and moving means for conducting a relative movement between the scraping device and the mandrel in the longitudinal direction of the mandrel, being a scraping roller of the first pair of primary scraping rollers and a scraping roller of the first pair of secondary scraping rollers, arranged to engage the skin side of a pelt on the same side of the mandrel, each having a plurality of scraping edges extending substantially helically along the longitudinal direction of the scraping rollers , and said two scraping rollers are arranged to impose force components transverse to the longitudinal direction of the mandrel acting in the same direction on the skin side of a pelt during their engagement with the skin side of a pelt.
    This configuration ensures a turning or stretching of at least one side of the pelt around the mandrel during processing of the pelt by means of the apparatus, so that the part of the skin side of the pelt at or near the comers of the mandrel will be shifted to a side of the mandrel by said force components and thus be subjected to a more throughout processing. The repetition of the application of a force component in the same direction ensures that the effect is obtained satisfactorily.
    The force components parallel to the mandrel imposed by the two scraping rollers of the first pair of primary scraping rollers on the skin side of a pelt during their engagement with the skin side of a pelt are preferably both directed toward the thicker end of the mandrel so that said force components assist in maintaining the pelt stretched towards the thicker end of the mandrel.
    Likewise, the force components parallel to the mandrel imposed by each of the secondary scraping rollers on the skin side of a pelt during their engagement with the skin side of a pelt is preferably directed toward the thicker end of the mandrel so that said force components assist in maintaining the pelt stretched towards the thicker end of the mandrel.
    It is preferred in one embodiment of the present invention that the other scraping roller of the first pair of primary scraping rollers and the other scraping roller of the first pair of secondary scraping rollers, which are arranged to engage the skin side of a pelt on the same side of the mandrel, each having a plurality of scraping edges extending substantially helically along the longitudinal direction of the scraping rollers, said two scraping rollers are arranged to impose force components transversal to the longitudinal direction of the mandrel acting in the same direction on the skin side of a pelt during their engagement with the skin side of a pelt.
    In one embodiment of the present invention, the two scraping rollers of the first pair of primary scraping rollers are provided with a plurality of scraping edges extending substantially helically along the longitudinal direction of the scraping rollers and are arranged to impose force components transversal to the longitudinal direction of the mandrel acting in the same direction on the skin side of a pelt during their engagement with the skin side of a pelt. With this configuration, the tendency of the first mentioned scraping rollers of the first pair of primary scraping rollers to rotate the pelt on the mandrel is countered by the action of the last mentioned scraping rollers of the first pair of primary scraping rollers.
    According to an alternative embodiment of the present invention, the two scraping rollers of the first pair of primary scraping rollers are provided with a plurality of scraping edges extending substantially helically along the longitudinal direction of the scraping rollers and arranged to impose force components transversal to the longitudinal direction of the mandrel acting in opposite directions on the skin side of a pelt during their engagement with the skin side of a pelt. With this configuration, the first pair of primary scraping rollers will in operation of the apparatus together impose a rotational force (i.e. a torque) on the pelt around the longitudinal axis of the mandrel. The torque imposed by the first pair of primary scraping rollers will turn the pelt a fraction as the sides of the skin side of the pelt are scraped by the first pair of primary scraping rollers so that the part of the skin side of the pelt near the four comers of the mandrel will be angularly displaced to the sides of the mandrel, where two opposing comer parts will be scraped by the first pair of primary scraping rollers and the other two comers parts of the skin side of the pelt will be scraped by the second pair of the primary scraping rollers and thus the whole skin side of the pelt is satisfactorily processed by the scraping rollers.
    Furthermore, the two scraping rollers of the second pair of primary scraping rollers may be arranged to impose force components transversal to the mandrel acting in opposite directions on the skin side of a pelt during their engagement with the skin side of a pelt, so that the second pair of primary scraping rollers will tend to rotate the pelt in the opposite direction around a longitudinal direction of the mandrel than the first pair of primary scraping rollers whereby twisting of the pelt is reduced or avoided. The magnitudes of said force components of the second pair of primary scraping rollers transversal to the mandrel are substantially equal.
    The force components parallel to the mandrel imposed by the two scraping rollers of the second pair of primary scraping rollers on the skin side of a pelt during their engagement with the skin side of a pelt are both preferably directed toward the thicker end of the mandrel.
    The first pair of primary scraping rollers and the second pair of primary scraping rollers are arranged in a preferred embodiment adjacent to each other in a longitudinal direction of the mandrel.
    It is furthermore preferred that the second pair of primary scraping rollers be provided with essentially V-shaped or U-shaped scraping edges.
    The apparatus may further comprise a tail scraping roller provided with a plurality of scraping edges of a substantially symmetrical configuration, so that said tail scraping roller will impose a substantially zero resulting force component on the skin side of a pelt in a longitudinal direction of the tail scraping roller during its engagement with the skin side of a pelt, the tail scraping roller being arranged to scrape a skin part of the tail of the pelt, the apparatus further comprising rotation means for rotating said tail scraping roller during processing of a pelt. Hereby, the skin side of the tail will be properly processed because it will be fully scraped by a scraping roller of a symmetrical configuration as opposed to a scraping roller having helical scraping edges, which may just turn the tail part of the pelt to the side to be directed transversely to the mandrel without being properly scraped. Said tail scraping roller of a substantially symmetrical configuration preferably has a configuration of the scraping edges selected from the group consisting of V-shaped, U-shaped and straight scraping edges.
    Said tail scraping roller preferably constitutes one of the second pair of primary scraping rollers.
    Said moving means consists in a preferred embodiment of the present invention of mandrel drive means for driving the mandrel in a longitudinal direction thereof during processing of a pelt.
    Brief description of the figures
    An embodiment of the present invention is shown in the accompanying drawing of which
    FIG. 1 is a schematic perspective view of a first embodiment of an apparatus according to the present invention,
    FIG. 2 is a perspective view of a second embodiment of an apparatus according to the present invention, and
    FIG. 3 is a side view of a mandrel and helical scraping rollers for illustration of the forces imposed on a pelt on the mandrel by the helical scraping rollers.
    Detailed description of an embodiment of the invention The furred animal, in this example a mink, has been skinned and the fresh pelt 3 has been turned inside out and drawn onto the mandrel 1 with the fur side towards the surface of the mandrel 1 and the skin side, also known as the flesh side, outwards and ready to be processed by the scraping device 5. This processing is intended to remove flesh residues, fat, tendons and other material from the skin side of the fur. The pelt 3 comprises the skin part of e.g. the tail 6 and the skin parts 32 of the pelt 3 that covered the front legs of the animal. The pelt 3 is arranged in the drawing with the tail 6 and consequently the back side of the pelt 3 on top of the mandrel 1, the front leg skin parts 32 on the side of the mandrel 1 and the belly side of the pelt 3 on The lower side of the mandrel 1. A scraping apparatus for scraping the skin side of tubular fur according to the present invention, in particular mink fur is shown in FIG. 1, comprising a tapered, horizontal mandrel 1 having a thinner front end 2 from which the pelt 3 is drawn onto the mandrel 1 and a thicker end 4 which is connected to mandrel moving means (not shown) for moving the mandrel 1 in a longitudinal direction thereof towards the scraping device 5 during the processing of a pelt 3 and back to the starting position of the mandrel 1 in a return stroke. The mandrel 1 is of a square cross-sectional shape and the scraping device 5 is designed for processing each of the four sides of the pelt 3 drawn onto the mandrel 1.
    The scraping device 5 is arranged stationary on a frame (not shown) of the apparatus and comprises four primary scraping rollers 7, 8, 9, 10 arranged in two pairs, a first pair 7, 8 arranged on the opposite vertical side of the mandrel 1 for scraping the vertical sides of the skin side of the pelt 3 arranged on the mandrel 1 and a second pair 9, 10 for scraping the horizontal sides of the skin side of the pelt 3. Each primary scraping roller 7, 8, 9, 10 is driven by an individual motor 11, 12, 13, 14. The primary scraping rollers 7, 8, 9, 10 are provided with helical scraping edges 15, 16, 17, 18 arranged so that all four primary scraping rollers 7 , 8, 9, 10 impose a force on the pelt 3 in the direction towards the thicker end 4 of the mandrel 1 whereby the pelt 3 is stretched on the mandrel 1 and remains stretched during the processing of the pelt 3. The first pair 7 , 8 of the primary scraping rollers are formed and driven as shown in FIG. 1 so that one scraping roller 7 furthermore imposes an upwardly force component to the skin side of the pelt 3 and the other scraping roller 8 imposes a downwardly force component to the skin side of the pelt 3 so that the first pair 7, 8 of primary Scraping rollers together imposes a rotational force (ie a torque) on the pelt 3 in a clockwise direction as indicated by an arrow on Fig. 1. The second pair of primary scraping rollers 9, 10 has scraping edges 17, 18 formed oppositely, so that the second pair of scraping rollers 9, 10 impose forces transverse to the longitudinal direction of the mandrel 1 to provide a torque on the pelt that is opposite to the torque imposed by the first pair 7, 8 of the primary scraping rollers, ie in the counter clockwise direction as indicated by the corresponding arrow in FIG. 1. The torque imposed by the first pair 7, 8 of primary scraping rollers will turn the pelt 3 a fraction clockwise as the left and right sides of the skin side of the pelt 3 are scraped so that the part of the skin side of the pelt 3 near the four comers of the mandrel 1 will be angularly displaced to the sides of the mandrel, where said comer parts of the skin side of the pelt 3 at the two sides of the mandrel 1 will be scraped by the first pair 7, 8 or primary scraping rollers. The comers parts of the skin side of the pelt 3 displaced to the upper and lower sides of the mandrel 1 will in turn be scraped by the second pair 9, 10 of the primary scraping rollers, so that the whole skin side of the pelt is satisfactory processed by the primary scraping rollers 7, 8, 9, 10. The torques are of substantially the same magnitude, so that the pelt 3 after being processed by means of both pairs of primary scraping rollers 7, 8, 9, 10 will be displaced angularly to substantially the original position of the pelt 3 without a twist to the pelt.
    The apparatus is further equipped with secondary scraping rollers 21, 22, 23, 24 displaced in the longitudinal direction of the mandrel 1 with respect to the primary scraping rollers 7, 8, 9, 10 to improve the scraping of the skin side of the pelt 3 further. The secondary scraping rollers comprise a first pair of scraping rollers 21, 22 which are arranged on opposite sides of the mandrel 1 corresponding to the first pair of primary scraping rollers 7, 8 and a second pair of secondary scraping rollers 23, 24 which are arranged on the other opposite sides of the mandrel 1 corresponding to the second pair of primary scraping rollers 9, 10. Each secondary scraping roller 21, 22, 23, 24 is driven by an individual motor 25, 26, 27. The secondary scraping rollers 21 , 22, 23, 24 are provided in the shown embodiment with helical scraping edges 28, 29, 30, 31 which are arranged similar to the primary scraping rollers 7, 8, 9, 10 so that all of them impose a force on the pelt 3 in the direction towards the thicker end 4 of the mandrel 1. The first pair 21, 22 of the secondary scraping rollers are formed and driven as shown in FIG. 1 so that one scraping roller 21 furthermore imposes an upwardly force component to the skin side of the pelt 3 and the other scraping roller 22 imposes a downwardly force component to the skin side of the pelt 3, the first pair 21, 22 thus imposing a torque on the pelt 3 in a clockwise direction as indicated by an arrow on FIG. 1 and the second pair 23, 24 of secondary scraping rollers has scraping edges 30, 31 formed oppositely, so that the scraping rollers 23, 24 impose a torque on the pelt which is in the opposite direction of the torque imposed by the first pair 21 , 22 of the secondary scraping rollers, ie in the counter clockwise direction as indicated by the corresponding arrow in FIG. 1. The impact of the secondary scraping rollers 21, 22, 23, 24 on the pelt 3 will be similar to the impact of the primary scraping rollers 7, 8, 9, 10 as described previously.
    In an alternative embodiment as shown in FIG. 2, one or both of the second pair 23, 24 of secondary scraping rollers are instead provided with scraping edges 30 'of a V-shaped configuration which will provide for a satisfactory scraping of the skin side of the pelt 3 without imposing a torque on the pelt 3. Such scraping rollers 23, 24 provided with scraping edges 30 'of a V-shaped configuration which will stretch the pelt 3 on the mandrel 1 away from the comers of the mandrel 1 and towards the center of the plane sides of the mandrel 1 and ensure that the part of the pelt 3 near and at the comers of the mandrel 1 will be processed by both sets of primary scraping rollers 7, 8, 9, 10 and thus be sufficiently cleaned for the subsequent processing of the pelt 3 , starting with the drying of the pelt 3. In particular, the provision of a scraping roller with scraping edges of a V-shaped configuration at the side of the mandrel 1 where the tail part 6 of the pelt 3 will be arranged ensures that this part of the pelt 3 is sufficiently clean as the scraping roller imposes a substantially zero resulting force on the pelt 3 in the direction transverse to the longitudinal direction of the mandrel 1 and the tail part 6 will thus be sufficiently cleaned by such scraping roller, whereas a scraping roller having helical scraping edges may force the tail part 6 to be oriented substantially transverse to the longitudinal direction of the mandrel 1 and therefore be insufficiently scraped. That may in turn leave excessive fat or meat residues on the tail part 6 that during drying of the pelt 3 can cause a reduction in the quality of the pelt 3. Similar results could be achieved by a roller having scraping edges of a U-shaped configuration or a straight configuration, ie extending substantially parallel to the center axis of the scraping roller. In another alternative embodiment, one or both of the second pair 9, 10 of the primary scraping rollers are additionally or alternatively provided with scraping edges of a V-shaped, U-shaped or straight configuration.
    In FIG. 3, the mandrel 1 together with one 7 of the first pair of primary scraping rollers and one 21 of the first pair of secondary scraping rollers are shown as seen from the right side. The scraping edges 15, 28 of the scraping rollers 7, 21 impose forces F7, F21 on the skin side of the pelt 3 having respective angles a and β to the longitudinal direction of the mandrel 1 so that the force F7 is imposed by one scraping roller 7 has a component towards the thicker end 4 of the mandrel 1 and an upward component, whereas the other scraping roller 21 imposes a force F21 with a component towards the thicker end of the mandrel 1 as well as an upward component. The angles a and β may be different and the magnitude of the forces F7, F21 may also be odd, but in a preferred embodiment of the present invention, the angles a and β as well as the magnitude of the forces F7, F21 of imposed by the two scraping rollers 7, 21 on the skin side of the pelt are substantially identical. During operation, the mandrel 1 is moved in the direction indicated by the arrow MD in the longitudinal direction of the mandrel 1 towards its thinner end 2.
    List of reference numerals 1 Mandrel 2 Thinner front end of mandrel 3 Pelt 4 Thicker end of mandrel 5 Scraping device 6 Skin part of tail 7, 8 Scraping rollers of first pair of primary scraping rollers 9, 10 Scraping rollers of second pair of primary Scraping rollers 11, 12, 13, 14 Motors for driving the primary scraping rollers 14 'Motor for driving the tail scraping roller 15, 16, 17, 18 Helical scraping edges of the primary scraping rollers 21, 22 Scraping rollers of the first pair of secondary scraping rollers 23, 24 Scraping rollers of the second pair of secondary scraping rollers 25, 26, 27 Motors for driving the secondary scraping rollers 28, 29, 30, 31 Helical scraping edges of the secondary scraping rollers 30 'V-shaped scraping edges of a secondary scraping roller 32 Skin parts of the pelt that covered the front legs of the animal F7 Force replaced by one primary scraping roller on the pelt F21 Force applied by one secondary scraping roller on the pelt MD Direction of movement of the mandrel an Angle between force imposed by a primary scraping roller on the pelt and the longitudinal direction of the mandrel β Angle between force imposed by a secondary scraping roller on the pelt and the longitudinal direction of the mandrel
    权利要求:
    Claims (13)
    [1] 1. An apparatus for processing the skin side of a tubular pelt (3), the apparatus comprising an elongated tapering mandrel (1) of a substantially rectangular cross-section for supporting the pelt (3) with its skin side turned outwards, the mandrel (1) having a thinner, free end (2) from which the tubular pelt (3) is drawn over the mandrel (1) and a thicker end (4), a scraping device (5) comprising a first pair of primary scraping rollers (7, 8) arranged on opposing sides of the mandrel (1), a second pair of primary scraping rollers (9, 10) arranged on other opposing sides of the mandrel (1) and being substantially perpendicularly oriented with respect to the first pair of primary scraping rollers (7, 8), and a first pair of secondary scraping rollers (21, 22) arranged to engage the skin side of a pelt (3) on the same, opposing sides of the mandrel (1) as the first pair of primary scraping rollers (7, 8), the scraping device (5) further comprising rotation means (11, 12, 13, 14, 25, 26, 27) for rotating said primary scraping rollers (7, 8, 9, 10) and secondary scraping rollers (21, 22) during processing of a pelt (3) so as to engage a skin side of the pelt (3), and moving means for conducting a relative movement between the scraping device (5) and the mandrel (1) in the longitudinal direction of the mandrel (1), wherein a scraping roller (7) of the first pair of primary scraping rollers and a scraping roller (21) of the first pair of secondary scraping rollers, which are arranged to engage the skin side of a pelt on the same side of the mandrel (1), each has a plurality of scraping edges (15, 28) extending substantially helically along the longitudinal direction of the scraping rollers (7, 21), and wherein said two scraping rollers (7, 21) are arranged to impose force components transversal to the longitudinal direction of the mandrel (1) acting in the same direction on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3).
    [2] 2. An apparatus according to claim 1, wherein the force components parallel to the mandrel (1) imposed by each of the primary scraping rollers (7, 8, 9, 10) on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3) is directed towards the thicker end (4) of the mandrel (1).
    [3] 3. An apparatus according to claim 2, wherein the force components parallel to the mandrel (1) imposed by the each of the secondary scraping rollers (21, 22, 23, 24) on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3) is directed towards the thicker end (4) of the mandrel (1).
    [4] 4. An apparatus according to any of claims 1 to 3, wherein the other scraping roller (8) of the first pair of primary scraping rollers and the other scraping roller (22) of the first pair of secondary scraping rollers, which are arranged to engage the skin side of a pelt on the same side of the mandrel (1), each has a plurality of scraping edges (16, 29) extending substantially helically along the longitudinal direction of the scraping rollers (8, 22), and wherein said two scraping rollers (18, 22) are arranged to impose force components transversal to the longitudinal direction of the mandrel (1) acting in the same direction on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3).
    [5] 5. An apparatus according to any of claims 1 to 4, wherein the two scraping rollers of the first pair (7, 8) of primary scraping rollers are provided with a plurality of scraping edges (15, 16) extending substantially helically along the longitudinal direction of the scraping rollers and are arranged to impose force components transversal to the longitudinal direction of the mandrel (1) acting in the same direction on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3).
    [6] 6. An apparatus according to any of claims 1 to 4, wherein the two scraping rollers of the first pair (7, 8) of primary scraping rollers are provided with a plurality of scraping edges (15, 16) extending substantially helically along the longitudinal direction of the scraping rollers (7, 8) and are arranged to impose force components transversal to the longitudinal direction of the mandrel (1) acting in opposing directions on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3).
    [7] 7. An apparatus according to claim 6, wherein said two scraping rollers (9, 10) of the second pair of primary scraping rollers are arranged to impose force components transversal to the mandrel (1) acting in opposite directions on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3), so that the second pair (9, 10) of primary scraping rollers will tend to rotate the pelt (3) in the opposite direction around a longitudinal direction of the mandrel (1) than the first pair (7, 8) of primary scraping rollers.
    [8] 8. An apparatus according to claim 7, wherein the magnitudes of said force components of the scraping rollers (9, 10) of the second pair of primary scraping rollers transversal to the mandrel (1) are substantially equal.
    [9] 9. An apparatus according to claim 7 or 8, wherein the force components parallel to the mandrel (1) imposed by the two scraping rollers (9, 10) of the second pair of primary scraping rollers on the skin side of a pelt (3) during their engagement with the skin side of a pelt (3) both are directed towards the thicker end (4) of the mandrel (Ο- ΙΟ. An apparatus according to any of claims 4 to 9, wherein the first pair of primary scraping rollers (7, 8) and the second pair of primary scraping rollers (9, 10) are arranged adjacent to each other in a longitudinal direction of the mandrel (1).
    [10] 11. An apparatus according to any of claims 1 to 3, wherein the second pair of primary scraping rollers (9, 10) are provided with essentially V-shaped or U-shaped scraping edges.
    [11] 12. An apparatus according to any of the preceding claims, further comprising a tail scraping roller (24) provided with a plurality of scraping edges (30’) of a substantially symmetrical configuration, so that said tail scraping roller (24) will impose a substantially zero resulting force component on the skin side of a pelt (3) in a longitudinal direction of the tail scraping roller (24) during its engagement with the skin side of a pelt (3), the tail scraping roller (24) being arranged to scrape a skin part of the tail (16) of the pelt (3), the apparatus further comprising rotation means (27) for rotating said tail scraping roller during processing of a pelt (3).
    [12] 13. An apparatus according to claim 12, wherein said tail scraping roller (24) has a configuration of the scraping edges (30’) selected from the group consisting of V-shaped, U-shaped and straight scraping edges.
    [13] 14. An apparatus according to claim 12 or 13, wherein said tail scraping roller (24) constitutes one of the second pair of primary scraping rollers (23, 24).
    类似技术:
    公开号 | 公开日 | 专利标题
    DK201300005U3|2013-02-08|Apparatus for the treatment of fur animals
    DK177975B1|2015-02-09|Apparatus for processing of pelts having helical scraping rollers
    DK178178B1|2015-07-20|Apparatus for the treatment of fur
    DK177954B1|2015-02-02|Apparatus for processing of pelts having helical scraping rollers
    DK177520B1|2013-08-26|Apparatus for processing pelts having front leg scraping rollers
    EP2386236A3|2014-11-19|Apparatus for cleaning at least approximately planar surfaces
    NL8603001A|1987-09-16|METHOD AND APPARATUS FOR REMOVING FAT AND MEAT FROM THE MEAT SIDE OF A FUR.
    DK2599881T3|2014-12-01|Apparatus for scraping a fur animal skin with two scraping roller units
    DK156669B3|1990-02-12|Procedure and apparatus for removal or fat and meat from the flesh side of the skin or pelt of a fur-bearing animal and rollers for use in such an apparatus
    EP2622963A1|2013-08-07|Assembly for scratching both sides of the skin of a slaughtered animal in mounted position, support body of such an assembly for mounting the carcass, a processing machine that uses the skin scratching assembly and skin scratching method
    DK177365B1|2013-02-18|Apparatus and method for processing fur animals
    DK177165B1|2012-04-02|Apparatus for the treatment of fur animals
    DK177512B1|2013-08-19|An apparatus and a method for processing the skin side of a fur
    DK177201B1|2012-06-04|A scraping roller
    EP2853603A1|2015-04-01|Apparatus for processing the flesh side of pelts
    US4280345A|1981-07-28|Apparatus for cleansing cattle hides
    RU2546231C2|2015-04-10|Device for residual fat removal and method for residual fat removal from poultry fillet
    EP3091091B1|2022-02-02|An apparatus with a pentagonal mandrel for processing pelts
    DK177383B1|2013-03-04|Apparatus for the treatment of fur animals
    SU35322A1|1934-03-31|Machine for distributing, straightening and the like processing of skins
    CN205567635U|2016-09-14|Automatic machine moults
    US873311A|1907-12-10|Entrail-cleaning mechanism.
    DE2753614A1|1979-06-07|Continuous automatic cleaning of animal hides - comprising simultaneous washing and softening followed by combing and spraying to remove dung and moisture scraper
    RU2100443C1|1997-12-27|Leather semiproduct production line
    DE326042C|1920-09-22|Machine for dehairing, stretching, removing flesh and glazing hides and skins
    同族专利:
    公开号 | 公开日
    DK177954B1|2015-02-02|
    DK201300137U4|2014-06-27|
    DK201300137U3|2014-01-17|
    WO2015000791A1|2015-01-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DK173611B1|1998-06-15|2001-04-30|Gjoel Pelsningsredskaber As|Process and apparatus for removing flesh and fat residues from the flesh side of pelts from fur-bearing animals|
    WO2012019606A1|2010-08-13|2012-02-16|4M Globe Management Ltd.|Apparatus for processing fur|
    DK177165B1|2010-08-26|2012-04-02|Pamutec Patents Aps|Apparatus for the treatment of fur animals|
    DK78286D0|1986-02-20|1986-02-20|Bent Juul Larsen|APPARATUS FOR REMOVAL OF FAT LAGES FROM THE COAT SIDE OF FUR SKIN|
    WO2011116771A1|2010-03-24|2011-09-29|4M Globe Management Ltd|Apparatus for processing fur|EP3091091B1|2015-05-07|2022-02-02|Hedensted Gruppen A/S|An apparatus with a pentagonal mandrel for processing pelts|
    CN108866253A|2018-07-16|2018-11-23|嘉善圣莱斯绒业有限公司|A kind of reason hair device for fur manufacturing|
    法律状态:
    2019-02-21| PBP| Patent lapsed|Effective date: 20180704 |
    优先权:
    申请号 | 申请日 | 专利标题
    DK201370372A|DK177954B1|2013-07-04|2013-07-04|Apparatus for processing of pelts having helical scraping rollers|
    DK201370372|2013-07-04|DK201370372A| DK177954B1|2013-07-04|2013-07-04|Apparatus for processing of pelts having helical scraping rollers|
    DKBA201300137U| DK201300137U4|2013-07-04|2013-09-12|Device with helical scraper rolls for treating animal skins|
    PCT/EP2014/063548| WO2015000791A1|2013-07-04|2014-06-26|Apparatus for processing of pelts having helical scraping rollers|
    [返回顶部]