CN203033428U - Sorting equipment with upper and lower stations - Google Patents

Abstract

The utility model is applied in the field of sorting equipment, provides sorting equipment with upper and lower stations, and aims to solve the problems that the sorting equipment in the prior art is complex in structure and occupies a large space. The sorting equipment with the upper and lower stations is positioned below a discharging device of a laser cutting machine and matched with a first heavy rail and a second heavy rail which are arranged on the ground to convey materials cut by the laser cutting machine, and comprises an upper sorting table positioned below the discharging device and matched with the first heavy rail and a lower sorting table positioned below the upper sorting table to superpose the upper sorting table in the vertical direction and matched with the second heavy rail, wherein the first heavy rail is parallel to the second heavy rail. The space occupied by the sorting equipment is reduced through the upper sorting table and the lower sorting table which are vertically superposed; the upper sorting table and the lower sorting table are simple in structure; and the working efficiency is improved through cycle operation of the upper sorting table and the lower sorting table.

Description

Has the sorting arrangement of double up and down

Technical field

The utility model belongs to sorting arrangement, relates in particular to a kind of sorting arrangement of double up and down that has.

Background technology

Sorting arrangement be finish warehouse, DISTRIBUTION CENTRE selection, distribution of goods, branch is put the automation equipment of operation, is that large-scale logistics centre, DISTRIBUTION CENTRE sort, the strong technical guarantee of delivery operation.

Yet in automatic processing system, sorting arrangement is mainly used in automatic discharging and transported material.Particularly in comprising the automation on line system of laser cutting machine, sorting arrangement is positioned at the blanking device below of laser cutting machine, with the material of transportation well cutting.Existing sorting arrangement adopts hydraulic lift carrying out material transportation usually, this sorting arrangement exist complex structure, floor area more greatly, break down easily, cost is high and safeguard defective such as inconvenience.

The utility model content

The purpose of this utility model is to provide a kind of sorting arrangement of double up and down that has, and is intended to solve sorting arrangement complex structure of the prior art and the bigger problem of floor area.

The utility model is to realize like this, a kind of have a up and down sorting arrangement of double, be positioned at laser cutting machine blanking device below and be installed in the material that ground first heavy rail and second heavy rail cooperate to transport described laser cutting machine cutting, and comprise the last pigeonholes that cooperates with described first heavy rail and be positioned at described go up the pigeonholes below with the described following pigeonholes of going up pigeonholes stacked setting in vertical direction and cooperating with described second heavy rail, described first heavy rail and described second heavy rail are parallel to each other.

Further, described go up pigeonholes comprise described blanking device and described down between the pigeonholes and utilize first framework that square tube is welded and be installed on described first framework and drive described on first transmission device that moves along described first heavy rail of pigeonholes.

Further, described first framework comprise be coated with first steel plate with first bench board of placing described material, a pair ofly be fixedly installed in described first bench board and be positioned at described bracing frame and a plurality of first striker plate that is fixed in the described first steel plate side side by side and deviates from support frame as described above of pigeonholes both sides down, support frame as described above comprises first installation portion that cooperates with described first transmission device.

Further, described first transmission device comprises first motor reducer that is installed on described first framework, is installed on the end face of described first bench board and is across between the support frame as described above and first transmission shaft that is connected with described first motor reducer, two groups are rotationally connected with in described first installation portion and first roller that cooperates with described first heavy rail, two pairs are connected to first sprocket wheel of the described first transmission shaft two ends and two described first rollers and a pair ofly be connected in chain between described first transmission shaft and described first roller by described first sprocket wheel.

Further, the described pigeonholes of going up also comprises and a plurality ofly moves and be fixedly installed in the first photoelectric switch detecting device on described first framework and be used for the fixing described pigeonholes of going up and slide and be fixedly installed in the anti-mobile device of first on first framework loading described material process to prevent the described pigeonholes of going up for the described pigeonholes of going up of control.

Further, it is characterized in that described down pigeonholes comprises being positioned at describedly to be gone up the pigeonholes below and utilize second framework that square tube is welded and be installed on described second framework and drive second transmission device that described pigeonholes down moves along described second heavy rail.

Further, described second framework comprises and is coated with second steel plate with second bench board of placing described material, a pair of feet and a plurality of second striker plate that is fixed in the described second steel plate side side by side and deviates from described feet that is fixed in second bench board and is positioned at described second heavy rail top that described feet comprises second installation portion that cooperates with described second transmission device.

Further, described second transmission device comprise be installed on described second bench board and second motor reducer between described feet, two groups are rotationally connected with in second installation portion and second roller that cooperates with described second heavy rail and be installed on described second roller and described second motor reducer between second transmission shaft.

Further, described first roller comprises a pair of first awl roller and a pair of first flat roller that is positioned on another support frame as described above that is positioned at a support frame as described above, and described second roller comprises a pair of second awl roller and a pair of second flat roller that is installed in described second installation portion of opposite side that is installed in described second installation portion in the same side.

Further, described down pigeonholes also comprise a plurality of move and be fixedly installed in the second photoelectric switch detecting device on second framework and be used for fixing described pigeonholes down for the described pigeonholes down of control slide and be fixedly installed in the anti-mobile device of second on second framework loading described material process to prevent described pigeonholes down.

The utility model have up and down that the sorting arrangement of double overlaps installation so that the floor area of sorting arrangement reduces greatly in the vertical direction by last pigeonholes and following pigeonholes, and compact conformation, in addition, last pigeonholes and following pigeonholes adopt first motor reducer and second motor reducer as actuating device respectively, and be simple in structure.And last pigeonholes and following pigeonholes alternately transport material to increase work efficiency.

Description of drawings

Fig. 1 be the utility model provide have up and down a sorting arrangement of double and the scheme of installation of blanking device.

Fig. 2 is the structural representation of the last pigeonholes that provides of the utility model.

Fig. 3 is the structural representation of first framework that provides of the utility model.

Fig. 4 is the structural representation of first transmission device that provides of the utility model.

Fig. 5 is the structural representation of the following pigeonholes that provides of the utility model.

Fig. 6 is the structural representation of second framework that provides of the utility model.

Fig. 7 is the structural representation of second transmission device that provides of the utility model.

Fig. 8 is the structural representation of first and second striker plate of providing of the utility model.

Fig. 9 is the structural representation of first and second anti-mobile device of providing of the utility model.

Figure 10 is the structural representation of first and second photoelectric switch detecting device of providing of the utility model.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.

Please refer to Fig. 1, the utility model embodiment provides have the sorting arrangement 2 of double up and down be positioned at laser cutting machine blanking device 1 below and be installed on ground first heavy rail 4 and second heavy rail 5 and cooperate to transport the material 3 of laser cutting machine cutting, comprise be positioned at blanking device 1 below and the last pigeonholes 20 that cooperates with first heavy rail 4 and be positioned at described go up pigeonholes 20 belows with the described following pigeonholes 25 of going up pigeonholes 20 stacked setting in vertical direction and cooperating with second heavy rail 5, described first heavy rail 4 and described second heavy rail 5 are parallel to each other.The utility model by the stacked on top of one another setting last pigeonholes 20 and following pigeonholes 25 to reduce the occupation of land space of sorting arrangement 2, namely go up pigeonholes 20 and following pigeonholes 25 and overlap installation in the vertical direction so that sorting arrangement 2 shared spaces reduce, and upward pigeonholes 20 constitutes height two stations with following pigeonholes 25, namely go up pigeonholes 20 carrying materials 3 and move to transport material 3 along first heavy rail 4, following pigeonholes 25 acts on identical with last pigeonholes 20 and alternately transports material 3 with last pigeonholes 20, thereby increases work efficiency.

In the present embodiment, first heavy rail 4 and second heavy rail 5 are layed on the ground, and structure is identical, is the track structure of strip shape, and cross-sectional plane all is similar " worker " font.

Please refer to Fig. 2, last pigeonholes 20 comprises between blanking device 1 and the following pigeonholes 25 and utilize first framework 21 that square tube is welded and be installed on first framework 21 and first transmission device 22 that pigeonholes 20 moves along described first heavy rail 4 on driving.Particularly, first framework 21 is used for carrying material 3 and the driving effect by first transmission device 22 makes pigeonholes 20 move along first heavy rail 4, thereby material 3 is transported to the appointment station.First framework 21 is welded by square tube, sound construction, and load-carrying capacity is strong, can carry 5000 kilograms heavy burden at most.

Please be simultaneously with reference to Fig. 2 and Fig. 3, first framework 21 comprises and is coated with first steel plate 212 to place first bench board 210, a pair of bracing frame 214 and a plurality of first striker plate 216 that is fixed in first steel plate, 212 sides side by side and deviates from bracing frame 214 that is fixedly installed in first bench board 210 and is positioned at first heavy rail, 4 tops of material 3 that support frame as described above comprises first installation portion 2140 that cooperates with first transmission device 22.First bench board 210 is positioned at blanking device 1 below and does covering by first steel plate 212 and covers to carry material 3, covers to strengthen the load-carrying capacity of going up pigeonholes 20 by first steel plate 212 being done covering.First striker plate 216 is fixed in the material 3 of first steel plate, 212 sides to keep out landing from blanking device 1, can prevent on the one hand material 3 from landing on the last pigeonholes 20 on the ground, can detect the thickness of the material that carries 3 on the pigeonholes 20 on the other hand.Bracing frame 214 so that following pigeonholes 25 is positioned at first framework 21, is namely realized going up pigeonholes 20 and following pigeonholes 25 vertical installations between first bench board 210 and first heavy rail 4, takes up room with saving.

First bench board 210 is supporting structure, comprises a pair of first sidepiece 2100 that is parallel to each other, a pair ofly is fixedly installed between described first sidepiece 2100 and the first end 2102 that is parallel to each other, a plurality of being fixedly installed between the described first end 2102 and and first skeleton 2103 that is parallel to each other of first sidepiece 2100 and a plurality of second skeleton 2104 that is fixedly installed between first sidepiece 2100 and first skeleton 2103 and is parallel to each other between adjacent two first skeletons 2103 and with first end 2102.Described first sidepiece 2100 constitutes a quadra structure and covers with described first end 2102 fixedly first steel plate 212, and constitutes the work top of going up pigeonholes 20 in the lump with first skeleton 2103 and second skeleton 2104.

In the present embodiment, first sidepiece 2100, first end 2102, first skeleton 2103 and second skeleton 2104 are the identical square tube of material, and achieve a fixed connection by welding manner.

Bracing frame 214 is fixedly installed in first sidepiece 2100 and is oppositely arranged with pigeonholes 25 both sides under being positioned at and with first steel plate 212, comprise first crossbeam 2144 that a plurality of vertical fixing are connected in the support portion 2142 of first sidepiece 2100 and are fixedly connected on support portion 2142 and are parallel to each other with first sidepiece 2100, support portion 2142 is fixedly connected between first sidepiece 2100 and first crossbeam 2144, thereby makes first bench board 210 and ground form certain distance to take in down pigeonholes 25.In the present embodiment, support portion 2142 is the identical square tube of material with first crossbeam 2144, and achieves a fixed connection by welding manner.First installation portion 2140 is the adapter plate that is fixedly set in the pair of opposing of first crossbeam, 2144 both sides, and forming first mounting groove 2141 cooperating with first transmission device 22 with first crossbeam 2144, this first mounting groove 2141 and support portion 2142 lay respectively at the relative both sides of first crossbeam 2144.

Please refer to Fig. 8, first striker plate 216 comprises that first adapter plate 2160 and fixed interval are arranged at first on the adapter plate 2160 and support plate washer 2165.First adapter plate 2160 is fixedly installed on first steel plate 212 and lays respectively at the relative both sides of first steel plate 212 with first sidepiece 2100, and each first is kept out that plate 2165 is parallel to each other and be used for keeping out material 3 to prevent material 3 landing from first bench board 210.This first end of keeping out plate 2165 is provided with first hook 2168, this first hook 2168 is kept out plate 2165 along first and is given prominence to towards first bench board 210, judging the thickness of going up the material that carried 3 on the pigeonholes 20, keep out the height of plate 2165 and landing from first bench board 210 thereby can avoid the thickness of material 3 to exceed first.

This first bench board 210 also comprises first fixed block 2105 and second fixed block 2106 that fixedly mounts first transmission device 22, and this first fixed block 2105 and second fixed block 2106 are arranged on the same first end 2102 respectively and close on support portion 2142.

Please be simultaneously with reference to Fig. 2 and Fig. 4, first transmission device 22 comprises first motor reducer 220 that is installed on first framework 21, be installed on the end face of first bench board 210 to be across between the bracing frame 214 and first transmission shaft 222 that is connected with described first motor reducer 220, two groups are rotationally connected with in first installation portion 2140 and first roller 224 that cooperates with first heavy rail 4, two pairs of first sprocket wheels 226 that are connected to first transmission shaft, 222 two ends and two described first rollers 224 and a pair ofly be connected in chain 228 between described first transmission shaft 222 and described first roller 224 by described first sprocket wheel 226.

Particularly, first transmission device 22 also comprises first fixed part 221 of captiveing joint with first fixed block 2105 and second fixed part 223 of captiveing joint with second fixed block 2106, this first fixed part 221 and second fixed part 223 lay respectively at the two ends of first transmission shaft 222, thereby make first transmission shaft 222 be positioned at a side of closing on first end 2102 of first framework 21.First motor reducer 220 is installed on first fixed part 221 and is connected to drive 222 rotations of first transmission shaft so that first motor reducer 220 is installed on first framework 21 and by coupler 225 and first transmission shaft 222.First roller 224 comprises a pair of first awl roller 2240 that is positioned at a support frame as described above 214 and a pair ofly is positioned at that first flat roller 2245, the first awl rollers 2240 on another support frame as described above 214 and first flat roller 2245 are installed on respectively in first mounting groove 2141 so that first framework 21 matches with first heavy rail 4.First sprocket wheel 226 is installed on the two ends at first transmission shaft 222, the first awl roller 2240 that closes on second fixed block, 2,106 one sides and first flat roller 2245 that closes on first fixed block, 2,105 one sides respectively, i.e. this first sprocket wheel 226 and this first transmission shaft 222, this first awl roller 2240 and 2245 coaxial connections of first flat roller.Chain 228 is connected between two first sprocket wheels 226 of the same side, particularly, article one, chain 228 is connected between first sprocket wheel 226 that closes on first fixed part 221 and first flat roller 2245 to connect first transmission shaft 222 and first flat roller 2245, and another chain 228 is connected between first sprocket wheel 226 that closes on second fixed part 223 and the first awl roller 2240 to connect first transmission shaft 222 and the first awl roller 2240.

During work, driving first transmission shaft 222 by first motor reducer 220 rotates, and first sprocket wheel 226 that drives on first transmission shaft 222 by first transmission shaft 222 rotates, rotate by chain 228 drives, the first awl roller 2240 and first flat roller 2245 that is connected between first sprocket wheel 226 and the first awl roller 2240 and first flat roller 2245, pigeonholes 20 moves around along first heavy rail 4 thereby make the first awl roller 2240 and first flat roller 2245 drive upward.

In the present embodiment, first transmission device 22 also comprises a pair of second sprocket wheel 229 that is installed on the support portion 2142, second sprocket wheel 229 is installed on first framework 21 by the adapter plate 227 that is fixedly installed on the support portion 2142, and meshes to prevent that with chain 228 chain 228 breaks away from cooperating in first sprocket wheel 226 in motion process.

Please refer to Fig. 9, last pigeonholes 20 also comprises for the fixing pigeonholes 20 of going up prevents mobile device 23 to prevent that pigeonholes 20 from sliding and being fixedly installed in first on first framework 21 in described material 3 processes of loading.This first anti-mobile device 23 comprises cylinder 230, be fixedly installed in cylinder support 232 on first crossbeam 2144 of first framework 21, with cylinder 2230 be installed on air cylinder fixed plate 234 on the cylinder support 232, along cylinder 230 1 end faces towards placing the outstanding location taper pin 235 in plane, being fixedly installed in and placing on the plane and the tapered sleeve 238 that is positioned at the base plate 236 of cylinder 230 belows and is provided with trepanning 2380 and is fixedly installed in base plate 236.This placement plane can be the plane that first heavy rail 4 and second heavy rail 5 are installed, and also can be the plane that parallels with first heavy rail 4 and second heavy rail, 5 mounting planes.During use, when last pigeonholes 20 moves into place, be inserted in the trepanning 2380 will go up pigeonholes 20 diebacks by location taper pin 235, be fixed on predetermined position thereby will go up pigeonholes 20, to prevent that pigeonholes 20 slides on this in the process of blanking device 1 landing material 3.

Please refer to Figure 10, last pigeonholes 20 also comprises a plurality ofly to be gone up pigeonholes 20 for control and moves and be fixedly installed in the first photoelectric switch detecting device 24 on described first framework 21.By the locating piece 245 that is fixedly installed on first crossbeam 2144 and have a knock hole 2450 this first photoelectric switch detecting device 24 is installed on first framework 21.This first photoelectric switch detecting device 24 is used for control to be gone up the deceleration of pigeonholes 20 and stops and detecting pigeonholes 20 whether arrive predeterminated position, comprises that to pass knock hole 2450 interior and be fixedly set in photoelectric switch 240 and electric connection and the photoelectric switch 240 on the locating piece 245 and be fixedly installed in the sensor block 242 on placement plane.

Please be simultaneously with reference to Fig. 1 and Fig. 5, following pigeonholes 25 comprises and is positioned at pigeonholes 20 belows and utilizes second framework 26 that square tube is welded and be installed on second framework 26 and second transmission device 28 that drives pigeonholes 25 to move along described second heavy rail 5.Particularly, second framework 26 is used for carrying material 3 and the driving effect by second transmission device 28 makes down pigeonholes 25 move along second heavy rail 5, thereby material 3 is transported to the appointment station.Second framework 26 is welded by square tube, sound construction, and load-carrying capacity is strong, can carry 5000 kilograms heavy burden at most.

Please be simultaneously with reference to Fig. 5 and Fig. 6, second framework 26 comprises and is coated with second steel plate 262 to place second bench board 260, a pair of feet 264 and a plurality of second striker plate 266 that is fixed in described second steel plate, 262 sides side by side and deviates from feet 264 that is fixed in second bench board 260 and is positioned at second heavy rail, 5 tops of material 3 that feet 264 comprises second installation portion 2640 that cooperates with second transmission device 28.Second bench board 260 is done covering by second steel plate 262 and is covered to be used for carrying material 3 and be positioned at first bench board, 210 belows, covers to strengthen the load-carrying capacity of pigeonholes 25 down by second steel plate 262 being done covering.Second striker plate 266 is identical with 216 effects of first striker plate, namely be fixed in the material 3 of second steel plate, 262 sides to keep out landing from blanking device 1, can prevent that on the one hand material 3 from can detect down the thickness of the material that carries 3 on the pigeonholes 25 from landing on the following pigeonholes 25 on the other hand on the ground.Feet 264 between second bench board 260 and second heavy rail 5 so that second transmission device 28 to be installed.

Second bench board 260 is supporting structure, identical with first bench board, 210 structures, comprise a pair of second sidepiece 2600 that is parallel to each other, a pair ofly be fixedly installed in second sidepiece, 2600 supports and the second end 2602 that is parallel to each other, a plurality of being fixedly installed between the described the second end 2602 and and the 3rd skeleton (not shown) that is parallel to each other of second sidepiece 2600 and a plurality of the 4th skeleton (not shown) that is fixedly installed between second sidepiece 2600 and the 3rd skeleton and is parallel to each other between adjacent two the 3rd skeletons and with the second end 2602.Similarly, described second sidepiece 2600 constitutes a quadra structure and covers with described the second end 2602 fixedly second steel plate 262, and constitutes the work top of pigeonholes 25 down in the lump with the 3rd skeleton and the 4th skeleton 2104.

In the present embodiment, second sidepiece 2600, the second end 2602, the 3rd skeleton and the 4th skeleton are the identical square tube of material, and achieve a fixed connection by welding manner.

Feet 264 comprises a pair of second crossbeam 2642 that is fixedly installed in second sidepiece 2600 and is oppositely arranged with second steel plate 262.In the present embodiment, the material of second crossbeam 2642 is with the identical of second sidepiece 2600 and be square tube, and achieves a fixed connection by welding manner.Second installation portion 2640 is the adapter plate that is fixedly set in the pair of opposing of second crossbeam, 2642 both sides, and forming second mounting groove 2641 to cooperate with second transmission device 28 with second crossbeam 2642, this second installation portion 2640 closes on four angles of this second bench board 260.

Please refer to Fig. 8, the structure of second striker plate 266 and effect are identical with structure and the effect of first striker plate 216, do not give unnecessary details herein.

Please be simultaneously with reference to Fig. 5 and Fig. 7, described second transmission device 28 comprise be installed in described second bench board 260 deviate from second steel plate, 262 1 sides and second motor reducer 280 between described second installation portion 2640, two groups be rotationally connected with second roller 284 in second installation portion 2640 and be installed on described second roller 284 and described second motor reducer 280 between second transmission shaft 282.

Particularly, second motor reducer 280 is installed on second bench board 260 by the 3rd fixed part 281 that is fixedly installed on second framework 26, and is connected to drive 282 rotations of second transmission shaft by coupler 283 and second transmission shaft 282.Second roller 284 comprises that a pair of second awl roller 2840 that is positioned at one second crossbeam 2642 and cooperates in second installation portion 2640 and a pair of second flat roller, 2845, the second awl rollers 2840 that are positioned at another described second crossbeam 2642 and cooperate in second installation portion 2640 and second flat roller 2845 are installed on respectively in second mounting groove 2141 so that second framework 26 matches with second heavy rail 5.Like this, second motor reducer 280 is between the two relative second awl rollers 2840 and second flat roller 2845, and connect by the two second coaxial transmission shafts 282 respectively, namely one second transmission shaft 282 is connected between second motor reducer 280 and the second awl roller 2840, and another second transmission shaft 282 is connected between second motor reducer 280 and second flat roller 2845.

During work, driving second transmission shaft 282 by second motor reducer 280 rotates, and driving the second awl roller 2840 respectively and second flat roller 2845 rotates by second transmission shaft 282, pigeonholes 25 moves around along second heavy rail 5 thereby make the second awl roller 2840 and second flat roller 2845 drive down.

Please refer to Fig. 9, following pigeonholes 25 also comprises for fixing described pigeonholes 25 down to prevent described pigeonholes 25 down in the described material 3 processes slip of loading and to be fixedly installed in the anti-mobile device 27 of second on second framework 26, the 26S Proteasome Structure and Function of this second anti-mobile device 27 is identical with the first anti-mobile device 23, does not give unnecessary details herein.

Please refer to Figure 10, following pigeonholes 25 also comprises and a plurality ofly moves and be fixedly installed in the second photoelectric switch detecting device 29 on second framework 26 for the described down pigeonholes 25 of control, the 26S Proteasome Structure and Function of this second photoelectric switch detecting device 29 is identical with the first photoelectric switch detecting device 24, does not give unnecessary details herein.

Sorting arrangement 2 of the present utility model comprises the last pigeonholes 20 with first framework 21 and the following pigeonholes 25 with second framework 26, this first framework 21 and second framework 26 are welded by square tube, simple in structure, and firmly, so that the reliability of whole sorting arrangement 2 strengthens.Because the heavy burden ability of last pigeonholes 20 and following pigeonholes 25 is all below 5000 kilograms, therefore, the heavy burden ability maximum of whole sorting arrangement 2 can reach 10000 kilograms,

Sorting arrangement 2 of the present utility model constitutes the height double by last pigeonholes 20 and following pigeonholes 25, and like this, efficient promotes greatly when transporting material 3.In addition, because last pigeonholes 20 and following pigeonholes 25 are to overlap installation in vertical direction, sorting arrangement 2 occupation space are reduced greatly.

Pigeonholes 20 adopts first motor reducer 220 as transmission drive on the sorting arrangement 2 of the present utility model, and the gearing by first coupler 225, first transmission shaft 222 and sprocket wheel 226 and chain 228 is with on power transmission to the first roller 224, drive first roller 224 and rotate, thereby the last pigeonholes 20 of friction drive of first roller 224 and first heavy rail 4 is moved around.Similarly, following pigeonholes 25 adopts second motor reducer 280 as transmission drive, and send power to second roller 284 by the gearing of second coupler 283 and second transmission shaft 282, drive second roller 284 and roll, thereby the following pigeonholes 25 of friction drive of second roller 284 and second heavy rail 5 is moved around.This sorting arrangement 2 need not oscilaltion first bench board 210 and second bench board 260, and is simple in structure.

When last pigeonholes 20 on the loading station during loaded material 3, following pigeonholes 25 can say that the material 3 of well cutting is transported to the sub-material station and carries out sub-material for operating personal, makes the whole process of production periodical duty, has promoted work efficiency greatly.

The last pigeonholes 20 that sorting arrangement 2 of the present utility model adopts first 23 pairs of the anti-mobile devices to arrive the fixed position respectively carries out pretension and adopts 27 pairs of following pigeonholes 25 that arrive the fixed position of the second anti-mobile device to carry out pretension, prevents that pigeonholes 20 from moving around along first heavy rail 4 and prevent that pigeonholes 25 moves around along second heavy rail 5 down in the process of loaded material 3 or unloading material 3 in the process of loaded material 3 or unloading material 3.

During work, above sorting arrangement transported to the material 3 of well cutting by the material fork of the blanking device 1 of automatic loading/unloading, drag forward behind the certain distance of whereabouts, after material 3 is blocked by first striker plate 216, drop on first bench board 210 of pigeonholes 20, blanking device 1 continues operation, and the material 3 with well cutting constantly is put on the pigeonholes 20 successively.When detecting device that material is stuck detects the thickness of the material 3 on the pigeonholes 20 when enough, the following pigeonholes 25 that is positioned at the sub-material station enters, the last pigeonholes 20 that fill material 3 this moment is transported to the sub-material station with material 3, according to this, and last pigeonholes 20 and following pigeonholes 25 continuous periodical dutys.Like this, this sorting arrangement 2 is simple in structure, compact, and load increases, and whole floor area reduces, and work efficiency promotes greatly.

The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of within spirit of the present utility model and principle, doing, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. one kind has the sorting arrangement of double up and down, be positioned at laser cutting machine blanking device below and be installed in the material that ground first heavy rail and second heavy rail cooperate to transport described laser cutting machine cutting, it is characterized in that, comprise the last pigeonholes that cooperates with described first heavy rail and be positioned at described go up the pigeonholes below with the described following pigeonholes of going up pigeonholes stacked setting in vertical direction and cooperating with described second heavy rail, described first heavy rail and described second heavy rail are parallel to each other.

2. as claimed in claim 1 have a up and down sorting arrangement of double, it is characterized in that, described go up pigeonholes comprise described blanking device and described down between the pigeonholes and utilize first framework that square tube is welded and be installed on described first framework and drive described on first transmission device that moves along described first heavy rail of pigeonholes.

3. as claimed in claim 2 have a up and down sorting arrangement of double, it is characterized in that, described first framework comprise be coated with first steel plate with first bench board of placing described material, a pair ofly be fixedly installed in described first bench board and be positioned at described bracing frame and a plurality of first striker plate that is fixed in the described first steel plate side side by side and deviates from support frame as described above of pigeonholes both sides down, support frame as described above comprises first installation portion that cooperates with described first transmission device.

4. as claimed in claim 3 have a up and down sorting arrangement of double, it is characterized in that described first transmission device comprises first motor reducer that is installed on described first framework, be installed on the end face of described first bench board and be across between the support frame as described above and first transmission shaft that is connected with described first motor reducer, two groups are rotationally connected with in described first installation portion and first roller that cooperates with described first heavy rail, two pairs of first sprocket wheels that are connected to the described first transmission shaft two ends and two described first rollers and a pair ofly be connected in chain between described first transmission shaft and described first roller by described first sprocket wheel.

5. as claimed in claim 2 have a up and down sorting arrangement of double, it is characterized in that the described pigeonholes of going up also comprises and a plurality ofly moves and be fixedly installed in the first photoelectric switch detecting device on described first framework and be used for the fixing described pigeonholes of going up and slide and be fixedly installed in the anti-mobile device of first on first framework loading described material process to prevent the described pigeonholes of going up for the described pigeonholes of going up of control.

6. describedly has a up and down sorting arrangement of double as any one of claim 1 to 5, it is characterized in that described down pigeonholes comprises being positioned at describedly to be gone up the pigeonholes below and utilize second framework that square tube is welded and be installed on described second framework and drive second transmission device that described pigeonholes down moves along described second heavy rail.

7. as claimed in claim 6 have a up and down sorting arrangement of double, it is characterized in that, described second framework comprises and is coated with second steel plate with second bench board of placing described material, a pair of feet and a plurality of second striker plate that is fixed in the described second steel plate side side by side and deviates from described feet that is fixed in second bench board and is positioned at described second heavy rail top that described feet comprises second installation portion that cooperates with described second transmission device.

8. as claimed in claim 7 have a up and down sorting arrangement of double, it is characterized in that, described second transmission device comprise be installed on described second bench board and second motor reducer between described feet, two groups are rotationally connected with in second installation portion and second roller that cooperates with described second heavy rail and be installed on described second roller and described second motor reducer between second transmission shaft.

9. as claimed in claim 8 have a up and down sorting arrangement of double, it is characterized in that, described first roller comprises a pair of first awl roller and a pair of first flat roller that is positioned on another support frame as described above that is positioned at a support frame as described above, and described second roller comprises a pair of second awl roller and a pair of second flat roller that is installed in described second installation portion of opposite side that is installed in described second installation portion in the same side.

10. as claimed in claim 6 have a up and down sorting arrangement of double, it is characterized in that, described down pigeonholes also comprise a plurality of move and be fixedly installed in the second photoelectric switch detecting device on second framework and be used for fixing described pigeonholes down for the described pigeonholes down of control slide and be fixedly installed in the anti-mobile device of second on second framework loading described material process to prevent described pigeonholes down.

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