CN107738366A - A kind of diced system for heat insulation building block streamline - Google Patents

Abstract

The invention provides a kind of diced system for heat insulation building block streamline,Including the track set along building block conveying direction,The transport vehicle being slidably arranged on track and the cutter device one and cutter device two that are set in turn in above track,The cutter device one includes Cutting dolly and the gantry support for supporting Cutting dolly,It is provided with the gantry support for the reciprocating slide rail of Cutting dolly,The cutter device two includes main frame and the crane being arranged in main frame,By the present invention in that heat insulation building block base substrate is cut with the tangent line of reciprocating cutting,When steel wire rope moves back and forth,Rolling friction occurs with fixed pulley,For sliding friction,Abrasion to steel wire rope is smaller,Extend the service life of steel wire rope or even whole cutter device,And tangent line can set it is a plurality of,On a production line while the heat insulation building block of different sizes and model can be produced according to being actually needed.

Description

A kind of diced system for heat insulation building block streamline

Technical field

The present invention relates to heat insulation building block production equipment field for building, and in particular to one kind is used for heat insulation building block flowing water The diced system of line.

Background technology

The production procedure of heat insulation building block includes mold, injecting material, vibration air exhaust, integer, the demoulding and excision forming Etc. several steps, wherein excision forming the step of be directly connected to the percent defective of end product heat insulation building block, it is actual raw at it In production, after the adobe of moulding by casting is deviate from from mould, it is necessary to by the tile cutter into small building block, specific implementation process be by The foaming being placed on supporting plate complete and the heat insulation building block base substrate that is stripped according to the needs of actual product size carry out laterally or The vertical cutting of person, the opportunity of cutting is that base substrate now contains when base substrate completes foaming process but is not completely dried also Water is larger, more moist and soft, insufficient strength, and careless slightly crack will occur, thus to the technological requirement of cutting compared with It is high.

The cutting technique of existing heat insulation building block, it typically will travel along direction after steel wire rope contact adobe and directly enter Row cutting, steel wire rope advance resistance is larger, the pressure for being cut building block base substrate is cut mainly by steel wire rope, if more Running resistance can be bigger group steel wire rope is cut simultaneously if, and water content is larger after just having completed foaming due to adobe, not yet Sizing, and quality is more crisp, bears excessive pressure and is very easy to cause the base substrate of heat insulation building block crack occur or even be broken, together When due to steel wire rope it is more soft, itself be also subjected to larger pressure, it is small so as to cause to cut out so easily cause deformation Building block size changes, diversified in specifications, and percent defective is higher.

During being cut using steel wire rope, rubbed between steel wire rope and heat insulation building block base substrate and guide rod Wipe, easily cause abrasion or even be broken, particularly the friction condition between steel wire rope and guide rod is more serious.Therefore, it is badly in need of Ensureing heat insulation building block base substrate crack can not occur cut when for one kind, while cut lengths are more stable and firm Durable device.

The content of the invention

It is an object of the invention to provide a kind of diced system for heat insulation building block streamline, is used by changing tradition Steel wire rope applies the mode cut of pressure to heat insulation building block base substrate, using being capable of the steel wire rope of reciprocating cutting to self-heat conserving Building block base substrate is cut, and the motion mode by changing steel wire rope solves the heat insulation building block during cutting and born Big pressure and easy chipping situation, simultaneously because the pressure that steel wire rope is born diminishes, so as to extend making for steel wire rope With the life-span, technical solution of the present invention is simple in construction, easy to operation, after solving the easy fragmentation of heat insulation building block base substrate and cutting Upper and lower end face out-of-flatness and the inconsistent technical problem of small building block size.

In order to solve the above-mentioned technical problem, the technical solution adopted in the present invention is：One kind is used for heat insulation building block flowing water The diced system of line, including the track set along building block conveying direction, the transport vehicle that is slidably arranged on track and set successively The cutter device one and cutter device two being placed in above track.

The cutter device one includes Cutting dolly and the gantry support for supporting Cutting dolly, on the gantry support It is provided with and is used for the reciprocating slide rail of Cutting dolly.

Cutting assembly is provided with the Cutting dolly, the cutting assembly includes cutting motor I, line of cut I, reciprocal drive Dynamic component one and line of cut guidance set, the reciprocal drive component one include connecting rod I, are fixed on Cutting dolly framework Two fixing axles and the axle sleeve being slidably arranged in fixing axle, it is arranged in parallel and fixed between described two fixing axles The axial direction of axle and the vibration-direction of Cutting dolly are perpendicular, are connected between the axle sleeve by transverse slat I, and the two of the transverse slat I Hold and be symmetrically arranged with tangent line fixed mount, its short transverse is provided with three tangent line retainer rings on the tangent line fixed mount, it is described One end of connecting rod I is be hinged with transverse slat I, and the outer side of rotating disk I of the other end with being arranged in the output end of cutting motor I is hinged.

Line of cut guidance set is symmetrically arranged with along the both ends of the vibration-direction of transverse slat I, the line of cut is oriented to Component includes fixed pulley installing plate I, is arranged on the riser and fixed pulley installing plate II of the lower section of fixed pulley installing plate I, described fixed sliding Diagonal is provided with three fixed pulleys I corresponding with the tangent line retainer ring on wheel installing plate I, and determined positioned at top The distance between pulley I and tangent line retainer ring are farthest, and the axial direction of the fixed pulley I and the vibration-direction of transverse slat I are perpendicular.

Three fixed pulleys II corresponding with the fixed pulley I, the fixed pulley are diagonally provided with the riser II axial direction and the axial direction of fixed pulley I are disposed in parallel relation to one another, and are provided with and corresponding with fixed pulley II are determined on the inside of the riser Two fixed pulleys III, the axial direction of the fixed pulley III has been arranged side by side in pulley mounting plate II, the inner side of fixed pulley installing plate II Vertically set.

The line of cut I is provided with three, and the both ends of the line of cut I sequentially pass through in line of cut guidance set respectively Fixed pulley III, fixed pulley II and fixed pulley I, and the tangent line that the both ends of final line of cut I are separately fixed at positioned at the both ends of transverse slat I is consolidated Determine on ring.

The cutter device two includes main frame and the crane being arranged in main frame, and main frame and crane are length Cube framework, and the angle of the bottom of main frame four is provided with support bar, the front and rear two sides of the crane is connected by sliding bar mechanism Main frame is connect, the both ends of crane connect main frame by link chain mechanism respectively, and the sliding bar mechanism includes sliding sleeve and is located in Slide bar in sliding sleeve, the both ends of the slide bar connect the upper and lower side frame of main frame, the one side and crane of the sliding sleeve respectively Connection.

The link chain mechanism includes lifting motor, power transmission shaft I, elevating chain and chain fixed plate, and the two of the crane End is provided with a transverse slat II, and the transverse slat II is located at the lower section of crane upper side frame, and on the transverse slat II and crane Space is left between frame, the outside of the transverse slat II and the both ends of crane upper side frame are provided with chain fixed plate, described The middle part on main frame top sets power transmission shaft I along its length, and the power transmission shaft I is driven by the lifting motor for being arranged on its side Dynamic, the both ends of power transmission shaft I are symmetrically arranged with gear I, and the position of corresponding gear I is provided with use on the lower frame of the main frame In the gear II of elevating chain transmission, one end of the elevating chain is connected with the chain fixed plate on crane upper side frame, is risen The other end of descending chain bar is connected after bypassing gear I and gear II successively with the chain fixed plate on the transverse slat II.

Multigroup conducting mechanism, every group of conducting mechanism bag are symmetrically arranged with the long side of the crane upper side frame and lower frame Line of cut II, installing plate are included, transverse axis on a mounting board is set and is rotatably arranged on the fixed pulley IV at transverse axis both ends, the transverse axis Axial direction and crane length direction it is parallel to each other.

The middle part of the crane upper side frame is provided with power transmission shaft II along its length, and the power transmission shaft II is by being arranged on The cutting motor II of its side drives, and the cutting motor II is by setting reciprocal drive component two realizing power transmission shaft II just Reversion moves back and forth, and is provided with the gear III corresponding with the fixed pulley IV on the power transmission shaft II, the lower section of gear III is set It is equipped with driving chain, the both ends of the both ends of driving chain respectively with line of cut II are connected, one end of the line of cut II and transmission Chain is connected, and the other end after the fixed pulley IV on crane upper side frame and lower frame successively around driving chain is connected, with reality The reciprocating motion of existing line of cut II.

The output end of the cutting motor II is provided with reciprocal drive component two, and the reciprocal drive component two includes rotating disk II and push rod, the rotating disk II is arranged on the power output shaft of cutting motor, one end of push rod with the end face of rotating disk II along side On hinge, the other end is fixedly connected with power transmission shaft II, to drive power transmission shaft II to rotate.

As a kind of further improvement of diced system for heat insulation building block streamline of the invention, the fixed pulley peace Gap is left between two fixed pulleys III being arranged side by side in loading board II.

As a kind of further improvement of diced system for heat insulation building block streamline of the invention, the gantry support Outside be provided with control cabinet.

As a kind of further improvement of diced system for heat insulation building block streamline of the invention, the main frame Both ends bottom is provided with stabilization column, and the both ends of the stabilization column are connected with main frame bottom and ground respectively.

Beneficial effect

A kind of diced system for heat insulation building block streamline of the present invention, by changing tradition using steel wire rope to certainly Insulation blocks base substrate applies the mode that pressure is cut, and heat insulation building block base substrate is entered using the steel wire rope for being capable of reciprocating cutting Row cutting, the motion mode by changing steel wire rope solve the heat insulation building block during cutting and bear excessive pressure to hold Easily chipping situation, simultaneously because the pressure that steel wire rope is born diminishes, therefore steel wire rope energy when being cut It is enough that heat insulation building block is cut without deforming upon or offseting according to pre-set size, solve self-heat conserving block The easy fragmentation of the block base substrate and inconsistent technical problem of small building block size after cutting, steel wire rope are close to be provided with fixed pulley Installing plate, when steel wire rope moves back and forth, rolling friction occurs with fixed pulley, it is right for sliding friction The abrasion of steel wire rope is smaller, extends the service life of steel wire rope or even whole cutter device, and steel wire rope can set it is a plurality of, On a production line while the heat insulation building block of different sizes and model can be produced according to being actually needed, disclosure satisfy that not The production of same type needs, and cutter device of the present invention is simple in construction, and cost is cheap, and convenient operation, can be in industry Interior popularization.

Brief description of the drawings

Fig. 1 is the structural representation of diced system of the present invention；

Fig. 2 is the structural representation of the cutter device one of diced system of the present invention；

Fig. 3 is the structural representation of diced system Cutting dolly top view of the present invention；

Fig. 4 is the structural representation of diced system Cutting dolly left view of the present invention；

Fig. 5 is the structural representation of diced system cutter device two of the present invention；

Fig. 6 is the structural representation of the crane of diced system cutter device of the present invention.

In figure：1st, track, 2, transport vehicle, 3, Cutting dolly, 4, gantry support, 5, connecting rod I, 6, fixing axle, 7, axle sleeve, 8th, transverse slat I, 9, tangent line fixed mount, 10, tangent line retainer ring, 11, fixed pulley installing plate I, 12, riser, 13, fixed pulley installing plate II, 14, main frame, 15, crane, 16, support bar, 17, sliding sleeve, 18, slide bar, 19, lifting motor, 20, power transmission shaft I, 21, rise Descending chain bar, 22, chain fixed plate, 23, transverse slat II, 24, installing plate, 25, power transmission shaft II, 26, cutting motor II, 27, push rod, 28th, stabilization column.

Embodiment

The embodiment of the present invention is further described below in conjunction with the accompanying drawings.

As illustrated, the present invention is a kind of diced system for heat insulation building block streamline, including along building block conveying side Track 1, the transport vehicle 2 being slidably arranged on track 1 and the and of cutter device one being set in turn in above track 1 to setting Cutter device two.

The cutter device one includes Cutting dolly 3 and the gantry support 4 for supporting Cutting dolly 3, gantry branch It is provided with frame 4 for 3 reciprocating slide rail of Cutting dolly.

Cutting assembly is provided with the Cutting dolly 3, the cutting assembly includes motor, line of cut I, reciprocal drive Dynamic component one and line of cut guidance set, the reciprocal drive component one include connecting rod I 5, are fixed on the framework of Cutting dolly 3 Two fixing axles 6 and the axle sleeve 7 that is slidably arranged in fixing axle 6, it is arranged in parallel between described two fixing axles 6, And the axial direction of fixing axle 6 and the vibration-direction of Cutting dolly 3 are perpendicular, connected between the axle sleeve 7 by transverse slat I 8, it is described The both ends of transverse slat I 8 are symmetrically arranged with tangent line fixed mount 9, and its short transverse is provided with three tangent lines on the tangent line fixed mount 9 Retainer ring 10, one end of the connecting rod I 5 and transverse slat I 8 are be hinged, the other end and turn being arranged in the output end of motor II The outer side of disk I is hinged.

Line of cut guidance set is symmetrically arranged with along the both ends of the vibration-direction of transverse slat I 8, the line of cut is oriented to Component includes fixed pulley installing plate I 11, is arranged on the riser 12 and fixed pulley installing plate II 13 of the lower section of fixed pulley installing plate I 11, Diagonal is provided with three fixed pulleys I corresponding with the tangent line retainer ring 10, and position on the fixed pulley installing plate I 11 Farthest in the distance between the fixed pulley I of top and tangent line retainer ring 10, the axial direction of the fixed pulley I is back and forth transported with transverse slat I 8 Dynamic direction is perpendicular.

Three fixed pulleys II corresponding with the fixed pulley I are diagonally provided with the riser 12, it is described fixed sliding The axial direction and the axial direction of fixed pulley I of wheel II are disposed in parallel relation to one another, and the inner side of the riser 12 is provided with corresponding with fixed pulley II Fixed pulley installing plate II 13, two fixed pulleys III, the fixed pulley has been arranged side by side in the inner side of the fixed pulley installing plate II 13 III axial direction is vertically set.

The line of cut I is provided with three, and the both ends of the line of cut I sequentially pass through in line of cut guidance set respectively Fixed pulley III, fixed pulley II and fixed pulley I, and the both ends of final line of cut I are separately fixed at the tangent line positioned at the both ends of transverse slat I 8 In retainer ring 10.

The cutter device two includes main frame 14 and the crane 15 being arranged in main frame 14, main frame 14 and lifting Frame 15 is cuboid framework, and the angle of the bottom of main frame 14 four is provided with support bar 16, and front and rear the two of the crane 15 Face connects main frame 14 by sliding bar mechanism, and the both ends of crane 15 connect main frame 14, the cunning by link chain mechanism respectively Linkage includes sliding sleeve 17 and the slide bar 18 being located in sliding sleeve 17, and the both ends of the slide bar 18 connect the upper of main frame 14 respectively Lower frame, the one side of the sliding sleeve 17 are connected with crane 15.

The link chain mechanism includes lifting motor 19, power transmission shaft I 20, elevating chain 21 and chain fixed plate 22, the liter The both ends of drop frame 15 are provided with a transverse slat II 23, and the transverse slat II 23 is located at the lower section of the upper side frame of crane 15, and described Space, the outside of the transverse slat II 23 and the both ends of the upper side frame of crane 15 are left between transverse slat II 23 and the upper side frame of crane 15 Chain fixed plate 22 is provided with, the middle part on the top of main frame 14 sets power transmission shaft I 20, the transmission along its length Axle I 20 is driven by the lifting motor 19 for being arranged on its side, and the both ends of power transmission shaft I 20 are symmetrically arranged with gear I, in the main frame The position of corresponding gear I is provided with the gear II being driven for elevating chain 21, the elevating chain 21 on the lower frame of frame 14 One end be connected with the chain fixed plate 22 on the upper side frame of crane 15, the other end of elevating chain 21 bypasses the He of gear I successively It is connected after gear II with the chain fixed plate 22 on the transverse slat II 23.

Multigroup conducting mechanism, every group of conducting mechanism are symmetrically arranged with the long side of the upper side frame of crane 15 and lower frame Including line of cut II, installing plate 24, the transverse axis being arranged on installing plate 24 and the fixed pulley IV for being rotatably arranged on transverse axis both ends, institute Axial direction and the length direction of crane 15 for stating transverse axis are parallel to each other.

The middle part of the upper side frame of crane 15 is provided with power transmission shaft II 25 along its length, the power transmission shaft II 25 by The cutting motor 26 for being arranged on its side drives, and the cutting motor 26 is by setting reciprocal drive component two to realize power transmission shaft II 25 rotating is moved back and forth, and the gear III corresponding with the fixed pulley IV, gear are provided with the power transmission shaft II 25 III lower section is provided with driving chain, and the both ends of the both ends of driving chain respectively with line of cut II are connected, the line of cut II One end is connected with driving chain, and the other end passes around connection after the fixed pulley IV on the upper side frame of crane 15 and lower frame successively Dynamic chain, to realize the reciprocating motion of line of cut II.

The output end of the cutting motor 26 is provided with reciprocal drive component two, and the reciprocal drive component two includes rotating disk II and push rod 27, the rotating disk II is arranged on the power output shaft of cutting motor 26, one end and the end face of rotating disk II of push rod 27 The lower hinge along on side, the other end are fixedly connected with power transmission shaft II 25, to drive power transmission shaft II 25 to rotate.

In the specific implementation, heat insulation building block is fully loaded with transport vehicle 2 along rail running to the lower section of cutter device one, then Open Cutting dolly 3 and wire cutting is carried out to the upper and lower end face of heat insulation building block and middle part, after the completion of cutting, transport vehicle 2 continues edge Rail running to the lower section of cutter device two, cutter device two is cut to the decile of heat insulation building block.

The present invention in the top of heat insulation building block streamline by setting cutter device, to be cut to building block, due to The present invention is provided with a plurality of tangent line, therefore the present invention can realize that carrying out epidermis to building block upper and lower end face cuts, can also be same When by entirety building block from middle part cut, moved back and forth by Cutting dolly 3 on crossbeam, it is possible to achieve the cutting to building block, Heat insulation building block base substrate is applied changing tradition using tangent line by way of pressure cuts, using being capable of reciprocating cutting Tangent line is cut to heat insulation building block base substrate, and the motion mode by changing tangent line solves the self-heat conserving during cutting Building block bears excessive pressure and easy chipping situation, simultaneously because the pressure that tangent line is born diminishes, therefore tangent line exists Heat insulation building block can be cut according to pre-set size when cutting without deforming upon or partially Move, the inconsistent technical problem of the small building block size after solving the easy fragmentation of heat insulation building block base substrate and cutting, steel wire rope is tight Patch is provided with the installing plate of fixed pulley, when steel wire rope moves back and forth, rolling friction occurs with fixed pulley, compares For sliding friction, the abrasion to steel wire rope is smaller, extends the service life of steel wire rope or even whole cutter device, and cuts Line can set a plurality of, and on a production line while the self-heat conserving of different sizes and model can be produced according to being actually needed Building block, it disclosure satisfy that different types of production needs.

The above described is only a preferred embodiment of the present invention, any formal limitation not is made to the present invention, though So the present invention is disclosed above with preferred embodiment, but is not limited to the present invention, any to be familiar with this professional technology people Member, without departing from the scope of the present invention, when the technology contents using the disclosure above make a little change or modification For the equivalent embodiment of equivalent variations, as long as being the technical spirit pair according to the present invention without departing from technical solution of the present invention content Any simple modification, equivalent change and modification that above example is made, in the range of still falling within technical solution of the present invention.

Claims (4)

1. A kind of 1. diced system for heat insulation building block streamline, it is characterised in that：Including what is set along building block conveying direction Track（1）, be slidably arranged in track（1）On transport vehicle（2）And it is set in turn in track（1）The He of cutter device one of top Cutter device two；

   The cutter device one includes Cutting dolly（3）With for supporting Cutting dolly（3）Gantry support（4）, described gantry Support（4）On be provided with for Cutting dolly（3）Reciprocating slide rail；

   The Cutting dolly（3）On be provided with cutting assembly, the cutting assembly includes cutting motor I, line of cut I, reciprocal driven Dynamic component one and line of cut guidance set, the reciprocal drive component one include connecting rod I（5）, be fixed on Cutting dolly（3）Frame Two fixing axles on frame（6）Be slidably arranged in fixing axle（6）On axle sleeve（7）, described two fixing axles（6）Between phase Mutually it be arranged in parallel, and fixing axle（6）Axial direction and Cutting dolly（3）Vibration-direction it is perpendicular, the axle sleeve（7）Between By transverse slat I（8）Connection, the transverse slat I（8）Both ends be symmetrically arranged with tangent line fixed mount（9）, the tangent line fixed mount（9）On Its short transverse is provided with three tangent line retainer rings（10）, the connecting rod I（5）One end and transverse slat I（8）It is be hinged, it is another The outer side for holding and being arranged on the rotating disk I in the output end of cutting motor I is hinged；

   Along the transverse slat I（8）The both ends of vibration-direction are symmetrically arranged with line of cut guidance set, the line of cut guiding group Part includes fixed pulley installing plate I（11）, be arranged on fixed pulley installing plate I（11）The riser of lower section（12）With fixed pulley installing plate II （13）, the fixed pulley installing plate I（11）It is upper to be provided with and the tangent line retainer ring in diagonal（10）Corresponding three are fixed Pulley I, and the fixed pulley I positioned at top and tangent line retainer ring（10）The distance between it is farthest, the axial direction of the fixed pulley I with Transverse slat I（8）Vibration-direction is perpendicular；

   The riser（12）On be diagonally provided with three fixed pulleys II corresponding with the fixed pulley I, the fixed pulley II axial direction and the axial direction of fixed pulley I are disposed in parallel relation to one another, the riser（12）Inner side be provided with it is corresponding with fixed pulley II Fixed pulley installing plate II（13）, the fixed pulley installing plate II（13）Two fixed pulleys III have been arranged side by side in inner side, described fixed The axial direction of pulley III is vertically set；

   The line of cut I is provided with three, and the both ends of the line of cut I sequentially pass through in line of cut guidance set respectively determines cunning Wheel III, fixed pulley II and fixed pulley I, and the both ends of final line of cut I are separately fixed at positioned at transverse slat I（8）The tangent line at both ends is consolidated Determine ring（10）On；

   The cutter device two includes main frame（14）Be arranged on main frame（14）Interior crane（15）, main frame（14）With Crane（15）It is cuboid framework, and main frame（14）The angle of bottom four be provided with support bar（16）, the crane （15）Front and rear two sides main frame is connected by sliding bar mechanism（14）, crane（15）Both ends connected respectively by link chain mechanism Main frame（14）, the sliding bar mechanism includes sliding sleeve（17）Be located in sliding sleeve（17）In slide bar（18）, the slide bar（18） Both ends connect main frame respectively（14）Upper and lower side frame, the sliding sleeve（17）One side and crane（15）Connection；

   The link chain mechanism includes lifting motor（19）, power transmission shaft I（20）, elevating chain（21）And chain fixed plate（22）, institute State crane（15）Both ends be provided with a transverse slat II（23）, the transverse slat II（23）Positioned at crane（15）Upper side frame Lower section, and the transverse slat II（23）With crane（15）Space, the transverse slat II are left between upper side frame（23）Outside and liter Frame drops（15）The both ends of upper side frame are provided with chain fixed plate（22）, the main frame（14）The middle part on top is square along its length To setting power transmission shaft I（20）, the power transmission shaft I（20）By the lifting motor for being arranged on its side（19）Driving, power transmission shaft I（20） Both ends be symmetrically arranged with gear I, in the main frame（14）Lower frame on the position of corresponding gear I be provided with for lifting Chain（21）The gear II of transmission, the elevating chain（21）One end and crane（15）Chain fixed plate on upper side frame （22）Connection, elevating chain（21）The other end successively around after gear I and gear II with the transverse slat II（23）On chain Fixed plate（22）Connection；

   The crane（15）Multigroup conducting mechanism, every group of conducting mechanism bag are symmetrically arranged with the long side of upper side frame and lower frame Include line of cut II, installing plate（24）, be arranged on installing plate（24）On transverse axis and be rotatably arranged on the fixed pulley IV at transverse axis both ends, The axial direction of the transverse axis and crane（15）Length direction it is parallel to each other；

   The crane（15）The middle part of upper side frame is provided with power transmission shaft II along its length（25）, the power transmission shaft II（25） By the cutting motor II for being arranged on its side（26）Driving, the cutting motor II（26）By set reciprocal drive component two come Realize power transmission shaft II（25）Rotating move back and forth, the power transmission shaft II（25）On be provided with it is corresponding with the fixed pulley IV Gear III, the lower section of gear III is provided with driving chain, and the both ends of the both ends of driving chain respectively with line of cut II are connected, institute The one end for stating line of cut II is connected with driving chain, and the other end bypasses crane successively（15）Determine cunning on upper side frame and lower frame Connection driving chain after wheel IV, to realize the reciprocating motion of line of cut II；

   The cutting motor II（26）Output end be provided with reciprocal drive component two, the reciprocal drive component two includes rotating disk II and push rod（27）, the rotating disk II is arranged on cutting motor II（26）Power output shaft on, push rod（27）One end with turn Along the hinge on side, the other end and power transmission shaft II under the end face of disk II（25）It is fixedly connected, to drive power transmission shaft II（25）Turn It is dynamic.
2. A kind of 2. diced system for heat insulation building block streamline according to claim, it is characterised in that：It is described fixed Pulley mounting plate II（13）On leave gap between two fixed pulleys III being arranged side by side.
3. A kind of 3. diced system for heat insulation building block streamline according to claim, it is characterised in that：The dragon Door bracket（4）Outside be provided with control cabinet.
4. A kind of 4. diced system for heat insulation building block streamline according to claim, it is characterised in that：The master Framework（14）Both ends bottom be provided with stabilization column（28）, the stabilization column（28）Both ends respectively with main frame （14）Bottom connects with ground.