CN216874779U - Shunting device and twisting machine - Google Patents

Abstract

The utility model discloses a flow dividing device which comprises a kinking pipe component, a flow divider and a feeding pipeline, wherein the kinking pipe component is arranged on the inlet end of the kinking pipe component; the kinking tube assembly comprises a kinking tube, a rotating disk and a rotating mechanism for driving the rotating disk to rotate, and a plurality of kinking tubes are arranged in the rotating disk at intervals along the circumferential direction; the flow divider comprises a main pipeline, the main pipeline is rotationally connected with the rotating disc, a plurality of flow dividing pipelines communicated with the main pipeline are arranged at intervals along the circumferential direction of the main pipeline, and the plurality of flow dividing pipelines are connected with the plurality of kinking pipes in a one-to-one correspondence manner; one end of the feeding pipeline is sleeved in the main pipeline, the port of one end of the feeding pipeline is sealed, the port of the other end of the feeding pipeline is communicated with the discharging pipeline of the filling machine, and a feeding port corresponding to the shunting pipeline is arranged on the side wall of one side of the feeding pipeline. The utility model also discloses a twisting machine which comprises the flow dividing device. The utility model can realize the parallel work of casing sleeving and casing filling, reduce the number of damaged parts, reduce the maintenance cost, reduce the overhaul rate and improve the production efficiency.

Description

Shunting device and twisting machine

Technical Field

The utility model relates to the technical field of sausage equipment, in particular to a shunting device and a twisting machine.

Background

At present, a twisting pipe in a twisting machine is used for being connected with a discharge port of a filling machine, and all the twisting pipes are sleeved with casings so as to realize filling of sausage materials. However, in the current partial twisting machine, by providing a twisting tube fixedly connected to the discharge pipe of the filling machine, each time the casing is filled through the twisting tube, the machine is stopped, so that the casing is re-sleeved on the twisting tube, and then the next casing is filled. This results in a long time consuming process of the casing, which results in inefficient production processes.

Therefore, some twisting machines are provided with a plurality of twisting tubes, and any twisting tube sleeved with the casing is periodically positioned at a working station through a rotating mechanism, and the twisting tube at the working station is connected with a discharge pipeline of a filling machine so as to realize filling of the casing; meanwhile, other kinking tubes are used for performing the operation of casing sleeving, so that the casing can be sleeved and filled at the same time. However, in the process that the rotating mechanism continuously rotates, the end faces of the connecting parts correspondingly connected with the plurality of twisted tubes continuously slide and rub with the end faces of the fixed plate, so that the plurality of connecting parts (such as tungsten steel sleeves or other hermetically connected parts correspondingly connected with each twisted tube) are easily abraded, the number of damaged parts is increased, the maintenance cost is increased, the overhaul rate is increased, and the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a shunting device and a twisting machine, which can realize parallel operation of casing sleeving and casing filling, reduce the number of damaged parts, reduce the maintenance cost, reduce the overhaul rate and improve the production efficiency.

In order to solve the technical problem, the utility model provides a flow dividing device, which comprises a kinking tube component, a flow divider and a feeding pipeline; the kinking tube assembly comprises a kinking tube, a rotating disk and a rotating mechanism for driving the rotating disk to rotate, and a plurality of kinking tubes are arranged in the rotating disk at intervals along the circumferential direction; the flow divider comprises a main pipeline, the main pipeline is rotationally connected with the rotating disc, a plurality of flow dividing pipelines communicated with the main pipeline are arranged at intervals along the circumferential direction of the main pipeline, and the plurality of flow dividing pipelines are connected with the plurality of kinking pipes in a one-to-one correspondence manner; one end of the feeding pipeline is sleeved in the main pipeline, the port of one end of the feeding pipeline is sealed, the port of the other end of the feeding pipeline is communicated with a discharging pipeline of the filling machine, and a feeding port corresponding to the diversion pipeline is arranged on the side wall of one side of the feeding pipeline; the rotating disc is driven to rotate through the rotating mechanism, so that the main pipeline rotates relative to the feeding pipeline, and each shunting pipeline is communicated with the feeding port periodically.

As an improvement of the scheme, one end of the main pipeline close to the rotating disc is provided with a mounting plate which is fixedly connected with the rotating disc; one end of each shunt pipeline is communicated with the main pipeline, and the other end of each shunt pipeline penetrates through the mounting plate to be communicated with the corresponding kinking pipe.

As an improvement of the scheme, a sliding sleeve is arranged between the main pipeline and the feeding pipeline, the sliding sleeve is fixedly connected with the rotating disc, and the sliding sleeve is sleeved on the feeding pipeline; the sliding sleeve is provided with openings which are correspondingly communicated with each shunt pipeline at intervals along the circumferential direction, and the rotating disc is driven to rotate through the rotating mechanism, so that each opening is periodically communicated with the feeding port.

As an improvement of the scheme, the rotating disc comprises a first rotating disc, a second rotating disc and a connecting shaft for respectively connecting the first rotating disc and the second rotating disc, the rotating mechanism is used for driving the second rotating disc to rotate, and the second rotating disc is fixedly connected with the mounting plate; each kinking tube sequentially penetrates through the first rotating disc and the second rotating disc and is communicated with the corresponding diversion pipeline.

As an improvement of the scheme, the rotating mechanism comprises a driving wheel, a driven wheel and a rotating motor, wherein the rotating motor is connected with the driving wheel, and the driving wheel is connected with the driven wheel through a synchronous belt; the driven wheel is sleeved on the connecting shaft and is rotationally connected with the second rotating disc.

As the improvement of the scheme, the second rotating disc is provided with a connecting screw rod, the mounting plate is provided with a mounting hole, and the connecting screw rod penetrates through the mounting hole to be connected with the locking nut.

As an improvement of the scheme, a first sealing ring is arranged between the sliding sleeve and the feeding pipeline, and the first sealing ring is respectively arranged in the inner side wall of the end part of the sliding sleeve close to the feeding pipeline and in the outer side wall of the end part of the feeding pipeline close to the sliding sleeve; and a second sealing ring is arranged between the sliding sleeve and the main pipe sleeve and is respectively arranged at two ends of the outer side wall of the sliding sleeve.

As an improvement of the scheme, one end part of each kinking tube, which is close to the mounting plate, is sleeved with a sealing tube seat, and each sealing tube seat is abutted against the mounting plate; a third sealing ring is arranged between the outer end face of each sealing tube seat and the mounting plate, and a fourth sealing ring is arranged between the inner side wall of each sealing tube seat and the corresponding kinking tube.

As an improvement of the scheme, the end face of the mounting plate facing each kinking tube is provided with a circular groove correspondingly communicated with each shunt pipe, and each kinking tube extends into the corresponding circular groove and is communicated with the corresponding circular groove; the outer end face of each kinking tube extending into the circular groove is not contacted with the inner end face of the corresponding circular groove, and a gap is reserved between the kinking tube and the corresponding circular groove.

The utility model also provides a twisting machine which comprises the flow dividing device.

The implementation of the utility model has the following beneficial effects:

the plurality of kinking pipes are arranged in the rotating disc at intervals along the circumferential direction, the main pipeline in the flow divider is rotationally connected with the rotating disc, the main pipeline is provided with a plurality of flow dividing pipelines communicated with the main pipeline at intervals along the circumferential direction, and the plurality of flow dividing pipelines are correspondingly connected with the plurality of kinking pipes one by one; one end of the feeding pipeline is sleeved in the main pipeline, the port of one end of the feeding pipeline is sealed, the port of the other end of the feeding pipeline is communicated with a discharging pipeline of the filling machine, and a feeding port corresponding to the diversion pipeline is arranged on the side wall of one side of the feeding pipeline; the rotating disc is driven to rotate by the rotating mechanism, so that the main pipeline rotates relative to the feeding pipeline, each branch pipeline is communicated with the feeding port periodically, and each kinking pipe can be located on a working station periodically, so that the casing filling operation of any kinking pipe sleeved with the casing is realized, and the casing sleeving operation of other kinking pipes is simultaneously carried out. Therefore, the utility model can realize the parallel work of casing sleeving and casing filling, effectively improve the processing efficiency of the casing and further improve the overall production and processing efficiency.

In addition, the rotating disc, the kinking pipes, the main pipeline and the shunt pipeline of the utility model all rotate integrally, thereby effectively avoiding the condition that each connecting part connected with the kinking pipes is damaged due to sliding friction, reducing the number of damaged parts, lowering the maintenance cost, lowering the maintenance rate and improving the production efficiency.

The utility model provides a twisting machine, which comprises the shunting device, and the twisting machine with the shunting device also has the technical effects because the shunting device has the technical effects, and the detailed description is omitted.

Drawings

FIG. 1 is a schematic front perspective view of a flow divider according to the present invention;

FIG. 2 is a schematic diagram of a back perspective view of the shunt device provided by the present invention;

FIG. 3 is a schematic structural view of a kink tube assembly provided by the present invention;

FIG. 4 is a schematic cross-sectional view of a flow divider provided in accordance with the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4 at A;

fig. 6 is a schematic structural diagram of the twisting machine provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the utility model is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the utility model.

As shown in fig. 1-5, the present invention provides a flow splitting apparatus, which includes a kink tube assembly 1, a flow splitter 2 and a feeding conduit 3 disposed on a machine body. The kink tube assembly 1 is disposed in a movable housing, and the movable housing can move relative to the machine body. The kink tube assembly 1 comprises a kink tube 11, a rotary disk 12 and a rotary mechanism 13 for driving the rotary disk 12 to rotate, two kink tubes 11 being arranged at circumferential intervals in the rotary disk 12. The flow divider 2 comprises a main pipeline 21, the main pipeline 21 is rotatably connected with the rotating disc 12, two flow dividing pipelines 22 communicated with the main pipeline 21 are arranged at intervals along the circumferential direction, and the two flow dividing pipelines 22 are connected with the two twisting pipes 11 in a one-to-one correspondence mode. The feeding pipeline 3 is fixedly arranged and is fixed on the machine body through a fixing bracket; one end of the feeding pipeline 3 is sleeved in the main pipeline 21, the port of one end of the feeding pipeline 3 is sealed, the port of the other end of the feeding pipeline 3 is communicated with the discharging pipeline 4 of the filling machine, and a feeding port 31 corresponding to the diversion pipeline 22 is arranged on the side wall of one side of the feeding pipeline 3.

The present invention drives the rotating disc 12 to rotate through the rotating mechanism 13, so as to rotate the main pipe 21 relative to the feeding pipe 3, and further, each branch pipe 22 is periodically communicated with the feeding port 31. Each of the kinking tubes 11 can be periodically positioned at the working station to realize the filling operation of any kinking tube 11 with the casing, and the casing sleeving operation of other kinking tubes 11. Therefore, the utility model can realize the parallel work of casing sleeving and casing filling, effectively improve the processing efficiency of the casing and further improve the overall production and processing efficiency.

In addition, the rotating disc 12, the kinking tubes 11, the main tube 21 and the shunt tube 22 of the utility model rotate integrally, thereby effectively avoiding the condition that each connecting part connected with the kinking tubes 11 is damaged due to sliding friction, reducing the number of damaged parts, lowering the maintenance cost, lowering the overhaul rate and improving the production efficiency.

Wherein the main duct 21 is rotatably connected to the rotatable disc 12. A mounting plate 23 is arranged at one end of the main pipe 21 close to the rotating disc 12, and the mounting plate 23 is fixedly connected with the rotating disc 12, so that the main pipe 21 is rotatably connected with the rotating disc 12; and one end of each branch pipe 22 is communicated with the main pipe 21, and the other end is communicated with the corresponding kink pipe 11 through the mounting plate 23.

Specifically, the rotating disc 12 comprises a first rotating disc 121, a second rotating disc 122 and a connecting shaft 123 for respectively connecting the first rotating disc 121 and the second rotating disc 122, the second rotating disc 122 is provided with a connecting screw 124, the mounting plate 23 is provided with a mounting hole, and the connecting screw 124 passes through the mounting hole to be connected with the lock nut 24, so that the second rotating disc 122 is fixedly connected with the mounting plate 23; each kink tube 11 passes through the first and second rotary discs 121, 122 in turn and communicates with the corresponding diversion conduit 22. The rotating mechanism 13 is used for driving the second rotating disc 122 to rotate, so that the connecting shaft 123 and the first rotating disc 121 rotate, the whole rotating disc 12 and the main pipeline 21 rotate, the kinking tube 11 and the shunt pipeline 22 correspondingly connected with the kinking tube 11 are switched, parallel operation of casing sleeving and casing filling is achieved, the processing efficiency of the casing is effectively improved, and the overall production and processing efficiency is improved.

Preferably, a sliding sleeve 5 is arranged between the main pipeline 21 and the feeding pipeline 3, the sliding sleeve 5 is fixedly connected with the transmission shaft, and the sliding sleeve 5 is sleeved on the feeding pipeline 3; the sliding sleeve 5 is provided with through holes 51 at intervals along the circumferential direction, the through holes 51 are correspondingly communicated with each diversion pipeline 22, the second rotating disc 122 is driven to rotate through the rotating mechanism 13, so that each through hole 51 is periodically communicated with the material inlet 31, and then the sausage material periodically enters each diversion pipeline 22 and the kinking pipe 11 correspondingly connected with the diversion pipeline 22, and therefore the sausage casing on the kinking pipe 11 on the working station is filled. And because the sliding sleeve 5 that sets up has higher wear resistance and self-lubricating nature, trunk line 21 can be convenient for through sliding sleeve 5 with 3 relative movements of pan feeding pipeline and relative rotation, sliding sleeve 5 coefficient of friction is lower, is difficult for wearing and tearing pan feeding pipeline 3, effectively improves the durability and the stability of whole device, and can reduce the maintenance or the replacement cost of part.

In order to drive the rotation of the rotating disc 12. The rotating mechanism 13 comprises a driving wheel 131, a driven wheel 132 and a rotating motor 133, wherein the rotating motor 133 is connected with the driving wheel 131, and the driving wheel 131 is connected with the driven wheel 132 through a synchronous belt 134; the driven wheel 132 is sleeved on the connecting shaft 123, and the driven wheel 132 is rotatably connected with the second rotating disc 122. The driving pulley 131 is driven to rotate by the rotating motor 133, and the driven pulley 132 is driven to rotate by the synchronous belt 134, so as to drive the second rotating disc 122 to rotate, and further the connecting shaft 123 connected with the second rotating disc 122 and the first rotating disc 121 integrally rotate, so as to realize the rotation of the driving rotating disc 12.

In order to improve the sealing of the shunt device of the utility model. A first sealing ring 6 is arranged between the sliding sleeve 5 and the feeding pipeline 3, the first sealing ring 6 is respectively arranged in the inner side wall of one end part of the sliding sleeve 5 close to the feeding pipeline 3 and the outer side wall of one end part of the feeding pipeline 3 close to the sliding sleeve 5, so that the sliding sleeve 5 and the feeding pipeline 3 can effectively play a role in sealing when moving relatively or sliding relatively. A second sealing ring 7 is arranged between the sliding sleeve 5 and the main pipe sleeve, and the second sealing ring 7 is respectively arranged at two ends of the outer side wall of the sliding sleeve 5. The end part of one end, close to the mounting plate 23, of each kinking tube 11 is sleeved with a sealing tube seat 14, and each sealing tube seat 14 is abutted against the mounting plate 23; a third sealing ring 8 is arranged between the outer end face of each sealing pipe seat 14 and the mounting plate 23, and a fourth sealing ring 9 is arranged between the inner side wall of each sealing pipe seat 14 and the corresponding kinking pipe 11. Through above-mentioned seal structure can effectively improve diverging device's leakproofness, prevent to leak the material.

Preferably, the end surface of the mounting plate 23 facing each of the kink tubes 11 is provided with a circular groove 25 correspondingly communicated with each of the branch pipes 22, and each of the kink tubes 11 extends into the corresponding circular groove 25 and is communicated with the corresponding circular groove 25, so that the sausage material of each of the branch pipes 22 enters the corresponding kink tube 11 through the corresponding circular groove 25 to realize the normal filling operation of the sausage casing. And the outer end surface of each kinking tube 11 extending into the circular groove 25 is not contacted with the inner end surface of the corresponding circular groove 25, and a gap is reserved between the kinking tube and the corresponding circular groove 25. When the kinking tube 11 rotates, the kinking tube does not slide and rub with the circular groove 25 of the mounting plate 23, so that the rotation of the kinking tube 11 is convenient, and the casing is further convenient to kink; and the damage caused by sliding friction between the two is avoided, and the stability and the durability of the device are improved.

As shown in fig. 6, fig. 6 is a preferred embodiment of a twisting machine provided by the present invention, which includes the above-mentioned flow dividing device, and since the above-mentioned flow dividing device has the above-mentioned technical effects, the twisting machine having the above-mentioned flow dividing device should also have the above-mentioned technical effects, and will not be described in detail herein.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims (10)

1. A flow splitting device, comprising a kinking tube assembly, a flow splitter and a feeding pipeline;

the kinking tube component comprises kinking tubes, a rotating disk and a rotating mechanism for driving the rotating disk to rotate, and a plurality of kinking tubes are arranged in the rotating disk at intervals along the circumferential direction;

the flow divider comprises a main pipeline, the main pipeline is rotatably connected with the rotating disc, a plurality of flow dividing pipelines communicated with the main pipeline are arranged at intervals along the circumferential direction of the main pipeline, and the flow dividing pipelines are connected with the twisting pipes in a one-to-one correspondence manner;

one end of the feeding pipeline is sleeved in the main pipeline, a port at one end of the feeding pipeline is sealed, a port at the other end of the feeding pipeline is communicated with a discharging pipeline of the filling machine, and a feeding port corresponding to the diversion pipeline is arranged on the side wall of one side of the feeding pipeline;

the rotating disc is driven to rotate through the rotating mechanism, so that the main pipeline rotates relative to the feeding pipeline, and each shunting pipeline is periodically communicated with the feeding port.

2. The flow divider according to claim 1, wherein a mounting plate is disposed at an end of the main pipe close to the rotary disc, and the mounting plate is fixedly connected to the rotary disc;

one end of each shunt pipeline is communicated with the main pipeline, and the other end of each shunt pipeline penetrates through the mounting plate to be communicated with the corresponding kinking pipe.

3. The flow dividing device according to claim 2, wherein a sliding sleeve is arranged between the main pipeline and the feeding pipeline, the sliding sleeve is fixedly connected with the rotating disc, and the sliding sleeve is sleeved on the feeding pipeline;

the sliding sleeve is provided with openings which are correspondingly communicated with the diversion pipelines at intervals along the circumferential direction, and the rotating disc is driven to rotate through the rotating mechanism, so that each opening is periodically communicated with the feeding port.

4. The shunt device according to claim 2, wherein the rotating disc comprises a first rotating disc, a second rotating disc and a connecting shaft for connecting the first rotating disc and the second rotating disc respectively, the rotating mechanism is used for driving the second rotating disc to rotate, and the second rotating disc is fixedly connected with the mounting plate;

each kinking tube sequentially penetrates through the first rotating disc and the second rotating disc and is communicated with the corresponding flow distribution pipeline.

5. The flow dividing device of claim 4, wherein the rotating mechanism comprises a driving wheel, a driven wheel and a rotating motor, the rotating motor is connected with the driving wheel, and the driving wheel is connected with the driven wheel through a synchronous belt;

the driven wheel is sleeved on the connecting shaft and is rotatably connected with the second rotating disc.

6. The flow distribution device according to claim 4, wherein the second rotary disc is provided with a connecting screw, the mounting plate is provided with a mounting hole, and the connecting screw passes through the mounting hole to be connected with a locking nut.

7. The flow dividing device according to claim 3, wherein a first sealing ring is arranged between the sliding sleeve and the feeding pipeline, and the first sealing ring is respectively arranged in an inner side wall of one end part of the sliding sleeve, which is close to the feeding pipeline, and in an outer side wall of one end part of the feeding pipeline, which is close to the sliding sleeve;

and a second sealing ring is arranged between the sliding sleeve and the main pipe sleeve, and the second sealing ring is respectively arranged at two ends of the outer side wall of the sliding sleeve.

8. The flow divider of claim 2, wherein a sealing tube seat is sleeved on an end of each of the kinking tubes near the mounting plate, and each of the sealing tube seats abuts against the mounting plate;

and a third sealing ring is arranged between the outer end face of each sealing tube seat and the mounting plate, and a fourth sealing ring is arranged between the inner side wall of each sealing tube seat and the corresponding kinking tube.

9. The flow diversion device of claim 8, wherein an end surface of said mounting plate facing each said kink tube is provided with a circular recess in corresponding communication with each said flow diversion conduit, each said kink tube extending into and communicating with a corresponding said circular recess;

the outer end face of each kinking tube extending into the circular groove is not contacted with the inner end face of the corresponding circular groove, and a gap is reserved between the kinking tube and the circular groove.

10. A twisting machine, characterized in that it comprises a flow dividing device according to any one of claims 1-9.

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