Mincing machine

Abstract

The invention relates to a mincing machine with cutting elements and a screw conveyor (10) which is rotatably mounted in a housing and is connected to a blade pin (20). The blade pin (20) is advantageously connectable and can be easily disconnected again.

Claims

1. A meat grinder with a driveable screw conveyor (10), with a blade journal (20) mounted in a rotationally fixed manner on the screw conveyor (10) and with at least one cutting set, the meat grinder having a meat grinder housing, wherein a cutting set comprises at least one perforated disc which is supported in a stationary manner on the meat grinder housing and a blade which is mounted in a rotationally fixed manner on a supporting portion (23) of the blade journal (20), the blade journal having an insertion end, the insertion end having a cross-section, wherein the blade journal (20) is releasably held at one end on the screw conveyor (10), characterized in that the blade journal (20) is inserted in a bearing bore (11) of the screw conveyor (10), the bearing bore having a cross-section, wherein the cross-section of the bearing bore (11) is adapted to the cross-section of the insertion end (21) of the blade journal (20), that the insertion end (21) of the blade journal (20) protrudes from the supporting portion (23) of the blade journal (20) in a radial direction and that in a transition area (26) between the insertion end inserting end (21) and supporting portion (23) circumferential side a stop surface (22) is present, that by means of a fastening ring (30), which is pushed on the one hand over the supporting portion (23) of the blade journal (20) to the stop surface (22) and on the other hand can be connected to the screw conveyor (10), a detachable connection of the blade journal (20) with the screw conveyor (10) is achieved, wherein the fastening ring (30) and the screw conveyor (10) have matching fasteners.

2. The meat grinder according to claim 1, characterized in that a releasable connection is provided between the fastening ring (30) and the screw conveyor (10) by means of a form-fitting connection or force-fitting connection or form-fitting and force-fitting connection.

3. The meat grinder according to claim 2, characterized in that a screw connection or a tongue-and-groove connection or a hooking or a bayonet connection, is present between the fastening ring (30) and the screw conveyor (10).

4. (canceled)

5. The meat grinder according to claim 1, characterized in that the diameter of an opening (31) in the fastening ring (30) is adapted to the diameter of the transition region (26) of the blade journal (20), namely between the insertion end (21) and the supporting portion (23), and this diameter of the opening (31) in the fastening ring (30) is smaller than the diameter of the insertion end 21 of the blade journal (20).

6. The meat grinder according to claim 1, characterized in that first and second sealing rings (40, 41) are present in the connection region between the fastening ring (30) and the screw conveyor (10).

7. The meat grinder according to claim 6, characterized in that the first sealing ring (41), which is downstream in the conveying direction, is arranged at one end of the screw connection and the second sealing ring (40), which is upstream in the conveying direction, is arranged at the other end of the screw connection.

8. The meat grinder according to claim 6, characterized in that the first sealing ring (41) bears against a stop surface (12) which limits the cylindrical bush to the front with the internal thread (11).

9. The meat grinder according to claim 1, characterized in that the fastening ring (30) has handling means.

10. The meat grinder according to claim 1, characterized in that the supporting section (23) of the blade journal (20) has a comparable cross-sectional shape to the connecting section at the insertion end (21) of the blade journal (20).

11. The meat grinder according to claim 1, characterized in that the supporting portion (23) of the blade journal (20) has a different cross-sectional shape than the connecting portion at the insertion end (21) of the blade journal (20).

12. The meat grinder according to claim 1, characterized in that the insertion end (21) of the blade journal (20) projects beyond the supporting portion (23) of the blade journal (20) in the radial direction completely circumferentially or in portions circumferentially and in that one or more stop surfaces (22) are present in the transition region (26) between the insertion end (21) and the supporting portion (23).

13. The meat grinder according to claim 2, characterized in that a screw connection is present between the fastening ring (30) and the screw conveyor (10).

14. The meat grinder according to claim 13, characterized in that the fastening ring (30) has an external thread (32) on its circumferential surface (26) and the screw conveyor (10) has a matching internal thread (13) for the screw connection, wherein a cylindrical bushing with a corresponding internal thread (13) is present at the outlet-side end in front of the bearing bore (11).

15. The meat grinder according to claim 9 wherein the handling means is in the form of grooves (33) or notches.

16. The meat grinder according to claim 10 wherein the cross-sectional shape is in the form of a two-flat.

17. An assembly method for use with a meat grinder with a driveable screw conveyor (10), with a blade journal (20) mountable in a rotationally fixed manner on the screw conveyor (10) and with at least one cutting set, the meat grinder having a meat grinder housing, wherein a cutting set comprises at least one perforated disc which is supportable in a stationary manner on the meat grinder housing and at least one blade which is mountable in a rotationally fixed manner on a supporting portion (23) of the blade journal (20), the blade journal having an insertion end, the insertion end having a cross-section, wherein the blade journal (20) is releasably holdable at one end on the screw conveyor (10), characterized in that the blade journal (20) is insertable into a bearing bore (11) of the screw conveyor (10), the bearing bore having a cross-section, wherein the cross-section of the bearing bore (11) is adapted to the cross-section of the insertion end (21) of the blade journal (20), characterized in that the insertion end (21) of the blade journal (20) may protrude from the supporting portion (23) of the blade journal (20) in a radial direction and that in a transition area (26) between the insertion end inserting end (21) and supporting portion (23) circumferential side a stop surface (22) is present, that by means of a fastening ring (30), which is pushable on the one hand over the supporting portion (23) of the blade journal (20) to the stop surface (22), and on the other hand can be connected to the screw conveyor (10), wherein the fastening ring (30) and the screw conveyor (10) have matching fasteners, the method comprising the steps of: inserting the insertion end of the blade journal into the bearing bore of the screw conveyor; sliding a fastening ring over the supporting portion of the blade journal; fastening the fastening ring to the screw conveyor by means of the matching fasteners thereof, whereby a detachable connection of the blade journal (20) with the screw conveyor (10) is achieved; sliding the at least one perforated disc and the at least one blade onto the supporting portion of the blade journal, whereby the at least one blade is mounted in a rotationally fixed manner on the supporting portion of the blade journal; placing the blade journal and the screw conveyor and the fastening ring and the at least one perforated disc and the at least one blade into the meat grinder housing; supporting the at least one perforated disc in a stationary manner on the meat grinder housing; and grinding meat by rotating the screw conveyor and the blade journal and the at least one blade.

18. A disassembly method for use with a meat grinder with a driveable screw conveyor (10), with a blade journal (20) mounted in a rotationally fixed manner on the screw conveyor (10) and with at least one cutting set, the meat grinder having a meat grinder housing, wherein a cutting set comprises at least one perforated disc which is supported in a stationary manner on the meat grinder housing and at least one blade which is mounted in a rotationally fixed manner on a supporting portion (23) of the blade journal (20), the blade journal having an insertion end, the insertion end having a cross-section, wherein the blade journal (20) is releasably held at one end on the screw conveyor (10), characterized in that the blade journal (20) is inserted into a bearing bore (11) of the screw conveyor (10), the bearing bore having a cross-section, wherein the cross-section of the bearing bore (11) is adapted to the cross-section of the insertion end (21) of the blade journal (20), characterized in that the insertion end (21) of the blade journal (20) protruded from the supporting portion (23) of the blade journal (20) in a radial direction and that in a transition area (26) between the insertion end inserting end (21) and supporting portion (23) circumferential side a stop surface (22) is present, that by means of a fastening ring (30), which is pushed on the one hand over the supporting portion (23) of the blade journal (20) to the stop surface (22), and on the other hand is connected to the screw conveyor (10), wherein the fastening ring (30) and the screw conveyor (10) have matching fasteners, the method comprising the steps of: removing the blade journal and the screw conveyor and the fastening ring and the at least one perforated disc and the at least one blade from the meat grinder housing; sliding the at least one perforated disc and the at least one blade off of the supporting portion of the blade journal; unfastening the fastening ring from the screw conveyor; extracting the insertion end of the blade journal from the bearing bore of the screw conveyor; sliding the fastening ring off of the supporting portion of the blade journal; whereby the blade journal (20) and the screw conveyor (10) are detached from each other.

Description

[0017] The invention is explained in more detail below on the basis of an exemplary embodiment with reference to the drawing.

[0018] For better clarity,

[0019] FIG. 1 shows only the parts of the meat grinder to which the new invention relates. Shown in a perspective view are the screw conveyor 10, the blade journal 20 and the fastening ring 30 used for connecting the blade journal 20 to the screw conveyor 10. In addition, two sealing rings 40, 41 are provided in this exemplary embodiment. FIG. 1 shows the conveying direction FR of the material to be ground in the meat grinder.

[0020] As seen in the conveying direction FR, the blade journal 20 has a front insertion end 21, a transition region 26 and a carrying portion 23 on which blades can be arranged in a rotationally fixed manner. The screw conveyor 10 has a bearing bore 11 for the insertion end 21 of the blade journal 20. The cross section of this bearing bore 11 is adapted to the cross section of the insertion end 21 serving as a connecting section. In this example, it is a two-flat form with two straight side surfaces, which are arranged parallel to one another both at the insertion end 21 of the blade journal 20 and in the bearing bore 11 of the screw conveyor 10. These straight side surfaces of the insertion end 21 serve for torque transmission and are each connected to one another via an outwardly curved side surface. In this example, the support section 23 also has the shape of a two-dimensional section. The coordinated cross-sections of the inserting end 21 and the bearing bushing 11 as well as the support section 23 and the recess in the blade ensure that when the screw conveyor 10 rotates, the blade journal 20 and also the blade is rotated. The blade is not shown here. In such a rotation, the blade journal 20 is held axially in position by means of the fastening ring 30.

[0021] Prior to the assembly of the blade journal 20, the fastening ring 30 is placed on the blade journal by the downstream end of the blade journal 20, with “downstream” defined according to the conveying direction FR. The fastening ring 30 is pushed along the supporting portion 23 of the blade journal 20, against the conveying direction FR, to the transition region 26, where it comes to rest with its front side against a stop surface 22, since the opening 31 of the fastening ring 30 is smaller than the cross-section of the insertion end 21 of the blade journal 20. The transition region 26 between the insertion end 21 and the supporting portion 23 of the blade journal 20 has a round cross-section. The diameter of the transition region 26 is adapted to the diameter of the opening 31 of the fastening ring 30, so that the fastening ring 30 can rotate about rotation of blade journal 20.

[0022] For assembly, the blade journal 20 is inserted with its insertion end 21 into the bearing bore 11 and the fastening ring 30 bearing on the transition region 26 is connected to the screw conveyor 10. For this purpose, the screw conveyor 10 has, in front of the bearing bore 11, a cylindrical bushing with an internal thread 13. This internal thread 13 cooperates with an external thread 32 on the circumferential surface of the fastening ring 30. The screw connection between the fastening ring 30 and the screw conveyor 10 simultaneously establishes a connection between the blade journal 20 and the screw conveyor 10. When the blade journal 20 is mounted, the latter carries the blades of the meat grinder in the supporting section 23 and ensures a rotationally fixed connection to these blades that, when the screw conveyor 10 is rotated, the latter move with it.

[0023] In this embodiment, the interior of the screw conveyor can be sealed by sealing rings 40, 41. The interior of the screw conveyor 10 is sealed with respect to the grinding chamber of the meat grinder and thus against penetration of ground material. The sealing ring 40 is preferably received in an annular groove in the interior of the fastening ring 30.

[0024] After the insertion of the blade journal 20 and screwing the fastening ring 30 into the cylindrical bushing of the screw conveyor 10, the blade journal 20 is held axially fixedly on the screw conveyor 10 and is connected to the latter in a rotationally fixed manner. A loosening of this screw connection is possible without damaging the blade journal 20, since no torque is exerted on the blade journal 20 when the fastening ring 30 is released. For the provision of the screw connection, but in particular also for releasing the screw connection, grooves 33 are additionally formed into the a face of the fastening ring 30 that faces downstream relative to the conveying direction FR. A corresponding auxiliary tool can engage in these grooves 33 in order to apply a rotation for releasing the screw connection.

[0025] In this exemplary embodiment, the releasable connection between the fastening ring 30 and the screw conveyor 10 is a screw connection. In other exemplary embodiments of the invention, other known force- and/or form-fitting connections are provided.

LIST OF REFERENCE SIGNS

[0026] 10 Screw conveyor [0027] 11 Bearing bore [0028] 12 Contact surface [0029] 13 Internal thread [0030] 20 Blade journal [0031] 21 Insertion end [0032] 22 Stop surface [0033] 23 Support section [0034] 24 Coding element [0035] 25 axial bore [0036] 30 Fastening ring [0037] 31 Opening [0038] 32 External thread [0039] 33 groove [0040] 35 edge [0041] FR Conveying direction