CN217802681U

CN217802681U - Aggregate sieving mechanism is used in cable material production

Info

Publication number: CN217802681U
Application number: CN202221588317.8U
Authority: CN
Inventors: 但海; 程志军
Original assignee: Wuhan Gold Medal Electric Co ltd
Current assignee: Wuhan Gold Medal Electric Co ltd
Priority date: 2022-06-21
Filing date: 2022-06-21
Publication date: 2022-11-15
Anticipated expiration: 2032-06-21

Abstract

The utility model discloses an aggregate sieving mechanism is used in cable material production relates to cable aggregate material production facility technical field, construct and shake sieve the mechanism including defeated material mechanism, bulk cargo mechanism, defeated material mechanism is equipped with the discharge end, the discharge end that defeated material mechanism was located to bulk cargo mechanism and with the discharge end is linked together, be formed with the reposition of redundant personnel passageway that the defeated material mechanism output cable aggregate of multichannel confession shunts in the bulk cargo mechanism, defeated material mechanism is used for carrying the cable aggregate to bulk cargo mechanism via the discharge end, and the cable aggregate is broken up the back warp via reposition of redundant personnel passageway the unloading end of bulk cargo mechanism is discharged, it is used for accepting and sieves the cable aggregate after breaking up via bulk cargo mechanism to shake sieve the mechanism. Because the cable aggregate has been broken up through bulk cargo mechanism and has been handled, consequently fall to the cable aggregate distribution of shaking sieve mechanism more dispersed, effectively avoid falling to the cable aggregate distribution of shaking sieve mechanism too concentrated, and then effectively promote the screening effect of cable aggregate.

Description

Aggregate sieving mechanism is used in cable material production

Technical Field

The utility model relates to a cable aggregate material production facility technical field especially relates to an aggregate sieving mechanism is used in cable material production.

Background

Chinese utility model patent CN201820552266.0 discloses a low smoke and zero halogen vibrating screen for screening of cable granule, including the bank of screens, the bounding wall, the collection thing case, shock dynamo and purging device, bank of screens central authorities are provided with the screen cloth, the bounding wall setting is in the periphery of bank of screens, bounding wall one end opening forms the bin outlet, the collection thing case sets up the below at the screen cloth, be provided with the purging device in the one end of collection thing case, the other end is provided with collects the bag, be provided with first deep bead in the inside of collection thing case, be provided with second deep bead above the both ends of first deep bead, form the junk passageway between first deep bead and second deep bead.

Above-mentioned shale shaker is selected for the screening and is worked as, the cable aggregate falls to the screen cloth from the feed inlet feeding, drive screen cloth vibration through shock dynamo and realize the screening operation, because the fluid form of cable aggregate when the feed inlet feeding is for thinner bundle form, consequently, the feeding is too concentrated, the cable aggregate can not fully scatter and fall in the screen cloth, in the shale shaker in-process, often only the cable aggregate of bottom obtains abundant screening, the cable aggregate on upper strata has not yet reached the screening and just comes off the screen cloth, thereby lead to the screening effect not very ideal, can not carry out abundant high-efficient screening to the cable aggregate.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a granule screening device for cable material production to solve the technical problems that feeding of a vibrating screen for screening is too concentrated, cable granules cannot be sufficiently spread out and scattered on a screen, and accordingly screening effect is not ideal and cable granules cannot be sufficiently and efficiently screened in the prior art.

For reaching above-mentioned technical purpose, the technical scheme of the utility model provides a granule sieving mechanism is used in cable material production, including defeated material mechanism, bulk cargo mechanism and the sieve mechanism that shakes, defeated material mechanism is equipped with the discharge end, the discharge end that defeated material mechanism was located to bulk cargo mechanism and with the discharge end is linked together, be formed with the reposition of redundant personnel passageway that the defeated material mechanism output cable granule of multichannel confession shunts in the bulk cargo mechanism, defeated material mechanism is used for carrying the cable granule to bulk cargo mechanism via the discharge end, and the cable granule is via shunting the passageway and breaing up the back warp the unloading end of bulk cargo mechanism is discharged, the unloading end below of bulk cargo mechanism is located to the sieve mechanism that shakes, the sieve mechanism that shakes is used for accepting and sieves the cable granule after breaing up via bulk cargo mechanism.

In one embodiment, the bulk material mechanism comprises a shell and a scattering part fixedly arranged in the shell, the shell is provided with a feeding end, the scattering part is arranged below the feeding end and is arranged at intervals in a staggered manner to form the diversion channel, the bottom end of the shell is provided with an opening to form the discharging end, cable granules discharged from the discharging end of the material conveying mechanism can enter the shell through the feeding end to move freely in a falling mode, and the cable granules are scattered through the diversion channel formed by the scattering part and then discharged from the discharging end.

In one embodiment, the material conveying mechanism comprises an auger conveyor or a belt conveyor.

In one embodiment, the conveying mechanism comprises a conveying pipe, a conveying motor fixedly arranged on the conveying pipe, a spiral conveying shaft rotatably arranged on the conveying pipe, and a spiral rib plate fixedly arranged on the spiral conveying shaft, wherein the conveying pipe is provided with a feeding hole, the tail end of the conveying pipe is provided with an opening to form the discharging end, and the conveying motor is in transmission connection with the spiral conveying shaft to drive the spiral conveying shaft and the spiral rib plate fixedly arranged on the spiral conveying shaft to rotate to convey cable granules.

In one embodiment, the shell is fixedly arranged at the tail end of the conveying pipe and is communicated with the discharge end of the conveying pipe through the feeding end, the shell is in a structure with a narrow top and a wide bottom, and the scattering part is in a columnar structure in trapezoidal arrangement.

In one embodiment, the feeding device further comprises a feeding assembly, wherein the feeding assembly is arranged above the feeding hole of the conveying pipe and used for controlling the on-off of the feeding hole of the conveying pipe for the cable granules.

In one embodiment, the feeding device further comprises a frame, the feeding assembly comprises a feeding pipe and an electric valve, the feeding pipe is fixedly arranged on the frame and located above the feeding port of the feeding pipe, the electric valve is communicated with the feeding pipe and used for controlling the on-off of the feeding port of the feeding pipe, and cable granules enter the feeding port of the feeding pipe through the feeding pipe.

In one embodiment, the device further comprises a pressure sensor, the pressure sensor is fixedly arranged on the frame, the conveying pipe is located on the pressure sensor, the pressure sensor is used for measuring the weight of the conveying mechanism, and the pressure sensor is in signal connection with the electric valve and used for opening and closing the electric valve according to the weighing information of the pressure sensor.

In one embodiment, the vibrating screen mechanism comprises a linear vibrating screen or a square swinging screen.

In one embodiment, the vibrating screen mechanism comprises a bottom frame, a screen box arranged on the bottom frame through a spring, a vibrating motor fixedly arranged on the screen box and a screen obliquely and fixedly arranged on the screen box, wherein the discharging end of the bulk material mechanism is arranged above the high-position end of the obliquely arranged screen, the low-position end of the obliquely arranged screen is provided with a first discharging port, the inner wall of the screen box and the screen are enclosed to form a fine material cavity, and the screen box is provided with a second discharging port communicated with the fine material cavity.

Compared with the prior art, the utility model discloses below beneficial effect has: the utility model discloses an aggregate sieving mechanism is used in cable material production at the during operation, carry the cable aggregate to bulk cargo mechanism through defeated material mechanism, break up the back row to the sieve mechanism that shakes with the cable aggregate through bulk cargo mechanism, the rethread shakes sieve mechanism and shakes the sieve to the cable aggregate, because the cable aggregate has carried out the processing of breaing up through bulk cargo mechanism, consequently, fall to the cable aggregate distribution that shakes the sieve mechanism more dispersed, effectively avoid falling to the cable aggregate distribution that shakes the sieve mechanism too concentrated, and then effectively promote the screening effect of cable aggregate.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a half sectional view of the present invention;

fig. 3 is a partial cross-sectional view of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the invention, which is to be read in connection with the accompanying drawings, forms a part of this application, and together with the embodiments of the invention, serve to explain the principles of the invention and not to limit its scope.

As shown in fig. 1 to fig. 3, the utility model provides a granule sieving mechanism is used in cable material production, including defeated material mechanism 10, bulk cargo mechanism 20 and sieve mechanism 30 that shakes, defeated material mechanism 10 is equipped with discharge end 11, bulk cargo mechanism 20 locate defeated material mechanism 10 discharge end 11 and with discharge end 11 is linked together, be formed with the reposition of redundant personnel passageway that the reposition of redundant personnel of defeated material mechanism 10 output cable granule material was transported to bulk cargo mechanism 20 via discharge end 11 to defeated material mechanism 10, the cable granule material is via the reposition of redundant personnel passageway break up the back warp the unloading end 21 of bulk cargo mechanism 20 discharges, sieve mechanism 30 that shakes locates the unloading end 21 below of bulk cargo mechanism 20, sieve mechanism 30 that shakes is used for accepting and sieving the cable granule material after breaking up via bulk cargo mechanism 20.

The utility model discloses an aggregate sieving mechanism is used in cable material production at the during operation, carry the cable aggregate to bulk cargo mechanism 20 through defeated material mechanism 10, break up the back row to shaking sieve mechanism 30 through bulk cargo mechanism 20 with the cable aggregate, the rethread shakes sieve mechanism 30 and shakes the sieve to the cable aggregate, because the cable aggregate has carried out the processing of breaing up through bulk cargo mechanism 20, consequently, it distributes to shaking sieve mechanism 30's cable aggregate and disperses more, effectively avoid falling to shaking sieve mechanism 30's cable aggregate and distribute too concentratedly, and then effectively promote the screening effect of cable aggregate.

In one of the embodiments, conveying mechanism 10 includes auger conveyor or belt conveyor, and in this embodiment, conveying mechanism 10 adopts auger conveyor, and more specifically, conveying mechanism 10 includes conveying pipeline 12, sets firmly in conveying motor 13 of conveying pipeline 12, rotates auger delivery axle 14 of locating conveying pipeline 12 and sets firmly in auger delivery axle 14's auger rib 15, conveying pipeline 12 is equipped with feed inlet 121, the tail end setting of conveying pipeline 12 is the opening form in order to form discharge end 11, conveying motor 13 is connected with auger delivery axle 14 transmission to drive auger delivery axle 14 and set firmly auger delivery axle 14's auger rib 15 rotates and carries the cable aggregate.

In one embodiment, the material scattering mechanism 20 includes a shell 22 and a scattering portion 23 fixed in the shell 22, the shell 22 is provided with a feeding end 221, the shell 22 is fixed at the tail end of the conveying pipe 12 and is communicated with the discharging end 11 of the conveying pipe 12 via the feeding end 221, and the shell 22 is of a structure with a narrow top and a wide bottom. The scattering part 23 is a columnar structure in trapezoidal arrangement, the scattering part 23 is arranged below the feeding end 221 and is arranged at intervals in a staggered manner to form the diversion channel, the bottom end of the shell part 22 is provided with an opening to form the discharging end 21, and cable granules discharged from the discharging end 11 of the material conveying mechanism 10 can enter the shell part 22 through the feeding end 221 to move freely and are discharged from the discharging end 21 after being scattered through the diversion channel formed by the scattering part 23.

The scattering mechanism 20 of this embodiment is similar to a golton board, and because the scattering portions 23 are arranged at intervals in a staggered manner, when the cable granules enter the shell portion 22 through the feeding end 221 and move in a free falling manner, the cable granules will be scattered and divided into two strands each time passing through one scattering portion 23, when the two strands of cable granules fall to the scattering portion 23 of the next layer, the two strands of cable granules will be scattered and divided into four strands by the scattering portion 23 of the next layer, and so on, the cable granules are finally scattered and discharged from the discharging end 21 in a normal distribution manner, the cable granules with originally narrow discharging width are scattered and widened as much as possible and then discharged from the discharging end 21, and the problem that the discharging is too concentrated and the screening effect of the vibrating screen mechanism 30 on the cable granules is avoided.

In one embodiment, the vibrating screen mechanism 30 includes a linear vibrating screen or a square swinging screen, in this embodiment, the vibrating screen mechanism 30 employs a linear vibrating screen, and more specifically, the vibrating screen mechanism 30 includes a bottom frame 31, a screen box 33 disposed on the bottom frame 31 via a spring 32, a vibrating motor 37 fixedly disposed on the screen box 33 via a support 39, and a screen 34 obliquely fixedly disposed on the screen box 33, the discharging end 21 of the bulk material mechanism 20 is disposed above the high-level end of the obliquely disposed screen 34, the low-level end of the obliquely disposed screen 34 is provided with a first discharging port 35, the inner wall of the screen box 33 and the screen 34 enclose to form a fine material cavity 38, and the screen box 33 is provided with a second discharging port 36 communicated with the fine material cavity 38.

The cable granules are discharged from the discharging end 21 of the material dispersing mechanism 20 and fall onto the screen 34, the screen 34 is driven by the vibration motor 37 to vibrate, the cable granules falling on the screen 34 are vibrated and screened, the cable granules with larger particle sizes are discharged from the first discharging port 35, and the cable granules with smaller particle sizes fall into the fine material cavity 38 from the meshes of the screen 34 and are discharged from the second discharging port 36.

In one embodiment, the feeder assembly 40, the frame 50 and the pressure sensor 60 are further included, and the feeder assembly 40 is arranged above the feed inlet 121 of the feed conveyor pipe 12 and used for controlling the on-off of the feeding of cable granules into the feed inlet 121 of the feed conveyor pipe 12. The specific structure of the feeding assembly 40 is as follows: the feeding assembly 40 comprises a feeding pipe 41 fixedly arranged on the frame 50 through a bracket 43 and positioned above the feeding port 121 of the feeding pipe 12, and an electric valve 42 communicated with the feeding pipe 41, wherein the electric valve 42 is used for controlling the on-off of the feeding of the cable granules into the feeding port 121 of the feeding pipe 12 through the feeding pipe 41.

The pressure sensor 60 is fixedly arranged on the frame 50, the material conveying pipe 12 is located on the pressure sensor 60, the pressure sensor 60 measures the weight of the material conveying mechanism 10, and the pressure sensor 60 is in signal connection with the electric valve 42, so that the electric valve 42 can open and close according to the weighing information of the pressure sensor 60.

In this embodiment, the feeding pipe 41 is connected to the pre-production equipment of cable aggregate, so that the cable aggregate enters the feeding port 121 of the feeding pipe 12 through the feeding pipe 41, the pressure sensor 60 and the electric valve 42 are respectively connected to an upper computer such as a PLC, the upper computer sets a pressure upper limit value for the pressure sensor 60, when the weight of the feeding mechanism 10 measured by the pressure sensor 60 exceeds the pressure upper limit value, the upper computer controls the electric valve 42 to close, the feeding of the cable aggregate into the feeding port 121 of the feeding pipe 12 is stopped, when the feeding mechanism 10 continuously operates to discharge the cable aggregate in the feeding pipe 12 from the discharging end 21 of the material scattering mechanism 20, the weight of the feeding mechanism 10 becomes light, the weight measured by the pressure sensor 60 is lower than the pressure upper limit value, the upper computer controls 42 to open, and the cable aggregate is fed into the feeding port 121 of the electric valve 12 again. The purpose of the present embodiment of using the pressure sensor 60 and the feeding component 40 to perform the linkage control of the feeding amount is to control the number of the cable granules in the feeding pipe 12, and avoid the excessive number of the cable granules in the feeding pipe 12, so as to cause the excessive number of the cable granules entering the material scattering mechanism 20 and discharged from the discharging end 21 of the material scattering mechanism 20, and further cause the excessive number of the cable granules falling onto the screen 34 of the vibrating and sieving mechanism 30 to affect the sieving effect.

The utility model discloses a cable material production is with aggregate sieving mechanism's theory of operation is as follows, cable aggregate gets into conveying pipeline 12 from feed inlet 121 via inlet pipe 41, rotate the cable aggregate through conveying motor 13 drive auger delivery axle 14 and the spiral gusset 15 that sets firmly in auger delivery axle 14, make cable aggregate get into shell 22 from pan feeding end 221 and make free fall motion, and break up the back and discharge from unloading end 21 and fall to the screen cloth 34 of sieve mechanism 30 that shakes via breaking up portion 23, rethread vibrating motor 37 drives the vibration of screen cloth 34, sieve the cable aggregate that falls in screen cloth 34 that shakes, accomplish the screening of cable material production with aggregate.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims

1. The utility model provides a granule sieving mechanism is used in cable material production, its characterized in that, is including defeated material mechanism, bulk cargo mechanism and sieve mechanism that shakes, defeated material mechanism is equipped with the discharge end, bulk cargo mechanism locate defeated material mechanism the discharge end and with the discharge end is linked together, be formed with the reposition of redundant personnel passageway that the defeated material mechanism output cable granule of multichannel confession was shunted in the bulk cargo mechanism, defeated material mechanism is used for carrying the cable granule to bulk cargo mechanism via the discharge end, and the cable granule is via shunting the passageway after breaking up the unloading end of bulk cargo mechanism is discharged, sieve mechanism that shakes locates the unloading end below of bulk cargo mechanism, sieve mechanism that shakes is used for accepting and sieves the cable granule after breaking up via bulk cargo mechanism.

2. The apparatus as claimed in claim 1, wherein the dispersing mechanism includes a housing and a scattering portion fixed in the housing, the housing has a feeding end, the scattering portion is disposed below the feeding end and is arranged in a staggered manner at intervals to form the diversion channel, the bottom of the housing has an opening to form the discharging end, and the cable pellets discharged from the discharging end of the feeding mechanism can enter the housing through the feeding end and can freely fall into the housing, and can be discharged from the discharging end after being scattered through the diversion channel formed by the scattering portion.

3. The apparatus of claim 1, wherein the feeding mechanism comprises an auger conveyor or a belt conveyor.

4. The apparatus as claimed in claim 2, wherein the feeding mechanism includes a feeding pipe, a feeding motor fixed to the feeding pipe, a spiral conveying shaft rotatably disposed on the feeding pipe, and a spiral rib fixed to the spiral conveying shaft, the feeding pipe has a feeding opening, the tail end of the feeding pipe is open to form the discharging end, and the feeding motor is in transmission connection with the spiral conveying shaft to drive the spiral conveying shaft and the spiral rib fixed to the spiral conveying shaft to rotate to convey the cable particles.

5. The apparatus as claimed in claim 4, wherein the housing is fixed to the end of the feeding pipe and is connected to the discharge end of the feeding pipe via the inlet end, the housing has a narrow top and a wide bottom, and the scattering portion has a trapezoidal column structure.

6. The apparatus as claimed in claim 4, further comprising a feeding assembly disposed above the feeding inlet of the feeding pipe for controlling the on-off of the feeding inlet of the feeding pipe.

7. The apparatus as claimed in claim 6, further comprising a frame, wherein the feeding assembly comprises a feeding tube fixed to the frame and located above the feeding inlet of the feeding tube, and an electric valve connected to the feeding tube, the electric valve is used to control the feeding of the cable material into the feeding inlet of the feeding tube through the feeding tube.

8. The apparatus as claimed in claim 7, further comprising a pressure sensor, wherein the pressure sensor is fixed to the frame, the feeding pipe is located on the pressure sensor for measuring the weight of the feeding mechanism, and the pressure sensor is in signal connection with the electric valve for opening and closing the electric valve according to the weighing information of the pressure sensor.

9. A screening apparatus for granules used in the production of cable materials according to any one of claims 1 to 8, wherein said vibrating screen mechanism comprises a linear vibrating screen or a square swinging screen.

10. The apparatus as claimed in any one of claims 1 to 8, wherein the vibrating screen mechanism comprises a bottom frame, a screen box disposed on the bottom frame via a spring, a vibrating motor fixedly disposed on the screen box, and a screen obliquely and fixedly disposed on the screen box, the discharge end of the bulk material mechanism is disposed above the high end of the obliquely disposed screen, the low end of the obliquely disposed screen is provided with a first discharge port, the inner wall of the screen box and the screen enclose to form a fine material chamber, and the screen box is provided with a second discharge port communicated with the fine material chamber.