CN114056658A

CN114056658A - Transfer mechanism for sausage packaging line

Info

Publication number: CN114056658A
Application number: CN202111435979.1A
Authority: CN
Inventors: 彭权辉; 欧阳子冬; 周锋; 周海; 赖斌; 刘伟萍
Original assignee: Jiangxi Oulis Intelligent Technology Co ltd
Current assignee: Jiangxi Oulis Intelligent Technology Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-02-18

Abstract

The invention relates to the technical field of sausage production and transfer equipment, in particular to a transfer mechanism for a sausage packaging line, which comprises a feeding conveying belt, wherein a first driving motor is arranged on one side of the feeding conveying belt, a cutting component is arranged above the feeding conveying belt, one end of the feeding conveying belt is connected with a discharging guide plate, the discharging opening of the discharging guide plate is in a furled shape, the port of the discharging guide plate points to the horizontal direction, a temporary storage component which is just opposite to the discharging opening of the discharging guide plate is arranged on one side of the feeding conveying belt, the temporary storage component comprises a bottom plate, and a driving box body is fixedly arranged at the top end of the bottom plate. The sausage section guiding device can effectively section the sausage guided in, and provides guarantee for subsequent orderly transfer; the sausages guided to the temporary storage assembly are all conveyed out at the same angle, so that convenience is further provided for subsequent orderly packaging; and the corresponding swing motor works along with the sausage conveying device, so that the sausages meeting the standard are conveyed out, and the sausages not meeting the standard are collected and processed.

Description

Transfer mechanism for sausage packaging line

Technical Field

The invention relates to the technical field of sausage production and transfer equipment, in particular to a transfer mechanism for a sausage packaging line.

Background

Sausage is a long cylindrical tubular food made by mincing animal meat into strips and filling into sausage casing, and is prepared by using very old food production and meat preservation techniques. The sausage is prepared by filling small sausage casings (also with large sausage casings) of pigs or sheep with seasoned meat materials and drying.

With the continuous progress of modern processing technology, mechanical equipment is widely adopted to accelerate the production of sausages. In the process of actual production, equipment is generally needed to cut and transport the produced sausages, so that subsequent packaging is facilitated. However, in the process of cutting and transferring, due to the fact that sausages are not filled and knotted uniformly, the segmented sausages have certain length difference, so that the sausages in the same batch are prone to being different in specification in the subsequent packaging and selling processes, the quality of batch product packaging is affected, and economic benefits are prone to being affected.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a transfer mechanism for a sausage packaging line.

In order to achieve the purpose, the invention adopts the following technical scheme:

a transfer mechanism for a sausage packaging line comprises a feeding conveying belt, wherein a first driving motor is arranged on one side of the feeding conveying belt, a cutting component is arranged above the feeding conveying belt, one end of the feeding conveying belt is connected with a discharging guide plate, the discharging opening of the discharging guide plate is in a furled shape, the port of the discharging guide plate points to the horizontal direction, a temporary storage component right aligned to the discharging opening of the discharging guide plate is arranged on one side of the feeding conveying belt and comprises a bottom plate, a driving box body is fixedly mounted at the top end of the bottom plate, a second driving motor with an output shaft vertically upwards is arranged inside the driving box body, the output shaft of the second driving motor is coaxially connected with a rotating plate, and the outer side of the rotating plate is connected with a plurality of groups of bearing components through connecting rods; the segmentation subassembly is including the fixed casing of cutting that sets up on pay-off conveyer belt frame top, the inside of cutting the casing is the vertical rotation of symmetry ground and is connected with a plurality of groups guide roller, the top fixed mounting who cuts the casing has the motor protection casing, the inside of motor protection casing is equipped with the vertical decurrent push rod motor that stretches into the inside of cutting the casing of output shaft, and the output shaft end connection of push rod motor has cutting blade, the one side inner wall of cutting the casing has two sets of infra-red transmitter along vertical direction fixed mounting, and its opposite side inner wall fixed mounting has two sets of signal receiver who corresponds with infra-red transmitter, and signal receiver's output electric connection has singlechip and treater with push rod motor electric connection.

Preferably, the feeding conveyer belt is provided with two groups of swing motors with output shafts vertically and downwards arranged on one side of the cutting assembly, the two groups of swing motors are electrically connected with the processor, and the output shafts of the swing motors are connected with a furling plate attached to the conveying surface of the feeding conveyer belt.

Preferably, through holes are formed in the positions, connected with the swing motor, of the two sides of the feeding conveying belt, the guide pipes are connected to the positions of the through holes, and the end portions of the guide pipes are connected with the collecting assemblies.

Preferably, the collecting component comprises a containing shell, a pressure sensor is embedded in the inner wall of the bottom end of the containing shell, an alarm device electrically connected with the pressure sensor is arranged on one side of the pressure sensor, and a collecting barrel is further arranged inside the containing shell.

Preferably, the processor also comprises a timing module and a processing module, and the timing module and the processing module control the operation of the swing motor.

Preferably, a plurality of groups of guide plates are symmetrically and rotatably connected to one side, close to the temporary storage assembly, of the frame of the feeding conveyer belt, and the guide plates and the frame of the feeding conveyer belt are bonded together.

Preferably, the top end of the bottom plate is fixedly provided with an annular slide rail, and the top end of the annular slide rail is slidably connected with a plurality of groups of support rods fixedly connected with the bottom end of the rotating plate.

Preferably, the axis of the annular slide rail coincides with the axis of the second driving motor.

The invention has the beneficial effects that:

1. by arranging the cutting subassembly in the device, the sausages guided in can be effectively segmented, and subsequent orderly transfer is guaranteed;

2. through the arrangement of the guide plate, the buffer spring and the discharge guide plate, sausages guided to the temporary storage assembly are all conveyed out at the same angle, and convenience is further provided for subsequent orderly packaging;

3. through the setting of treater on the segmentation subassembly for corresponding swing motor carries out work thereupon, thereby leads away the sausage that will accord with the standard, and the sausage that does not accord with the standard is collected and is handled.

Drawings

Fig. 1 is a schematic top view of a transfer mechanism for a sausage packaging line according to the present invention;

fig. 2 is a schematic side view of a slitting assembly of a transfer mechanism for a sausage packaging line according to the present invention;

FIG. 3 is a system block diagram of a processor of a transfer mechanism for a sausage wrapping line in accordance with the present invention;

fig. 4 is a schematic cross-sectional view of a collecting assembly of a transfer mechanism for a sausage casing line according to the present invention;

fig. 5 is a front view structural schematic diagram of a temporary storage assembly of the transfer mechanism for the sausage packaging line.

In the figure: the cutting machine comprises a feeding conveyer belt A-1, a first driving motor A-2, a cutting component A-3, a cutting shell A-31, an infrared emitter A-32, a push rod motor A-33, a motor protective cover A-34, a single chip microcomputer A-35, a cutting blade A-36, a signal receiver A-37, a processor A-38, a folding plate A-4, a guide plate A-5, a buffer spring A-6, a discharging guide plate A-7, a swing motor A-8, a material guide pipe A-9, a collecting component A-10, a containing shell A-101, an alarm device A-102, a collecting barrel A-103, a pressure sensor A-104, a temporary storage component B-1, a bottom plate B-11, a driving box body B-12, a second driving motor B-13, a cutting component A-4, a temporary storage component A-11, a temporary storage component B-11, a driving box body B-12, a second driving motor B-13, a motor B-9, a power supply unit B-4, a power supply unit, an annular slide rail B-14, a support rod B-15, a rotating plate B-16, a connecting rod B-17 and a bearing component B-2.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, the transfer mechanism for the sausage packaging line comprises a feeding conveyer belt A-1, a first driving motor A-2 is arranged on one side of the feeding conveyer belt A-1, a cutting component A-3 is arranged above the feeding conveyer belt A-1, a discharging guide plate A-7 is connected to one end of the feeding conveyer belt A-1, the discharging port of the discharging guide plate A-7 is in a furled shape, the port of the discharging guide plate A-7 points to the horizontal direction to ensure the consistency of the angle of the output sausage, and to some extent, the subsequent sausage packaging is ensured, a temporary storage component B-1 which is right opposite to the discharging port of the discharging guide plate A-7 is arranged on one side of the feeding conveyer belt A-1, the temporary storage component B-1 comprises a bottom plate B-11, a driving box body B-12 is fixedly arranged at the top end of the bottom plate B-11, a second driving motor B-13 with an output shaft vertically upward is arranged inside the driving box body B-12, the output shaft of the second driving motor B-13 is coaxially connected with a rotating plate B-16, and the outer side of the rotating plate B-16 is connected with a plurality of groups of bearing assemblies B-2 through connecting rods B-17.

The cutting component A-3 comprises a cutting shell A-31 fixedly arranged at the top end of a frame of the feeding conveyer belt A-1, a plurality of groups of guide rollers are symmetrically and vertically and rotatably connected inside the cutting shell A-31, a motor protective cover A-34 is fixedly arranged at the top end of the cutting shell A-31, a push rod motor A-33 with an output shaft extending into the cutting shell A-31 in a vertical and downward mode is arranged inside the motor protective cover A-34, a cutting blade A-36 is connected to the end part of the output shaft of the push rod motor A-33, two groups of infrared transmitters A-32 are fixedly arranged on the inner wall of one side of the cutting shell A-31 in the vertical direction, two groups of signal receivers A-37 corresponding to the infrared transmitters A-32 are fixedly arranged on the inner wall of the other side of the cutting shell A-31, and the output end of each signal receiver A-37 is electrically connected with a signal receiver A-37 electrically connected with the push rod motor A-33 When the two groups of infrared transmitters A-32 and the corresponding signal receivers A-37 can transmit signals, the single chip microcomputer A-35 and the processor A-38 ensure that no sausage passes through or a sausage knot is positioned right below, and at the moment, the push rod motor A-33 is controlled by an electric signal to drive the cutting blade A-36 to move downwards, so that the sausage section processing is realized.

Furthermore, two groups of swing motors A-8 with output shafts vertically arranged downwards are respectively arranged on one side of the cutting component A-3 on the feeding conveyer belt A-1, the two groups of swing motors A-8 are electrically connected with the processor A-38, the output shafts of the swing motors A-8 are respectively connected with a furling plate A-4 jointed with the conveying surface of the feeding conveyer belt A-1, through holes are respectively arranged at the two sides of the feeding conveyer belt A-1 at the joints with the swing motors A-8, the through holes are respectively connected with a material guide pipe A-9, the end part of the material guide pipe A-9 is respectively connected with a collecting component A-10, the collecting component A-10 comprises a containing shell A-101, a pressure sensor A-104 is embedded in the inner wall of the bottom end of the containing shell A-101, and an alarm device A-102 electrically connected with the pressure sensor A-104 is arranged on one side of the containing shell A-101, the containing shell A-101 is also internally provided with a collecting barrel A-103, so that the weight of the collected defective sausages can be conveniently monitored, and the defective sausages can be conveniently replaced in time.

Specifically, the processor A-38 also comprises a timing module and a processing module, the timing module and the processing module are used for controlling the swing motor A-8 to work, when sausages pass through, the signal transmission between the infrared emitter A-32 and the signal receiver A-37 is blocked, therefore, the sausage length is judged according to the receiving interval time between the infrared emitter A-32 and the signal receiver A-37, when the time interval is too long, the swing motor A-8 for rolling the short sausages is controlled to pack the folding plate A-4, the swing motor A-8 for rolling the long sausages is conveniently controlled to drive the folding plate A-4 to roll the long sausages, otherwise, the swing motor A-8 for rolling the short sausages is controlled to drive the folding plate A-4 to roll the short sausages, when the time meets the set standard, the sausage passing through is in accordance with the standard, and at the moment, the two groups of swing motors A-8 are folded, so that the sausage in accordance with the standard passes through.

Furthermore, a plurality of groups of guide plates A-5 are symmetrically and rotatably connected to one side, close to the temporary storage component B-1, of the frame of the feeding conveyer belt A-1, and buffer springs A-6 are bonded between the guide plates A-5 and the frame of the feeding conveyer belt A-1, so that the conveyed sausages can be conveniently corrected in angle, the sausages can be guaranteed to be delivered in a horizontal state, and convenience is brought to subsequent packaging.

Furthermore, the top end of the bottom plate B-11 is fixedly provided with an annular slide rail B-14, the top end of the annular slide rail B-14 is connected with a plurality of groups of support rods B-15 which are fixedly connected with the bottom end of the rotating plate B-16 in a sliding manner, and the axis of the annular slide rail B-14 is superposed with the axis of the second driving motor B-13.

The working process is as follows: when in use, a long string of sausages is firstly placed on a feeding conveyer belt A-1 for transmission, under the cutting component A-3, when the two groups of infrared transmitters A-32 and the corresponding signal receivers A-37 can transmit signals, then the sausage is ensured not to pass through or the nodules of the sausage are positioned right below, at the moment, the push rod motor A-33 is controlled by electric signals to drive the cutting blade A-36 to move downwards, thereby realizing the segmenting treatment of the sausages, continuously transmitting the segmented sausages on the feeding conveyer belt A-1, the angle correction is carried out under the action of the buffer spring A-6 and the guide plate A-5, so that the angle correction can be ensured to be sent out in a horizontal state, convenience is provided for subsequent packaging, then the material is transmitted to a subsequent temporary storage component B-1 through a discharging guide plate A-7;

after the corresponding bearing component B-2 on the temporary storage component B-1 is fully placed, the second driving motor B-13 is started, so that the bearing component B-2 is replaced, and the continuous transfer and temporary storage of the sausages are realized;

when the sausage is processed by the cutting component A-3, the signal transmission between the infrared emitter A-32 and the signal receiver A-37 is shielded, so that the sausage length is judged according to the receiving interval time between the infrared emitter A-32 and the signal receiver A-37, when the time interval is too long, the swinging motor A-8 for rolling the short sausage is controlled to roll the folding plate A-4, the swinging motor A-8 for rolling the long sausage is conveniently controlled to drive the folding plate A-4 to roll the long sausage, otherwise, the swinging motor A-8 for rolling the short sausage is controlled to drive the folding plate A-4 to roll the short sausage, when the time meets the set standard, the passed sausage meets the standard, and at the moment, the two groups of swinging motors A-8 are folded, so that sausages meeting the standards can pass through.

Finally, it should be noted that: in the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A transfer mechanism for a sausage packaging line comprises a feeding conveying belt (A-1) and is characterized in that a first driving motor (A-2) is arranged on one side of the feeding conveying belt (A-1), a cutting component (A-3) is arranged above the feeding conveying belt (A-1), one end of the feeding conveying belt (A-1) is connected with a discharging guide plate (A-7), a discharging opening of the discharging guide plate (A-7) is furled, a port of the discharging guide plate points to the horizontal direction, a temporary storage component (B-1) which is right opposite to the discharging opening of the discharging guide plate (A-7) is arranged on one side of the feeding conveying belt (A-1), the temporary storage component (B-1) comprises a bottom plate (B-11), and a driving box body (B-12) is fixedly mounted at the top end of the bottom plate (B-11), a second driving motor (B-13) with an output shaft vertically upward is arranged in the driving box body (B-12), the output shaft of the second driving motor (B-13) is coaxially connected with a rotating plate (B-16), and the outer side of the rotating plate (B-16) is connected with a plurality of groups of bearing assemblies (B-2) through connecting rods (B-17);

the cutting component (A-3) comprises a cutting shell (A-31) fixedly arranged at the top end of a frame of the feeding conveyer belt (A-1), the interior of the cutting shell (A-31) is vertically and rotationally connected with a plurality of groups of guide rollers symmetrically, a motor protective cover (A-34) is fixedly arranged at the top end of the cutting shell (A-31), a push rod motor (A-33) with an output shaft vertically downward and penetrating into the interior of the cutting shell (A-31) is arranged in the motor protective cover (A-34), the end part of the output shaft of the push rod motor (A-33) is connected with a cutting blade (A-36), two groups of infrared transmitters (A-32) are fixedly arranged on the inner wall of one side of the cutting shell (A-31) along the vertical direction, and two groups of signal receivers (A-37) corresponding to the infrared transmitters (A-32) are fixedly arranged on the inner wall of the other side of the cutting shell (A-31), and the output end of the signal receiver (A-37) is electrically connected with a singlechip (A-35) and a processor (A-38) which are electrically connected with the push rod motor (A-33).

2. The transfer mechanism for the sausage packaging line according to claim 1, wherein two sets of swing motors (A-8) with output shafts arranged vertically downwards are respectively arranged on the feeding conveyer belt (A-1) on one side of the cutting component (A-3), the two sets of swing motors (A-8) are electrically connected with the processor (A-38), and the output shafts of the swing motors (A-8) are connected with a furling plate (A-4) attached to the conveying surface of the feeding conveyer belt (A-1).

3. The transfer mechanism for sausage packaging line according to claim 2, wherein the feeding conveyer belt (A-1) is provided with through holes at the connection part with the swing motor (A-8) at both sides, and is connected with a material guide pipe (A-9) at the through holes, and the end part of the material guide pipe (A-9) is connected with a collecting component (A-10).

4. The transfer mechanism for the sausage packaging line according to claim 3, wherein the collecting assembly (A-10) comprises a containing shell (A-101), a pressure sensor (A-104) is embedded in the inner wall of the bottom end of the containing shell (A-101), an alarm device (A-102) electrically connected with the pressure sensor (A-104) is arranged on one side of the containing shell, and a collecting barrel (A-103) is further arranged inside the containing shell (A-101).

5. The transfer mechanism for sausage packaging line according to claim 2, wherein the processor (A-38) further comprises a timing module and a processing module, and the timing module and the processing module control the operation of the swing motor (A-8).

6. The transfer mechanism for sausage packaging line according to claim 1, characterized in that the frame of the feeding and conveying belt (A-1) is symmetrically and rotatably connected with a plurality of groups of guide plates (A-5) at one side close to the temporary storage component (B-1), and buffer springs (A-6) are bonded between the guide plates (A-5) and the frame of the feeding and conveying belt (A-1).

7. The transfer mechanism for the sausage packaging line as claimed in claim 1, wherein the top end of the bottom plate (B-11) is fixedly provided with an annular slide rail (B-14), and the top end of the annular slide rail (B-14) is slidably connected with a plurality of groups of support rods (B-15) fixedly connected with the bottom end of the rotating plate (B-16).

8. The transfer mechanism for sausage casing line according to claim 7, wherein the axis of the endless slide track (B-14) coincides with the axis of the second driving motor (B-13).