CN111742971A - Automatically controlled tensile mechanism of cutting of casing production and processing - Google Patents

Abstract

The invention relates to the technical field of sausage casing production and processing, in particular to an electric control stretching and cutting mechanism for sausage casing production and processing, which comprises a main operation table top for operating and processing pig small intestines, a driving motor, a first electromagnet, a second electromagnet, a first sensor controller for controlling the first electromagnet and a second sensor controller for controlling the second electromagnet. The electric control stretching and cutting mechanism for sausage casing production and processing comprises a left mounting bracket mounted on a main operation table top, a first lateral belt conveying mechanism, a second lateral belt conveying mechanism and a supporting transition plate with a built-in sensing controller, wherein a front overturning limiting rod and a rear overturning cutting rod which are controlled by electromagnets in the left mounting bracket are used for positioning and cutting the small intestines of pigs, so that the processing efficiency of the small intestines of pigs is greatly improved, and the cutting precision is higher.

Description

Automatically controlled tensile mechanism of cutting of casing production and processing

Technical Field

The invention relates to the technical field of sausage casing production and processing, in particular to an electric control stretching and cutting mechanism for sausage casing production and processing.

Background

The casing is a livestock product formed by scraping large intestine and small intestine of livestock. Mainly used as casing for filling sausages and enemas; the sausage casing can also be made into sausage thread for making tennis racket thread, bowstring, surgical suture, etc. The sausage casing is divided into pig casing, sheep casing and cattle casing according to the livestock. The parts are divided into a large casing and a small casing. The intestine is divided from the inside to the outside into mucosa, submucosa, muscularis and serosa 4 layers. The four layers are treated differently according to different requirements of livestock and finished products. Casings of good quality should be tough and translucent. The collagen edible casing is emerging at present.

In order to facilitate the processing and use of the sausage casing, the length of the sausage casing needs to be cut in the sausage casing production process, the conventional sausage casing cutting mainly adopts manual cutting, the cutting efficiency is low, the automation degree is not high, the cutting specification is not stable enough, and the cutting precision is poor.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the background technology, an improved electric control stretching cutting mechanism for sausage casing production and processing is provided, and the problems that the existing sausage casing cutting is mainly manually cut, the cutting efficiency is low, the automation degree is not high, the cutting specification is not stable enough, and the cutting precision is poor are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatically controlled tensile cutting mechanism of casing production and processing, includes the main operation mesa, driving motor, first electro-magnet, second electro-magnet, the first sensor control who is used for controlling first electro-magnet and the second sensor control who is used for controlling the second electro-magnet that are used for operating the pig intestines and small intestines, main operation mesa upper surface seted up leading mounting groove, leading mounting groove inside have a left-hand installing support through bolt fixed mounting, a left-hand installing support on have an upwards bellied body structure top support frame, top support frame upper end seted up a plurality of arc top guide ways, leading mounting groove inside be located top support frame right side and be equipped with by driving motor driven first side belt transport mechanism and second side belt transport mechanism through horizontal pivot activity, arc top guide way both sides inner wall on all seted up the side and accomodate the groove, the side direction of arc top guide way front end is accomodate inslot portion and is equipped with leading upset gag lever post through side direction pivot activity, the side direction of arc top guide way rear end is accomodate the inslot portion and is equipped with rearmounted upset cutting rod through side direction pivot activity, first electro-magnet and leading upset between the gag lever post and second electro-magnet and rearmounted upset cutting rod between all through waterproof spring elastic connection.

Further, for transmission, the first lateral belt conveying mechanism and the second lateral belt conveying mechanism comprise a left supporting roller, a right supporting roller and a conveying belt, the left supporting roller and the right supporting roller are sleeved on the transverse rotating shaft, the conveying belt is sleeved on the left supporting roller and the right supporting roller, the right supporting roller on the first lateral belt conveying mechanism is in transmission connection with the left supporting roller on the second lateral belt conveying mechanism through a linkage belt, and the driving motor is in transmission connection with the right supporting roller on the second lateral belt conveying mechanism through a gear set.

Furthermore, for the cooperation installation and monitoring, leading mounting groove medial surface be located fixedly connected with between first lateral belt transport mechanism and the second lateral belt transport mechanism and be used for installing the first support of first sensor controller and cross the cab apron, leading mounting groove medial surface be located second lateral belt transport mechanism right side fixedly connected with be used for installing the second sensor controller support the cab apron.

Furthermore, in order to reduce cost and facilitate assembly, the first electromagnet and the second electromagnet are the same in size, and the first sensing controller and the second sensing controller are the same in size.

Furthermore, for convenience of linkage control, the front end of a right supporting roller on the first lateral belt conveying mechanism and the front end of a left supporting roller on the second lateral belt conveying mechanism are axially and fixedly connected with an integral belt transmission ring, and the linkage belt is sleeved on the corresponding belt transmission ring to control the first lateral belt conveying mechanism and the second lateral belt conveying mechanism to be in transmission connection.

Further, for convenient storage, do not influence inside guide space, leading upset gag lever post and rearmounted upset cutting rod lateral surface on set up the arc fluting of convenient storage.

Furthermore, in order to facilitate lateral drainage, the outer side surface of the conveying belt is provided with external drainage grooves with openings at two sides.

The invention has the beneficial effects that:

(1) the electrically-controlled stretching and cutting mechanism for sausage casing production and processing is composed of a left mounting bracket, a first lateral belt conveying mechanism, a second lateral belt conveying mechanism and a supporting transition plate with a built-in sensing controller, wherein the left mounting bracket is mounted on a main operation table top;

(2) a first supporting transition plate for mounting a first sensing controller is fixedly connected between the first lateral belt conveying mechanism and the second lateral belt conveying mechanism in the preposed mounting groove, a second supporting transition plate for mounting a second sensing controller is fixedly connected on the right side of the second lateral belt conveying mechanism on the inner side surface of the preposed mounting groove, and the electromagnets are controlled to be opened and closed through the sensing controllers respectively, so that the electromagnets can be controlled automatically, and the processing efficiency is greatly improved;

(3) can conveniently tighten the pig intestines through mutually supporting of first side direction belt transport mechanism and second side direction belt transport mechanism, when making things convenient for the transmission of pig intestines, promote the effect and the precision of cutting of pig intestines.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the internal structure of the top support of the present invention.

FIG. 3 is a partial schematic view of the mounting end of the first and second lateral belt conveyors of the present invention.

In the drawing, 1, a main operation table, 2, a driving motor, 3, a first electromagnet, 4, a second electromagnet, 5, a first sensor controller, 6, a second sensor controller, 7, a front installation groove, 8, a left installation support, 9, a top support frame, 10, an arc-shaped top guide groove, 11, a first lateral belt conveying mechanism, 12, a second lateral belt conveying mechanism, 13, a front overturning limiting rod, 14, a rear overturning cutting rod, 15, a waterproof spring, 16, a left support roller, 17, a right support roller, 18, a conveying belt, 19, a linkage belt, 20, a first support transition plate, 21, a second support transition plate, 22, a belt transmission ring, 23, an arc-shaped groove and 24 are externally provided with a drainage groove.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

An electric control stretching and cutting mechanism for sausage casing production and processing shown in figures 1, 2 and 3 comprises a main operation table surface 1 for operating and processing pig small intestine, a driving motor 2, a first electromagnet 3, a second electromagnet 4, a first sensor controller 5 for controlling the first electromagnet 3 and a second sensor controller 6 for controlling the second electromagnet 4, wherein the upper surface of the main operation table surface 1 is provided with a front installation groove 7, a left installation bracket 8 is fixedly installed inside the front installation groove 7 through a bolt, the left installation bracket 8 is provided with an integral structure top support frame 9 protruding upwards, the upper end of the top support frame 9 is provided with 7 arc-shaped top guide grooves 10, the inside of the front installation groove 7, which is positioned at the right side of the top support frame 9, is movably provided with a first lateral belt conveying mechanism 11 and a second lateral belt conveying mechanism 12 driven by the driving motor 2 through a transverse rotating shaft, all seted up the side direction on the 10 both sides inner walls of arc top guide way and accomodate the groove, the side direction of the 10 front ends of arc top guide way is accomodate inslot portion and is equipped with leading upset gag lever post 13 through the activity of side direction pivot, the side direction of the 10 rear ends of arc top guide way is accomodate the inslot portion and is equipped with rearmounted upset cutting pole 14 through the activity of side direction pivot, all through 15 elastic connection of waterproof spring between first electro-magnet 3 and the leading upset gag lever post 13 and between second electro-magnet 4 and the rearmounted upset cutting pole 14.

The driving motor 2, the first electromagnet 3, the second electromagnet 4, the first sensing controller 5 and the second sensing controller 6 are all controlled by an external power supply and an external switch.

Further, for transmission, the first lateral belt conveying mechanism 11 and the second lateral belt conveying mechanism 12 comprise a left supporting roller 16 sleeved on the transverse rotating shaft, a right supporting roller 17 and a conveying belt 18 sleeved on the left and right supporting rollers, the right supporting roller 17 on the first lateral belt conveying mechanism 11 and the left supporting roller 16 on the second lateral belt conveying mechanism 12 are in transmission connection through a linkage belt 19, the driving motor 2 and the right supporting roller 17 on the second lateral belt conveying mechanism 12 are in transmission connection through a gear set, further, for matching installation and monitoring, a first supporting transition plate 20 used for installing the first sensing controller 5 is fixedly connected between the first lateral belt conveying mechanism 11 and the second lateral belt conveying mechanism 12 on the inner side of the front installation groove 7, and a second supporting transition plate used for installing the second sensing controller 6 is fixedly connected on the right side of the second lateral belt conveying mechanism 12 on the inner side of the front installation groove 7 The second support transition plate 21.

Example (b): the pig small intestine firstly passes through an arc-shaped top guide groove 10 on a top support frame 9 and then is driven by a first lateral belt transmission mechanism 11 to translate rightwards, when the pig small intestine is transmitted to a first supporting transition plate 20, a first sensor controller 5 monitors reflection information to control the first electromagnet 3 to be closed, the first electromagnet 3 drives a preposed turning limiting rod 13 to extrude outwards, so that the pig small intestine is extruded and fixed in the arc-shaped top guide groove 10, the first lateral belt transmission mechanism 11 drives the pig small intestine to be tightened and straightened, then the first electromagnet 3 is controlled to be started after 3 seconds, the first lateral belt transmission mechanism 11 drives the pig small intestine to continue translating rightwards, when the pig small intestine is transmitted to a second supporting transition plate 21, the first sensor controller 5 monitors the reflection information to control the second electromagnet 4 to be closed, the second electromagnet 4 drives a postpositional turning cutting rod 14 to extrude outwards to cut the pig small intestine, finally, the second lateral belt conveying mechanism 12 drives the pig intestines to separate; the same procedure is then repeated to perform a segmental cut of the entire porcine small intestine. The sensing controller 5 is an infrared sensor, the purpose of controlling opening and closing is achieved by blocking infrared light through the small intestines of the pigs, and the sensing controller can also be changed into a light sensing controller, and when light is blocked, opening and closing are controlled. The number of the pig small intestines per unit time can be changed by the number of the different arc-shaped top guide grooves 10.

Further, for reduce cost, convenient assembly, first electro-magnet 3 is the same with 4 sizes of second electro-magnet, first sensor controller 5 is the same with 6 sizes of second sensor controller, furthermore, for the convenience of coordinated control, the equal axial fixedly connected with body structure belt drive ring 22 of right side supporting roller 17 front end on the first side belt transport mechanism 11 and the left supporting roller 16 front end on the second side belt transport mechanism 12, coordinated belt 20 is connected through the transmission of cover control first side belt transport mechanism 11 and second side belt transport mechanism 12 on corresponding position belt drive ring 22.

Further, for convenient storage, the internal guide space is not influenced, the arc-shaped open groove 23 convenient to store is formed in the outer side surfaces of the front overturning limiting rod 13 and the rear overturning cutting rod 14, and further, for convenient lateral drainage, the external drainage groove 24 with two side openings is formed in the outer side surface of the conveying belt 18.

The electric control stretching and cutting mechanism for sausage casing production and processing is composed of a left mounting bracket 8, a first lateral belt conveying mechanism 11, a second lateral belt conveying mechanism 12 and a supporting transition plate with a built-in sensing controller, wherein the left mounting bracket 8 is mounted on a main operation table top 1, and a front overturning limiting rod 13 and a rear overturning cutting rod 14 which are controlled by electromagnets in the left mounting bracket 8 are utilized for positioning and cutting the small intestines of pigs, so that the processing efficiency of the small intestines of pigs is greatly improved, and the cutting precision is higher; a first supporting transition plate 20 for mounting the first sensing controller 5 is fixedly connected between the first lateral belt conveying mechanism 11 and the second lateral belt conveying mechanism 12 in the preposed mounting groove 7, a second supporting transition plate 21 for mounting the second sensing controller 6 is fixedly connected on the right side of the second lateral belt conveying mechanism 12 on the inner side surface of the preposed mounting groove 7, and the electromagnets are controlled to be opened and closed respectively through the sensing controllers, so that the automatic control can be realized, and the processing efficiency is greatly improved; can conveniently tighten the pig intestines through mutually supporting of first side direction belt transport mechanism 11 and second side direction belt transport mechanism 12, when making things convenient for the transmission of pig intestines, promote the effect and the precision of cutting of pig intestines.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides an automatically controlled tensile cutting mechanism of casing production and processing, is including main operation mesa (1), driving motor (2), first electro-magnet (3), second electro-magnet (4) that are used for operating the processing to the pig intestines, is used for controlling first sensor control (5) of first electro-magnet (3) and is used for controlling second sensor control (6) of second electro-magnet (4), characterized by: the upper surface of the main operation table top (1) is provided with a preposed mounting groove (7), the interior of the preposed mounting groove (7) is fixedly provided with a left mounting bracket (8) through a bolt, the left mounting bracket (8) is provided with an upwards-raised integral structure top support frame (9), the upper end of the top support frame (9) is provided with a plurality of arc top guide grooves (10), the interior of the preposed mounting groove (7) is positioned on the right side of the top support frame (9) and is movably provided with a first lateral belt conveying mechanism (11) and a second lateral belt conveying mechanism (12) which are driven by a driving motor (2) through a transverse rotating shaft, the inner walls of the two sides of the arc top guide grooves (10) are respectively provided with a lateral accommodating groove (13), the interior of the lateral accommodating groove (13) at the front end of the arc top guide groove (10) is movably provided with a preposed overturning limiting rod (13) through a lateral rotating shaft, groove (13) are accomodate to side direction of arc top guide way (10) rear end inside to be equipped with rearmounted upset cutting rod (14) through the activity of side direction pivot, first electro-magnet (3) and leading upset gag lever post (13) between and second electro-magnet (4) and rearmounted upset cutting rod (14) between all through waterproof spring (15) elastic connection.

2. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 1, wherein: first lateral belt transport mechanism (11) and second lateral belt transport mechanism (12) put supporting roller (16), right side supporting roller (17) and cover conveyer (18) on left and right side supporting roller including the cover in the epaxial left side of horizontal rotation, right side supporting roller (17) on first lateral belt transport mechanism (11) and the left side on second lateral belt transport mechanism (12) put supporting roller (16) between connect through linkage belt (19) transmission, right side supporting roller (17) on driving motor (2) and second lateral belt transport mechanism (12) are connected through the gear train transmission.

3. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 1, wherein: leading mounting groove (7) medial surface be located first side belt transport mechanism (11) and second side belt transport mechanism (12) between fixedly connected with be used for installing first sensor controller (5) first support cross cab apron (20), leading mounting groove (7) medial surface be located second side belt transport mechanism (12) right side fixedly connected with be used for installing second sensor controller (6) second support cross cab apron (21).

4. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 1, wherein: the first electromagnet (3) and the second electromagnet (4) are the same in size, and the first sensing controller (5) and the second sensing controller (6) are the same in size.

5. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 2, wherein: the utility model discloses a belt conveyor, including first lateral belt transport mechanism (11), right side support cylinder (17) front end on first lateral belt transport mechanism (11) and the equal axial fixedly connected with body structure belt transmission ring (22) of left side support cylinder (16) front end on second lateral belt transport mechanism (12), linkage belt (19) through the cover control first lateral belt transport mechanism (11) and second lateral belt transport mechanism (12) transmission connection on corresponding position belt transmission ring (22).

6. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 1, wherein: the outer side surfaces of the front overturning limiting rod (13) and the rear overturning cutting rod (14) are provided with arc-shaped grooves (23) convenient to store.

7. An electrically controlled stretch cutting mechanism for casing production and processing as claimed in claim 2, wherein: and an external drainage groove (24) with openings at two sides is formed on the outer side surface of the conveying belt (18).

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