CN212103579U - Novel tile paving machine operation structure - Google Patents

Abstract

The utility model relates to a novel brick paving machine operation structure, which comprises a brick paving machine body and a blanking plate positioned at the front side of a frame of the brick paving machine body, and is characterized in that the blanking plate comprises a fixed blanking plate positioned at the middle part and connected with the frame; the inner side of the movable blanking plate is movably connected with the fixed blanking plate; the utility model has the advantages of reasonable design, flitch under the fixed and activity flitch mutually support and be used for the brick paving operation jointly, but the activity is whole can folding activity setting down the flitch, makes it can accomodate to the front side or the rear side of fixed flitch under the time spent not, makes the width of brick paving machine reduce, makes things convenient for the driving walking of brick paving machine and parks the use.

Description

Novel tile paving machine operation structure

Technical Field

The utility model relates to a road paving machine tool technical field especially relates to a novel brick paving machine operation structure.

Background

In the prior art, when the brick paving machine is used, the operation width of the blanking guide plate positioned on the front side of the brick paving machine is fixed and can be 2 meters, 3 meters and the like, when the actual operation width is smaller than the operation width of the brick paving machine, the operation width can be reduced through the limiting rod for adjustment, and the operation requirement is met.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a novel tile paving machine operation structure with variable operation width.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a novel tile work structure, includes tile work machine body and is located the lower flitch of the frame front side of tile work machine body, its characterized in that, the flitch includes down:

the fixed blanking plate is positioned in the middle and connected with the frame; and

and the inner sides of the movable blanking plates are movably connected with the fixed blanking plate.

The bottom of the side surface of the fixed blanking plate is respectively provided with a bottom plate fixedly connected with the fixed blanking plate, and the bottom end of the inner side of the movable blanking plate is arranged on the bottom plate.

The fixed blanking plate and the movable blanking plate are further connected through a detachable mechanism.

The detachable mechanism comprises a fastener and a buckle plate, wherein the fastener and the buckle plate are respectively connected with the fixed blanking plate and the movable blanking plate, the fastener comprises a limiting rod moving in a rotating mode, a limiting hole is formed in the buckle plate, and the limiting rod falls into the limiting hole through rotation and is connected with the buckle plate.

The front end or the rear end of the inner side of the movable blanking plate is rotatably connected with the fixed blanking plate, and the movable blanking plate can be folded forwards or backwards to be stored through rotation.

The outer side of the fixed blanking plate is provided with a rotating shaft connected with the fixed blanking plate, the movable blanking plate is provided with an insertion hole corresponding to the position of the rotating shaft, and the rotating shaft is inserted into the insertion hole and movably arranged.

The rotating shaft is positioned on the bottom plate of the fixed blanking plate.

The middle part of the frame is provided with a horizontally distributed material platform, the bottom of the material platform is rotationally connected with the frame, and the frame is provided with at least two groups of material loading frame mechanisms corresponding to the material platform on the outer side of the material platform;

the brick body tray conveying device is characterized in that at least two groups of guide rails corresponding in position are arranged on the material feeding frame mechanism and the material platform, the guide rails are divided into two parts and are respectively connected with the material feeding frame mechanism and the material platform, and the guide rails of the material feeding frame mechanism and the material platform are mutually connected to form an integral structure for conveying brick body trays.

One end of the guide rail of the material platform is provided with a connecting port, and the end part of the inner side of the guide rail of the material loading frame mechanism is positioned in the connecting port and is in contact connection with the guide rail of the material platform after being aligned.

The material loading platform is characterized by further comprising a limiting part, wherein the limiting part is provided with a connector matched with the outer wall of the guide rail in shape, the top surface of the connector is of an open structure, the guide rail of the material loading platform is located on the inner side of the connector and is fixedly connected with the limiting part, and the end part of the guide rail of the material loading frame mechanism is located on the outer side of the inner part of the connector and is movably arranged.

The feeding frame mechanism comprises an inner feeding frame, the top of the inner feeding frame is provided with an upper supporting part connected with the bottom of a guide rail of the feeding frame mechanism, and the bottom of the inner feeding frame is provided with a lower supporting part connected with the frame.

The feeding frame mechanism further comprises an outer side feeding frame, the outer side feeding frame is located at the edge of the frame, the outer side feeding frame comprises a base and an auxiliary supporting portion connected with the base, the bottom of the base is connected with the frame, the bottom of the auxiliary supporting portion is detachably connected with the base, and an upper supporting portion connected with the bottom of a guide rail of the feeding frame mechanism is arranged at the top of the auxiliary supporting portion.

The base bottom with the frame rotates and is connected, and the base can rotate and fall into inside the frame to the frame inboard through the rotation.

The top of the base is provided with a plug port, the bottom of the auxiliary supporting part is provided with a plug part connected with the plug port, and the plug part is fixedly arranged in the plug port in a plug-in mode.

The outer side of the auxiliary supporting part is positioned outside the frame and is arranged in a hanging manner, the bottom of the outer side of the auxiliary supporting part is also provided with a supporting frame connected with the auxiliary supporting part, and the bottom of the supporting frame is provided with a supporting leg which is connected with the supporting frame and has adjustable height.

The guide rail cross-section of going up work or material rest mechanism is the C type structure that the opening is down, go up the outer wall of supporting part with the inner wall shape of guide rail matches, the guide rail is detained in the upper support part outside and sliding connection between the two.

The cross section of the lower supporting part is of a C-shaped structure with a downward opening, and the lower supporting part is buckled on the outer side of the beam body of the support and is in sliding connection with the beam body.

The front side of the frame is also provided with a walking platform, the two sides of the walking platform are distributed with movable platforms, and the bottom end of each movable platform is rotatably connected with the frame and can rotate upwards or downwards.

The outer side surface of the blanking plate is provided with a plurality of guide rods connected with the blanking plate, guide wheels connected with the guide rods are further arranged between the guide rods, and the outer side of each guide wheel is exposed out of the outer side surface of the fixed blanking plate.

The frame in the dorsal part of flitch under the fixed still is equipped with a gag lever post, is equipped with the locating part rather than being connected on the gag lever post, and the locating part is along the length direction activity setting of gag lever post.

The utility model has the advantages that: structural design is reasonable, and flitch under the flitch under fixed and the activity mutually supports and is used for the tiling operation jointly, but the flitch is whole can folding activity setting under the activity, makes it can accomodate to the front side or the rear side of fixed blanking plate when not, makes the width of brick laying machine reduce, makes things convenient for the driving walking of brick laying machine and parks the use.

The material loading frame mechanism of the brick paving machine is provided with a plurality of groups and is matched with the material platform capable of rotating, the material loading direction can be selected according to the actual position of the brick body, the operation is convenient, and the working efficiency is improved.

The setting of flitch can increase operating personnel's movable area under the activity, can also accomodate when not using simultaneously, facilitates the use.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

Fig. 2 is a schematic structural view of the present invention (in a non-operating state).

Fig. 3 is a partial structural view of "a" in fig. 1.

Fig. 4 is a schematic structural diagram of the material table.

Fig. 5 is a schematic structural view of the first auxiliary supporting portion and the base.

Fig. 6 is a schematic structural view of the second auxiliary supporting portion and the base.

Fig. 7 is a schematic structural view of the inner feeding frame.

Fig. 8 is a structural diagram of the side surface of the fixed blanking plate.

Fig. 9 is a schematic structural view of the side surface of the movable blanking plate.

Fig. 10 is a schematic structural view of the detachable mechanism.

In the figure: 100 frames, 101 crawler traveling mechanisms, 102 limit rods, 103 limit pieces, 200 material platforms, 201 installation parts, 300 traveling platforms, 301 movable platforms, 400 fixed blanking plates, 401 movable blanking plates, 402 guide rods, 403 guide wheels, 404 fasteners, 405 limit rods, 406 buckle plates, 407 limit holes, 408 rotating shafts, 409 bottom plates, 410 jacks, 500 inner side feeding frames, 501 first upper supporting parts, 502 lower supporting parts, 600 bases, 601 plug ports, 701 first guide rails, 702 second guide rails, 703 connecting ports, 704 limit protrusions, 800 auxiliary supporting parts, 801 second upper supporting parts, 802 plug parts, 803 supporting frames and 804 supporting legs.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

According to the illustrations of fig. 1 to 10: the embodiment provides a novel brick paving machine operation structure, which comprises a frame 100, a crawler walking mechanism 101, a material platform 200, a walking platform 300, a material discharging plate, a material loading frame mechanism and the like, wherein the bottom of the frame 100 is arranged on the crawler walking mechanism 101, the material platform 200, the walking platform 300, the material discharging plate, the material loading frame mechanism and the like are respectively arranged on the upper portion of the frame 100, and the specific implementation structure and the connection relation of each component are as follows.

Referring specifically to fig. 1 to 3, the frame 100 is a frame structure supported by welding metal profiles, and mainly serves as a mounting base, so that the components can be assembled at appropriate positions of the frame 100, wherein:

the front side of the frame 100 is also provided with a walking platform 300, the upper part of the walking platform 300 is used for an operator to walk, two sides of the walking platform 300 are respectively provided with a movable platform 301, the movable platforms 301 are positioned outside the frame 100 and suspended for expanding the operation space of the walking platform 300, the bottom end of each movable platform 301 is rotatably connected with the frame 100 and can rotate upwards, and when the brick paving machine is in a non-operation state, the movable platforms 301 can rotate to the upper part of the frame 100 to keep vertical distribution, so that the movable platforms are positioned at the edge of the frame 100, and the occupied space of the movable platforms on the outer side of the frame 100 is reduced;

specifically, as shown in fig. 1, 2, and 7 to 9, the blanking plate connected to the frame 100 is disposed outside the front side of the frame, and the blanking plate includes a fixed blanking plate 400 and movable blanking plates 401 located at two sides of the fixed blanking plate 400, where the fixed blanking plate 400 is disposed on the front side of the frame, and the movable blanking plates 401 are disposed on two sides of the fixed blanking plate 400

The movable blanking plate 401 and the fixed blanking plate 400 are consistent in structure, the length of the movable blanking plate 401 is reduced, the fixed blanking plate 400 and the movable blanking plate 401 respectively comprise a plurality of guide rods 402, and the guide rods 402 are distributed in parallel and used for sliding when bricks are laid;

when the movable blanking plate 401 is assembled with the fixed blanking plate 400, the bottom plates 409 connected and fixed with the fixed blanking plate are respectively arranged at the bottom of the two sides of the fixed blanking plate, the bottom ends of the inner sides of the movable blanking plate 401 are arranged on the bottom plates 409, the front end of the bottom plate 409 of the fixed blanking plate 400 is provided with a rotating shaft 408 connected with the bottom plate, the rotating shafts 408 are vertically distributed, the movable blanking plate 400 is provided with inserting holes 410 corresponding to the positions of the rotating shafts 408, the rotating shafts 408 are inserted into the inserting holes 410 and movably arranged, so that the front end of the inner side of the movable blanking plate 401 is rotatably connected with the fixed blanking plate 400, the movable blanking plate 401 can be folded forwards through rotation to be accommodated, the width of the movable blanking plate 401 and the fixed blanking plate 400 in a combined state is reduced, and simultaneously, the front side and the rear side of the middle part of the movable blanking plate 401 are respectively connected with the fixed blanking, the movable blanking plate 401 and the fixed blanking plate 400 can be connected into a whole in the operation process;

further, the detachable mechanism comprises a fastener 404 and a buckle plate 406 which are respectively connected with the fixed blanking plate 400 and the movable blanking plate 401, the fastener 404 is fixedly connected with the fixed blanking plate 400, the fastener 404 comprises a limiting rod 405 which can rotate and move, the limiting rod 405 can rotate 90 degrees towards one side of the movable blanking plate 401, the buckle plate 406 is of an L-shaped structure, one side of the buckle plate 406 is fixedly connected with the movable blanking plate 401, the other side of the buckle plate 406 is provided with a limiting hole 407, the limiting rod 405 falls into the limiting hole 407 through rotation and is connected with the buckle plate 406, so that a limiting part with larger end size of the limiting rod 405 is clamped at the other side of the buckle plate 406 and cannot move back, and correspondingly, the movable blanking plate 401 connected by the structure cannot rotate and move towards the outer side at the moment, and simultaneously, based on the supporting effect of the bottom of the movable blanking plate 401 and the bottom plate 409, the movable blanking plate 401 cannot move outwards, so that the stability of the working structure of the blanking plate is guaranteed;

when the brick paving machine is in a non-operation state, the movable blanking plate 401 can rotate to the two sides of the frame 100 to be positioned at the edge of the frame 100, so that the occupied lengths of the left end and the right end of the frame 100 are reduced, and the occupied space of the brick paving machine is reduced;

furthermore, a plurality of guide rods 402 connected with the blanking plate are arranged on the outer side surface of the blanking plate, guide wheels 403 connected with the guide rods 402 are also arranged between the guide rods 402, the outer side of each guide wheel 403 is exposed out of the outer side surface of the fixed blanking plate 400, and the guide wheels 403 can assist sliding laying of brick bodies through rolling in the brick laying process, so that the smooth proceeding of the brick laying process is ensured;

furthermore, on the frame 100 in the dorsal part of flitch 400 still is equipped with a gag lever post 102 under fixed, be equipped with the locating part 103 rather than being connected on the gag lever post 102, the locating part 103 sets up along the length direction activity of gag lever post 102, this gag lever post 102 set up be used for with be located the fixed stop gear who descends flitch 400 front side and be connected the use for stop gear can rely on gag lever post 102 to carry out the adjustment of controlling the interval, guarantee tiling operation width is unanimous, its concrete implementation structure has been through the utility model patent publication of patent No. 201420419951.8, the patent name is spacing rod linkage of tiling machine, no longer describe herein.

Specifically, as shown in fig. 4, the material table 200 is horizontally distributed and located in the middle of the upper side of the vehicle frame 100, the material table 200 is a square frame structure supported by welding metal profiles, four corners of the material table 200 are chamfered at 45 degrees, so that the four corners form inclined planes, and the material table is convenient to rotate and use, an installation part 201 integrated with the material table 200 is arranged in the middle of the material table 200, and the bottom of the installation part 201 is rotatably connected with the vehicle frame 100 through a bearing assembly, so that the material table 200 can freely rotate to switch directions; meanwhile, three groups of feeding frame mechanisms corresponding to the frame 100 are arranged on the outer side of the material platform 200, the feeding frame mechanisms are respectively positioned on the left side, the right side and the rear side, and the material platform 200 is respectively matched with the three groups of feeding frame mechanisms through rotation;

furthermore, two sets of guide rails corresponding in position are arranged on the feeding frame mechanism and the material platform 200, each set of guide rails comprises a first guide rail 701 and a second guide rail 702, wherein the first guide rail 701 adopts a steel pipe with a rectangular cross section, the first guide rail 701 is positioned on the top surface of the material platform 200 and is fixedly connected with the material platform 200, the second guide rail 702 adopts a channel steel with the same size as the first guide rail 701, the C-shaped opening of the channel steel is arranged downwards, the second guide rail 702 is positioned on the feeding frame mechanism and is arranged in a sliding manner by depending on the C-shaped opening of the channel steel, the first guide rail 701 and the second guide rail 702 are mutually connected and form an integral structure for conveying a brick tray, walking wheels corresponding to the positions of the two sets of guide rails are arranged at the bottom of the brick tray, so that the walking wheels walk on the guide rails to realize the feeding and blanking, in the process, a limiting bulge 704 connected with the first guide rail 701 is further arranged at the upper part of the first guide rail 701 far away from the feeding, the limiting protrusions 704 are made of angle steel and are welded on the first guide rail 701, when the brick body tray slides to the material platform 200, the brick body tray can be in contact with the limiting protrusions 704, sliding is stopped, feeding is completed, meanwhile, the brick body tray is prevented from being separated from the material platform 200 due to excessive sliding, and the effect of overturning the brick body tray is avoided;

further, the specific implementation structure of the connection structure of the first rail 701 and the second rail 702 includes: the end part of the first guide rail 701 is provided with a limiting part 103 welded with the first guide rail 701, the limiting part 103 is a channel steel, a C-shaped opening of the limiting part 103 is arranged upwards, the C-shaped opening of the channel steel forms a connecting port 703 matched with the shape of the outer wall of the guide rail, the depth of the connecting port 703 is half of the height of the guide rail, the end part of the first guide rail 701 is positioned in the middle of the connecting port 703, and the outer side part of the connecting port 703 is a vacant part; when the first guide rail 701 and the second guide rail 702 are connected, the second guide rail 702 enters the inside of a vacant part on the outer side of the connecting port 703 through sliding, so that the ends of the first guide rail 701 and the second guide rail 702 are aligned with each other and then are in contact connection, the lower parts of the first guide rail 701 and the second guide rail 702 are positioned through the connecting port 703, and the upper parts of the first guide rail 701 and the second guide rail 702 are both positioned outside the connecting port 703, so that the contact effect between the first guide rail 701 and the traveling wheel of the brick pallet can be guaranteed.

Specifically, as shown in fig. 5 to 7, the following describes a specific structure of a feeding frame mechanism, where the feeding frame mechanism includes an inner feeding frame 500 and an outer feeding frame, the outer feeding frame is installed near the edge of the frame 100, the inner feeding frame 500 is located between the outer feeding frame and the material table 200, the tops of the inner feeding frame 500 and the outer feeding frame are both used for being connected to the second guide rail 702, maintaining the connection between the second guide rail 702 and the first guide rail 701, and conveying the brick trays, where:

the top of the inner side feeding frame 500 is provided with a first upper supporting part 500 which is slidably connected with the bottom of the second guide rail 702, the overall dimension of the first upper supporting part 500 is matched with the internal dimension of the second guide rail 702, the second guide rail 702 can stably slide outside the first upper supporting part 500, the bottom of the inner side feeding frame 500 is provided with a lower supporting part 502 which is connected with the frame 100, the lower supporting part 502 is also made of channel steel, a C-shaped opening of the channel steel faces downwards, the lower supporting part 502 is positioned on a beam body of the frame 100 and is slidably connected with the frame 100 by virtue of the C-shaped opening of the channel steel, and the inner side feeding frame 500 is mainly used for supporting the second guide rail 702 and keeping the installation direction and the sliding movement space of the second guide rail 702;

the work or material rest includes a base 600 and with the supplementary supporting part 800 that base 600 is connected on the outside, wherein supplementary supporting part 800 divide into first supplementary supporting part and the supplementary supporting part of second again according to the actual work demand, wherein:

the base 600 is provided with an L-shaped plate, the L-shaped plate is buckled on the inner side of the beam body of the frame 100, the bottom end of the L-shaped plate is rotatably connected with the frame 100, the base 600 can rotate towards the inner side of the frame 100 through rotation and fall into the frame 100, and when the loading operation is not needed, the base 600 can be stored to keep the surface smoothness of the frame 100; the top of the base 600 is provided with a rectangular steel pipe, the bottom end of the steel pipe is welded and fixed with the L-shaped plate, the top end of the steel pipe forms an insertion port 601, and the insertion port 601 is used for being rapidly connected with the first auxiliary supporting part and the second auxiliary supporting part for assembly;

the bottom of the first auxiliary supporting part is provided with an inserting part 802 connected with the inserting port 601, the inserting part 802 is a steel pipe matched with the inner wall of the inserting port 601 in size, the inserting part 802 is inserted into the inserting port 601 and fixedly arranged, so that the first auxiliary supporting part and the base 600 can be quickly assembled and can be kept detachable, the top of the first auxiliary supporting part is provided with a second upper supporting part 801 connected with the bottom of the guide rail of the feeding frame mechanism, the second upper supporting part 801 is distributed along the direction of the second guide rail 702, the length of the second upper supporting part 801 is 20-30cm, and the first auxiliary supporting part and the inner feeding frame 500 are mainly used for carrying out two-point support on the second guide rail 702 together and keeping the sliding stability of the second guide rail 702;

the overall structure of the second auxiliary supporting part is lower than the structure of the auxiliary supporting part and is consistent, but the length of the second upper supporting part 801 of the second auxiliary supporting part is greatly prolonged and can reach 2-3 m or even longer, so that the outer side of the second auxiliary supporting part is positioned outside the frame 100 and is arranged in a suspended manner, meanwhile, on the basis, a support frame 803 is further arranged at the bottom of the outer side of the second upper supporting part 801 of the second auxiliary supporting part, the support frame 803 is a frame structure welded by steel pipes, the support frame 803 is welded and fixed with the second upper supporting part 801, a supporting leg 804 which is connected with the support frame 803 and is adjustable in height is arranged at the bottom of the support frame 803, the supporting leg 804 comprises a screw rod which is in threaded connection with the support frame 803, the screw rod is vertically distributed, a bottom plate is arranged at the bottom end of the screw rod, the hand wheel is used for rotating the screw rod and uses, and the setting up of support frame 803 has ensured the structural stability and the structural strength of the supplementary supporting part of large length second, makes it can normal use, and the stabilizer blade can carry out height control by the topography simultaneously, keeps supporting part 801 horizontal distribution on the second of the supplementary supporting part of second, and then has ensured the horizontal distribution of second guide rail 702.

The main material loading working process of above-mentioned novel tile work machine operation structure includes:

firstly, selecting a proper auxiliary supporting part 800 according to the feeding position and the field condition of a brick tray, then assembling the inner feeding frame 500 and the outer feeding frame, simultaneously rotating the material table 200 to enable the material table to correspond to one side of the inner feeding frame 500 and the outer feeding frame, slidably installing a second guide rail 702 on the inner feeding frame 500 and the outer feeding frame, and slidably inserting the second guide rail 702 into the connecting port 703, so that the first guide rail 701 and the second guide rail 702 are connected into a whole, and then, feeding operation can be carried out;

when the material loading position changes, the second guide rail 702 slides out of the connecting port 703, the material platform 200 is rotated to the corresponding side surface of the frame 100, and then the proper inner side material loading frame 500 and the proper outer side material loading frame are assembled again, so that the material loading operation can be continued.

The above is only the preferred embodiment of the present invention, as long as the preferred embodiment is realized by the same means, the objective technical solution of the present invention all belongs to the protection scope of the present invention.

Claims (14)

1. The utility model provides a novel tile work structure, includes tile work machine body and is located the lower flitch of the frame front side of tile work machine body, its characterized in that, the flitch includes down:

the fixed blanking plate is positioned in the middle and connected with the frame; and

and the inner sides of the movable blanking plates are movably connected with the fixed blanking plate.

2. A novel tile paving machine operation structure as claimed in claim 1, characterized in that: the bottom of the side surface of the fixed blanking plate is respectively provided with a bottom plate fixedly connected with the fixed blanking plate, and the bottom end of the inner side of the movable blanking plate is arranged on the bottom plate.

3. A novel tile paving machine operation structure as claimed in claim 1 or 2, characterized in that: the fixed blanking plate and the movable blanking plate are further connected through a detachable mechanism.

4. A novel tile paving machine operation structure as claimed in claim 3, characterized in that: the detachable mechanism comprises a fastener and a buckle plate, wherein the fastener and the buckle plate are respectively connected with the fixed blanking plate and the movable blanking plate, the fastener comprises a limiting rod moving in a rotating mode, a limiting hole is formed in the buckle plate, and the limiting rod falls into the limiting hole through rotation and is connected with the buckle plate.

5. A novel tile paving machine operation structure as claimed in claim 1, characterized in that: the front end or the rear end of the inner side of the movable blanking plate is rotatably connected with the fixed blanking plate, and the movable blanking plate can be folded forwards or backwards to be stored through rotation.

6. A novel tile paving machine operation structure as claimed in claim 5, characterized in that: the outer side of the fixed blanking plate is provided with a rotating shaft connected with the fixed blanking plate, the movable blanking plate is provided with an insertion hole corresponding to the position of the rotating shaft, and the rotating shaft is inserted into the insertion hole and movably arranged.

7. A novel tile paving machine operation structure as claimed in claim 6, wherein: the rotating shaft is positioned on the bottom plate of the fixed blanking plate.

8. A novel tile paving machine operation structure as claimed in claim 1, characterized in that:

the middle part of the frame is provided with a horizontally distributed material platform, the bottom of the material platform is rotationally connected with the frame, and the frame is provided with at least two groups of material loading frame mechanisms corresponding to the material platform on the outer side of the material platform;

the brick body tray conveying device is characterized in that at least two groups of guide rails corresponding in position are arranged on the material feeding frame mechanism and the material platform, the guide rails are divided into two parts and are respectively connected with the material feeding frame mechanism and the material platform, and the guide rails of the material feeding frame mechanism and the material platform are mutually connected to form an integral structure for conveying brick body trays.

9. A novel tile paving machine operation structure as claimed in claim 8, wherein: one end of the guide rail of the material platform is provided with a connecting port, and the end part of the inner side of the guide rail of the material loading frame mechanism is positioned in the connecting port and is in contact connection with the guide rail of the material platform after being aligned.

10. A novel tile paving machine operation structure as claimed in claim 8, wherein: the feeding frame mechanism comprises an inner feeding frame, the top of the inner feeding frame is provided with an upper supporting part connected with the bottom of a guide rail of the feeding frame mechanism, and the bottom of the inner feeding frame is provided with a lower supporting part connected with the frame.

11. A novel tile paving machine operation structure as claimed in claim 8, wherein: the feeding frame mechanism further comprises an outer side feeding frame, the outer side feeding frame is located at the edge of the frame, the outer side feeding frame comprises a base and an auxiliary supporting portion connected with the base, the bottom of the base is connected with the frame, the bottom of the auxiliary supporting portion is detachably connected with the base, and an upper supporting portion connected with the bottom of a guide rail of the feeding frame mechanism is arranged at the top of the auxiliary supporting portion.

12. A novel tile paving machine operating structure as claimed in claim 11, wherein: the outer side of the auxiliary supporting part is positioned outside the frame and is arranged in a hanging manner, the bottom of the outer side of the auxiliary supporting part is also provided with a supporting frame connected with the auxiliary supporting part, and the bottom of the supporting frame is provided with a supporting leg which is connected with the supporting frame and has adjustable height.

13. A novel tile paving machine operation structure as claimed in claim 1, characterized in that: the front side of the frame is also provided with a walking platform, the two sides of the walking platform are distributed with movable platforms, and the bottom end of each movable platform is rotatably connected with the frame and can rotate upwards or downwards.

14. A novel tile paving machine operation structure as claimed in claim 1, characterized in that: the outer side surface of the blanking plate is provided with a plurality of guide rods connected with the blanking plate, guide wheels connected with the guide rods are further arranged between the guide rods, and the outer side of each guide wheel is exposed out of the outer side surface of the fixed blanking plate.

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