CN203269087U - Two-board multi-layer brick laying device - Google Patents

Abstract

The utility model discloses a two-board multi-layer brick laying device, which comprises a machine frame, a support plate pushing structure, a horizontal frame, a brick laying frame, a horizontal driving structure, a lifting driving structure and a control unit, wherein the support plate pushing structure comprises an active transmission structure in the front part, and a sliding structure in the rear part; the longitudinal length of the sliding structure is larger than the length of the support plate; a baffle is arranged at the rear end of the sliding structure; an approaching switch is arranged in front of the baffle; a first support plate slides to the position in front of the approaching switch and stops, and is then driven by a second support plate to pass through the approaching switch and stops at the baffle; the approaching switch is electrically connected with the control unit; the lifting frame can lift the first support plate and the second support plate located in parallel on the support plate pushing structure; the brick laying frame is located at the bottom of the machine frame, and has a longitudinal length of at least two times of the length of the corresponding support plate. The two-board multi-layer brick laying device can process two support plates at the same time, the conventional bricklaying machine is more effectively utilized, the production efficiency is increased, and the improvement cost is very low.

Description

A kind of two plate multilayers are folded brick device

Technical field

The utility model belongs to the brickmaking mechanical technical field, particularly the folded brick machine of a kind of two plate multilayers.

Background technology

Along with the development of technology, existing brickmaking process has realized mechanization and intellectuality, and common brick press comprises material mixer, conveyer, distributing device, distribution device, brick compacting mold and folded brick device.

Existing folded brick device comprises that frame, supporting plate push structure, level frame, folded brick frame, crane, horizontal drive structure, promote drive configuration and control unit.Wherein, frame is framed structure, comprises the horizontal gird of the A-pillar of rear and front end and rear column, above and below; Supporting plate pushes structure level and is arranged on frame front, this supporting plate pushes structure front end and is connected with brick compacting mold, this supporting plate pushes the structure rear end and enters frame front, and the frame rear portion is provided with folded brick frame, and central rack (supporting plate pushes between structure and folded brick frame) is provided with level frame.

Wherein, existing supporting plate pushes structure and is used for the supporting plate (being placed with the product brick that suppresses on supporting plate) of brick machine output is sent into folded brick device, generally include the chain gearing of support, support both sides and the travel switch of back-end support, supporting plate is driven by chain gearing and travels forward, stop motion after the contacting travel switch.

Wherein, existing folded brick frame is used for stacking piled bricks in heaps, facilitates the fork truck transhipment, is generally a horizontal positioned platform of being located at the frame rear end bottom.

Wherein, existing level frame is used for that supporting plate is pushed structure by supporting plate and is transported to folded brick frame, and with supporting plate piling up at folded brick frame last layer one deck, it is also framed structure usually, its length along fore-and-aft direction is slightly larger than corresponding supporting plate length in the same direction, its top is provided with two row's assembly pulleys, and the both sides of frame top are provided with slide rail accordingly, slide on slide rail by assembly pulley to guarantee that level frame can move reciprocatingly.

wherein, be provided with crane on existing level frame, this crane can move up and down on level frame, when level frame backward supporting plate is delivered to folded brick frame directly over the time (can adopt travel switch to control, be located on frame), the level frame stop motion, this moment, crane moved downward, supporting plate is placed on the product brick of folding on brick frame or folded brick frame, crane continues to move downward (horizontal supporting plate supports to rotate up and guarantees that crane moves downward), until in frame when bottom, stop moving downward (can adopt limit switch), stop motion when level frame moved forward to supporting plate and pushed structure below (supporting plate push structure rear end travel forward the distance of a supporting plate) this moment, and crane stop motion when moving upward to again supporting plate and pushing a certain position of structure below, wait for and receive supporting plate.After the supporting plate impact stroke switch; crane upward movement again holds up the certain altitude stop motion with supporting plate, and level frame begins to move rearwards to directly over folded brick frame, repeats above-mentioned action; when the supporting plate of folded brick frame reaches predetermined number of layers, shut down and use fork truck that piled bricks is transported.Repeat abovementioned steps and can realize the stacking of product brick.

Wherein, existing level frame drives by the horizontal drive structure, specifically comprise motor, retarder, swing arm and connecting rod, motor and retarder are fixed on the top of level frame, and motor is connected with retarder, retarder vertically is provided with an output shaft, swing arm is horizontally disposed with the one end captives joint with output shaft, and an end of its other end and connecting rod is rotationally connected, and the other end of connecting rod is fixed on frame, connecting rod is horizontally disposed with and with the sense of motion of horizontal transmission frame, angle is arranged, and is fixing towards the frame outside.

Wherein, existing control unit is electrically connected to by pushing structure, horizontal drive structure, lifting drive configuration and each limit switch with supporting plate respectively, is used for controlling the operation of whole device, and wire is located at frame top by folding rubber coating.

Wherein, existing folded brick device is in order to guarantee safety, all is provided with grille guard in frame both sides, and an end of this grille guard is fixed on the A-pillar of frame, and the other end of this grille guard is fixed on the rear column of frame, and frame both sides are all protected.

The contriver finds following problem when realizing process of the present utility model:

One, folded brick efficient are low, once usually can only fold the brick of 6 layers of plates, do not have actv. to utilize whole folded brick machine, have wasted the energy.Two, supporting plate pushes structure and controls the stop motion of chain transfer structure by the travel switch of rear end and guarantee that supporting plate is parked in supporting plate and pushes the structure rear end, if but control loop goes wrong, and supporting plate is easily gone out supporting plate and is pushed structure, causes the waste of product brick.Three, the horizontal drive structure drives seesawing of level frame by the rotation of swing arm, and level frame is non-uniform movement, can not stop speed change in fortune brick process, and steady not, brick might drop from pallet.Four, grille guard is long, has not only increased cost, is unfavorable for also that the staff enters in frame to work, as sweeps, safeguards and increase the operations such as stay bearing plate.

Summary of the invention

In order to address the above problem, improve the work efficiency of folded brick machine, the utility model embodiment provides a kind of two plate multilayers to fold the brick machine.Described technical scheme is as follows:

The utility model embodiment provides a kind of two plate multilayers to fold brick device, this device comprise the horizontally disposed supporting plate of frame, frame front push arrange on the folded brick frame at the level frame that can seesaw along frame of structure, central rack, frame rear portion, level frame can up-and-down movement crane, drive level frame the horizontal drive structure, drive the lifting drive configuration of crane and be used for controlling horizontal drive structure and the control unit that promotes drive configuration; Wherein, it is the active transfer structure that described supporting plate pushes structure front portion, and the rear portion is slide construction, and the length of described slide construction on fore-and-aft direction is greater than the length of corresponding supporting plate; Described slide construction rear end is provided with baffle plate, the place ahead of described baffle plate is provided with approach switch, the first supporting plate slides into described approach switch the place ahead to be stopped, then is driven through stopping in described baffle plate place after described approach switch by the second supporting plate, and described approach switch is electrically connected to described control unit; Described crane can hold up described supporting plate and push on structure side by side two blocks of supporting plates, and described folded brick chord position is in described frame bottom and be at least the twice of corresponding pallet length along the length on fore-and-aft direction.

Wherein, the supporting plate in the utility model embodiment pushes the two parallel rollers of row that structure comprises that support, the anterior chain transfer structure that arranges of support and support rear portion arrange along fore-and-aft direction.

wherein, approach switch in the utility model embodiment comprises blend stop, spring and contact switch, described blend stop middle part is rotated and is arranged on described support, described contact switch is fixed on described support and between described blend stop and described baffle plate, described contact switch is electrically connected to described control unit, described blend stop top vertically or deviation setting backward, described blend stop bottom is deviation backward, correspondingly, the below of described support is provided with the strong point, described blend stop bottom is placed on the described strong point, described spring one end is captiveed joint with described blend stop lower end, the described spring other end is captiveed joint with described support backward, when described blend stop rotates backward level attitude, its upper end contacts with described contact switch.

Wherein, the level frame both sides in the utility model embodiment respectively are provided with a guard net, and when described level frame moved forward to described frame front end, the front end of described guard net was 35-45cm apart from the distance of described frame front end; When described level frame moved rearwards to described frame rear end, the rear end of described guard net was 35-45cm apart from the distance of described frame rear end.

wherein, horizontal drive structure in the utility model embodiment comprises the first motor, retarder, traction disk and two on the traction disk around to identical pull-cord, described the first motor and retarder are positioned at the top of described level frame, described the first motor is connected with described retarder, captive joint with the output shaft of described retarder in the setting of described traction disc level and center, article two, described pull-cord one end all is fixed on described traction disk, article two, the described pull-cord other end is fixed on forward and backward respectively the front-end and back-end of described frame after laying out the traction disk, moving into respectively and lay out by described two pull-cords makes described level frame do back and forth movement on fore-and-aft direction.

Wherein, the lifting drive configuration in the utility model embodiment comprises the second motor, deceleration synchronization case and two groups of chain structures, and described crane comprises two groups of symmetrically arranged pallet stands; Described the second motor and deceleration synchronization case are located at the top of described level frame, described the second motor is connected with described deceleration synchronization case, described two groups of pallet stands are located at respectively the both sides of described level frame, described pallet stand is provided with the slide rail sliding block joint of the both sides of roll wheel assembly and described level frame, and described deceleration synchronization case respectively drives one group of corresponding described pallet stand by one group of described chain structure; Described pallet stand inboard is provided with four horizontal supporting plates that can upwards rotate and supports, wherein two horizontal supporting plates support the two ends that are positioned at described pallet stand, two other horizontal supporting plate supports the midway location of being located at side by side described pallet stand along fore-and-aft direction, next two horizontal supporting plates support and are used for holding up the first supporting plate, and the horizontal supporting plate in two of fronts supports and is used for holding up the second supporting plate.

Wherein, the folded brick device in the utility model embodiment comprises that also be used to the travel switch of controlling described level frame horizontal motion scope, described travel switch is electrically connected to described control unit; It is characterized in that, described travel switch is located on described level frame, and correspondingly, the two ends of described frame all are provided with stroke baffle.

Preferably, the horizontal drive structure in the utility model embodiment, lifting drive configuration, travel switch and approach switch are electrically connected to described control unit by wire, and described wire is located at the top of described frame by suspension ring.

The beneficial effect that the technical scheme that the utility model embodiment provides is brought is:

The folded brick owner of the two plate multilayers that the utility model embodiment provides will improve by supporting plate is pushed structure, simultaneous adaptation raising legs and folded brick frame are carried out little change, just can process simultaneously two blocks of supporting plates, more effectively utilized existing folded brick machine, improved production efficiency, and it is very low to change cost.

Description of drawings

Fig. 1 is the structural representation of the folded brick machine of the two plate multilayers that provide of the utility model embodiment;

Fig. 2 is the structural representation of the approach switch that provides of the utility model embodiment;

Fig. 3 is the structural representation of the traction disk that provides of the utility model embodiment and pull-cord combination;

Fig. 4 is the pallet stand that provides of the utility model embodiment and the structural representation of horizontal supporting plate support combinations;

Fig. 5 is the pallet stand that provides of the utility model embodiment and the lateral plan of horizontal supporting plate support combinations.

in figure: 1 frame, 2 supporting plates push structure, 3 level frames, 4 folded brick framves, 5 cranes, 6 horizontal drive structures, 7 promote drive configuration, 8 control units, 9 active transfer structures, 10 slide constructions, 11 baffle plates, 12 approach switchs, 13 supports, 14 blend stops, 15 springs, 16 contact switches, 17 strong points, 18 first motors, 19 retarders, 20 traction disks, 21 pull-cords, 22 second motors, 23 deceleration synchronization casees, 24 chain structures, 25 pallet stands, 26 horizontal supporting plates support.

The specific embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model is described in further detail.

Referring to Fig. 1, the utility model embodiment provides a kind of two plate multilayers to fold brick device, comprises that frame 1, supporting plate push structure 2, level frame 3, folded brick frame 4, crane 5, horizontal drive structure 6, promote drive configuration 7 and control unit 8.Wherein, frame 1 is framed structure, comprises the horizontal gird of the A-pillar of rear and front end and rear column, above and below.Wherein, supporting plate pushes structure 2 and is horizontally set on frame 1 front portion, and this supporting plate pushes structure 2 front ends and is connected with brick compacting mold, and this supporting plate propelling movement structure 2 rear ends enter frame 1 front portion.Folded brick frame 4 is arranged on frame 1 bottom, rear portion, is used for stacking piled bricks in heaps, facilitates the fork truck transhipment, is generally the horizontal positioned platform.Level frame 3 is located at frame 1 middle part and can be pushed between structure 2 and folded brick frame 4 at supporting plate and moves reciprocatingly, be used for the supporting plate (being placed with the product brick that suppresses on supporting plate) of brick compacting mold output is sent into this folded brick device, level frame 3 tops are provided with roller set, frame 1 top is provided with slide rail accordingly, the slide rail sliding block joint at the roller set of level frame 3 and frame 1 top.Wherein, level frame 3 is provided with crane 5, and this crane 5 can be along level frame 3 up-and-down movements.

Wherein, referring to Fig. 1, the utility model embodiment drives level frame 3 by horizontal drive structure 6 and moves reciprocatingly along fore-and-aft direction; Driving crane 5 by lifting drive configuration 7 moves reciprocatingly along the vertical direction; Control unit 8 is used for controlling horizontal drive structure 6 and promotes drive configuration 7, usually realizes the control of drive configuration together with travel switch.

Wherein, referring to Fig. 1, it is active transfer structure 9 that supporting plate in the utility model embodiment pushes structure 2 front portion, trailing portion slide construction 10.Wherein, the length of slide construction 10 on fore-and-aft direction is greater than the length of corresponding supporting plate, specifically greater than length be 5-10cm, guarantee the normal operation of approach switch 12.Slide construction 10 rear ends are provided with baffle plate 11, and the place ahead of baffle plate 11 is provided with approach switch 12, the distance that approach switch 12 pushes structure 2 apart from supporting plate greater than corresponding supporting plate along the length on fore-and-aft direction.The present embodiment is slightly larger than length that supporting plate makes progress the party and guarantees that the first supporting plate slides into approach switch 12 the place aheads and stops sliding by slide construction 10 length are set, and then the second supporting plate is sent into by active transfer structure 9, this second supporting plate clashes into the first supporting plate, the second supporting plate drives the first supporting plate, in baffle plate 11 places stop motion, this approach switch 12 is electrically connected to control unit 8 after the first supporting plate process approach switch 12.

Wherein, crane 5 in the utility model embodiment can hold up at supporting plate and push on structure 2 side by side two blocks of supporting plates (the first supporting plate and the second supporting plate), folded brick frame 4 is at least corresponding supporting plate along the twice of fore-and-aft direction length along the length on fore-and-aft direction, and this device of previous designs common guarantee can be processed two blocks of supporting plates simultaneously.

Particularly, referring to Fig. 1, supporting plate in the utility model embodiment pushes structure and comprises that support 13, the anterior chain transfer structure that arranges of support (initiatively transfer structure 9) and support rear portion two arrange parallel rollers (slide construction 10) along what fore-and-aft direction arranged, the upper end of chain transfer structure and roller is substantially in the same plane, guarantees two-part smooth transition.The chain transfer structure is used for transmitting supporting plate and travels forward, the first supporting plate is sent on roller stop motion fully by the chain transfer structure and is positioned at approach switch 12 the place aheads, the second supporting plate is sent to the first supporting plate by the chain transfer structure and bumps against, the first supporting plate and the second supporting plate are travelled forward simultaneously impinge upon the rear stop motion of baffle plate 11 through approach switch 12, the first supporting plate rear ends.

Wherein, referring to Fig. 2, the approach switch 12 in the utility model embodiment comprises blend stop 14, spring 15 and contact switch 16, and this blend stop 14 middle parts are rotated by a rotating shaft and are arranged on support 13, and blend stop 14 tops can rotation after axially; Contact switch 16 is fixed on support 13 and between blend stop 14 and baffle plate 11, and less than the distance of blend stop 14 upper end apart from rotating shaft, and contact switch 16 is electrically connected to control unit 8 contact switch 16 apart from the distance of rotating shaft.Blend stop 14 tops vertically or deviation setting backward, the angle of deviation is 0-30 ° backward, and blend stop 14 bottoms are deviation backward, correspondingly, the below of support 13 is provided with the strong point 17, and blend stop 14 bottoms are placed in and guarantee blend stop 14 tops on the strong point 17 vertically or deviation setting backward.Spring 15 1 ends are captiveed joint with blend stop 14 lower ends, and spring 15 other ends are captiveed joint with support 13 backward, and through out-of-date, blend stop 14 tops are knocked when rotating backward level attitude when the first baffle plate, and blend stop 14 upper ends contact with contact switch 16.

Wherein, level frame 3 both sides in the utility model embodiment respectively are provided with a guard net (not shown), and when this guard net moved forward to frame 1 front end with level frame 3, the front end of this guard net was 35-45cm apart from the distance of the A-pillar of frame 1 front end; When this guard net moved rearwards to frame 1 rear end with level frame 3, the rear end of this guard net was 35-45cm apart from the distance of the rear column of frame 1 rear end.At first the present embodiment can adopt new folded brickwork skill by to the improvement of guard net, namely can place two stay bearing plates by the workman is artificial in every one deck supporting plate both sides, prevent two-layer supporting plate directly contact damage the product brick by pressure, improve the quality of products; Secondly, facilitate the staff to clean and attending device; At last, save material, reduce equipment cost.

wherein, referring to Fig. 1 and Fig. 3, horizontal drive structure 6 in the utility model embodiment comprises the first motor 18, retarder 19, traction disk 20 and two on the traction disk around to identical pull-cord 21, the first motor 18 and retarder 19 are positioned at the top of level frame 3, the first motor 18 is connected with retarder 19, captive joint with the output shaft of retarder 19 in the center that traction disk 20 was horizontally disposed with and drew disk 20, traction disk 20 is provided with two side by side grooves vertically, article two, pull-cord 21 is respectively in this two groove, article two, pull-cord 21 arranges forward and backward respectively, be parallel to the side crossbeam that frame 1 fore-and-aft direction arranges, article two, pull-cord 21 1 ends all are fixed on traction disk 20, the other end is fixed on forward and backward respectively the front-end and back-end of frame 1 after laying out the traction disk, be that in these two pull-cords, an end all is fixed on traction disk 20, and be wound around in the same way at two grooves that draw disk 20 respectively, in these two pull-cords one lays out forward on the front cross rail that the rear other end is fixed on frame 1 top front end, another in these two pull-cords lays out on the after cross member that the rear other end is fixed on frame 1 top rear backward.The utility model embodiment moves into respectively and lays out by two pull-cords 20 and makes level frame 3 do back and forth movement on fore-and-aft direction, specifically can be with reference to the mode of motion of cable car, and the present embodiment omits to be described in detail.The present embodiment guarantees that by above-mentioned design the level frame uniform movement prevents that supporting plate from going out raising legs.

Wherein, referring to Fig. 1, Fig. 4 and Fig. 5, the lifting drive configuration 7 in the utility model embodiment is basic identical with existing lifting drive configuration, comprises the second motor 22, deceleration synchronization case 23 and two groups of chain structures 24.Crane 5 is basic identical with existing lifting drive configuration, and difference is that length in the horizontal direction is existing twice left and right and has increased by two horizontal supporting plates supports in the centre.Particularly, crane 5 comprises two groups of symmetrical horizontal pallet stands 25.Wherein, the second motor 22 and deceleration synchronization case 23 are located at the top of level frame 3, and the second motor 22 is connected with deceleration synchronization case 23.Two groups of horizontal pallet stands 25 are located at respectively the both sides of level frame 3, pallet stand 25 is provided with roll wheel assembly, the both sides of level frame 3 are provided with slide rail accordingly, and this roll wheel assembly and slide rail sliding block joint, deceleration synchronization case 23 respectively drive one group of corresponding pallet stand 25 by one group of chain structure 24; Pallet stand 25 inboards are provided with four horizontal supporting plates that can upwards rotate and support 26, and wherein two horizontal supporting plates support 26 two ends that are positioned at pallet stand 25, and two other horizontal supporting plate supports 26 and is located at side by side the midway location of pallet stand 25 along fore-and-aft direction.Be the horizontal supporting plates of two of front support the horizontal supporting plate of distance and two of back between 26 support between 26 distance all less than supporting plate in the party's length that makes progress, the horizontal supporting plate in two of back supports and is used for holding up the first supporting plate, and the horizontal supporting plate in two of fronts supports and is used for holding up the second supporting plate.

Wherein, the chain structure 24 in the utility model embodiment specifically comprises the driving chain of deceleration synchronization case 23 1 side outputs, the axle that cogs that crane 5 upper ends rotations arrange, lower tooth wheel shaft, front chain and the rear chain that crane 5 lower ends rotations arrange.Wherein, two ends and the middle part of the axle that cogs are provided with gear structure, and driving chain meshes with the gear structure at the middle part of the axle that cogs; The two ends of lower tooth wheel shaft are provided with gear structure equally, and front chain and rear chain are tensioned to respectively on the gear structure of cog axle and lower tooth wheel shaft the same side.Accordingly, pallet stand 25 both sides are provided with the driven gear structure accordingly, the driven gear structure respectively with front chain and rear chain engagement, certainly, pallet stand 25 also is provided with supporting construction, those skilled in the art is easy to just can expect, therefore omit detailed description.

Wherein, referring to Fig. 4 and Fig. 5, the horizontal supporting plate in the utility model embodiment supports 26 and comprises on mount pad on pallet stand 25 and this mount pad and rotate the supporting plate back-up block that arranges, and this supporting plate back-up block top is planar structure, this planar structure is horizontally disposed with, and the bottom is ramp structure; Accordingly, install to take and be provided with the inclined-plane back-up block, the ramp structure of this supporting plate back-up block bottom is placed on the inclined-plane back-up block.Supporting plate back-up block in the present embodiment can upwards rotate and can not rotate, and when there is no external force upwards, upper surface is not parallel to the ground.

Wherein, the folded brick device in the utility model embodiment comprises that also the trip switch is electrically connected to control unit 8 for the travel switch of the scope of controlling level frame 3 horizontal motions; The trip switch is located on level frame 3, and correspondingly, the two ends of frame 1 all are provided with stroke baffle, when the travel switch on level frame 3 clashes into stroke baffle corresponding on frame 1, exports a control signal and controls level frame 3 stop motions.The present embodiment has been simplified the circuit of whole device by travel switch is arranged on level frame 3.Certainly, this device is provided with the travel switch of controlling crane 5 up-and-down movements in addition.

Preferably, the horizontal drive structure 6 in the utility model embodiment, lifting drive configuration 7, travel switch and approach switch 12 are electrically connected to control unit 8 by wire, and this wire is located at the top of frame 1 by suspension ring.This design has been simplified equally the circuit of whole device and has been made whole device more succinct.

The working process of the folded brick device that the utility model embodiment is provided below in conjunction with Fig. 1 describes:

Wherein, when level frame backward supporting plate is delivered to folded brick frame directly over the time (can adopt travel switch to control, be located on level frame), the level frame stop motion, this moment, crane moved downward, supporting plate is placed on product brick on folded brick frame or folded brick frame, and crane continues to move downward (horizontal supporting plate supports to rotate up and guarantees that crane moves downward), until stop moving downward (can adopt travel switch to control) during the frame bottom.And this moment, supporting plate pushed the structure unlatching, the first supporting plate is sent on roller stop motion fully by the chain transfer structure and is positioned at approach switch the place ahead, stop motion when this moment, level frame moved forward to supporting plate propelling movement structure below (distances of corresponding two supporting plates), and crane stop motion when moving upward to supporting plate again and pushing a certain position of structure below is waited for receiving supporting plate.be sent to by the chain transfer structure when the second supporting plate bump against with the first supporting plate after, make the first supporting plate and the second supporting plate approach switch of motion process backward simultaneously, induced signal of approach switch output is to control unit, control unit outputs a control signal to the lifting drive configuration, the first supporting plate rear end impinges upon the baffle plate stop motion, crane again upward movement with the first supporting plate and the second supporting plate to the certain altitude stop motion, frame workman on one side puts stay bearing plate at the rear of the first supporting plate and the place ahead of the second supporting plate and level frame begins to move backward at this moment, the height of stay bearing plate is slightly larger than the height of product brick, stop motion when level frame is directly over the folded brick frame, this moment, crane moved downward.Repeat above-mentioned action, when the supporting plate on folded brick frame reaches predetermined number of layers, shut down and use fork truck that piled bricks is transported.Repeat aforementioned whole process and can realize the stacking of product brick.Aforementioned process does not limit the utility model, and the utility model can also adopt other working processs to realize the stacking of product brick.

Wherein, " the first supporting plate " in the utility model embodiment and " the second supporting plate " only mean that two blocks of supporting plates of single treatment enter the sequencing of the folded brick device that the utility model provides, and there is no other meanings.

The folded brick owner of the two plate multilayers that the utility model embodiment provides will improve by supporting plate is pushed structure, simultaneous adaptation raising legs and folded brick frame are carried out little change, just can process simultaneously two blocks of supporting plates, more effectively utilized existing folded brick machine, improved production efficiency, and it is very low to change cost.

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

Claims (8)

1. the folded brick device of a plate multilayer, comprise frame, the horizontally disposed supporting plate of frame front push arrange on the folded brick frame at the level frame that can seesaw along frame of structure, central rack, frame rear portion, level frame can up-and-down movement crane, drive level frame the horizontal drive structure, drive the lifting drive configuration of crane and be used for controlling horizontal drive structure and the control unit that promotes drive configuration; It is characterized in that,

Described supporting plate propelling movement structure front portion is the active transfer structure, and the rear portion is slide construction, and the length of described slide construction on fore-and-aft direction is greater than the length of corresponding supporting plate;

Described slide construction rear end is provided with baffle plate, the place ahead of described baffle plate is provided with approach switch, the first supporting plate slides into described approach switch the place ahead to be stopped, then is driven through stopping in described baffle plate place after described approach switch by the second supporting plate, and described approach switch is electrically connected to described control unit;

Described crane can hold up described supporting plate and push on structure side by side two blocks of supporting plates, and described folded brick chord position is in described frame bottom and be at least the twice of corresponding pallet length along the length on fore-and-aft direction.

2. folded brick device according to claim 1, is characterized in that, described supporting plate pushes the two parallel rollers of row that structure comprises that support, the anterior chain transfer structure that arranges of support and support rear portion arrange along fore-and-aft direction.

3. folded brick device according to claim 2, it is characterized in that, described approach switch comprises blend stop, spring and contact switch, described blend stop middle part is rotated and is arranged on described support, described contact switch is fixed on described support and between described blend stop and described baffle plate, described contact switch is electrically connected to described control unit, described blend stop top vertically or deviation setting backward, described blend stop bottom is deviation backward, correspondingly, the below of described support is provided with the strong point, described blend stop bottom is placed on the described strong point, described spring one end is captiveed joint with described blend stop lower end, the described spring other end is captiveed joint with described support backward, when described blend stop rotates backward level attitude, its upper end contacts with described contact switch.

4. folded brick device according to claim 1, is characterized in that, described level frame both sides respectively are provided with a guard net, and when described level frame moved forward to described frame front end, the front end of described guard net was 35-45cm apart from the distance of described frame front end; When described level frame moved rearwards to described frame rear end, the rear end of described guard net was 35-45cm apart from the distance of described frame rear end.

5. folded brick device according to claim 1, it is characterized in that, described horizontal drive structure comprises the first motor, retarder, traction disk and two on the traction disk around to identical pull-cord, described the first motor and retarder are positioned at the top of described level frame, described the first motor is connected with described retarder, captive joint with the output shaft of described retarder in the setting of described traction disc level and center, article two, described pull-cord one end all is fixed on described traction disk, article two, the described pull-cord other end is fixed on forward and backward respectively the front-end and back-end of described frame after laying out the traction disk, moving into respectively and lay out by described two pull-cords makes described level frame do back and forth movement on fore-and-aft direction.

6. folded brick device according to claim 1, described lifting drive configuration comprises the second motor, deceleration synchronization case and two groups of chain structures, described crane comprises two groups of symmetrically arranged pallet stands; Described the second motor and deceleration synchronization case are located at the top of described level frame, described the second motor is connected with described deceleration synchronization case, described two groups of pallet stands are located at respectively the both sides of described level frame, described pallet stand is provided with the slide rail sliding block joint of the both sides of roll wheel assembly and described level frame, and described deceleration synchronization case respectively drives one group of corresponding described pallet stand by one group of described chain structure; It is characterized in that, described pallet stand inboard is provided with four horizontal supporting plates that can upwards rotate and supports, wherein two horizontal supporting plates support the two ends that are positioned at described pallet stand, and two other horizontal supporting plate supports the midway location of being located at side by side described pallet stand along fore-and-aft direction.

7. according to claim 1-6 arbitrary described folded brick devices, described device also comprise be used to the travel switch of controlling described level frame range of movement, and described travel switch is electrically connected to described control unit; It is characterized in that, described travel switch is located on described level frame, and correspondingly, the two ends of described frame all are provided with stroke baffle.

8. folded brick device according to claim 7, is characterized in that, described horizontal drive structure, lifting drive configuration, travel switch and approach switch are electrically connected to described control unit by wire, and described wire is located at the top of described frame by suspension ring.

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