CN219057924U - Feeding conveying frame of carpet packaging vehicle production line - Google Patents

Abstract

The utility model discloses a feeding and conveying frame of a carpet packaging vehicle production line, which comprises a frame body A, wherein a conveying belt A is arranged on the frame body A, a material blocking guide frame and a conveying guide frame A are sequentially arranged on one side of the conveying belt A on the top surface of the frame body A, a conveying guide frame B is arranged on the other side of the conveying belt A, the material blocking guide frame sequentially comprises a material blocking part and a guide part A, the conveying guide frame A sequentially comprises a guide part B, a guide part C and a guide part D, and the conveying guide frame B sequentially comprises a guide part E, a guide part F, a guide part G and a guide part H. The feeding conveying frame of the carpet packaging vehicle production line solves the problems of low efficiency and high labor intensity of the carpet packaging vehicle, and can be used for feeding at a plurality of stations, so that the applicability of the feeding conveying frame can be improved, and the feeding conveying frame can be suitable for feeding at a plurality of different positions; and if a plurality of stations are used for feeding simultaneously, the feeding efficiency can be effectively improved.

Description

Feeding conveying frame of carpet packaging vehicle production line

Technical Field

The utility model relates to the technical field of carpet production turnover, in particular to a feeding conveying frame of a carpet packaging vehicle production line.

Background

The carpet is a floor dressing made of natural fibers or chemical synthetic fibers such as cotton, hemp, wool, silk, grass and the like through braiding, tufting or spinning by a manual or mechanical process. It is one of the traditional arts and crafts with a long history worldwide. The floor covering for houses, hotels, gymnasiums, exhibition halls, vehicles, ships, airplanes and the like has the effects of reducing noise, heat insulation and decoration.

The carpet produced is not convenient for turnover transportation due to large area, so the carpet is generally rolled into a roll and then stored for turnover. When a carpet manufacturer needs to load and unload carpet, a carpet roll needs to be loaded. Conventional carpet loading is performed by transferring a pallet, on which a large number of carpet rolls are prevented from being stacked, to a carrier, and then an operator delivers the carpet rolls placed on the pallet near the carrier to a cargo compartment of the carrier, and loading the carpet rolls by a worker in the cargo compartment. Because the goods box has certain length, the staff in the goods box needs to turn over the carpet roll on the ground staff to the deep in the goods box for loading, and the height in the goods box is generally up to or more than 2 meters, so the loading at the high position in the goods box is very troublesome, and because the carpet area is relatively large, the weight of the rolled carpet roll is also heavy, so the labor intensity is high and the efficiency is relatively low. Moreover, the inside of the cargo compartment is not ventilated, so that the cargo compartment is very stuffy when being loaded. The method comprises the steps of carrying out a first treatment on the surface of the In addition, the existing carpet loading is operated outdoors, so that the loading efficiency can be very influenced when weather requirements are high and weather is bad, and even the carpet cannot be loaded due to the fact that the carpet roll is possibly wetted.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the feeding conveying frame of the carpet packaging vehicle production line, solves the problems of low carpet packaging vehicle efficiency and high labor intensity, and can feed at a plurality of stations, thereby improving the applicability of the feeding conveying frame and being applicable to feed at a plurality of different positions; and if a plurality of stations are used for feeding simultaneously, the feeding efficiency can be effectively improved.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a carpet package car production line's material loading conveying frame, includes support body A, it is connected with conveyer belt A to rotate on the support body A, conveyer belt A's top surface is towards ascending conveying frame conveying, support body A top surface, be located conveyer belt A one side and be equipped with fender material guide frame and conveying guide frame A in proper order along conveyer belt A's direction of delivery, support body A top surface, be located conveyer belt A opposite side and be equipped with conveying guide frame B corresponding to conveying guide frame A, fender material guide frame includes fender material portion and guide part A in proper order along conveyer belt A's direction of delivery, conveying guide frame A includes guide part B, guide part C and guide part D in proper order along conveyer belt A's direction of delivery, guide part B's top end position assorted corresponds with guide part A, conveyer belt A's direction of delivery includes guide part E, guide part F, guide part G and guide part H in proper order along conveyer belt A's direction of delivery, guide part E, guide part F, guide part G and guide part H respectively with guide part A, guide part B, guide part C correspond guide part D, guide part D and guide part A, guide part A is equipped with guide part A along the direction of delivery, guide part A and guide part A's bottom parallel to each other, guide part A is equipped with guide part and guide part A along the direction of delivery, guide part A's bottom parallel to guide part A, guide part A is equipped with guide part, guide part A and guide part C and guide part is equipped with respectively along the direction of delivery side.

According to a further improvement scheme of the utility model, a plurality of elastic plates are sequentially arranged on one side end face of the material blocking part facing to the conveying guide frame B at equal intervals along the extending direction of the material blocking part, at least one guide roller A is respectively arranged on two sides of the elastic plates on one side end face of the material blocking part facing to the conveying guide frame B, a plurality of guide rollers A are respectively arranged on opposite end faces of the guide part A and the guide part E at equal intervals along the extending direction of the guide part A, a plurality of guide rollers A and a plurality of guide poking sheets are respectively arranged on opposite end faces of the guide part B and the guide part F at equal intervals along the extending direction of the guide part B, and a plurality of guide rollers B are respectively arranged on opposite end faces of the guide part C and the guide part G at equal intervals along the extending direction of the guide part D and the guide part H.

According to a further improvement scheme of the utility model, one end of the conveying guide frame B, which is located at the position, far away from the guide part F, of the guide part E is further provided with a guide part I and a guide part J in sequence along the direction, far away from the guide part F, the guide part I inclines to the outer side of the frame body A corresponding to the side where the guide part I is located along the opposite direction of the conveying belt A, a plurality of guide rollers A are sequentially and equidistantly arranged at one side of the guide part I facing the guide part A and along the extending wind direction of the guide part I, the guide rollers A of the guide part I are coplanar at one side of the guide part I facing away from the guide part I, and the guide part J is of an arc-shaped structure bent along the guide part I facing one side of the guide roller A facing away from the guide part I.

The utility model further adopts the improvement scheme that the guide roller A and the guide roller B are respectively and rotatably connected to respective roller frames A, the edges of the two sides of the elastic plate are respectively fixed with a material blocking guide frame to form a U-shaped structure, a vertical rod is connected to a bending part in the elastic plate of the U-shaped structure, a connecting frame is fixedly connected to one side of the vertical rod facing the material blocking guide frame, one side of the roller frame A, which is opposite to the guide roller A or the guide roller B, and one side of the connecting frame, which is opposite to the vertical rod, are respectively and fixedly provided with a connecting bolt A, and the roller frames A and the connecting frames are respectively connected with the material blocking guide frame, the conveying guide frame A or the conveying guide frame B through the connecting bolts A and the corresponding connecting nuts A; springs are respectively sleeved on the connecting bolts A of the roller shaft frame A which is rotationally connected with the guide roller A and positioned between the roller shaft frame A and the material blocking guide frame or the conveying guide frame A, and on the connecting bolts A of the connecting frame and positioned between the connecting frame and the material blocking guide frame, and the springs are provided with pre-pressing acting forces; the connecting bolt A of the roller shaft frame A which is fixedly arranged and rotationally connected with the guide roller A is directly fixed with the conveying guide frame A or the conveying guide frame B through the connecting nut A.

The utility model further improves the scheme that one side of the elastic plate of the material blocking part, which faces away from the material blocking part, is coplanar with one side of the guide roller A of the material blocking part, which faces away from the material blocking part, and the plane is parallel to the material blocking part.

The utility model is further improved in that the distance between the corresponding guide rollers A of the guide part A and the guide part E is reduced along the conveying direction of the conveying belt A; the guide roller A of the guide part B is coplanar with one side of the guide part B back to the guide part B, and the plane is tangent to the opposite side of the last guide roller A of the guide part A along the direction of the conveyor belt A; the guiding roller A of the guiding part F is coplanar with one side of the guiding part F, and the plane is tangent to one side of the last guiding roller A of the guiding part E along the direction of the conveying belt A, which is opposite to the guiding part E.

A further development of the utility model is that the distance between the free sides of the guide webs of the guide sections B and F decreases in the conveying direction of the conveyor belt a.

According to a further development of the utility model, the guide blades of the guide part B and the guide part F are arranged obliquely along the conveying direction of the conveying belt A.

The utility model further improves the scheme that the guide roller B of the guide part D is coplanar with one side of the guide part D facing away from the guide part D, and the plane guide parts D are parallel; the guide roller B of the guide part H is coplanar with one side of the back guide part H, and the plane guide parts H are parallel.

According to a further improved scheme, a feeding air supply device is fixedly connected to the top of the frame body A and is correspondingly positioned above the guide part D and the guide part H, two side brackets A of the feeding air supply device are respectively and fixedly connected to two sides of the frame body A, and the air outlet direction of the feeding air supply device faces the frame body A to correspond to the conveying starting end of the conveying belt A.

In summary, the utility model has the following advantages:

through the effect of the feeding conveying frame, a plurality of stations can be used for feeding, so that the applicability of the feeding conveying frame can be improved, and the feeding conveying frame can be suitable for feeding at a plurality of different positions; and if a plurality of stations are used for feeding simultaneously, the feeding efficiency can be effectively improved.

Through the effect of material loading conveying frame to can make the carpet of material loading roll up and convey in the middle part that is located conveyer belt A under the effect of guide roll and direction plectrum in the conveying process, avoid the carpet to roll up position angle in the conveying process disordered, so that the carpet is rolled up and is finally blanked to both sides respectively through the effect of dividing work or material rest and swing frame when blanking frame, so that the operating personnel in the goods railway carriage or compartment can both carry out the loading of carpet book, improve the loading efficiency of carpet book.

Drawings

FIG. 1 is a schematic cross-sectional front view of a conveyor truck production line for carpet rolls.

Fig. 2 is an enlarged schematic top view of the feeding air supply device with the feeding conveyor frame hidden.

Fig. 3 is an enlarged schematic top view of the ascending conveyor.

Fig. 4 is an enlarged schematic top view of the telescopic conveyor with the charge air supply device hidden.

Fig. 5 is an enlarged schematic cross-sectional view of the end of the telescoping boom distal to the ascending boom.

Fig. 6 is an enlarged schematic cross-sectional view of the end of the blanking frame remote from the telescoping transfer frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, 2, 3, 4, 5 and 6, a cushion blanket roll conveying and loading production line comprises a feeding conveying frame 1, a lifting conveying frame 2 and a telescopic conveying frame 3 which are sequentially connected in a conveying mode, wherein the feeding conveying frame 1 sequentially conveys a fed carpet roll to the lifting conveying frame 2 and the telescopic conveying frame 3, and the carpet roll is conveyed into a truck carriage through the telescopic conveying frame 3 to be loaded.

The feeding conveying frame 1 comprises a frame body A100, a conveying belt A101 is rotationally connected to the frame body A100, the top surface of the conveying belt A101 conveys towards the lifting conveying frame 2, a material blocking guide frame 104 and a conveying guide frame A105 are sequentially arranged on one side of the frame body A100 along the conveying direction of the conveying belt A101, a conveying guide frame B106 is arranged on the top surface of the frame body A100 and on the other side of the conveying belt A101 corresponding to the conveying guide frame A105, the material blocking guide frame 104 sequentially comprises a material blocking part 111 and a guide part A112 along the conveying direction of the conveying belt A101, the conveying guide frame A105 sequentially comprises a guide part B113, a guide part C114 and a guide part D115 along the conveying direction of the conveying belt A101, the starting end of the guide part B113 corresponds to the tail end position of the guide part A112 in a matched mode, the conveying guide frame B106 includes a guide portion E116, a guide portion F117, a guide portion G118, and a guide portion H119 in order along the conveying direction of the conveying belt a101, the guide portion E116, the guide portion F117, the guide portion G118, and the guide portion H119 are respectively disposed corresponding to the guide portion a112, the guide portion B113, the guide portion C114, and the guide portion D115, the blocking portion 111, the guide portion B113, the guide portion D115, the guide portion F117, and the guide portion H119 are respectively disposed along a conveying direction parallel to the conveying belt a101, and the guide portion a112, the guide portion C114, the guide portion E116, and the guide portion G118 are respectively inclined toward the middle of the conveying belt a101 along the conveying direction of the conveying belt a101, so that a distance between the guide portion a112 and the guide portion E116, and a distance between the guide portion C114 and the guide portion G118 are respectively reduced along the conveying direction of the conveying belt a 101.

The blocking part 111 is provided with a plurality of elastic plates 108 in sequence at equal intervals along the extending direction of the blocking part 111 facing one end surface of the conveying guide frame B106, at least one guide roller a107 is further provided on each of two sides of the elastic plates 108 facing one end surface of the conveying guide frame B106, a plurality of guide rollers a107 are provided at equal intervals along the extending direction of each of the opposite end surfaces of the guide part a112 and the guide part E116, a plurality of guide rollers a107 and a plurality of guide pulling pieces 109 are provided at equal intervals along the extending direction of each of the opposite end surfaces of the guide part B113 and the guide part F117, and a plurality of guide rollers B110 are provided at equal intervals along the extending direction of each of the opposite end surfaces of the guide part C114 and the guide part G118 and the opposite end surfaces of the guide part D115 and the guide part H119.

The conveying guide frame B106 is located one end of the guide part E116 far away from the guide part F117, and is further provided with a guide part I120 and a guide part J121 in sequence along the direction far away from the guide part F117, the guide part I120 inclines to the outer side of the frame body A100 corresponding to the side where the guide part I120 is located along the opposite direction of the conveying belt A101, one side of the guide part I120 facing the guide part A112 and a plurality of guide rollers A107 are sequentially and equidistantly arranged along the extending wind direction of the guide part I120, the guide rollers A107 of the guide part I120 are coplanar on one side of the guide part I120 opposite to the guide rollers A107 of the guide part I120, and the guide part J121 is of an arc-shaped structure which is bent along the guide part I120.

The guide roller A107 and the guide roller B110 are respectively and rotatably connected to respective roller frames A123, two side edges of the elastic plate 108 are respectively fixed with the material blocking guide frame 104 to form a U-shaped structure, a vertical rod 124 is connected to a bending part in the elastic plate 108 of the U-shaped structure, a connecting frame 125 is fixedly connected to one side of the vertical rod 124 facing the material blocking guide frame 104, a connecting bolt A126 is respectively fixed to one side of the roller frame A123 facing away from the guide roller A107 or the guide roller B110 and one side of the connecting frame 125 facing away from the vertical rod 124, and the roller frame A123 and the connecting frame 125 are respectively connected with the material blocking guide frame 104, the conveying guide frame A105 or the conveying guide frame B106 through the connecting bolt A126 and corresponding connecting nuts A127; springs 128 are respectively sleeved on connecting bolts A126 of a roller shaft frame A123 which is rotationally connected with the guide roller A107 and positioned between the roller shaft frame A123 and the material blocking guide frame 104 or the conveying guide frame A105 and on connecting bolts A126 of a connecting frame 125 and positioned between the connecting frame 125 and the material blocking guide frame 104, and the springs 128 are provided with pre-pressing acting forces; the connection bolt a126 fixedly provided to the roller frame a123 rotatably connected to the guide roller a107 is directly fixed to the conveyance guide frame a105 or the conveyance guide frame B106 by a connection nut a 127.

The side of the elastic plate 108 of the blocking part 111 facing away from the blocking part 111 is coplanar with the side of the guiding roller a107 of the blocking part 111 facing away from the blocking part 111, and the plane is parallel to the blocking part 111.

The distance between the guide portion a112 and each corresponding guide roller a107 of the guide portion E116 decreases along the conveying direction of the conveyor belt a 101.

The guiding roller A107 of the guiding part B113 is coplanar with one side of the guiding part B113, and the plane is tangent to the opposite side of the last guiding roller A107 of the guiding part A112 along the direction of the conveyor belt A101; the guide roller a107 of the guide F117 faces away from the guide F117, and the plane is tangential to the side of the guide E116 facing away from the guide E116 of the last guide roller a107 of the guide E116 in the direction of the conveyor a 101.

The distance between the guide portion B113 and the free side of the guide paddle 109 of the guide portion F117 decreases along the conveying direction of the conveyor belt a 101.

The guide B113 and the guide F117 are each inclined along the conveying direction of the conveyor a 101.

The free end edges of the guide pulling pieces 109 of the guide part B113 are coplanar, and the plane is tangent to one side of the last guide roller A107 of the guide part B113, which is opposite to the guide part B113, along the conveying direction of the conveying belt A101; the free end edges of the guide tabs 109 of the guide F117 are coplanar and tangent to the side of the last guide roller a107 of the guide F117 facing away from the guide F117 in the conveying direction of the conveyor belt a 101.

The distance between the guide part B113 and the last guide pulling piece 109 of the guide part F117 along the conveying direction of the conveying belt a101 is smaller than the distance between the guide part C114 and the first guide roller B110 of the guide part G118 along the conveying direction of the conveying belt a101, and is larger than the distance between the guide part C114 and the last guide roller B110 of the guide part G118 along the conveying direction of the conveying belt a 101.

When the spring 128 of the guide roller a107 of the guide portion B113 is fully compressed, the side of the guide roller a107 facing away from the guide portion B113 is flush with the corresponding side of the first guide roller B110 of the guide portion C114 along the conveying direction of the conveyor belt a 101; when the spring 128 of the guide roller a107 of the guide portion F117 is fully compressed, the side of the guide roller a107 facing away from the guide portion F117 is flush with the corresponding side of the guide roller B110 of the first guide portion G118 in the conveying direction of the conveyor belt a 101.

The guide roller B110 of the guide part D115 is coplanar with one side of the guide part D115 facing away from the guide part D115, and the plane guide parts D115 are parallel; the guide roller B110 of the guide portion H119 is coplanar with one side of the guide portion H119 facing away from the guide portion H119, and the planar guide portions H119 are parallel.

The top of the frame body A100 is fixedly connected with a feeding air supply device 129 which is correspondingly positioned above the guide part D115 and the guide part H119, two side brackets A of the feeding air supply device 129 are respectively fixedly connected to two sides of the frame body A100, and the air outlet direction of the feeding air supply device 129 faces towards the frame body A100 to correspond to the conveying starting end of the conveying belt A101.

The material blocking guide frame 104, the conveying guide frame A105 and the conveying guide frame B106 are respectively and fixedly connected with the corresponding side frame body A100 through connecting pieces A122.

The conveying belt A101 is driven by driving rollers A102 arranged at two ends of the frame body A100, and supporting legs A103 are arranged at the bottom of the frame body A100.

The lifting conveying frame 2 comprises a frame body B200, a conveying belt B201 is rotatably connected to the frame body B200, the top surface of the conveying belt B201 is conveyed towards the telescopic conveying frame 3, the top surface of the conveying belt B201 is obliquely arranged upwards along the direction from the feeding conveying frame 1 to the telescopic conveying frame 3, conveying guide frames C204 are symmetrically arranged on the top surface of the lifting conveying frame 2 and located on two sides of the conveying belt B201 respectively, the conveying guide frames C204 sequentially comprise conveying guide parts K206 and guide parts L207 along the conveying direction of the conveying belt B201, the guide parts K207 are respectively inclined towards the middle of the conveying belt B201 along the conveying direction of the conveying belt B201, so that the distance between the guide parts K207 is reduced along the conveying direction of the conveying belt B201, and the guide parts L208 are respectively arranged along the conveying direction parallel to the conveying direction of the conveying belt A101.

The opposite end surfaces of the guide part K206 and the opposite end surfaces of the guide part L207 are respectively provided with a plurality of guide rollers C205 at equal intervals along the respective extending directions, the guide rollers C205 of the guide part K206 are coplanar with one side of the guide part K206 back to the same plane, the plane is parallel to the guide part K206, the guide rollers C205 of the guide part L207 are coplanar with one side of the guide part L207 back to the same plane, and the plane is parallel to the guide part L207; the distance between the respective corresponding guide rollers C205 of the guide portion K206 decreases along the conveying direction of the conveyor belt B201.

The guide rollers C205 are respectively and rotatably connected to respective roller frames B209, connecting bolts B210 are respectively fixed on one sides of the roller frames B209 back to the guide rollers C205, and the roller frames B209 are respectively connected with the conveying guide frames C204 through the connecting bolts B210 and corresponding connecting nuts B211; the connection bolt B210 fixedly provided to the roller frame B209 rotatably connected to the guide roller C205 is directly fixed to the conveyance guide frame C204 by the connection nut B211.

The distance between the corresponding first guide rollers C205 of the guide portion K206 along the direction of the conveyor belt B201 is equal to the distance between the guide roller B110 of the guide portion D115 and the corresponding guide roller B110 of the guide portion H119; the distance between the last corresponding guide roller C205 of the guide portion K206 along the direction of the conveyor belt B201 is equal to or greater than the distance between the two corresponding guide rollers C205 of the guide portion L207.

The conveying guide frames C204 are fixedly connected with the corresponding side frame body B200 through connecting pieces B208.

The conveyor belt B201 is driven by driving rollers B202 arranged at two ends of the frame body B200, and supporting legs B203 are arranged at the bottom of the frame body B200.

The telescopic conveying frame 3 comprises a fixing frame body 300, a movable frame body A301, a movable frame body B302 and a conveying belt C303 which are sequentially connected from outside to inside, wherein the movable frame body A301 reciprocates along the length direction of the fixing frame body 300 at one end, far away from the lifting conveying frame 2, of the fixing frame body 300, the movable frame body B302 reciprocates along the length direction of the movable frame body A301 at one end, far away from the lifting conveying frame 2, of the movable frame body A301, driving rollers C304 are respectively and correspondingly arranged at the upper part and the lower part, close to one end, of the lifting conveying frame 2 in the fixing frame body 300, driving rollers D305 are rotatably connected at the upper part, far away from one end, of the lifting conveying frame 2 in the movable frame body B302, driving rollers E306 are rotatably connected at the lower part, close to one end, of the lifting conveying frame 2, of the movable frame body B302, the lower part of the movable frame body A301, which is close to one end of the lifting transmission frame 2, is rotationally connected with a driving roller G308, the position, which is far away from one end of the lifting transmission frame 2, of the movable frame body A301 and is positioned between the driving roller E306 and the driving roller G308 is rotationally connected with a driving roller F307, the position, which is far away from one end of the lifting transmission frame 2, of the fixed frame body 300 and is positioned below the driving roller G308, is rotationally connected with a driving roller H309, the driving roller E306 reciprocates along the length direction of the movable frame body B302, the driving roller G308 reciprocates along the length direction of the movable frame body A301, and the driving belt C303 sequentially winds a driving roller C304, a driving roller D305, a driving roller E306, a driving roller F307, a driving roller G308, a driving roller H309 and a driving roller C304, which are positioned on the upper part of the fixed frame body 300, which is close to one end of the lifting transmission frame 2.

The fixed frame 300 comprises a frame bottom plate 312, two opposite sides of the top length direction of the frame bottom plate 312 are respectively and fixedly connected with a vertical plate A, a rotating shaft C317 of a driving roller C304 is respectively and rotatably connected with opposite side end surfaces of the vertical plate A through a bearing seat C324 and a rotating shaft H322 of the driving roller H309 through a bearing seat H, the movable frame A301 comprises a pair of vertical plates B which are arranged in parallel with the vertical plate A, the movable frame B302 comprises a pair of vertical plates C which are arranged in parallel with the vertical plate B, two ends of a rotating shaft D318 of the driving roller D305 are respectively and rotatably connected with opposite side end surfaces of the vertical plate C at corresponding ends through a bearing seat D325 and a rotating shaft E319 of the driving roller E306, two ends of a rotating shaft F320 of the driving roller F307 are respectively and rotatably connected with opposite side end surfaces of the vertical plate B at corresponding ends through a bearing seat F327, the vertical plate B corresponds to the position of the rotating shaft G321, the vertical plate B is provided with a pair of vertical plates C310 which are arranged in parallel with the vertical plate B, the rotating shaft C is symmetrically provided with a through hole 311 along the length direction of the movable frame A, and the bar-shaped through hole is arranged along the length direction of the rotating shaft C311, and the bar-shaped through hole is correspondingly moved along the rotating shaft C311.

The end face of the vertical plate A, which faces the corresponding side vertical plate B, is fixedly connected with a hydraulic cylinder B337 arranged along the extending direction of the strip-shaped through hole A310, the end part of a telescopic rod B338 of the hydraulic cylinder B337 is fixedly connected with a bearing seat F327 of the rotating shaft F320 extending out of the vertical plate B, the end face of the vertical plate B, which faces the corresponding side vertical plate A, is fixedly connected with a damping cylinder B339 arranged in parallel with the hydraulic cylinder B337, and the end part of a damping rod B340 of the damping cylinder B339 is fixedly connected with a bearing seat G328 of the rotating shaft G321 extending out of the vertical plate B; the end face of the vertical plate B, which faces the corresponding side vertical plate C, is fixedly connected with a hydraulic cylinder A332 which is arranged along the extending direction of the strip-shaped through hole B311, the end part of a telescopic rod A333 of the hydraulic cylinder A332 is fixedly connected with a bearing seat D325 of the rotating shaft D318, which extends out of the vertical plate C, the end face of the vertical plate C, which faces the corresponding side vertical plate B, is fixedly connected with a damping cylinder A334 which is arranged in parallel with the hydraulic cylinder A332, and the end part of a damping rod A335 of the damping cylinder A334 is fixedly connected with a bearing seat E326 of the rotating shaft E319, which extends out of the vertical plate C.

An adjusting sleeve A336 is arranged on one side of the bearing seat E326 facing the damping rod A335, an annular groove A is coaxially arranged on the inner wall of the adjusting sleeve A336 and on one end of the bearing seat E326, the annular groove A is in matched rotation connection with a matched connecting convex ring A fixedly arranged on the bearing seat E326, and a threaded hole A matched with a thread A arranged on the end part of the damping rod A335 is coaxially arranged on the inner wall of the adjusting sleeve A336 and on one end of the damping rod A335; the bearing seat G328 is equipped with adjusting sleeve B341 towards one side of damping rod B340, adjusting sleeve B341 inner wall, towards bearing seat G328 one end coaxial center be equipped with ring channel B, ring channel B and the fixed connection bulge loop B of establishing of bearing seat G328 match and rotate to be connected, adjusting sleeve B341 inner wall, towards damping rod B340 one end coaxial center be equipped with damping rod B330 tip screw hole B that establishes the screw thread B match.

The driving motor C329 is fixedly connected to the position of the rotating shaft C317 of the driving roller C304, which is positioned at the upper part or the lower part and is close to one end of the lifting conveying frame 2, in the fixed frame body 300, the driving wheel 330 is fixedly connected to the output shaft of the driving motor C329 in a coaxial manner, and the driving wheel 330 is in transmission connection with the driven wheel 331 which is fixedly connected to the rotating shaft C317 in a coaxial manner.

One end of the bottom of the frame body bottom plate 21, which is close to the lifting conveying frame 2, is in swing connection with the top of the supporting leg C313 through a connecting shaft, and one end of the bottom of the frame body bottom plate 21, which is far away from the lifting conveying frame 2, is in swing connection with the end part of the telescopic rod C of the hydraulic cylinder C315 at the top of the supporting leg D314 through a swing shaft.

The top of the supporting leg C314 and the end part of the telescopic rod C are respectively and fixedly connected with a swing shaft connecting plate A316, the bottom of the frame body bottom plate 21 is respectively and correspondingly provided with a matched swing shaft connecting plate B344 corresponding to the position of the swing shaft connecting plate A316, and the swing shaft respectively penetrates through shaft holes formed by the daytime connecting plate A316 and the swing shaft connecting plate B344.

The charging and air-supplying device 342 is fixedly connected above the vertical plate B302 and fixedly connected with one end far away from the ascending and conveying frame 2, and the charging and air-supplying device 342 spans between the vertical plates B302 through the connecting bracket 343.

The utility model discloses a flexible blanket roll warehouse, including material loading conveying frame 1, rising conveying frame 2 and flexible conveying frame 3, the storehouse 4 that all is located the square blanket roll of heap, one side lateral wall of storehouse 4 is equipped with out of the warehouse window 5, the one end that rising conveying frame 2 was kept away from to flexible conveying frame 3 is towards out of the warehouse window 5, the outside bottom that storehouse 4 is located out of warehouse window 5 place lateral wall is equipped with charging stand 6, charging stand 6 is last to be placed and is used for the blanking frame 7 with flexible conveying frame 3 demountable connection, outside upper portion that storehouse 4 is located out of warehouse window 5 place lateral wall is equipped with weather shield 11, charging stand 6 is located the within range of weather shield 11.

The blanking frame 7 comprises a base 700, a lifting table 709 is movably connected to the top of the base 700 up and down, a connecting rod 702 connected with a telescopic conveying frame 3 is arranged on one side of the lifting table 709 facing the delivering window 5, a material separating frame 701 is fixedly connected to the top of the lifting table 709, a plurality of material blocking vertical rods 704 are respectively fixed on two side edges of the top surface of the lifting table 709 along the edges, the material separating frame 701 comprises a bar frame A710 and a bar frame B711 which are mutually fixed, the bar frame A710 and the bar frame B711 respectively face the material blocking vertical rods 704 on the corresponding sides, one side edge of the bar frame A710 is fixedly connected with one side edge of the bar frame B711, the opposite side edge of the bar frame A710 fixed with the bar frame B711 and the opposite side edge of the bar frame B711 fixed with the top of the lifting table 709, thereby make bar frame A710, bar frame B711 and elevating platform 709 top surface enclose into triangle-shaped structure, the contained angle of bar frame A710 and elevating platform 709 top surface and the contained angle of bar frame B711 and elevating platform 709 top surface are the acute angle in the triangle-shaped structure, bar frame A710 and bar frame B711's border department is connected with swing frame 703 through swing axis A712 swing, swing axis A712 is located the bottom middle part of swing frame 703, elevating platform 709 top surface, be located the within range that bar frame A710 and bar frame B711 enclosed are equipped with the drive frame of drive swing frame 703 swing, drive frame drive swing frame 703 is towards bar frame A710 one side downward sloping or towards bar frame 711 one side downward sloping.

The bar a of the bar a710 and the bar B of the bar B711 extend from the fixing edges of the bar a710 and the bar B711 along the bar a710 and the bar B711, respectively, to the top surface of the lifting platform 709.

The driving frame comprises a swinging shaft B fixedly connected to the top surface of the lifting table 709 through a supporting frame 713, the swinging shaft B is arranged in parallel with the swinging shaft A712, and a swinging rod A714, a swinging rod B715 and a limiting rod 716 which are fixedly connected to the swinging shaft B are arranged in a plurality of positions along the swinging shaft B, the swinging rod A714 and the swinging rod B715 are respectively arranged between the bar rods A of two adjacent bar frames A710, the distance from one side edge of the swinging frame 703 to the swinging frame A712 of the corresponding bar frame A710 is larger than the distance from one side edge of the swinging frame 703 to the swinging frame A712 of the corresponding bar frame B711, under the action of the gravity of the swinging rod B715 and the limiting rod 716, the driving frame overcomes the gravity of the swinging rod A714, enables the swinging rod A714 to swing upwards around the swinging shaft B to extend upwards from one side of the bar frame A710 connected with the lifting table 709 to the limiting rod 716 to be in limiting contact with the top surface of the lifting table 709, and when the swinging rod A714 receives the gravity of a carpet roll falling to the bottom of the bar frame A710, the distance from one side edge of the swinging frame B corresponding to the swinging frame B710 is larger than the distance from the edge of the side edge of the swinging frame A712 to the corresponding bar frame A712, and the driving frame B is enabled to swing upwards swing around the bar frame 710 to swing upwards around the gravity of the bar frame A710 to extend upwards around the bar frame A710 to be enabled to swing upwards around the gravity to be connected with the bar frame A710 to the side of the bar frame to swing frame to upwards, and upwards, which is.

The top surface of the end, far away from the connecting rod 702, of the swinging frame 703 is also fixed with a limiting stop frame 706 upwards.

The top of one end of the connecting rod 702, which is opposite to the material separating frame 701, is provided with a connector 707 for connecting with the telescopic conveying frame.

The two connecting rods 702 are respectively corresponding to the outer side walls of the movable frame body B302, and the lower parts of the movable frame body B302 are respectively provided with matching connecting holes 343 corresponding to the connecting heads 707.

The top of the base 700 is provided with a matched open slot 718 corresponding to the lifting table 709, the slot wall of the open slot 718 is matched and attached with a table side wall 717 of the lifting table 709, the bottom of the table side wall 717 is turned inwards and horizontally to form an annular flanging 719, the slot bottom of the open slot 718 is provided with a plurality of guide vertical shafts 720 corresponding to the position of the annular flanging 719 and uniformly along the annular flanging 719, and the guide vertical shafts 720 respectively penetrate upwards through guide holes corresponding to the annular flanging 719.

Guide sleeves 721 matched with the guide vertical shafts 720 are coaxially arranged at the tops of the annular flanges 719 corresponding to the positions of the guide holes respectively.

When the lifting platform 709 moves downwards until the annular flange 719 contacts the bottom of the open groove 78, the top of the guide vertical shaft 720 contacts the top of the lifting platform 709, and the top surface of the lifting platform 709 is flush with the top of the seat body 700.

The top surface of the base 700, and two opposite sides of the bar frame A710 and the bar frame B711 corresponding to the lifting table 709 are symmetrically provided with steps A708.

The charging stand 6 is provided with steps B12 on both sides corresponding to the steps a708, respectively.

The bottom of the base 700 is provided with rollers 705 through wheel frames 722.

The top surface of charging table 6 back to delivery window 5 one side is connected with swing board 9 swing through swing axis C, when swing board 9 swings around swing axis C to place in charging table 6 top surface, swing board 9 and the gyro wheel 705 limit contact of pedestal 700, and pedestal 700 moves to laminating with storehouse 4 lateral wall this moment.

When the swinging plate 9 swings around the swinging axis C to a maximum distance away from the loading table 6, said swinging plate 9 is still located within the range of the weather shield 11.

The delivering window 5 is provided with an openable bin gate 8.

The carpet roll of the present invention is a roll made from a carpet roll for ease of transportation of the carpet. The invention can also be equally applicable to the loading and transportation of other rolled columnar materials or rod-shaped materials.

The invention is used when: referring to fig. 1-6, the carpet roll in the warehouse can be easily and quickly transferred into the carriage of the transport vehicle for loading by the invention.

When the tail of the transport vehicle is backed up to the position of the loading table 6, the door of the tail cargo box is opened, and then the swinging plate 9 swings around the swinging shaft C to the bottom of the carriage; then the bin door 8 of the bin outlet window 5 is opened, the hydraulic cylinder A332 drives the telescopic rod A333 to extend, the hydraulic cylinder B337 drives the telescopic rod B338 to extend, so that the acting force of the conveyor belt C303 respectively drives the rotating shaft E319 and the rotating shaft G321 to overcome the acting force of the damping cylinder A334 on the damping rod A335 and the acting force of the damping cylinder B339 on the damping rod B340, the movable frame body B302 and the movable frame body A301 can extend forwards out of the fixed frame body 300, the rotating shaft E319 is close to the rotating shaft F320, the rotating shaft G321 is close to the rotating shaft H322, until one end of the movable frame body B302, which is away from the lifting conveying frame 2, extends out of the bin outlet window 5, and the connecting hole 343 of the movable frame body B302 corresponds to the connecting head 707 of the blanking frame 7 and the connecting hole 343 and the connecting head 707 are connected through a pin shaft; the hydraulic cylinder A332 continues to drive the telescopic rod A333 to extend, and the hydraulic cylinder B337 continues to drive the telescopic rod B338 to extend, so that the blanking frame 7 enters the front end in the cargo compartment through the swinging plate 9; at this time, the conveyor a101, the conveyor B201, and the conveyor C303 start to perform conveyance.

An operator can feed according to the carpet roll to be loaded in the storehouse at one end of the feeding conveying frame 1 far away from the lifting conveying frame 2 or at the opposite side of the material blocking part 111 of the feeding conveying frame 1, so that the structural arrangement of the feeding conveying frame 1 can enable the choice of the feeding position of the operator to be larger, and the applicability of the invention is improved; if possible, the feeding can be performed at the two positions at the same time, so that the feeding efficiency of the invention is further improved. When the carpet roll is fed from the opposite side of the blocking part 111, the carpet roll is prevented from being scratched or damaged by the end part of the conveying guide frame B106 by the action of the guide part J121; when the carpet roll is placed on the conveyor belt a101 by an operator, the carpet roll is inevitably contacted with the blocking part 111 under the action of inertia, when the carpet roll is contacted with the blocking part 111, the guide roller a107 and the elastic plate 108 of the blocking part 111 overcome the acting force of the spring 128 due to the impact force of the carpet roll, so that the guide roller a107 and the elastic plate 108 can absorb the impact of the carpet roll, and return the guide roller a107 and the elastic plate 108 to the initial position under the action of the restoring force of the spring 128, thereby driving the carpet roll to be positioned in the middle of the conveyor belt a101 and conveying the carpet roll along with the conveyor belt a101, and when the carpet roll which is not positioned in the middle or is not parallel to the conveying direction of the conveyor belt a101 is conveyed to the positions of the guide part a112 and the guide part I120 and the guide part E116 along the conveyor belt a101, the middle of the carpet roll a101 is moved to the conveyor belt a101 by the action of the guide roller a107 of the guide part I120 and the guide part E116; thereby entering the region between the guide B113 and the guide F117; when the carpet roll passes through the guide roller A107 of the guide part B113 and the guide part F117 along with the conveying of the conveying belt A101, the spring 108 is pressed by the carpet roll when the carpet roll contacts with the guide roller A107, the carpet roll is always conveyed between the guide roller A107 of the guide part B113 and the guide roller A107 of the guide part F117 under the action of the restoring force of the spring 108, and when the carpet roll passes through the guide poking piece 109 along with the continuous conveying of the conveying belt A101, the guide poking piece 109 is elastically deformed towards the conveying direction of the conveying belt A101 under the action of the carpet roll, and the carpet roll is further poked towards the middle part of the conveying belt A101 by the guide poking piece 109 under the elastic restoring force, so that the carpet roll is further conveyed at the middle part of the conveying belt A101; the carpet roll further guided by the guiding pulling piece 109 enters between the guiding part D115 and the guiding part H119 along with the conveying belt a101, and even if one end of the carpet roll far away from the transport vehicle cannot be effectively pulled to the middle part of the conveying belt a101 due to the fact that the guiding pulling piece 119 is not pulled, the carpet roll can be guided and adjusted to a position between the guiding roller B110 of the guiding part D115 and the guiding roller B110 of the guiding part H119 through the guiding roller B110 of the guiding part C114 and the guiding roller B110 of the guiding part G118 until the carpet roll is conveyed from the feeding conveying frame 1 to the lifting conveying frame 2.

After the carpet roll enters the ascending conveyor 2, the carpet roll is conveyed by the guide rollers C205 of the guide portions K206 and L207 directly by the conveyor belt B201 until the carpet roll is conveyed to the telescopic conveyor 3.

After the carpet roll enters the telescopic conveying frame 3, the carpet roll is conveyed into the cargo compartment directly through a conveying belt C303; when a carpet roll falls from the telescopic conveyor 3 to the distributing frame 701 of the blanking frame 7 through the conveyor C303, since the swinging frame 703 is inclined downward to one side corresponding to the bar frame a710 by gravity, after the carpet roll conveyed from the conveyor C303 falls onto the swinging frame 703, it rolls onto the bar frame a710 along the swinging frame 703 and rolls onto the corresponding side of the blocking upright 704 along the bar frame a710, at this time, the carpet roll presses down the swinging rod a714 of the driving frame around the swinging axis B by gravity, thereby driving the swinging rod B715 and the limit rod 716 to swing upward around the swinging axis B until the swinging rod B715 is lifted up to one side corresponding to the bar frame B to incline downward, and after the carpet roll conveyed from the conveyor C303 falls onto the swinging frame 703, it rolls onto the bar frame B711 along the swinging frame 703 and rolls onto the corresponding side of the blocking upright 704. When the carpet roll at the lower part of the bar frame A710 is taken away and loaded by an operator in the cargo compartment, the swing rod B715 and the limit rod 716 swing downwards around the swing shaft B under the action of gravity and overcome the gravity action of the swing rod A714 until the limit rod 716 is limited on the top surface of the lifting table 709, at this time, the swing rod A714 extends upwards to the bar frame A710, and the swing frame 703 returns to an initial state corresponding to the downward inclination of one side of the bar frame A710 under the action of gravity; so that the carpet roll is again blanked to the side of bar a 710. When the carpet winding car in the cargo box reaches the upper part or even the top part in the cargo box, an operator in the cargo box needs to stand on the step A708 of the seat body 700, and the telescopic rod C of the hydraulic cylinder C315 extends upwards to enable the telescopic conveying frame 3 to swing upwards and drive the lifting platform 719 of the blanking frame 7 to move upwards, so that the operator in the cargo box can conveniently still wind the carpet of the lifting platform 719 on the upper part or the top part in the cargo box; as the front end in the cargo box is full, the hydraulic cylinder A332 of the telescopic conveying frame 3 drives the telescopic rod A333 to retract, the hydraulic cylinder B337 drives the telescopic rod B338 to retract, and the telescopic rod C of the hydraulic cylinder C315 retracts downwards, so that the blanking frame 7 moves towards the door side of the tail end of the cargo box and the lifting platform 719 moves downwards to the lowest position, thereby being convenient for operators in the cargo box to load from bottom to top again; and so on until the carriage is filled with rolls of carpet, at which point the blanking frame 7 is returned to the loading table 6 again.

Finally, the blanking frame 7 is continuously retreated to the initial position, the swinging plate 9 is swung to be separated from the transport vehicle and is contacted with the charging table 6 again, and the roller 705 of the blanking frame 7 is limited; when the carpet rolling machine is used, operators in a warehouse do not feed any more, then a hydraulic cylinder A332 drives a telescopic rod A333 to retract, a hydraulic cylinder B337 drives a telescopic rod B338 to retract to a starting position, finally, redundant non-loaded carpet rolls on a blanking frame 7 are reversely conveyed to a feeding conveying frame 1, and operators in the warehouse retract and place the carpet rolls on the feeding conveying frame 1 again; then, the conveyor a101, the conveyor B201, and the conveyor C303 stop conveying, and finally, the pin shaft passing through the connection hole 343 and the connector 707 is pulled out, and the bin gate 8 of the discharge window 5 is closed.

Throughout the loading operation, the loading operator may be ventilated via the loading blower 129, or ventilated via the loading blower 342.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Feeding conveying frame of carpet package car production line, its characterized in that: including support body A (100), rotate on support body A (100) and be connected with conveyer belt A (101), the top surface of conveyer belt A (101) is carried towards ascending conveying frame (2), support body A (100) top surface, be located conveyer belt A (101) one side and be equipped with fender material guide frame (104) and conveying guide frame A (105) in proper order along the direction of delivery of conveyer belt A (101), support body A (100) top surface, be located conveyer belt A (101) opposite side and be equipped with conveying guide frame B (106) corresponding to conveying guide frame A (105), fender material guide frame (104) include fender material portion (111) and guide portion A (112) in proper order along the direction of delivery of conveyer belt A (101), conveying guide frame A (105) include guide portion B (113), guide portion C (114) and guide portion D (115) in proper order along the direction of delivery of conveyer belt A (101), the beginning of guide portion B (113) corresponds with the end position of guide portion A (112), conveying guide frame B (106) is followed, guide portion E (116) and guide portion E (117) are included along the direction of conveyer belt A (101), guide portion E (117) is followed by guide portion E (116) and guide portion E (117) is followed The guide part G (118) and the guide part H (119) are respectively arranged corresponding to the guide part A (112), the guide part B (113), the guide part C (114) and the guide part D (115), the material blocking part (111), the guide part B (113), the guide part D (115), the guide part F (117) and the guide part H (119) are respectively arranged along the conveying direction parallel to the conveying belt A (101), the guide part A (112), the guide part C (114), the guide part E (116) and the guide part G (118) are respectively arranged along the conveying direction parallel to the conveying belt A (101), the guide part A (112), the guide part C (114) and the guide part G (118) are respectively inclined towards the middle part of the conveying belt A (101) along the conveying direction of the conveying belt A (101), the distance between the guide part A (112) and the guide part C (114) and the guide part G (118) is reduced along the conveying direction of the conveying belt A (101), the conveying belt A (101) is respectively driven by rollers A (102) arranged at two ends of a frame body A (100), and the bottom part (100) is provided with a supporting leg (103).

2. The carpet roll-up truck production line of claim 1, wherein: the guide device comprises a conveying guide frame B (106), a blocking part (111), at least one guide roller A (107) and a plurality of guide rollers A (107), wherein the blocking part (111) faces one side end face of the conveying guide frame B (106), a plurality of elastic plates (108) are sequentially arranged at equal intervals along the extending direction of the blocking part (111), the blocking part (111) faces one side end face of the conveying guide frame B (106), at least one guide roller A (107) is further arranged on two sides of the elastic plates (108), a plurality of guide rollers A (107) are respectively arranged on opposite end faces of the guide part A (112) and the guide part E (116) at equal intervals along the extending direction of the guide part A, a plurality of guide rollers A (107) and a plurality of guide poking pieces (109) are sequentially arranged on opposite end faces of the guide part B (113) and the guide part F (117) at equal intervals along the extending direction of the guide part A (107), and a plurality of guide rollers B (110) are respectively arranged on opposite end faces of the guide part C (114) and the guide part D (115) and the guide part H (119) at equal intervals along the extending direction of the guide part.

3. The carpet roll-up truck production line of claim 2, wherein: the conveying guide frame B (106) is located one end that the guide part E (116) kept away from the guide part F (117) is still equipped with guide part I (120) and guide part J (121) in proper order along the direction of keeping away from the guide part F (117), guide part I (120) are to corresponding support body A (100) outside slope of guide part I (120) place side along the opposite direction of conveyer belt A (101), guide part I (120) are towards one side of guide part A (112), are equipped with a plurality of guide rolls A (107) along the direction of extension wind of guide part I (120) equidistant in proper order, the guide roll A (107) of guide part I (120) are coplanar in the one side of guide part I (120) dorsad, guide part J (121) are along guide part I (120) are curved arc structure of guide roll A (107) one side of guide part I (120) dorsad.

4. The carpet roll-up truck production line of claim 2, wherein: the guide roller A (107) and the guide roller B (110) are respectively and rotatably connected to respective roller shaft frames A (123), two side edges of the elastic plate (108) are respectively fixed with the material blocking guide frame (104) to form a U-shaped structure, a vertical rod (124) is connected to a bending part in the elastic plate (108) of the U-shaped structure, a connecting frame (125) is fixedly connected to one side of the vertical rod (124) facing the material blocking guide frame (104), a connecting bolt A (126) is respectively fixed to one side of the roller shaft frame A (123) opposite to the guide roller A (107) or the guide roller B (110) and one side of the connecting frame (125) opposite to the vertical rod (124), and the roller shaft frames A (123) and the connecting frame (125) are respectively connected with the material blocking guide frame (104), the conveying guide frame A (105) or the conveying guide frame B (106) through the connecting bolts A (126) and corresponding connecting nuts A (127); a connecting bolt A (126) fixedly arranged on a roller shaft frame A (123) which is rotationally connected with a guide roller A (107) is positioned between the roller shaft frame A (123) and a material blocking guide frame (104) or a conveying guide frame A (105), springs (128) are respectively sleeved on the connecting bolt A (126) of a connecting frame (125) and between the connecting frame (125) and the material blocking guide frame (104), and the springs (128) are provided with pre-pressing acting forces; a connecting bolt A (126) fixedly arranged on a roller shaft frame A (123) rotatably connected with a guide roller A (107) is directly fixed with a conveying guide frame A (105) or a conveying guide frame B (106) through a connecting nut A (127).

5. The carpet roll-up truck production line of claim 2, wherein: the side of the elastic plate (108) of the material blocking part (111) facing away from the material blocking part (111) is coplanar with the side of the guide roller A (107) of the material blocking part (111) facing away from the material blocking part (111), and the plane is parallel to the material blocking part (111).

6. The carpet roll-up truck production line of claim 2, wherein: the distance between the guide part A (112) and each corresponding guide roller A (107) of the guide part E (116) is reduced along the conveying direction of the conveying belt A (101); the guide roller A (107) of the guide part B (113) faces away from the guide part B (113) and is coplanar, and the plane is tangent to the opposite side of the last guide roller A (107) of the guide part A (112) along the direction of the conveyor belt A (101); the guide roller A (107) of the guide part F (117) faces away from the guide part F (117) and is coplanar, and the plane is tangent to the last guide roller A (107) of the guide part E (116) along the direction of the conveyor belt A (101) and faces away from the guide part E (116).

7. The carpet roll-up truck production line of claim 6, wherein: the distance between the guide part B (113) and the free side of the guide pulling piece (109) of the guide part F (117) is reduced along the conveying direction of the conveying belt A (101).

8. The carpet roll-up truck production line of claim 6, wherein: the guide part B (113) and the guide pulling piece (109) of the guide part F (117) are obliquely arranged along the conveying direction of the conveying belt A (101).

9. The carpet roll-up truck production line of claim 2, wherein: the guide roller B (110) of the guide part D (115) faces away from the guide part D (115) and is coplanar, and the plane guide part D (115) is parallel; the guide roller B (110) of the guide part H (119) faces away from the guide part H (119) and is coplanar, and the plane guide part H (119) is parallel.

10. The carpet roll-up truck production line of claim 2, wherein: the feeding air supply device is characterized in that a feeding air supply device (129) is fixedly connected to the top of the frame body A (100) and corresponds to the upper portion of the guide portion D (115) and the upper portion of the guide portion H (119), two side supports A of the feeding air supply device (129) are respectively and fixedly connected to two sides of the frame body A (100), and the air outlet direction of the feeding air supply device (129) faces the frame body A (100) and corresponds to the conveying starting end of the conveying belt A (101).

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