DEVICE FOR SLICING A PIG CARCASS FROM THE FRONT AND THE BACK

Abstract

The present invention relates to a device for the ventral and dorsal cutting of a pork carcass or the carcass of an already sacrificed animal with a similar corporeal structure, in a completely simultaneous manner. The device is preferably formed by two robots that are placed facing each other, with the particularity that the cut along the dorsal side includes the corner of the spine and vertebrae, while the ventral cut cuts the spine in two parts.

This device described in the invention comprises means that allow for the cutting in two practically equal halves of the body of the pig or similar animal, following the spine thereof, while the intervertebral space is cleaned of meat, in such a way that said system can perform a cut for the ventral side of the spine and a second cut for the dorsal side separating the meat from the space between the vertebrae.

Claims

1. A device for performing frontal and dorsal cutting of an animal carcass, including two robots (11, 12) being locatable in front and behind the animal carcass, forming a vertical plane in a carousel, the device comprising: a first robot (11), placed opposite a dorsal plane of the animal, comprising: palpation means (27), means for dorsal cutting skin and tissues bordering said skin (35), means for dorsal cutting and cleaning meat from the animal carcass in intervertebral spaces (29), and an articulated arm (17, 18) for positioning and moving the means for dorsal cutting the skin and tissues bordering said skin (35) and the means for dorsal cutting and cleaning meat from the animal carcass in the intervertebral spaces (29); and a head (22) mounted on an end of the articulated arm (17, 18), wherein the head (22) is equipped with a support (34), and wherein the support (34) comprises the dorsal cutting means (35, 29) and the palpation means (27); and wherein the support (34) comprises control means that allow programmed rotation of the support (34) to spin and position at least one of the palpation means (27) or dorsal cutting means (35, 29) according to work assigned to the first robot (11); and a second robot (12), placed in front of a ventral plane of the animal carcass, comprising: palpation means (26) on a ventral part of the animal carcass, means for cutting the animal carcass spine (24) at a central part, an articulated arm (21, 36) for positioning and moving the palpation means (26) and the means for cutting the spine (24); wherein the articulated arm (17, 18) of the first robot (11) is arranged to move for cutting and separating meat from space between vertebrae, and the articulated arm (21, 26) of the second robot (12) is arranged to move simultaneously with the articulated arm (17, 18) of the first robot (11) for cutting the spine in the ventral part.

2. The device, according to claim 1, wherein both robots (11,12) have six degrees of freedom.

3. The device, according to claim 1, wherein the palpation means (27) of the first robot (11) comprise two pairs of probe rollers (27), which tilt following a dorsal morphology of the animal carcass by means of means of motion.

4. The device, according to claim 3, wherein the means of motion comprise connecting rods (32) commanded by two pistons (28) joining the support (34) of the head and said connecting rods (32).

5. The device, according to claim 1, wherein the articulated arm (17, 18) of the first robot (11) comprise respective two arms (17, 18) angled by respective shafts (30, 19).

6. (canceled)

7. The device, according to claim 5, wherein the cutting and palpating head (22) of the first robot (11) comprises connecting rods (32, 33) angled at one end in the head support.

8. The device, according to claim 1, wherein the cutting means of the skin and adjacent tissues of the dorsal area in the first robot (11) comprise a circular blade (29).

9. The device, according to claim 1, wherein the means for cutting and cleaning the animal's meat in the intervertebral spaces in the dorsal area installed in the first robot (11) comprise blades (35).

10. The device, according to claim 8, wherein the convergence of the blades (29, 35) is adjustable according to the morphology of the slaughtered animal in a fully automatic manner.

11. The device, according to claim 1, wherein the palpation and cutting means of the head incorporated in the first robot (11) are used selectively and automatically programmed by rotating the support on which said means are immobilised.

12. The device, according to claim 1, wherein the articulated arm (21, 26) of the second robot (12) comprises respective arms (36, 21) angled by the respective shafts (37, 20), with a head (23) equipped with the palpation and cutting means incorporated in a support (38) being mounted on the end of the arm (21).

13. The device, according to claim 1, wherein the means for palpating and cutting the animal's spine of the head (23) of the second robot (12) comprise a cutting disc (24) aided by probe rollers (26).

14. The device, according to claim 9, wherein the convergence of the blades (29, 35) is adjustable according to the morphology of the slaughtered animal in a fully automatic manner.

15. The device, according to claim 12, wherein the means for palpating and cutting the animal's spine of the head (23) of the second robot (12) comprise a cutting disc (24) aided by probe rollers (26).

16. The device, according to claim 1, wherein the support (34) of the first robot (11) turns 180° to be able to work in the two different positions.

Description

DESCRIPTION OF THE FIGURES

[0039] Below is a list of the different parts of the invention that are identified in the figures attached to this description by means of the numbers listed below, 10 cutting device, 11 first robot, 12 second robot, 13 pedestal, 14 ground plane, 15 support base, 16 support base, 17 lower arm, 18 upper arm, 19 shaft, 20 shaft, 21 arm, 22 probe cutter head, 23 probe cutter head, 24 disc, 25 probe, 26 rollers, 27 rollers, 28 pistons, 29 circular blade, 30 shaft, 31 link, 32 connecting rod, 33 connecting rod, 34 support, 35 blades, 36 arm, 37 shaft, 38 support.

[0040] FIG. 1 shows a vertical side view of the cutting device 10 comprising two robots 11 and 12 which are facing each other and immobilised to the ground plane 14 thanks to pedestals 13.

[0041] FIG. 2 shows an enlarged view of the upper part of the robot 11 and of the head 22 composed of prober and cutter means.

[0042] FIG. 3 shows a vertical front view of the robot 11 mounted thanks to the pedestal 13 in the ground plane 14, equipped with a head 22 acting either by means of the rollers 27, or by rotating the same 22 with the blades 35.

[0043] FIG. 4 shows a vertical side view of the enlarged second robot 12, equipped with a head 23, equipped with a cutting disc 24 and a prober 25, equipped with rollers 26.

[0044] FIG. 5 shows a vertical front view of the second robot 12 and the head 23 equipped with a cutting disc 24 and a probe 25.

DESCRIPTION OF AN EMBODIMENT OF THE INVENTION

[0045] In one of the embodiments of the invention, and as can be seen in FIG. 1, the assembly of the cutting device 10 comprises the following, mounted on a horizontal ground plane 14: two robots 11 and 12 on respective pedestals 13, which are facing each other 11 and 12 by the cutting and palpating means, leaving a space or volume between them for a carousel to circulate with the animals to be treated properly suspended by their legs and skinned.

[0046] On this pedestal, the first robot 11 comprises 13 a support base 15 and on said support base 15 there are two separate arms 17-18 angled by their respective shafts 30-19, with the following mounted on the end of the upper arm 18: a head 22 equipped with palpation and cutting means incorporated into a support 34 comprising control means that allow the programmed rotation of the support 34 making it spin and positioning either one or the other means (palpation or cutting means) according to the work assigned to the first robot 11.

[0047] The cutting means of the first robot (11) when the animal is facing the first robot 11 and its head 22 are blades 35, and a circular blade or cutting disc 29, mounted on the connecting rods 33, while the palpation or guiding means comprise probe rollers 27 mounted on the lower part of the connecting rods 32.

[0048] In this particular case shown in the figures, two pairs of probe rollers 27 are arranged, which tilt according to the dorsal morphology of the sacrificed animal via motion means that adapt to each specific animal morphology. These motion means preferably comprise connecting rods 32 and pistons 28.

[0049] In other words, in order to preferably adapt to the morphology of the animal, the connecting rods 33 and 32 of the first robot 11 adapt to the rotating movement by means of the pistons 28, as can be seen in FIGS. 1 and 2.

[0050] The second robot 12 comprises, on said pedestal 13, a support base 16 and respective arms 36, 21 linked by the respective shafts 37, 20, with a head 23, equipped with palpation and cutting means incorporated in a support 38 being mounted on the end of the arm 21, see FIG. 4.

[0051] The two robots may be used to do the following work possibilities: [0052] The first possibility is: the first robot 11 working with the probe rollers (27), holding an animal by the dorsal part by means of the probe rollers 27 mounted on the head 22, when the second robot 12 cuts it via the ventral area by means of the cutting disc 24, in line with the morphology of the animal, thanks to the probe rollers 26. [0053] The second possibility is: the first robot 11 turns 180° to the support 34 and, the blades 29 so that turns to work in this position with the blades 35 and 29, acting on the dorsal part of the animal, cutting the skin and cleaning the meat from the intervertebral areas, while the head 23 of the second robot 12 performs a cut in the spine for the ventral part, helping by the probe rollers 25, 26.

[0054] With this device, the possibilities for manipulating the animals that circulate through the carousel in the space between the two robots 11 and 12 are those described in the previous paragraph, by simply programming the position of the head 22 so that it acts as a guide and supports the robot 12 when it cuts the animal ventrally in two, or when the animal is dorsally and ventrally cut simultaneously. While at present in order to exercise the functions tasked to the robot 11 three robots would be required, resulting in a longer time and an additional robot, and more energy to provide electromotive force to three robots, the device described in the invention only needs two robots, plus a maintenance greater than 50% corresponding to the additional robot that is used in related devices known and used up to the present.

[0055] Having sufficiently described the present invention in correspondence with the appended figures, it is easy to remember that any detail modifications that may be appropriate may be introduced therein, provided that these do not alter the essence of the invention summarised in the following claims.