CN108116869A - A kind of material automated transport system - Google Patents

Abstract

The present invention provides a kind of material automated transport systems, belong to furnace equipment field, including bottom plate, the bottom plate is equipped with conveying assembly and splicing component, the splicing component includes splicing groove, movable plate, rail rods, sliding seat, first support plate, second support plate and receiving cylinder, first support plate and second support plate are vertically located on the bottom plate, the rail rods are erected in first support plate and second support plate, the sliding seat is located at the lower face of the movable plate and is slidably connected with the rail rods, the splicing groove is located on the movable plate, the axial direction of the splicing groove is consistent with the direction of motion of material to be pushed, the force-output shaft of the receiving cylinder is fixedly connected with the movable plate and the movable plate is driven to be moved between first support plate and second support plate.The achievable self-feeding of the present invention, transmission process more automates, more efficient.

Description

A kind of material automated transport system

Technical field

The invention belongs to furnace equipment field more particularly to a kind of material automated transport systems.

Background technology

Industrial furnace is widely used in ceramics, the exploitation of metallurgy, electronics, glass, chemical industry, machinery, refractory material, new material, spy The fields such as kind material, building materials, furnace equipment is typically set of, including electric furnace body, power equipment (furnace transformer, rectification Device, frequency converter etc.), shutter, attached ancillary apparatus, vacuum equipment, detection control instrument (electrical instrument, Thermal Meter etc.), Automatic regulating system, industrial furnace mechanical equipment, such as input and output material machinery, furnace body reclining device, main group of industrial furnace Into partly having：Brickwork of industrial furnace, fume dischange system for industrial furnace, preheater for industrial furnace and combustion device for industrial furnace, mating setting into The mechanical part that discharges is one of important component of industrial furnace, directly affects the efficiency of industrial furnace and the safety of operation Property.

The content of the invention

In view of this, the present invention is directed to propose a kind of a kind of material automated transport system of high degree of automation.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：A kind of material automated transport system, including Bottom plate, the bottom plate are equipped with conveying assembly and splicing component, and the conveying assembly tilts down setting, and the splicing component is set In the conveying assembly close to one end of bottom plate, the splicing component includes splicing groove, movable plate, rail rods, sliding seat, first Support plate, the second support plate and receiving cylinder, first support plate and second support plate are vertically located on the bottom plate, The rail rods are erected in first support plate and second support plate, and the sliding seat is located under the movable plate End face and be slidably connected with the rail rods, the splicing groove is located on the movable plate, the axial direction of the splicing groove with The direction of motion of material to be pushed is consistent, and the force-output shaft of the receiving cylinder is fixedly connected with the movable plate and drives the shifting Movable plate moves between first support plate and second support plate,

The conveying assembly includes track groove, and the track groove is fixed on described by the support plate that its lower end both sides is set On bottom plate, the track groove is obliquely installed and the height of close described splicing component one end is less than the height of the other end, the rail Road slot U-shaped like, the upper surface of the track groove are equipped with the first /V cylinder and the second /V close to one end of the splicing component Cylinder, the first /V cylinder and the second /V cylinder are set from bottom to top along the inclined direction of the track groove, and described The lower end of one /V cylinder is equipped with the first block, and the lower end of the second /V cylinder is equipped with the second block, first block and institute The lower limit position for stating the second block is less than material to be pushed in the height of the track groove upper surface, first block Upper limit position with second block is higher than height of the material to be pushed in the track groove upper surface.

Further, the movable plate close to the one side of first support plate be equipped with the first sensor block, shown first Fagging is equipped with the first inductive switch close to the one side of the movable plate, and first inductive switch is opposite with first sensor block It sets, in the movable plate close to the extreme position of first support plate, first sensor block is in the described first sensing In the induction range of switch.

Further, the lower face of the movable plate is equipped with the second inductive switch, and second support plate is close to shown the The one side of one support plate is equipped with the second sensor block, and second inductive switch is oppositely arranged with second sensor block, described Movable plate is close to the extreme position of second support plate, and second sensor block is in the sensing model of second inductive switch In enclosing.

Further, the quantity of the splicing groove is two, and two splicing grooves are distributed on the upper surface of the movable plate.

Further, the first /V cylinder is vertically fixed on the upper surface of the track groove, institute by the first fixed plate State the upper surface that the second /V cylinder is vertically fixed on the track groove by the second fixed plate.

Further, detection switch is equipped between the first /V cylinder and the second /V cylinder, the detection switch is led to It crosses locating plate to be fixedly connected with the track groove, the detection switch is located at the upper surface of the track groove and can be described to being located at Material to be pushed between first /V cylinder and the second /V cylinder is detected.

Further, the conveying assembly is equipped with downward protective cover close to one end of the splicing component.

Compared with prior art, the invention has the advantages and positive effects that：1st, the present invention sets conveying assembly, splicing Component facilitates making so that structure is compacter, and whole process all realize by automation, and high degree of automation reduces work Intensity, and it is efficient；2nd, splicing component is arranged to movably, make up manufacturing and positioning errors, it is ensured that accurate catch pushes away The material sent, and receiving cylinder is used, buffering is carried, is operated steadily, and purchase conveniently, at low cost, multi-size can root Different strokes is set according to the specification of material；3rd, inductive switch and sensor block are set in the both sides of splicing component, it is ensured that movable plate Displacement distance, ensure positioning accuracy；The 4th, two track grooves are set, two materials can be accepted and pushed simultaneously, greatly Improve work efficiency greatly；5th, conveying assembly uses the first /V cylinder and the second /V cylinder alternating movement, realizes to pushing material Interception, ensure every time only there are one material fall, it is ensured that the accuracy that material is fallen into；6th, detection switch can be to the object after in place Material is further detected, it is ensured that the correctness of material push；7th, the protective cover set can be protected above material, Ensure the neat and tidy of material, the convenient treatment process subsequently entered inside electric furnace.

Description of the drawings

The attached drawing for forming the part of the present invention is used for providing the preferably understanding to the present invention, schematic reality of the invention Example and its explanation are applied for explaining the present invention, is not constituted improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is a kind of structure diagram of material automated transport system use state of the present invention；

Fig. 2 is the structure diagram that splicing component of the present invention is looked up；

Fig. 3 is the structure diagram that splicing component of the present invention is overlooked；

Fig. 4 is the structure diagram of conveying assembly of the present invention；

Fig. 5 is the front view of conveying assembly of the present invention；

Fig. 6 is the top view of conveying assembly of the present invention；

Fig. 7 is the A-A sectional views of conveying assembly of the present invention.

Reference numeral：

1- bottom plates；2- conveying assemblies；21- track grooves；22- support plates；23- the first /V cylinders；The first fixed plates of 231-； 24- the second /V cylinders；The second fixed plates of 241-；25- locating plates；26- detection switch；The first blocks of 27-；The second blocks of 28-；3- Splicing component；31- movable plates；The second inductive switches of 311-；The first sensor blocks of 312-；32- splicing grooves；33- sliding seats；34- Two support plates；The first support plates of 35-；36- rail rods；37- receiving cylinders；The first inductive switches of 38-；The second sensor blocks of 39-；5- Push component；51- pushes cylinder；52- guide rods；53- guide plates；54- link blocks；55- pushing plates；56- push blocks.

Specific embodiment

It should be noted that in the case where there is no conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

In the description of the present invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ", The orientation or position relationship of the instructions such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " are Based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description rather than instruction or dark Show that signified device or element there must be specific orientation, with specific azimuth configuration and operation, thus it is it is not intended that right The limitation of the present invention.In addition, term " first ", " second " etc. are only used for description purpose, and it is not intended that instruction or hint phase To importance or the implicit quantity for indicating indicated technical characteristic.The feature for defining " first ", " second " etc. as a result, can To express or implicitly include one or more this feature.In the description of the present invention, unless otherwise indicated, " multiple " It is meant that two or more.

In the description of the present invention, it is necessary to illustrate, unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or be integrally connected；It can To be mechanical connection or be electrically connected；It can be directly connected, can also be indirectly connected by intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood by concrete condition Concrete meaning in the present invention.

It elaborates below in conjunction with the accompanying drawings to specific embodiments of the present invention.

As shown in Figure 1, the present invention is a kind of material automated transport system, including bottom plate 1, bottom plate 1 is equipped with conveying assembly 2nd, splicing component 3 and push component 5, conveying assembly 2 tilt down setting, and splicing component 3 is located at conveying assembly 2 close to bottom plate 1 One end, push component 5 includes push cylinder 51, link block 54 and pushing plate 55, pushes force-output shaft front end and the link block of cylinder 51 54 are fixedly connected, and link block 54 is fixedly connected with pushing plate 55, and pushing plate 55 is located at one of splicing component 3 away from feedstock direction End, the one side of close the splicing component 3 of pushing plate 55 are equipped with push block 56, under pusher state, push block 56 and object to be pushed Material contact is set, and the direction of motion for pushing the axis direction and material to be pushed of cylinder 51 is arranged in parallel.

Preferably, the one end for pushing the close force-output shaft of cylinder 51 is equipped with guide plate 53, and guide plate 53 is vertically fixed on bottom plate 1 Upper surface and the force-output shaft axis with pushing cylinder 51 be vertically arranged, link block 54 is set close to the one side of push cylinder 51 there are two leading To bar 52, the axial direction of guide rod 52 is arranged in parallel with pushing the axis of cylinder 51, and guide rod 52 passes through guide plate 53 and and guide plate 53 are slidably connected.

Preferably, as shown in Figures 2 and 3, splicing component 3 includes splicing groove 32, movable plate 31, rail rods 36, sliding seat 33rd, the first support plate 35, the second support plate 34 and receiving cylinder 37, the first support plate 35 and the second support plate 34 are vertically located at bottom On plate 1, rail rods 36 are erected in the first support plate 35 and the second support plate 34, and sliding seat 33 is located at the lower face of movable plate 31 And be slidably connected with rail rods 36, splicing groove 32 is located on movable plate 31, the axial direction of splicing groove 32 and material to be pushed The direction of motion is consistent, and the force-output shaft of receiving cylinder 37 is fixedly connected with movable plate 31 and drives movable plate 31 in the first support plate 35 And second move between support plate 34.

Preferably, movable plate 31 is equipped with the first sensor block 312, shown first support plate close to the one side of the first support plate 35 35 are equipped with the first inductive switch 38 close to the one side of movable plate 31, and the first inductive switch 38 is oppositely arranged with the first sensor block 312, In movable plate 31 close to the extreme position of the first support plate 35, the first sensor block 312 is in the sensing model of the first inductive switch 38 In enclosing.

Preferably, the lower face of movable plate 31 is equipped with the second inductive switch 311, and the second support plate 34 is close to shown first The one side of fagging 35 is equipped with the second sensor block 39, and the second inductive switch 311 is oppositely arranged with the second sensor block 39, in movable plate 31 Close to the extreme position of the second support plate 34, the second sensor block 39 is in the induction range of the second inductive switch 311.

Preferably, the quantity of splicing groove 32 is two, and two splicing grooves 32 are distributed on the upper surface of movable plate 31.

Preferably, as shown in Figure 4, Figure 5, Figure 6 and Figure 7, conveying assembly 2 includes track groove 21, and track groove 21 is by under it The support plate 22 that end both sides are set is fixed on bottom plate 1, and track groove 21 is obliquely installed and the height of close 3 one end of splicing component is low In the height of the other end, 21 U-shaped like of track groove, the upper surface of track groove 21 is equipped with the first limit close to one end of splicing component 3 Position 23 and second /V cylinder 24 of cylinder, the first /V cylinder 23 and the second /V cylinder 24 along 21 inclined direction of track groove from bottom to top It sets, the lower end of the first /V cylinder 23 is equipped with the first block 27, and the lower end of the second /V cylinder 24 is equipped with the second block 28, first gear The lower limit position of 27 and second block 28 of block is less than material to be pushed in the height of 21 upper surface of track groove, 27 He of the first block The upper limit position of second block 28 is higher than height of the material to be pushed in 21 upper surface of track groove.

Preferably, the first /V cylinder 23 is vertically fixed on the upper surface of track groove 21, the second limit by the first fixed plate 231 Position cylinder 24 is vertically fixed on the upper surface of track groove 21 by the second fixed plate 241.

Preferably, detection switch 26 is equipped between the first /V cylinder 23 and the second /V cylinder 24, detection switch 26 passes through Locating plate 25 is fixedly connected with track groove 21, and detection switch 26 is located at the upper surface of track groove 21 and can be to being located at the first /V cylinder 23 and the second material to be pushed between /V cylinder 24 be detected.

Preferably, as shown in Figure 1, conveying assembly 2 is equipped with downward protective cover 6 close to one end of splicing component 3.

In the actual use process, the material of material to be pushed is placed into track groove 21, under gravity It scrolls down through, 24 downward actuation of the second /V cylinder, the material that can treat push carries out /V, 23 downward actuation of the first /V cylinder The material that push can be treated carries out /V, and 24 up-down alternative motion of the first /V cylinder 23 and the second /V cylinder ensures the first /V It only there are one material to be pushed between 23 and second /V cylinder 24 of cylinder, while is detected by detection switch 26, ensures to wait to push away The accuracy of material movement is sent, when splicing is needed, receiving cylinder 37 is retracted, when the first inductive switch 38 detects first During sensor block 312,31 stop motion of movable plate, track groove 32 catches first material to be pushed, and then receiving cylinder 37 is stretched Go out, when the second inductive switch 311 senses the second sensor block 39, track groove 32 catches second material to be pushed, then Push cylinder 51 acts, and the material that push is treated by the push block 56 on pushing plate 55 carries out push completion feeding action, is pushing away During sending the action of cylinder 51, it can be oriented to by guide rod 52, the precision and stability of safety action, total can be real Existing self-feeding, transmission process more automates, more efficient.

One embodiment of the present of invention is described in detail above, but the content is only the preferable implementation of the present invention Example, it is impossible to be construed as limiting the practical range of the present invention.All all the changes and improvements made according to the present patent application scope Deng, should all still belong to the present invention patent covering scope within.

Claims (7)

1. a kind of material automated transport system, it is characterised in that：Including bottom plate (1), the bottom plate (1) is equipped with conveying assembly (2) and splicing component (3), the conveying assembly (2) tilt down setting, and the splicing component (3) is located at the conveying assembly (2) close to one end of bottom plate (1), the splicing component (3) includes splicing groove (32), movable plate (31), rail rods (36), slip Seat (33), the first support plate (35), the second support plate (34) and receiving cylinder (37), first support plate (35) and described the Two support plates (34) are vertically located on the bottom plate (1), and the rail rods (36) are erected at first support plate (35) and institute State in the second support plate (34), the sliding seat (33) be located at the lower face of the movable plate (31) and with the rail rods (36) It is slidably connected, the splicing groove (32) is located on the movable plate (31), and the axial direction of the splicing groove (32) is pushed with waiting The direction of motion of material is consistent, and the force-output shaft of the receiving cylinder (37) is fixedly connected with the movable plate (31) and described in driving Movable plate (31) moves between first support plate (35) and second support plate (34),

The conveying assembly (2) includes track groove (21), the support plate that the track groove (21) is set by its lower end both sides (22) it is fixed on the bottom plate (1), the track groove (21) is obliquely installed and close to the height of described splicing component (3) one end Less than the height of the other end, track groove (21) U-shaped like, the upper surface of the track groove (21) is close to the splicing component (3) one end is equipped with the first /V cylinder (23) and the second /V cylinder (24), the first /V cylinder (23) and second /V Cylinder (24) is set from bottom to top along the track groove (21) inclined direction, and the lower end of the first /V cylinder (23) is equipped with the One block (27), the lower end of the second /V cylinder (24) are equipped with the second block (28), first block (27) and described the The lower limit position of two blocks (28) less than material to be pushed the track groove (21) upper surface height, described first The upper limit position of block (27) and second block (28) is higher than material to be pushed in the track groove (21) upper surface Highly.

2. a kind of material automated transport system according to claim 1, it is characterised in that：The movable plate (31) is close to institute The one side for stating the first support plate (35) is equipped with the first sensor block (312), and shown first support plate (35) is close to the movable plate (31) one side is equipped with the first inductive switch (38), and first inductive switch (38) is opposite with first sensor block (312) It sets, in the movable plate (31) close to the extreme position of first support plate (35), first sensor block (312) exists In the induction range of first inductive switch (38).

3. a kind of material automated transport system according to claim 1, it is characterised in that：The lower end of the movable plate (31) Face is equipped with the second inductive switch (311), and second support plate (34) is equipped with the close to the one side of shown first support plate (35) Two sensor blocks (39), second inductive switch (311) is oppositely arranged with second sensor block (39), in the movable plate (31) close to the extreme position of second support plate (34), second sensor block (39) is in second inductive switch (311) in induction range.

4. a kind of material automated transport system according to claim 1, it is characterised in that：The quantity of the splicing groove (32) For two, two splicing grooves (32) are distributed on the upper surface of the movable plate (31).

5. a kind of material automated transport system according to claim 1, it is characterised in that：The first /V cylinder (23) is logical The upper surface that the first fixed plate (231) is vertically fixed on the track groove (21) is crossed, the second /V cylinder (24) passes through second Fixed plate (241) is vertically fixed on the upper surface of the track groove (21).

6. a kind of material automated transport system according to claim 1, it is characterised in that：In the first /V cylinder (23) And second be equipped with detection switch (26) between /V cylinder (24), the detection switch (26) passes through locating plate (25) and the track Slot (21) is fixedly connected, and the detection switch (26) is located at the upper surface of the track groove (21) and can be to being located at first limit Material to be pushed between position cylinder (23) and the second /V cylinder (24) is detected.

7. a kind of material automated transport system according to claim 1, it is characterised in that：The conveying assembly (2) is close One end of the splicing component (3) is equipped with downward protective cover (6).