CN111959369B - Raised floor and method for conveying materials - Google Patents

Abstract

The invention provides a movable floor and a method for conveying materials in the technical field of logistics conveying, which comprises a rack, wherein the rack is connected with a plurality of groups of conveying assemblies in a sliding manner in the length direction, a plurality of sliding rails are arranged on the rack at intervals, a plurality of sliding blocks are detachably connected on the sliding rails, the conveying assemblies are arranged on the upper sides of the sliding blocks, each conveying assembly comprises a front movable plate, a middle movable plate and a rear movable plate which are arranged in parallel, the middle movable plate is arranged between the front movable plate and the rear movable plate, the front movable plate, the middle movable plate and the rear movable plate can move in a reciprocating manner along the rack in the left-right direction, and the plurality of sliding blocks are respectively in one-to-one correspondence with the front movable plate, the middle movable plate and the rear movable plate; the invention has high safety and high working efficiency.

Description

Raised floor and method for conveying materials

Technical Field

The invention belongs to the technical field of logistics conveying, and particularly relates to a conveying device and a material conveying method.

Background

Along with the development of science and technology, global science and technology and economic development rely on the transportation logistics industry of the current high-speed development, the transportation of logistics can not leave trucks or other transportation devices, because when we are using ordinary trucks to transport goods at present to load and unload goods, most of the goods are equipped with an upper tail plate and a lower tail plate at the tail part of the goods, even the goods are operated manually, so that human and material resources of people can be greatly consumed, when glass, sand and stone or large heavy machinery needs to be transported and loaded and unloaded, manual loading and unloading are needed, the working efficiency is low, the operation personnel are very dangerous, great potential safety hazards exist, and casualty accidents occurring in the middle can be seen everywhere.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to solve the defects in the prior art, solve the technical problems of poor safety and low working efficiency in the prior art, and provide the movable floor.

The purpose of the invention is realized as follows: the utility model provides a raised floor, includes the frame, the frame is connected with a plurality of conveying assembly of group on length direction slidable, a plurality of slide rails of having arranged at the interval in the frame still, detachably is connected with a plurality of slider on the slide rail, conveying assembly is at the slider upside, conveying assembly includes parallel arrangement's preceding fly leaf, well fly leaf and back fly leaf, well fly leaf is in the front between fly leaf and the back fly leaf, and preceding fly leaf, well fly leaf and back fly leaf all can be about in the direction along frame reciprocating motion, a plurality of the slider respectively with preceding fly leaf, well fly leaf and back fly leaf one-to-one.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the following steps that an article to be conveyed, such as heavy machinery or dangerous articles, is placed on a conveying assembly, a plurality of front movable plates move rightwards on corresponding sliding blocks to a set position at the same time, and the article does not move under the friction action of the middle movable plates and the rear movable plates; after the movement of the front movable plates is finished, the plurality of middle movable plates move rightwards to set positions on the corresponding sliding blocks simultaneously, the articles do not move under the friction action of the front movable plates and the rear movable plates, after the movement of the middle movable plates is finished, the plurality of rear movable plates move rightwards to set positions on the corresponding sliding blocks, the articles do not move under the friction action of the front movable plates and the middle movable plates, after the movement of the rear movable plates is finished, the plurality of groups of conveying assemblies act simultaneously, namely the front movable plates, the middle movable plates and the rear movable plates move leftwards simultaneously, and materials on the conveying assemblies are conveyed; according to the invention, the front movable plate, the middle movable plate and the rear movable plate are arranged, the middle movable plate is arranged between the front movable plate and the rear movable plate, so that when any type of movable plate acts, articles are not influenced, a plurality of groups of conveying assemblies enable the articles not to shake when not moving, and when the conveying assemblies act simultaneously, the articles can be conveyed stably; the material conveying device can be applied to material conveying work.

In order to realize the connection of preceding fly leaf, well fly leaf and back fly leaf, the frame that conveys the subassembly below is equipped with an at least spandrel girder on length direction, from left to right slidable in proper order is connected with back movable beam, well movable beam and preceding movable beam on the spandrel girder, back movable beam, well movable beam and preceding movable beam between parallel arrangement each other, a plurality of preceding fly leaf is connected in the front on the movable beam, a plurality of well fly leaf is connected on well movable beam, a plurality of back fly leaf is connected on the movable beam of back.

In order to realize preceding fly leaf, well fly leaf and back fly leaf respectively reciprocating motion in the left and right directions, be equipped with actuating mechanism on the spandrel girder, actuating mechanism is including connecting the crossbeam on the spandrel girder, preceding sharp driver, well sharp driver and back sharp driver of having arranged in proper order from the front to the back on the crossbeam, be equipped with respectively on preceding sharp driver, well sharp driver and the back sharp driver can be in left and right directions reciprocating motion's telescopic link, three telescopic link parallel arrangement, well movable beam connects on the telescopic link that well sharp driver corresponds, preceding movable beam is connected on the telescopic link that sharp driver corresponds in the front, back movable beam is connected on the telescopic link that back sharp driver corresponds.

In order to lead the telescopic rod, the rear movable beam, the middle movable beam and the front movable beam are stable in action, a guide beam is further arranged on the rack, a plurality of guide holes are formed in the guide beam, the telescopic rod can slide in the guide holes, the rear movable beam and the front movable beam are uniformly distributed between the guide beam and the cross beam, a plurality of guide assemblies are respectively arranged on the guide beam and the cross beam, each guide assembly comprises a front plate guide boss, a middle plate guide boss and a rear plate guide boss, a front plate sliding groove matched with the front plate guide boss is formed in the front movable plate, a middle plate sliding groove matched with the middle plate guide boss is formed in the middle movable plate, and a rear plate sliding groove matched with the rear plate guide boss is formed in the rear movable plate.

In order to prevent the front movable plate and the rear movable plate from overtravel during action, a sensor induction part is connected between the cross beam and the guide beam, a front travel sensor extending downwards is arranged on the front movable beam, a rear travel sensor extending downwards is arranged on the rear movable beam, and the front travel sensor and the rear travel sensor can sense the sensor induction part.

For the convenience of dismantling the slider, the slider includes the slider body, open the upper end of slider body has at least one connecting hole, both sides are equipped with downwardly extending's joint spare respectively around the slider body along diagonal direction, and the lower extreme of joint spare is equipped with the elasticity buckle that extends inwards, and the clamping face of elasticity buckle sets up relatively, be equipped with two along the crisscross spacing muscle that distributes of diagonal direction on the slider body of joint spare inboard, spacing muscle sets up with joint spare one-to-one, two space formation between the spacing muscle can hold the installing zone of slide rail.

As a further improvement of the invention, the clamping piece comprises a first vertical part vertically connected to the slide block body, the lower side of the first vertical part is provided with a horizontal part extending inwards, the inner side of the horizontal part is provided with a second vertical part extending downwards, the first vertical part is arranged outside the second vertical part, and the elastic buckle is connected to the lower end of the second vertical part.

In order to increase the strength of the sliding block, a first reinforcing rib extending inwards is arranged on the inner side of the first vertical part, a second reinforcing rib extending inwards is arranged on the inner side of the second vertical part, and both the first reinforcing rib and the second reinforcing rib can slide along the rail; and at least one third reinforcing rib is further arranged on the slider body between the two limiting ribs and is arranged above the limiting ribs.

As a further improvement of the invention, the front side and the rear side of the slider body are also provided with four reinforcing ribs, and one side of the four reinforcing ribs, which is opposite to the clamping piece, is connected with the side edge of the clamping piece.

For use in a raised floor material handling method, comprising the steps of:

(1) when an article to be conveyed is placed on the conveying assembly, the front linear driver acts, the front movable beam drives the front movable plates to move rightwards on the corresponding sliding blocks to a set position, and the article is not moved under the friction action of the middle movable plate and the rear movable plate;

(2) the middle linear driver acts, the middle movable beam drives the middle movable plates to move rightwards on the corresponding sliding blocks to a set position, and the articles do not move under the friction action of the front movable plates and the rear movable plates;

(3) the rear linear driver acts, the rear movable beam drives the rear movable plates to move rightwards on the corresponding sliding blocks to a set position, and the articles do not move under the friction action of the front movable plates and the middle movable plates;

(4) after the rear movable plate moves, the front linear driver, the middle linear driver and the rear linear driver act simultaneously, the plurality of groups of conveying assemblies move leftwards simultaneously, and materials on the conveying assemblies are conveyed.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a bottom view of the present invention.

Fig. 5 is a partially enlarged view of B in fig. 4.

Fig. 6 is a perspective view of the present invention.

Fig. 7 is a partial enlarged view at C in fig. 6.

Fig. 8 is a front view of the slider of the present invention.

Fig. 9 is a first perspective view of a slider according to the present invention.

Fig. 10 is a second perspective view of the slider according to the present invention.

Fig. 11 is a schematic structural view of the slider connected to the slide rail according to the present invention.

Wherein, 1, a frame 101, a load-bearing beam 101, a 102 guide beam, a 102a guide hole, a 103 support beam, a 104 slide rail, a 2-conveying component, a 201 front movable plate, a 201a front plate slide groove, a 202 middle movable plate, a 202a middle plate slide groove, a 203 rear movable plate, a 203a rear plate slide groove, a 3 front movable beam, a 4 middle movable beam, a 5 rear movable beam, a 6-driving mechanism, a 601 front linear driver, a 602 middle linear driver, a 603 rear linear driver, a 604 telescopic rod, a 605 beam, a 7 guide component, a 701 front plate guide boss, a 702 middle plate guide boss, a 703 rear plate guide boss, an 8-sensor, a 9 front stroke sensor, a 10 rear stroke sensor, 11 sliders, 1101 slider bodies, 1102 limit ribs, 1103 third, 1104 connection holes, 1105 connection bosses, 12 clamping pieces, a 1201 vertical portion first, 12012, 1203 vertical portion second, 1204 first reinforcing rib, 1205 reinforcing rib second, 1206 fourth reinforcing rib, 13 elastic buckles, 14 high-pressure filters, 15 valve plates and 16 connecting seats.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 11, a raised floor includes a frame 1, a high pressure filter 14 and a valve plate 15 are disposed on the frame, the frame 1 is slidably connected with a plurality of sets of conveying assemblies 2 in a length direction, each conveying assembly 2 includes a front raised plate 201, a middle raised plate 202 and a rear raised plate 203, the middle raised plate 202 is disposed between the front raised plate 201 and the rear raised plate 203, the front raised plate 201, the middle raised plate 202 and the rear raised plate 203 can reciprocate along the frame 1 in a left-right direction, the frame 1 is further provided with a plurality of supporting beams 103, a plurality of sliding rails 104 are arranged on the supporting beams 103 at intervals, the sliding rails 104 are detachably connected with a plurality of sliding blocks 11, the conveying assemblies 2 are supported on upper sides of the sliding blocks 11, and the plurality of sliding blocks 11 are respectively in one-to-one correspondence with the front raised plate 201, the middle raised plate 202 and the rear raised plate 203; at least one bearing beam 101 is arranged on a machine frame 1 below a conveying assembly 2 in the length direction, a rear movable beam 5, a middle movable beam 4 and a front movable beam 3 are sequentially connected on the bearing beam 101 in a sliding manner from left to right, the rear movable beam 5, the middle movable beam 4 and the front movable beam 3 are arranged in parallel, a plurality of front movable plates 201 are connected on the front movable beam 3, a plurality of middle movable plates 202 are connected on the middle movable beam 4, a plurality of rear movable plates 203 are connected on the rear movable beam 5, a driving mechanism 6 is arranged on the bearing beam 101, the driving mechanism 6 comprises a cross beam 605 connected on the bearing beam 101, a front linear driver 601, a middle linear driver 602 and a rear linear driver 603 are sequentially arranged on the cross beam 605 from front to back, and telescopic rods 604 capable of reciprocating in the left-right direction are respectively arranged on the front linear driver 601, the middle linear driver 602 and the rear linear driver 603, the three telescopic rods 604 are arranged in parallel, the middle movable beam 4 is connected to the telescopic rod 604 corresponding to the middle linear driver 602 through the connecting seat 16, the front movable beam 3 is connected to the telescopic rod 604 corresponding to the front linear driver 601 through the connecting seat 16, and the rear movable beam 5 is connected to the telescopic rod 604 corresponding to the rear linear driver 603 through the connecting seat 16; the frame 1 is further provided with a guide beam 102, the guide beam 102 is provided with a plurality of guide holes 102a, the telescopic rod 604 can slide in the guide holes 102a, the rear movable beam 5 and the front movable beam 3 are both distributed between the guide beam 102 and the cross beam 605, the guide beam 102 and the cross beam 605 are respectively provided with a plurality of guide assemblies 7, each guide assembly 7 comprises a front plate guide boss 701, a middle plate guide boss 702 and a rear plate guide boss 703, the front movable plate 201 is provided with a front plate sliding slot 201a matched with the front plate guide boss 701, the middle movable plate 202 is provided with a middle plate sliding slot 202a matched with the middle plate guide boss 702, and the rear movable plate 203 is provided with a rear plate sliding slot 203a matched with the rear plate guide boss 703; a sensor induction part 8 is connected between the cross beam 605 and the guide beam 102, a front stroke sensor 9 extending downwards is arranged on the front movable beam 3, a rear stroke sensor 10 extending downwards is arranged on the rear movable beam, and both the front stroke sensor 9 and the rear stroke sensor 10 can sense the sensor induction part 8; the slider 11 comprises a slider body 1101, the upper end of the slider body 1101 is provided with at least one connecting hole 1104, the front side and the rear side of the slider body 1101 along the diagonal direction are respectively provided with a clamping piece 12 extending downwards, the lower end of the clamping piece 12 is provided with an elastic buckle 13 extending inwards, the clamping surfaces of the elastic buckles 13 are arranged oppositely, the slider body 1101 on the inner side of the clamping piece 12 is provided with two limiting ribs 1102 distributed along the diagonal direction in a staggered manner, the limiting ribs 1102 and the clamping piece 12 are arranged oppositely one by one, and a mounting area capable of accommodating the slide rail 104 is formed in a space between the two limiting ribs 1102; the clamping piece 12 comprises a first vertical part 1201 vertically connected to the slider body 1101, a horizontal part 1202 extending inwards is arranged on the lower side of the first vertical part 1201, a second vertical part 1203 extending downwards is arranged on the inner side of the horizontal part 1202, the first vertical part 1201 is arranged outside the second vertical part 1203, the elastic clamping buckle 13 is connected to the lower end of the second vertical part 1203, a first reinforcing rib 1204 extending inwards is arranged on the inner side of the first vertical part 1201, a second reinforcing rib 1205 extending inwards is arranged on the inner side of the second vertical part 1203, and both the first reinforcing rib 1204 and the second reinforcing rib 1205 can slide along a track; still be equipped with three 1103 of at least strengthening rib on the slider body 1101 between two spacing muscle 1102, three 1103 of strengthening rib still are in the top of spacing muscle 1102, still are equipped with four 1206 of strengthening rib on the slider body 1101, the relative joint 12's of four 1206 of strengthening rib one side is connected with the lateral margin of joint 12, still be equipped with on the slider body 1101 in the joint 12 outside and connect boss 1105, a plurality of connect boss 1105 can just go into respectively in the corresponding front bezel spout 201a, middle plate spout 202a and back plate spout 203a of card.

To further carry out the method of transporting material of the present invention, the method comprises the steps of:

(1) when an article to be conveyed is placed on the conveying assembly 2, the front linear driver 601 acts, the front movable beam 3 drives the front movable plates 201 to move rightwards on the corresponding slide blocks 11 to a set position, and the article is not moved under the friction action of the middle movable plate 202 and the rear movable plate 203;

(2) the middle linear driver 602 acts, the middle movable beam 4 drives a plurality of middle movable plates 202 to move rightwards on the corresponding slide blocks 11 to a set position, and the articles are not moved under the friction action of the front movable plate 201 and the rear movable plate 203;

(3) the rear linear actuator 603 moves, the rear movable beam 5 drives the plurality of rear movable plates 203 to move rightwards on the corresponding slide blocks 11 to a set position, and the articles are not moved under the friction action of the front movable plate 201 and the middle movable plate 202;

(4) after the rear movable plate 203 finishes moving, the front linear actuator 601, the middle linear actuator 602, and the rear linear actuator 603 simultaneously operate, the plurality of sets of conveying assemblies 2 simultaneously move leftward, and the materials on the conveying assemblies 2 are conveyed.

Before the invention works, the elastic buckle 13 is downwards arranged, the slider body 1101 is placed on the slide rail 104, the slider body 1101 is perpendicular to the slide rail 104, the slider body 1101 is rotated by hands, when the slider body 1101 rotates, the elastic buckle 13 is deformed and clamped to the lower side of the slide rail 104 under stress, the first reinforcing rib 1204 and the second reinforcing rib 1205 are also clamped to the slide rail 104 respectively, at the moment, the slider body 1101 is parallel to the slide rail 104, the slide rail 104 is just between the two limiting ribs 1102, the slider body 1101 is fixed on the slide rail 104 by selecting a connecting hole 1104 through a bolt, then a plurality of connecting bosses 1105 of the slider body 1101 are respectively and correspondingly clamped into a front plate sliding groove 201a, a middle plate sliding groove 202a and a rear plate sliding groove 203a of the conveying assembly 2, the front movable plate 201, the middle movable plate 202 and the rear movable plate 203 are respectively and correspondingly connected on the front movable beam 3, the middle movable beam 4 and the rear movable beam 5 by using the connecting seats, the assembly of the invention can be completed; when the sliding block 11 needs to be replaced, the sliding block 11 can be detached only by detaching the transmission assembly 2, then detaching the bolt in the connecting hole 1104, and rotating the sliding block body 1101 again to enable the elastic buckle 13 to fall off from the sliding rail 104; when the conveying device works, articles to be conveyed, such as heavy machinery or dangerous articles, are placed on the conveying component 2, high-pressure oil flows into the valve plate 15 through an oil pipe after being filtered by the high-pressure filter 14, then flows into the front linear driver 601, the middle linear driver 602 and the rear linear driver 603 (the oil pipe is in the prior art and is not shown in the drawing) after being shunted by the valve plate 15, the front linear driver 601 acts, the telescopic rod 604 of the front linear driver 601 extends rightwards along the corresponding guide hole 102a, the telescopic rod 604 drives the front movable beam 3 to move rightwards, the front movable beam 3 drives the front movable plates 201 to move rightwards on the sliding block 11 to a set position, when the front movable plates 201 move, the front plate guide bosses 701 move relatively in the front plate sliding grooves 201a, and the articles do not move under the friction action of the middle movable plates 202 and the rear movable plates 203; after the front movable plate 201 finishes moving, the middle linear driver 602 acts, the telescopic rods 604 of the middle linear driver 602 extend rightward along the corresponding guide holes 102a, the telescopic rods 604 drive the middle movable beam 4 to move rightward, the middle movable beam 4 drives the plurality of middle movable plates 202 to simultaneously move rightward on the slide block 11 to a set position, when the middle movable plate 202 moves, the middle plate guide bosses 702 move relatively in the middle plate sliding grooves 202a, the article is not moved by the friction action of the front movable plate 201 and the rear movable plate 203, after the middle movable plate 202 moves, the rear linear driver 603 acts, the telescopic rods 604 of the rear linear driver 603 extend rightward along the corresponding guide holes 102a, the telescopic rods 604 drive the rear movable beam 5 to move rightward, the rear movable beam 5 drives the plurality of front movable plates 201 to simultaneously move rightward on the slide block 11 to the set position, when the rear movable plate 203 moves, the rear plate guide boss 703 relatively moves in the rear plate chute 203a, the articles are not moved by the friction action of the front movable plate 201 and the middle movable plate 202, after the rear movable plate 203 finishes moving, the front linear driver 601, the middle linear driver 602 and the rear linear driver 603 simultaneously move in opposite directions, the front movable beam 3, the middle movable beam 4 and the rear movable beam 5 simultaneously move leftwards, that is, the front movable plate 201, the middle movable plate 202 and the rear movable plate 203 simultaneously move leftwards, the material on the conveying assembly 2 is conveyed, and in the process of the movement of the front movable plate 201 and the rear movable plate 203, the front stroke sensor 9 and the rear stroke sensor 10 can sense the sensor sensing part 8, so as to prevent the movement stroke of the front movable plate 201 and the rear movable plate 203 from exceeding the stroke; the arrangement of the front movable beams 3, the middle movable beams 4 and the rear movable beams 5 in the invention can realize the effective staggered arrangement among the front movable plates 201, the middle movable plates 202 and the rear movable plates 203 in the conveying assembly 2; the arrangement of the front movable plate 201, the middle movable plate 202 and the rear movable plate 203, the middle movable plate 202 is arranged between the front movable plate 201 and the rear movable plate 203, so that when any type of movable plate acts, articles are not influenced and are kept still, and when the conveying assembly 2 acts simultaneously, the articles can be conveyed stably, the conveying is stable and efficient, and the safety is high; the arrangement of the sliding block 11 can effectively reduce the contact area between the conveying assembly 2 and the sliding rail 104, improve the conveying efficiency and prolong the service life of the conveying assembly 2; the arrangement of the sliding block body 1101, the clamping piece 12 and the elastic clamp 13 enables the sliding block 11 to be quickly disassembled and assembled, and the sliding block is convenient to use and high in working efficiency; the material conveying device can be applied to material conveying work.

The present invention is not limited to the above-mentioned examples, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some substitutions and modifications to some technical features without creative efforts based on the disclosed technical contents, and these substitutions and modifications are all within the protection scope of the present invention.

Claims (8)

1. A raised floor, includes the frame, its characterized in that: the machine frame is connected with a plurality of groups of conveying assemblies in a sliding manner in the length direction, a plurality of sliding rails are arranged on the machine frame at intervals, a plurality of sliding blocks are detachably connected to the sliding rails, the conveying assemblies are arranged on the upper sides of the sliding blocks, each conveying assembly comprises a front movable plate, a middle movable plate and a rear movable plate which are arranged in parallel, the middle movable plate is arranged between the front movable plate and the rear movable plate, the front movable plate, the middle movable plate and the rear movable plate can move in a reciprocating manner along the machine frame in the left-right direction, and the sliding blocks are in one-to-one correspondence with the front movable plate, the middle movable plate and the rear movable plate respectively; the sliding block comprises a sliding block body, the upper end of the sliding block body is provided with at least one connecting hole, the front side and the rear side of the sliding block body along the diagonal direction are respectively provided with a clamping piece extending downwards, the lower end of the clamping piece is provided with an elastic buckle extending inwards, the clamping surfaces of the elastic buckles are arranged oppositely, the slide block body at the inner side of the clamping piece is provided with two limiting ribs which are distributed along the diagonal direction in a staggered way, the limiting ribs and the clamping pieces are arranged oppositely one by one, a mounting area capable of accommodating the slide rail is formed in a space between the two limiting ribs, the clamping piece comprises a first vertical part vertically connected with the slide block body, a horizontal part extending inwards is arranged at the lower side of the first vertical part, the inner side of the horizontal part is provided with a vertical part II which extends downwards, the vertical part I is arranged outside the vertical part II, and the elastic buckle is connected to the lower end of the vertical part II.

2. A raised floor as claimed in claim 1, wherein: the frame of conveying subassembly below is equipped with an at least spandrel girder on the length direction, from left to right slidable in proper order is connected with back digging beam, well digging beam and preceding digging beam on the spandrel girder, parallel arrangement each other between back digging beam, well digging beam and the preceding digging beam, a plurality of preceding fly leaf is connected on preceding digging beam, a plurality of well fly leaf is connected on well digging beam, a plurality of back fly leaf is connected on the back digging beam.

3. A raised floor as claimed in claim 2, wherein: be equipped with actuating mechanism on the spandrel girder, actuating mechanism is including connecting the crossbeam on the spandrel girder, sharp driver, well sharp driver and back sharp driver before having arranged in proper order after to before on the crossbeam, be equipped with respectively on preceding sharp driver, well sharp driver and the back sharp driver can be at direction reciprocating motion's telescopic link about, it is three telescopic link parallel arrangement, well digging beam connects on the telescopic link that well sharp driver corresponds, preceding digging beam is connected on the telescopic link that sharp driver corresponds in the front, back digging beam is connected on the telescopic link that back sharp driver corresponds.

4. A raised floor as claimed in claim 3, wherein: still be equipped with the guide beam in the frame, it has a plurality of guiding hole to open on the guide beam, the telescopic link can slide in the guiding hole, and back digging beam and preceding digging beam all distribute between guide beam and crossbeam, be equipped with a plurality of direction subassembly on guide beam and the crossbeam respectively, the direction subassembly includes front bezel direction boss, medium plate direction boss and back plate direction boss, be equipped with the front bezel spout with front bezel direction boss matched with on the preceding fly leaf, be equipped with the medium plate spout with medium plate direction boss matched with on the well fly leaf, be equipped with the back plate spout with back plate direction boss matched with on the back fly leaf.

5. A raised floor as claimed in claim 4, wherein: be connected with the sensor response piece between crossbeam and the guide beam, be equipped with the preceding stroke sensor of downwardly extending on the preceding walking beam, the back stroke sensor that is equipped with downwardly extending on the back activity comes the roof beam, and preceding stroke sensor and back stroke sensor all can sense the sensor response piece.

6. A raised floor as claimed in claim 5, wherein: the inner side of the first vertical portion is provided with a first reinforcing rib extending inwards, the inner side of the second vertical portion is provided with a second reinforcing rib extending inwards, the first reinforcing rib and the second reinforcing rib can slide along the track, the first reinforcing rib and the second reinforcing rib are arranged on the slider body between the limiting ribs, at least one third reinforcing rib is further arranged on the slider body between the limiting ribs, and the third reinforcing rib is arranged above the limiting ribs.

7. A raised floor as claimed in claim 6, wherein: and four reinforcing ribs are further arranged on the front side and the rear side of the slider body, and one side of the four opposite clamping pieces of the reinforcing ribs is connected with the side edge of the clamping piece.

8. A method for transporting materials through a raised floor as claimed in any one of claims 1 to 7, comprising the steps of:

(1) when an article to be conveyed is placed on the conveying assembly, the front linear driver acts, the front movable beam drives the front movable plates to move rightwards on the corresponding sliding blocks to a set position, and the article is not moved under the friction action of the middle movable plate and the rear movable plate;

(2) the middle linear driver acts, the middle movable beam drives the middle movable plates to move rightwards on the corresponding sliding blocks to a set position, and the articles do not move under the friction action of the front movable plates and the rear movable plates;

(3) the rear linear driver acts, the rear movable beam drives the rear movable plates to move rightwards on the corresponding sliding blocks to a set position, and the articles do not move under the friction action of the front movable plates and the middle movable plates;

(4) after the rear movable plate moves, the front linear driver, the middle linear driver and the rear linear driver act simultaneously, the plurality of groups of conveying assemblies move leftwards simultaneously, and materials on the conveying assemblies are conveyed.

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