CN211467018U - Brick laying and splitting machine - Google Patents

Abstract

The utility model relates to a cleaving machine lays bricks, including the inner tower, the outrigger, the main drive piece, go up the sword assembly, lower sword assembly and guider, the main drive piece is installed in the inner tower upper end, it installs at the main drive piece output and slides along the inner tower to go up the sword assembly, the lower sword assembly is installed at the inner tower lower extreme, it arranges and constitutes the brick work position of splitting to go up the vertical opposition of sword assembly and lower sword assembly between last sword assembly and lower sword assembly, guider installs between inner tower and outrigger, the symmetry is provided with a plurality of elastic support subassemblies that are used for supporting the inner tower between inner tower and the outrigger, the effect direction of each elastic support subassembly is vertical upwards, can automatic continuous production, and processingquality is good, job stabilization is reliable, high production efficiency.

Description

Brick laying and splitting machine

Technical Field

The utility model relates to a building materials industry is with splitting machine of laying bricks technical field especially relates to a splitting machine of laying bricks.

Background

Along with the development of the building industry, the splitting machine with good splitting effect is more and more used in the building industry, the existing single-knife and double-knife splitting machine cannot meet the requirements of the quality and the production efficiency of split bricks at the bottom of the market, and the splitting machine which can automatically and continuously produce, is good in processing quality, stable and reliable in work and high in production efficiency is urgently needed.

SUMMERY OF THE UTILITY MODEL

For overcoming the technical defect that prior art exists, the utility model provides a cleaving machine lays bricks or stones can automatic continuous production, and processingquality is good, and job stabilization is reliable, the cleaving machine that production efficiency is high.

The utility model discloses a technical solution be: bricklaying splitting machine, including inner tower, outrigger, main drive spare, upper slitter assembly, lower slitter assembly and guider, main drive spare is installed in the inner tower upper end, the upper slitter assembly is installed at the main drive spare output and is slided along the inner tower, the lower slitter assembly is installed at the inner tower lower extreme, the upper slitter assembly is arranged with the vertical opposition of lower slitter assembly and constitutes the brick splitting work position between upper slitter assembly and lower slitter assembly, guider installs between inner tower and outrigger, the symmetry is provided with a plurality of elastic support components that are used for supporting the inner tower between inner tower and the outrigger, each elastic support component's the vertical upwards of direction of action.

As a further improvement, the utility model discloses a this splitting machine of laying bricks still includes damping piece, damping piece installs on the outrigger and pushes damping piece when going up the sword assembly and slide downwards.

As a further improvement, the outer frame is provided with a buffer member, and the bottom of the inner frame is pressed on the buffer member when the lower cutter assembly is at the lower limit position.

As the utility model discloses a further improvement, the inner tower includes inner tower entablature, a plurality of inner tower stands, inner tower bottom end rail, each the inner tower entablature is connected on inner tower stand top and the inner tower bottom end is connected to the inner tower stand bottom, parallel and interval arrangement between each inner tower stand, the main drive piece is installed at inner tower entablature middle part and the output is vertical downwards, inner tower entablature both ends are equipped with the support mounting panel, the elastic support subassembly is installed between support mounting panel and outrigger.

As a further improvement of the utility model, the support mounting panel is equipped with the supporting component mounting hole, each elastic supporting component all includes fastener under support guide pillar, bottom plate, support elastic component and the supporting component, support guide pillar lower extreme is adorned admittedly on the outrigger top and the upper end passes the supporting component mounting hole, the support guide pillar passes the bottom plate, fastener and support guide pillar threaded connection under the supporting component, the bottom plate cover is outside the support guide pillar and by the support component under the fastener support, support elastic component cover outside the support guide pillar and by support mounting panel and bottom plate compress tightly.

As a further improvement, the guiding device includes a plurality of guide piece groups, installs a plurality of guide piece mount pads on the outrigger and installs the guided way group on the inner tower, the guide piece group includes a plurality of guide pieces, each guide piece corresponds respectively and installs on the guide piece mount pad, each guided way group is all along the up-and-down direction motion in the guide of guide piece.

As the utility model discloses a further improvement, this cleaving machine of laying bricks still includes the assembly is split to the side, the assembly is split to the side includes that the level opposition installs two side chopper devices on the outrigger, the side chopper device stretches into the work position of splitting bricks.

As a further improvement of the utility model, the side riving knife device is including the side driving piece of splitting, level (l) ing seat, level (l) ing subassembly, elevating system and tool bit subassembly, elevating system installs on the outrigger and follows the outrigger up-and-down motion, the level (l) ing seat is adorned admittedly on elevating system, the side is split the driving piece and is passed the level (l) ing seat and is fixed on the level (l) ing seat by the level (l) ing subassembly, the tool bit subassembly is adorned admittedly at the side driving piece output of splitting and is stretched into and split brick work position.

As a further improvement of the utility model, the upper knife assembly comprises a swing span device and an adaptive cleaver device, the swing span device is fixedly arranged at the output end of the main driving piece, the adaptive cleaver device is fixedly arranged at the bottom end of the swing span device and swings left and right along with the swing span device, the adaptive cleaver device comprises an adaptive action component, a knife rest push valve and a sliding blade component which are sequentially connected from top to bottom, the swing span device comprises an adaptive action groove, the adaptive action groove and the knife rest push valve enclose an adaptive action cavity, the adaptive action component comprises a wedge block group which is horizontally distributed in the adaptive action cavity, the wedge block group comprises a plurality of wedge blocks, the wedge blocks all comprise narrow ends and are adjacent, the narrow ends of the wedge blocks are opposite in pointing direction, the wedge blocks are divided into a lower side wedge block which is in sliding friction with the top of the knife rest push valve and an upper side wedge block which is in sliding friction with the bottom of the adaptive action groove, the knife rest push valve transmits the extrusion force of the knife component to the corresponding lower side wedge blocks, and each lower side wedge block is forced to contract inwards to extrude the adjacent upper side wedge blocks to slide towards two sides when being extruded.

As a further improvement of the utility model, the swing span device includes locking seat, circular arc groove block, circular arc block, side board, swing round pin axle, knife rest base plate, swing bolster and the spacing subassembly of swing, the locking seat is adorned admittedly at the main drive spare output, and the circular arc block is adorned admittedly at knife rest base plate top, the circular arc groove block is adorned admittedly in locking seat bottom, the circular arc groove block be equipped with the gliding arc surface of circular arc block laminating, the side board is adorned admittedly on the circular arc groove block and the bottom articulates on the knife rest base plate through the swing round pin axle, swing round pin axle axis and arc surface axis coincidence, the spacing subassembly of swing is installed on the locking seat and is pushed up on the knife rest base plate, swing bolster one end is connected on the locking seat and the other end connects.

The utility model has the advantages that: the brick splitting machine is provided with an inner frame, an outer frame, a main driving piece, an upper cutter assembly, a lower cutter assembly and a guide device, wherein the main driving piece is installed at the upper end of the inner frame, the upper cutter assembly is installed at the output end of the main driving piece and slides along the inner frame, the lower cutter assembly is installed at the lower end of the inner frame, the upper cutter assembly and the lower cutter assembly are vertically arranged in an opposite mode to form a brick splitting work position between the upper cutter assembly and the lower cutter assembly, the guide device is installed between the inner frame and the outer frame, a plurality of elastic supporting components used for supporting the inner frame are symmetrically arranged between the inner frame and the outer frame, and the action direction of each elastic supporting component is vertically upward, so that the inner frame is;

the lower limit position of the lower cutter assembly is lower than that of the bricklaying conveying device, the upper cutter assembly moves downwards under the driving of the main driving piece, when the lower cutter assembly contacts the bricklaying, the damping piece fixed on the outer frame is just extruded, the damping piece provides upward supporting force for the upper cutter assembly, so that the upper cutter assembly and the acting force of the elastic supporting component lift the inner frame together, the lower cutter assembly lifts along with the inner frame, the lower cutter assembly which originally falls into the lower cutter assembly of the bricklaying conveying device is lifted to be combined with the upper cutter assembly to finish the bricklaying, the action at one position of the main driving piece not only realizes the action of the upper cutter assembly, but also realizes the adaptive lifting and falling of the lower cutter assembly, automatic continuous production can be realized, the work is stable and reliable, and the production efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of F in fig. 1.

Fig. 3 is a schematic side view of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 at G.

Fig. 5 is a schematic view showing a mounting position of the damper.

Fig. 6 is an enlarged schematic view of a portion a in fig. 5.

FIG. 7 is a schematic view of a side splitter assembly from a first perspective.

FIG. 8 is a schematic diagram of a second perspective structure of a side splitter assembly.

Fig. 9 is a schematic structural view of the upper blade assembly.

Fig. 10 is a side view of the upper blade assembly structure.

Fig. 11 is a schematic sectional view taken along direction E in fig. 10.

Fig. 12 is an enlarged view of fig. 11 at D.

Fig. 13 is an enlarged view of B in fig. 9.

Fig. 14 is a schematic view of the structure of the knife rest push valve.

Fig. 15 is a schematic structural view of a tool holder base plate.

Fig. 16 is an enlarged view of C in fig. 15.

FIG. 17 is a schematic cross-sectional view of a side splitter assembly.

Description of reference numerals: 1. a cutter mounting assembly; 3. a side splitting assembly; 4. a primary drive member; 5. a lower cutter assembly; 6. a brick splitting station; 7. a damping member;

11. a swing frame device; 111. a locking seat; 1111. an adaptive actuation groove; 1112. a wear plate; 1113. swinging the buffer guide post; 1114. a swing limit mounting cylinder; 112. a circular arc groove block; 113. an arc block; 114. a side plate; 115. swinging the pin shaft; 116. a tool holder base plate; 1161. a first guide slider; 1162. a second guide slider; 117. a swinging buffer; 118. a swing limiting component; 1181. swinging the limiting rod; 1182. swinging the adjustment fastener; 119. a mounting plate;

12. an adaptive riving knife device; 121. an adaptive action component; 1211. a wedge block set; 12111. the lower side is provided with a wedge block; 12112. an upper side wedge block; 1212. a wedge block adjusting screw; 122. the knife rest pushes the valve; 1221. a valve body; 1222. a plunger; 123. a sliding blade assembly; 1231. a tool holder clamping plate; 1232. a main blade; 13. a set of side blocks; 131. a side block;

21. an inner frame; 211. a guide rail set; 212. an inner frame upper beam; 213. an inner frame upright post; 214. an inner frame lower beam; 215. supporting the mounting plate; 2151. a support assembly mounting hole; 2152. a guide sleeve;

22. an outer frame; 221. a guide member group; 2211. a guide mounting seat; 2212. a guide member; 222. an outer frame base; 223. an outer frame upright post; 224. an outer frame upper beam; 225. a lifting fixing plate; 2251. a lifting through hole;

23. an elastic support member; 231. supporting the guide post; 232. a lower supporting plate; 2321. a guide section; 233. a support elastic member; 234. a support assembly lower fastener; 24. an inner frame buffer member;

31. a side riving knife device; 311. a side-splitting driving member; 312. a horizontal adjusting seat; 3121. an inner plate; 3122. an upper plate; 3123. a lower plate; 3124. a front plate; 3125. a back plate; 3127. a front clamping plate; 3126. a rear clamping plate; 313. a level adjustment assembly; 3131. a handle; 3132. an adjusting lever; 3133. a limiting block; 3134. a first rack; 3135. a second rack; 3136. a limiting block; 314. a lifting mechanism; 3141. a lifting guide rail; 31411. a rail fastener; 31412. a guide rail mounting plate; 31413. a splint; 31414. a guide rail pressing plate; 3142. a lifting traction assembly; 31421. a lifting screw rod; 31422. a lifting bearing; 31424. a lifting adjustment handle; 31425. a lifting fastener; 315. a cutter head assembly; 3151. a bit fastener; 3152. a side riving knife fixing seat; 3153. a side-splitting blade; 3154. a tool holder.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-17, the present embodiment provides a brick laying splitter, which includes an inner frame 21, an outer frame 22, a main driving member 4, an upper knife assembly 1, a lower knife assembly 5, a damping member 7, a side splitting assembly 3 and a guiding device, wherein the main driving member 4 is mounted at the upper end of the inner frame 21, the upper knife assembly 1 and the lower knife assembly 5 are vertically arranged opposite to each other to form a brick splitting working position 6 between the upper knife assembly 1 and the lower knife assembly 5, the lower limit position of the lower knife assembly 5 is lower than that of the brick laying conveying device, the upper knife assembly 1 is driven by the main driving member 4 to downwardly press the damping member 7, the damping member 7 provides an upward supporting force to the upper knife assembly 1 so as to lift the inner frame 21 together with an acting force of the elastic supporting member 23, the lower knife assembly 5 is lifted along with the inner frame 21 so as to lift the lower knife assembly 5 originally lowered down into the brick conveying device to cooperate with the upper knife assembly 1 to complete brick splitting, the action of the main driving part 4 not only realizes the action of the upper cutter assembly 1, but also realizes the adaptive lifting and falling of the lower cutter assembly 5, and the automatic continuous production can be realized, the work is stable and reliable, and the production efficiency is high.

In this embodiment, the inner frame 21 includes an inner frame upper cross beam 212, a plurality of inner frame columns 213, and an inner frame lower cross beam 214, the top end of each inner frame column 213 is connected to the inner frame upper cross beam 212, the bottom end of each inner frame column 213 is connected to the inner frame lower cross beam 214, the inner frame columns 213 are arranged in parallel and at intervals, the intervals between the inner frame columns 213 are used for accommodating and mounting the side splitter assemblies 3, the main driving member 4 is mounted in the middle of the inner frame upper cross beam 212, and the output end of the main driving member is vertically downward, the outer frame 22 includes an outer frame base 222, a plurality of outer frame columns 223, and an outer frame upper cross beam 224, the lower end plummet of each outer frame column 223 is fixedly mounted on the outer frame base 222, and the upper end of the outer frame is connected to the outer frame upper cross beam 224, the outer frame 22 is provided with an inner frame buffer 24, and the inner frame lower cross beam 214 is pressed on the inner frame.

In this embodiment, the guiding device includes a guiding member set 221, a plurality of guiding member installation seats 2211 installed on the outer frame upper beam 224 and the outer frame base 222, and a guiding rail set 211 installed on the inner frame 21, where the guiding rail set 211 includes a plurality of guiding rails installed on the inner frame upper beam 212 and the inner frame lower beam 214, respectively, the guiding member set 221 includes a plurality of guiding members 2212, each guiding member 2212 is installed on the guiding member installation seat 2211, respectively, each guiding rail moves in the up-and-down direction under the guiding of the corresponding guiding member 2212, because the distance between the outer frame upper beam 224 and the outer frame base 222 is longer, the distance between the inner frame upper beam 212 and the inner frame lower beam 214 is also longer, so that the inner frame 21 has better performance when sliding up and down along the outer frame 22, and the inner frame 21 is prevented from tilting, each guiding member 2212 is a composite bearing, each guiding member 2212 moves in the up-and down direction in the corresponding guiding rail, the bearing device can receive left and right loads and front and back loads, the bearing capacity can be well distributed on the guide rail, the composite bearing and the guide rail are long in service life, the composite bearing can be assembled through common bolts, the bearing device is economical and practical, and the composite bearing part is easy to replace.

In this embodiment, the supporting mounting plates 215 are disposed at two ends of the upper cross beam 212 of the inner frame, a plurality of elastic supporting assemblies 23 for supporting the inner frame 21 are symmetrically disposed between the supporting mounting plates 215 and the outer frame 22, the acting direction of each elastic supporting assembly 23 is vertically upward, the supporting mounting plates 215 are disposed with supporting assembly mounting holes 2151, each elastic supporting assembly 23 includes a supporting guide pillar 231, a lower supporting plate 232, a supporting elastic member 233 and a supporting assembly lower fastening member 234, the lower end of the supporting guide pillar 231 is screwed and fixed to the top end of the outer frame 22 by an elastic cylindrical pin, the upper end of the supporting guide pillar 231 passes through the supporting assembly mounting hole 2151, the supporting assembly lower fastening member 234 is screwed and connected to the supporting guide pillar 231, the lower supporting plate 232 is sleeved outside the supporting guide pillar 231 and supported by the supporting assembly lower fastening member 234, the supporting elastic member 233 is sleeved outside the supporting guide pillar 231 and compressed by the supporting mounting plates 215 and the lower supporting plate, thereby adjusting the supporting force of the supporting elastic member 233 to the inner frame 21 and helping the inner frame 21 to obtain a proper buffering force to reduce the impact to the inner frame buffer 24. Further, a guide sleeve 2152 is arranged at the bottom of the support mounting plate 215 around the support assembly mounting hole 2151, a guide section 2321 is arranged at the top of the lower support plate 232, the upper end of the support elastic member 233 is sleeved on the outer peripheral surface of the guide sleeve 2152, the lower end of the support elastic member 233 is sleeved on the outer peripheral surface of the guide section 2321, and the guide sleeve 2152 and the guide section 2321 prevent the axis of the support elastic member 233 and the axis of the support guide post 231 from being non-collinear, so that the support force of the support elastic member 233 is reduced or the support elastic member 233 is.

In this embodiment, the brick laying splitter further comprises a side splitting assembly 3, the side splitting assembly 3 comprises two side splitting knife devices 31 which are horizontally installed on the outer frame 22 in an opposite mode, and the side splitting knife devices 31 extend into the brick splitting work position 6.

In this embodiment, the side riving knife device 31 includes a side riving driving member 311, a horizontal adjustment seat 312, a horizontal adjustment assembly 313, a lifting mechanism 314 and a knife head assembly 315, the lifting mechanism 314 is installed on the external frame 22 and moves up and down along the external frame 22, the height of the lifting mechanism 314 is adjusted when the brick laying height is different, the horizontal adjustment seat 312 is connected with the lifting mechanism 314 and further adjusts the height of the horizontal adjustment seat 312, the side riving driving member 311 passes through the horizontal adjustment seat 312 and is fixed on the horizontal adjustment seat 312 by the horizontal adjustment assembly 313, the knife head assembly 315 is fixedly installed at the output end of the side riving driving member 311 and extends into the brick work position 6, the horizontal position can be adjusted under the adjustment of the horizontal adjustment assembly 313 to adapt to brick laying with different widths.

In this embodiment, the lifting mechanism 314 includes a lifting guide component and a lifting traction component 3142, the lifting guide component is a lifting rail set installed on the side of the external frame 22, and the lifting traction component 3142 moves up and down along the external frame 22 to drive the horizontal adjustment base 312 to move up and down, thereby adjusting the height of the cutter head component 315.

In this embodiment, horizontal adjustment seat 312 includes inner plate 3121 close to split brick work site 6 and upper plate 3122, lower plate 3123, front plate 3124 and rear plate 3125 connected with inner plate 3121, front plate 3124 is connected with front clamping plate 3127, rear plate 3125 is connected with rear clamping plate 3126, front clamping plate 3127 is connected with rear clamping plate 3126 through the side split fastener, inner plate 3121 is equipped with the interior mounting hole that supplies side split driving piece 311 to stretch into split brick work site 6, form the outer mounting hole that supplies side split driving piece 311 to pass through at the junction when front clamping plate 3127 and rear clamping plate 3126 are connected through the side split fastener, side split driving piece 311 is interior-exterior adjusted along directional split brick work site 6 direction under the restriction of interior mounting hole and outer mounting hole, when side split driving piece 311 needs to be adjusted position or dismantled, loosen the side split fastening piece, draw side split driving piece 311 from interior mounting hole.

In this embodiment, the horizontal adjustment assembly 313 includes a handle 3131, an adjusting rod 3132, a limiting block 3133, a first rack 3134, a second rack 3135, and a limiting block 3136, wherein one end of the adjusting rod 3132 is fixedly mounted with the handle 3131, the other end of the adjusting rod 3132 passes through the limiting block 3136 and is mounted on the first rack 3134, the adjusting rod 3132 is axially fixed with the first rack 3134 by the limiting block 3136, the adjusting rod 3132 is in threaded fit with the rear plate 3125, the limiting block 3133 is fixedly mounted on the front plate 3124, the limiting block 3133 is provided with an inner cavity, the first rack 3134 slides in the inner cavity, the second rack 3135 is fixedly mounted on the side splitter driving member 311 along the side splitter driving direction, the first rack 3134 and the second rack 3135 are engaged with each other to prevent the side splitter driving member 311 from rotating and moving axially during the side splitter action, when it is necessary to adjust the position of the side splitter driving member 311 along the direction pointing to the inside and outside of the side splitter working position of the side splitter driving member 3131, the adjusting rod 3132 is rotated by the handle, and further to, the adjustment is convenient, the shape of the second rack 3135 and the lateral wedge driving part 311 is consistent with that of the outer mounting hole, the front clamping plate 3127 and the rear clamping plate 3126 hold the lateral wedge driving part 311 through the lateral wedge fastener, and the lateral wedge driving part 311 is prevented from rotating during the lateral wedge action.

In this embodiment, the outer frame 22 is fixedly provided with a lifting fixing plate 225, the lifting traction assembly 3142 includes a lifting lead screw 31421, a lifting bearing 31422 and a lifting adjustment handle 31424, the lifting fixing plate 225 is provided with a lifting through hole 2251, the lifting lead screw 31421 is fixedly mounted on the upper plate 3122 through a lifting fastener 31425, the lifting lead screw 31421 sequentially passes through the lifting through hole 2251 and the lifting bearing 31422, the upper end of the lifting bearing 31422 is clamped with the lower end of the lifting adjustment handle 31424, the lower end of the lifting bearing 31422 is clamped with the lifting fixing plate 225, the lifting adjustment handle 31424 is in threaded connection with the lifting lead screw 31421, the lifting adjustment handle 31424 is rotated during adjustment, the lifting adjustment handle 31424 rotates under the lifting bearing 31422 to drive the lifting lead screw 31421 in threaded fit with the lifting bearing to lift, and only the lifting adjustment handle 31424 needs to be rotated to adjust the height of the horizontal.

In this embodiment, the lifting rail set includes two lifting guide rails 3141, the lifting guide rails 3141 include a guide rail fastening member 31411, and a guide rail mounting plate 31412, a clamping plate 31413, and a guide rail pressing plate 31414 that are sequentially locked on the outer frame 22 by the guide rail fastening member 31411 in a direction away from the brick splitting work position 6, the guide rail mounting plate 31412 and the guide rail pressing plate 31414 of the same lifting guide rail 3141 are both in sliding fit with the inner side and the outer side of the brick splitting work position 6 opposite to the horizontal adjustment seat 312 so as to limit the horizontal adjustment seat 312 to slide in the up-down direction, when the up-down position of the horizontal adjustment seat 312 is adjusted, the two clamping plates 31413 respectively slide and rub the front side and the rear side of the horizontal adjusting seat 312 in the brick laying flowing direction, thereby preventing the horizontal adjusting base 312 from turning over, limiting the horizontal adjusting base 312 to move up and down in the same posture, adjusting the height of the horizontal adjusting base 312 in place, rail fasteners 31411 press against rail clamp 31414 to secure horizontal adjustment mount 312.

In this embodiment, the tool bit assembly 315 includes a tool bit fastening member 3151, a side riving knife fixing seat 3152, a side riving knife blade 3153 and a tool holder 3154, the side riving knife fixing seat 3152 is fixedly mounted at the output end of the side riving driving member 311, the side riving knife fixing seat 3152 is provided with a tool holder groove, the tool holder 3154 is embedded into the tool holder groove and props against the bottom wall of the tool holder groove, the tool bit fastening member 3151 penetrates through the side wall of the tool holder groove to fix the tool holder 3154 in the tool holder groove, the tool holder 3154 is prevented from deforming or breaking by clamping of the tool holder groove, the front end of the tool holder 3154 is fixedly provided with the side riving knife blade.

In this embodiment, the upper knife assembly 1 includes a swing frame device 11 and an adaptive riving knife device 12, the swing frame device 11 is fixedly installed at the output end of the main driving piece 4, the adaptive riving knife device 12 includes an adaptive action component 121, a knife rest push valve 122 and a sliding blade component 123 which are sequentially connected from top to bottom, and the adaptive riving knife device 12 is fixedly installed at the bottom end of the swing frame device 11 and swings left and right along with the swing frame device 11.

In this embodiment, the swing frame device 11 includes a locking seat 111, an arc groove block 112, an arc block 113, a side plate 114, a swing pin 115, a tool rest base plate 116, a swing buffer 117 and a swing limit component 118, the locking seat 111 is fixedly mounted at the output end of the main driving element 4, the arc block 113 is fixedly mounted at the top of the tool rest base plate 116, the arc groove block 112 is fixedly mounted at the bottom of the locking seat 111, the arc groove block 112 is provided with an arc surface sliding in fit with the arc block 113, the side plate 114 is fixedly mounted on the arc groove block 112, the bottom of the side plate is hinged to the tool rest base plate 116 through the swing pin 115, the axis of the swing pin 115 coincides with the axis of the arc surface, when the left side and the right side of a brick are not high or the brick surface is not flat, the tool rest base plate 116 extrudes the arc block 113 to slide on the arc surface of the arc groove block 112, because the axis of the swing pin 115 coincides, the uneven stress of the brickwork is avoided from being split, one end of the swinging buffer piece 117 is connected to the locking seat 111, the other end of the swinging buffer piece is connected to the tool rest bottom plate 116, and the tool rest bottom plate 116 is provided with a first guide sliding block 1161 in sliding fit with the inner frame 21.

In this embodiment, the swing frame device 11 includes an adaptive actuation groove 1111, the adaptive actuation groove 1111 is disposed at the lower side of the tool holder base plate 116, the tool holder base plate 116 is provided with a wedge adjustment screw 1212, the wedge adjustment screw 1212 is in threaded connection with the tool holder base plate 116 and extends into the adaptive actuation groove 1111 to laterally press the wedge, the wedge can be moved close to or away from each other by rotating the adjustment wedge adjustment screw 1212, and any wedge can be extended or retracted under the pressing of the wedge at both sides, so as to push the corresponding plunger 1222 and the corresponding main blade 1232 to move up and down, thereby adjusting the up and down stroke of the main blade 1232.

In this embodiment, the swing limiting component 118 includes a pair of swing limiting parts installed at two ends of the locking seat 111, the left and right ends of the locking seat 111 are provided with swing limiting installation cylinders 1114, each swing limiting part includes a swing limiting rod 1181 and a swing adjusting fastener 1182, the swing limiting rod 1181 passes through the swing limiting installation cylinder 1114 and is fixedly installed on the swing limiting installation cylinder 1114 through the swing adjusting fastener 1182, the swing adjusting fastener 1182 is in threaded connection with the swing limiting rod 1181, the swing limiting rod 1181 is installed on the locking seat 111 and abuts against the tool rest bottom plate 116, the tool rest bottom plate 116 is limited in swing amplitude by the swing limiting rod 1181, and the tool rest bottom plate 116 can automatically return to the right after one-time brick splitting is completed under the buffer of the swing buffer 117.

In this embodiment, the lower ends of the two sides of the locking seat 111 are provided with swing buffer guide posts 1113, the swing buffer member 117 is sleeved in the swing buffer guide posts 1113, and two ends of the swing buffer member 117 respectively abut against the locking seat 111 and the tool rest base plate 116, so that the swing buffer member 117 cannot be separated under the limitation of the swing buffer guide posts 1113.

In this embodiment, the adaptive actuation groove 1111 and the knife rest push valve 122 define an adaptive actuation cavity, the adaptive actuation assembly 121 includes a wedge group 1211 horizontally distributed in the adaptive actuation cavity, the wedge group 1211 includes a plurality of wedge blocks, each wedge block includes a narrow end, the narrow ends of the adjacent wedge blocks are opposite in direction, the wedge blocks are divided into a lower side wedge block 12111 in sliding friction with the top of the knife rest push valve 122 and an upper side wedge block 12112 in sliding friction with the bottom of the adaptive actuation groove 1111, the upper end of the plunger 1222 abuts against the corresponding lower side wedge block 12111, each plunger 1222 transmits the extrusion force of the corresponding main blade 1232 to the corresponding lower side wedge block 12111, each lower side wedge block 12111 is forced to contract inwards when being extruded, and extrudes the adjacent upper side wedge block 12112 to slide towards both sides, so that the main blade 1232 can adaptively move up and down when contacting with uneven bricks, thereby avoiding uneven bricks, greatly improving the quality of the split bricks.

In this embodiment, the wear plate 1112 is disposed at the bottom of the adaptive motion groove 1111, the upper wedge 12112 slides against the wear plate 1112, and grease is filled in the adaptive motion cavity, thereby increasing the wear resistance and the service life of the upper wedge 12112 and the adaptive motion cavity.

In this embodiment, the knife rest push valve 122 includes a valve body 1221 and a plurality of plungers 1222 slidably engaged with the valve body 1221, each plunger 1222 abutting the compliant motion assembly 121 at an upper end and a corresponding main blade 1232 at a lower end.

In this embodiment, the sliding blade assembly 123 includes a plurality of pairs of blade holder clamping plates 1231 and a plurality of main blades 1232, each pair of blade holder clamping plates 1231 is fixed at the bottom of the blade holder push valve 122, each pair of blade holder clamping plates 1231 clamps each main blade 1232 in the front-back direction, and each main blade 1232 slides in the up-down direction under the clamping of the blade holder clamping plates 1231.

In this embodiment, the upper tool bit assembly further includes a side block set 13, the side block set 13 includes side blocks 131 respectively installed at the bottoms of the two ends of the tool holder push valve 122 and clamping the left and right sides of the sliding blade assembly 123, and the side blocks 131 are provided with second guide sliders 1162 slidably engaged with the inner frame 21 to prevent the upper tool holder assembly from swinging back and forth.

In this embodiment, the upper blade assembly 1 further includes a support plate 119, the damping member 7 is mounted on the outer frame 22, the support plates 119 are mounted on the upper ends of the two sides of the blade carrier bottom plate 116, the support plates 119 are in the lower limit position and support the damping member 7, and the damping member 7 provides an upward supporting force to the upper blade assembly 1 so as to lift the inner frame 21 together with the acting force of the elastic support component 23.

The utility model discloses a theory of operation and use flow:

before splitting the brick:

1. the lower fastening member 234 of the supporting member is adjusted to be at the upper and lower positions on the supporting guide post 231, so as to adjust the supporting force of the supporting elastic member 233 to the inner frame 21, so as to provide a buffering force for the inner frame 21 in the falling process, thereby ensuring that the inner frame 21 obtains a proper buffering force and reducing the impact of the inner frame 21 to the inner frame buffer member 24.

2. The lifting adjustment handle 31424 is rotated, and the lifting adjustment handle 31424 is supported by the lifting bearing 31422 to rotate, so as to drive the lifting screw 31421 in threaded fit with the lifting adjustment handle to lift.

3. When adjusting the position of the lateral wedge driving element 311 along the front-back direction of the directional wedge working position 6, the adjusting rod 3132 is rotated by the handle 3131, and then the mutual engagement of the first rack 3134 and the second rack 3135 is loosened, the position of the lateral wedge driving element 311 is adjusted, and the adjusting rod 3132 is rotated reversely again, so that the first rack 3134 and the second rack 3135 are meshed with each other, and the lateral wedge driving element 311 is fixed to match the width of different bricks.

4. The adaptive action groove 1111 is arranged on the lower side of the tool holder base plate 116, the tool holder base plate 116 is provided with a wedge block adjusting screw 1212, the wedge block adjusting screw 1212 is in threaded connection with the tool holder base plate 116, the wedge block is extruded from the side by the wedge block adjusting screw 1212, the distance between adjacent wedge blocks is changed, and therefore the vertical telescopic quantity of the wedge blocks is changed.

When splitting the brick: the locking seat 111 of 4 drive of main driving piece descends, because the surface unevenness of laying bricks, each main blade 1232 slides along upper and lower direction under the centre gripping of knife rest splint 1231, it slides from top to bottom to drive plunger 1222, the corresponding downside wedge 12111 of plunger 1222 upper end butt, each plunger 1222 conducts the corresponding main blade 1232 extrusion force to the corresponding downside wedge 12111, each downside wedge 12111 forces self to contract and extrudes adjacent upside wedge 12112 and slides to both sides when receiving the extrusion force, main blade 1232 just can the adaptability up-and-down motion when contacting the unevenness and laying bricks like this, avoid laying bricks atress unevenness, greatly promoted the quality of splitting bricks.

Because the left side and the right side of the brick are not of equal height, the tool rest base plate 116 extrudes the arc block 113 to slide on the arc surface of the arc groove block 112, because the axis of the swing pin shaft 115 coincides with the axis of the arc surface, the tool rest base plate 116 rotates around the swing pin shaft 115 to adapt to the surface of the brick, the brick is prevented from being cracked due to uneven stress, the tool rest base plate 116 is limited by the swing limiting rod 1181 to swing amplitude, and under the buffer of the swing buffer piece 117, the tool rest base plate 116 can automatically return to the right after completing one-time brick cracking.

The lower limit position of the lower knife assembly 5 is lower than the bricklaying conveying device, when the upper knife assembly 1 moves downwards and contacts bricklaying, the support plates 119 arranged at the upper ends of two sides of the locking seat 111 support the damping piece 7, the damping piece 7 plays a role in positioning and buffering, the damping piece 7 provides upward supporting force for the upper knife assembly 1 so as to lift the inner frame 21 together with the acting force of the elastic supporting component 23, the lower knife assembly 5 rises along with the inner frame 21 and further lifts the lower knife assembly 5 which originally falls into the bricklaying conveying device and cooperates with the upper knife assembly 1 to split the bricklaying, the action at one position of the main driving piece 4 not only realizes the action of the upper knife assembly 1, but also realizes the adaptive lifting and falling of the lower knife assembly 5, the outer frame 22 is provided with the inner frame buffer piece 24, when the lower knife assembly 5 is at the lower limit position, the bottom of the inner frame 21 is pressed on the inner frame 24, and the buffer piece can be automatically and continuously produced, the work is stable and reliable, and the production efficiency is high.

At the moment when the upper knife assembly 1 finishes splitting bricks, the inner frame 21 falls due to losing the support of the main driving part 4, and the support force of the support elastic part 233 to the inner frame 21 provides a buffer force for the inner frame 21 in the falling process, so that the impact of the inner frame 21 to the outer frame 22 is reduced.

The lower ends of the two sides of the locking seat 111 are provided with swing buffer guide posts 1113, the swing buffer member 117 is sleeved in the swing buffer guide posts 1113, the two ends of the swing buffer member 117 are respectively propped against the locking seat 111 and the tool rest bottom plate 116, and the swing buffer member 117 cannot be separated under the limitation of the swing buffer guide posts 1113.

Having shown and described the fundamental principles and the principal features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. Bricklaying splitting machine, its characterized in that, including inner tower, outrigger, main drive spare, upper slitter assembly, lower slitter assembly and guider, main drive spare is installed in the inner tower upper end, the upper slitter assembly is installed at the main drive spare output and is followed the inner tower and slide, the lower slitter assembly is installed at the inner tower lower extreme, the upper slitter assembly is arranged with the vertical opposition of lower slitter assembly and is constituted and split brick work position between upper slitter assembly and lower slitter assembly, guider installs between inner tower and outrigger, the symmetry is provided with a plurality of elastic support subassemblies that are used for supporting the inner tower between inner tower and the outrigger, each elastic support subassembly's the vertical upwards of effect direction.

2. The brick laying splitter according to claim 1, wherein: the brick laying splitting machine further comprises a damping piece, wherein the damping piece is installed on the outer frame and is extruded when the upper knife assembly slides downwards.

3. The brick laying splitter according to claim 1, wherein: the outer frame is provided with a buffer piece, and the bottom of the inner frame is pressed on the buffer piece when the lower cutter assembly is at the lower limit position.

4. The brick laying splitter according to claim 1, wherein: the inner frame comprises an inner frame upper cross beam, a plurality of inner frame stand columns and an inner frame lower cross beam, wherein the top ends of the inner frame stand columns are connected with the inner frame upper cross beam, the bottom ends of the inner frame stand columns are connected with the inner frame lower cross beam, the inner frame stand columns are arranged in parallel and at intervals, the main driving piece is installed in the middle of the inner frame upper cross beam, the output end of the main driving piece is vertical downward, supporting installation plates are arranged at two ends of the inner frame upper cross beam, and the elastic supporting assemblies are installed between the supporting installation plates and the outer frame.

5. The brick laying splitter according to claim 4, wherein: the supporting and installing plate is provided with supporting assembly installing holes, each elastic supporting assembly comprises a supporting guide pillar, a lower supporting plate, a supporting elastic piece and a supporting assembly lower fastening piece, the lower end of the supporting guide pillar is fixedly arranged at the top end of the outer frame, the upper end of the supporting guide pillar penetrates through the supporting assembly installing holes, the supporting guide pillar penetrates through the lower supporting plate, the supporting assembly lower fastening piece is in threaded connection with the supporting guide pillar, the lower supporting plate is sleeved outside the supporting guide pillar and supported by the supporting assembly lower fastening piece, and the supporting elastic piece is sleeved outside the supporting guide pillar and compressed by the supporting installing plate and the lower supporting.

6. The brick laying splitter according to claim 1, wherein: the guide device comprises a guide piece group, a plurality of guide piece mounting seats arranged on the outer frame and a guide rail group arranged on the inner frame, wherein the guide piece group comprises a plurality of guide pieces, each guide piece is correspondingly arranged on the guide piece mounting seats respectively, and each guide rail group moves up and down under the guide of the guide pieces.

7. The brick laying splitter according to claim 1, wherein: the brick laying splitting machine further comprises a side splitting assembly, wherein the side splitting assembly comprises two side splitting knife devices which are arranged on the outer frame in a horizontal opposite mode, and the side splitting knife devices stretch into a brick splitting working position.

8. The brick laying splitter according to claim 7, wherein: the side riving knife device comprises a side riving driving piece, a horizontal adjusting seat, a horizontal adjusting component, a lifting mechanism and a knife head component, wherein the lifting mechanism is installed on the outer frame and moves up and down along the outer frame, the horizontal adjusting seat is fixedly installed on the lifting mechanism, the side riving driving piece penetrates through the horizontal adjusting seat and is fixed on the horizontal adjusting seat by the horizontal adjusting component, and the knife head component is fixedly installed at the output end of the side riving driving piece and extends into a brick riving working position.

9. The brick laying splitter according to claim 1, wherein: the upper cutter assembly comprises a swing frame device and an adaptive cleaver device, the swing frame device is fixedly arranged at the output end of a main driving piece, the adaptive cleaver device is fixedly arranged at the bottom end of the swing frame device and swings left and right along with the swing frame device, the adaptive cleaver device comprises an adaptive action component, a cutter frame push valve and a sliding blade component which are sequentially connected from top to bottom, the swing frame device comprises an adaptive action groove, the adaptive action groove and the cutter frame push valve enclose an adaptive action cavity, the adaptive action component comprises a wedge block group which is horizontally distributed in the adaptive action cavity, the wedge block group comprises a plurality of wedge blocks, the wedge blocks all comprise narrow ends and are adjacent, the narrow ends of the wedge blocks are opposite in pointing direction, the wedge blocks are divided into lower side position blocks which are in sliding friction with the top of the cutter frame push valve and upper side position blocks which are in sliding friction with the bottoms of the adaptive action groove bottoms, the knife rest push valve transmits the extrusion force of the knife component to the corresponding lower side wedge blocks, and each lower side wedge block is forced to contract inwards to extrude the adjacent upper side wedge blocks to slide towards two sides when being extruded.

10. The brick laying splitter according to claim 9, wherein: the swing frame device comprises a locking seat, an arc groove block, an arc block, a side plate, a swing pin shaft, a knife rest base plate, a swing buffering member and a swing limiting assembly, wherein the locking seat is fixedly arranged at the output end of a main driving member, the arc block is fixedly arranged at the top of the knife rest base plate, the arc groove block is fixedly arranged at the bottom of the locking seat, the arc groove block is provided with an arc surface which is attached to the arc block in a sliding mode, the side plate is fixedly arranged on the arc groove block, the bottom of the side plate is hinged to the knife rest base plate through the swing pin shaft, the axis of the swing pin shaft coincides with the axis of the arc surface, the swing limiting assembly is arranged on the locking seat and abuts against the knife rest base plate, one end of the.

Images