CN108995042B

CN108995042B - Configuration equipment for building concrete processing

Info

Publication number: CN108995042B
Application number: CN201810717462.3A
Authority: CN
Inventors: 李市生
Original assignee: Nantong Xinhua Concrete Products Co ltd
Current assignee: NANTONG XINHUA CONCRETE PRODUCTS Co.,Ltd.
Priority date: 2018-07-03
Filing date: 2018-07-03
Publication date: 2020-04-21
Anticipated expiration: 2038-07-03
Also published as: CN108995042A

Abstract

The invention relates to building concrete processing equipment, in particular to configuration equipment for building concrete processing. The technical problem to be solved is as follows: the configuration equipment for processing the building concrete is not wasted, and the configuration process is time-saving and labor-saving. The technical scheme is as follows: a configuration device for building concrete processing comprises a bottom plate, a positioning plate, a material box, a guide rail, a guide sleeve, a push rod, a mounting ring, a first bearing seat, a connecting block, a second bearing seat, a connecting rod, a third bearing seat and the like; the middle part is connected with two locating plates on the bottom plate, and the workbin has all been placed to the left and right sides on the bottom plate, and the middle part is connected with the guide rail on the bottom plate, and sliding connection has the guide pin bushing on the guide rail. According to the invention, the stirring blades can stir and turn over concrete ingredients by adopting a mode of mutually switching the stirring blades and the hammer blocks, so that the concrete is uniformly configured, and the concrete can be directly used after the configuration is finished by adopting a mode of configuring the material box, so that no waste is caused.

Description

Configuration equipment for building concrete processing

Technical Field

The invention relates to building concrete processing equipment, in particular to configuration equipment for building concrete processing.

Background

The concrete is a building material, and the concrete in building site all needs processing configuration before putting into operation, and the concrete availability after processing configuration improves, and when carrying out the configuration of concrete to building middle-sized construction place at present, some adopt the manual work to place the concrete batching subaerial and dispose, but the shortcoming that exists like this can make some concrete batching extravagant to waste time and energy in the in-process of configuration.

Disclosure of Invention

In order to overcome the defects that some concrete ingredients are wasted and the configuration process wastes time and labor when the concrete is configured at present, the technical problem to be solved is as follows: the configuration equipment for processing the building concrete is not wasted, and the configuration process is time-saving and labor-saving.

The technical scheme is as follows: a configuration device for processing building concrete comprises a bottom plate, positioning plates, a material box, a guide rail, a guide sleeve, a push rod, a mounting ring, a first bearing seat, a connecting block, a second bearing seat, a connecting rod, a third bearing seat, a first rotating rod, a stirring blade, a first gear, a fourth bearing seat, a second rotating rod, a second gear and a crank, wherein the middle part of the bottom plate is connected with the two positioning plates, the material box is respectively placed at the left side and the right side of the bottom plate, the middle part of the bottom plate is connected with the guide rail, the guide sleeve is connected with the guide rail in a sliding way, the push rod is connected above the left side of the guide sleeve, the mounting ring is connected below the lower side of the guide sleeve, the first bearing seat is connected below the outer side of the mounting ring, the connecting block is connected at the right side of the first bearing seat, first bull stick downside is connected with the stirring leaf, and first bull stick upside is connected with first gear, and the right side is connected with fourth bearing seat in the connecting rod, and fourth bearing seat in-connection has the second bull stick, and the second bull stick lower extreme is connected with the second gear, second gear and first gear engagement, and second bull stick upper end is connected with the crank.

Further, still including first slide rail, first slider, splint, first screw rod and nut, the left and right sides all is connected with first slide rail in the bottom plate, and all sliding type is connected with first slider in the first slide rail, and first slider upper end all is connected with splint, and the splint downside all opens first screw hole, and locating plate outside below all is connected with first screw rod, and first screw rod all passes first screw hole, and the nut has all been revolved in the first screw rod outside.

Further, still including the device that overturns, the device that overturns is including the third bull stick, the carousel, the lug, the second slide rail, the second slider, first spring, the bracing piece, contact bar and hammer block, the connecting rod top is equipped with the device that overturns, first bull stick upper end is connected with the third bull stick, third bull stick upper end is connected with the carousel, the carousel downside left and right sides all is connected with the lug, connecting rod upside left is connected with the second slide rail, slidingtype is connected with the second slider in the second slide rail, second slider lower extreme is connected with first spring, second slider left end is connected with the bracing piece, bracing piece right side below is connected with the contact bar, the contact bar can contact with the lug, upper end of the support bar is connected with the hammer block.

Further, still including clamping device, clamping device is including the third slide rail, the third slider, the second spring, the fixed block, the installation pole, the position sleeve, the fifth bearing, fourth bull stick and gyro wheel, the connecting rod below is equipped with clamping device, connecting rod right side below is connected with the third slide rail, third slide rail internal sliding formula is connected with the third slider, the third slider right-hand member is connected with the second spring, third slider lower extreme is connected with the fixed block, the fixed block lower extreme is connected with the installation pole, the installation pole left end is connected with the position sleeve, position sleeve inner wall right side middle part is connected with the fifth bearing, fifth bearing internal connection has the fourth bull stick, both ends all are connected with the gyro wheel about the fourth bull stick.

Furthermore, the push rod device further comprises a second screw rod and a pressing block, a second threaded hole is formed in the lower side of the push rod, the second screw rod is screwed in the second threaded hole and matched with the second threaded hole, and the pressing block is connected to the right end of the second screw rod in a rotating mode.

When a user needs to configure concrete for a building, the user can move the push rod upwards, the push rod drives the guide sleeve to move upwards, so as to drive the mounting ring, the connecting block, the connecting rod and the first rotating rod to move upwards, so that the first rotating rod and the stirring blades extend out of the right side feed box, at the moment, the user can place the water, the concrete and other ingredients configured by the concrete into the right side feed box, then the user can move the push rod downwards, so that the first rotating rod and the stirring blades move downwards and extend into the right side feed box, then the user can rotate the crank, the crank drives the second rotating rod and the second gear to rotate, the second gear drives the first gear to rotate, the first gear drives the first rotating rod to rotate, so as to drive the stirring blades to rotate and stir the concrete ingredients in the right side feed box, after the stirring is completed, the user can move the push rod upwards, so that the first rotating rod and the stirring blades extend out of the right side, and take off this workbin, put into new workbin and stir the concrete, the user can also all place the concrete batching in the workbin of both sides, then the user can make first bull stick and stirring leaf stretch out the right side workbin, then the user can swivelling joint pole and connecting block, connecting rod and connecting block pass through the collar rotation, thereby make first bull stick and stirring leaf revolve and stir to being located left side workbin top, can increase the efficiency of concrete configuration like this, the user can also be through second bearing frame swivelling joint pole, thereby make the stirring leaf revolve to the connecting rod top, the user can be convenient like this wash the stirring leaf.

Because the concrete pouring device also comprises a first slide rail, a first slide block, clamping plates, first screw rods and nuts, the left side and the right side in the bottom plate are both connected with the first slide rail, the first slide block is connected in a sliding way in the first slide rail, the upper end of the first slide block is connected with the clamping plates, the lower sides of the clamping plates are both provided with first threaded holes, the first screw rods pass through the first threaded holes, the nuts are screwed on the outer sides of the first screw rods, when a user needs to fix the concrete pouring box and then allocate the concrete, the user can place the pouring box on the bottom plate to enable the pouring box to be respectively positioned between each positioning plate and the clamping plates, then the user can push the clamping plates inwards to enable the clamping plates to be contacted with the pouring box, then the user can rotate the nuts, the nuts are screwed inwards through matching with the first screw rods to enable the nuts to fix the positions of the clamping plates, so that the concrete in the material box can not drive the material box to shake in the configuration process.

Because the concrete mixer also comprises a turning device which comprises a third rotating rod, a rotary table, a convex block, a second slide rail, a second slide block, a first spring, a supporting rod, a contact rod and a hammer block, wherein the turning device is arranged above the connecting rod, the upper end of the first rotating rod is connected with the third rotating rod, the upper end of the third rotating rod is connected with the rotary table, the left side and the right side of the lower side of the rotary table are both connected with the convex block, the left side of the upper side of the connecting rod is connected with the second slide rail, the second slide rail is connected with the second slide block in an inward sliding manner, the lower end of the second slide block is connected with the first spring, the left end of the second slide block is connected with the supporting rod, the contact rod can be contacted with the convex block, the upper end of the supporting rod is connected with the hammer block, when a user needs to vibrate and turn concrete ingredients, so that the concrete, make the hammer block be located the workbin top, then the user can make the hammer block rebound stretch into the workbin, then the user can rotate the crank, the crank drives the rotation of first bull stick will drive the rotation of third bull stick, the third bull stick drives the carousel rotation, thereby it is rotatory to drive the lug, when the lug rotatory to contact with the contact lever, the lug will drive the contact lever rebound, thereby drive the bracing piece, hammer block and second slider rebound, the first spring of will compressing this moment, when the lug rotatory to not contact with the contact lever, first spring will resume from the compression state, promote the second slider rebound, thereby drive bracing piece and hammer block rebound, thereby make the hammer block reciprocate and turn the concrete in the workbin, thereby make its mixed more even.

Because the device also comprises a clamping device which comprises a third slide rail, a third slide block, a second spring, a fixed block, an installation rod, a positioning sleeve, a fifth bearing seat, a fourth rotating rod and a roller, the clamping device is arranged below the connecting rod, the third slide rail is connected below the right side of the connecting rod, the third slide rail is connected with the third slide block in an inner sliding way, the right end of the third slide block is connected with the second spring, the lower end of the third slide block is connected with the fixed block, the lower end of the fixed block is connected with the installation rod, the left end of the installation rod is connected with the positioning sleeve, the fifth bearing seat is connected in the middle part of the right side of the inner wall of the positioning sleeve, the fifth bearing seat is connected with the fourth rotating rod, the upper end and the lower end of the fourth rotating rod are both connected with the roller, when a user needs to ensure that the first rotating rod or the third rotating rod is positioned below the connecting rod, the vertical stability is carried out, the user can move the fixing block to the right first, the fixing block drives the third sliding block to move to the right, the second spring is compressed at the moment, the fixing block further drives the mounting rod and the positioning sleeve to move to the right, the fourth rotating rod and the roller are driven to move to the right, the positioning sleeve cannot block the stroke of the first rotating rod or the third rotating rod, after the user is switched, the user can release the fixing block, the second spring is recovered from a compressed state at the moment, the mounting rod and the positioning sleeve are pushed to move to the left, the positioning sleeve is sleeved on the first rotating rod or the third rotating rod, the roller is in contact with the first rotating rod or the third rotating rod, and therefore when the first rotating rod or the third rotating rod rotates, the first rotating rod or the third rotating rod rotates on the roller, the positioning sleeve limits the angle of the first rotating rod or the third rotating rod, and cannot shake.

Because still including second screw rod and briquetting, the push rod downside is opened has the second screw hole, and the downthehole second screw rod that has revolved of second screw has, second screw rod and the cooperation of second screw hole, and second screw rod right-hand member rotation type is connected with the briquetting, after the user reciprocates the push rod and makes the guide pin bushing reciprocate to required position, the user can rotate the second screw rod, and the second screw rod is through the cooperation right precession with the second screw hole to make the second screw rod promote the briquetting and remove to make the briquetting fix the height of push rod.

The beneficial effects are that: according to the invention, the stirring blades can stir and turn over concrete ingredients by adopting a mode of mutually switching the stirring blades and the hammer blocks, so that the concrete is uniformly configured, and the concrete can be directly used after the configuration is finished by adopting a mode of configuring the material box, so that no waste is caused.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a front view of the splint of the present invention.

Fig. 3 is a schematic front view of the turning device of the present invention.

Fig. 4 is a schematic diagram of a right-view structure of the bump according to the present invention.

Fig. 5 is a front view schematically showing the structure of the clamping device of the present invention.

FIG. 6 is a schematic top view of the positioning sleeve of the present invention.

FIG. 7 is a schematic diagram of the structure of the briquetting according to the invention.

Reference numerals: 1 bottom plate, 2 positioning plate, 3 bin, 4 guide rail, 5 guide sleeve, 6 push rod, 7 mounting ring, 8 first bearing seat, 9 connecting block, 10 second bearing seat, 11 connecting rod, 12 third bearing seat, 13 first rotating rod, 14 stirring blade, 15 first gear, 16 fourth bearing seat, 17 second rotating rod, 18 second gear, 19 crank, 101 first slide rail, 102 first slide block, 103 clamping plate, 104 first threaded hole, 105 first screw rod, 106 nut, 30 turning device, 301 third rotating rod, 302 rotating disk, 303 convex block, 304 second slide rail, 305 second slide block, 306 first spring, 307 support rod, 308 contact rod, 309 hammer block, 31 clamping device, 311 third slide rail, 312 third slide block, 313 second spring, 314 fixed block, 315 mounting rod, 316 locating sleeve, 317 fifth bearing seat, 318 fourth rotating rod, 319 idler wheel, 3121 second threaded hole, 3122 second screw rod and 3123 pressing block.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A configuration device for building concrete processing is disclosed, as shown in figures 1-7, and comprises a bottom plate 1, positioning plates 2, a material box 3, a guide rail 4, a guide sleeve 5, a push rod 6, a mounting ring 7, a first bearing seat 8, a connecting block 9, a second bearing seat 10, a connecting rod 11, a third bearing seat 12, a first rotating rod 13, a stirring blade 14, a first gear 15, a fourth bearing seat 16, a second rotating rod 17, a second gear 18 and a crank 19, wherein the middle part of the bottom plate 1 is connected with the two positioning plates 2, the left side and the right side of the bottom plate 1 are respectively provided with the material box 3, the middle part of the bottom plate 1 is connected with the guide rail 4, the guide sleeve 5 is slidably connected with the guide sleeve 4, the push rod 6 is connected with the left upper part of the guide sleeve 5, the lower side of the guide sleeve 5 is connected with the mounting ring 7, the first bearing seat 8 is connected, connecting rod 11 is connected in the second bearing frame 10, the left side is connected with third bearing frame 12 in the connecting rod 11, first bull stick 13 is connected in the third bearing frame 12, first bull stick 13 downside is connected with stirring leaf 14, first bull stick 13 upside is connected with first gear 15, the right side is connected with fourth bearing frame 16 in the connecting rod 11, fourth bearing frame 16 in-connection has second bull stick 17, second bull stick 17 lower extreme is connected with second gear 18, second gear 18 meshes with first gear 15, second bull stick 17 upper end is connected with crank 19.

Example 2

Still including first slide rail 101, first slider 102, splint 103, first screw rod 105 and nut 106, the left and right sides all is connected with first slide rail 101 in the bottom plate 1, all sliding connection has first slider 102 in the first slide rail 101, first slider 102 upper end all is connected with splint 103, first screw hole 104 has all been opened to splint 103 downside, 2 outside below of locating plate all is connected with first screw rod 105, first screw rod 105 all passes first screw hole 104, first screw rod 105 outside all has screwed nut 106.

Example 3

The turnover device 30 is further included, the turnover device 30 comprises a third rotating rod 301, a rotary table 302, a convex block 303, a second sliding rail 304, a second sliding block 305, a first spring 306, a supporting rod 307, a contact rod 308 and a hammer block 309, the turnover device 30 is arranged above the connecting rod 11, the third rotating rod 301 is connected to the upper end of the first rotating rod 13, the rotary table 302 is connected to the upper end of the third rotating rod 301, the convex blocks 303 are connected to the left side and the right side of the lower side of the rotary table 302, the second sliding rail 304 is connected to the left side of the upper side of the connecting rod 11, the second sliding rail 304 is connected to the second sliding block 305 in a sliding manner, the first spring 306 is connected to the lower end of the second sliding block 305, the supporting rod 307 is connected to the left end of the second sliding block 305, the contact rod 308 is connected to the lower side of.

Example 4

The clamping device 31 comprises a third sliding rail 311, a third sliding block 312, a second spring 313, a fixed block 314, an installation rod 315, a positioning sleeve 316, a fifth bearing seat 317, a fourth rotating rod 318 and a roller 319, the clamping device 31 is arranged below the connecting rod 11, the third sliding rail 311 is connected to the lower portion of the right side of the connecting rod 11, the third sliding rail 311 is connected with the third sliding block 312 in an inner sliding mode, the right end of the third sliding block 312 is connected with the second spring 313, the lower end of the third sliding block 312 is connected with the fixed block 314, the lower end of the fixed block 314 is connected with the installation rod 315, the left end of the installation rod 315 is connected with the positioning sleeve 316, the middle portion of the right side of the inner wall of the positioning sleeve 316 is connected with the fifth bearing seat 317, the fifth bearing seat 317 is connected with the fourth rotating rod.

Example 5

The push rod type electric wrench is characterized by further comprising a second screw 3122 and a pressing block 3123, a second threaded hole 3121 is formed in the lower side of the push rod 6, the second screw 3122 is screwed into the second threaded hole 3121, the second screw 3122 is matched with the second threaded hole 3121, and the pressing block 3123 is rotatably connected to the right end of the second screw 3122.

When a user needs to prepare concrete for a building, the user can move the push rod 6 upwards, the push rod 6 drives the guide sleeve 5 to move upwards, the mounting ring 7, the connecting block 9, the connecting rod 11 and the first rotating rod 13 are driven to move upwards, the first rotating rod 13 and the stirring blades 14 extend out of the right side feed box 3, at the moment, the user can place the water and the concrete prepared by the concrete and other ingredients in the right side feed box 3, then the user can move the push rod 6 downwards, the first rotating rod 13 and the stirring blades 14 move downwards and extend into the right side feed box 3, then the user can rotate the crank 19, the crank 19 drives the second rotating rod 17 and the second gear 18 to rotate, the second gear 18 drives the first gear 15 to rotate, the first gear 15 drives the first rotating rod 13 to rotate, the stirring blades 14 are driven to rotate to stir the concrete ingredients in the right side feed box 3, and after the stirring is completed, the user can move push rod 6 upwards, thereby make first bull stick 13 and stirring leaf 14 stretch out right side workbin 3, and take off this workbin 3, put into new workbin 3 and stir the concrete, the user can also all place the concrete batching in both sides workbin 3, then the user can make first bull stick 13 and stirring leaf 14 stretch out right side workbin 3, then the user can swivelling joint pole 11 and connecting block 9, connecting pole 11 and connecting block 9 rotate through collar 7, thereby make first bull stick 13 and stirring leaf 14 rotate to be located left side workbin 3 top and stir, can increase the efficiency of concrete configuration like this, the user can also rotate joint pole 11 through second bearing frame 10, thereby make stirring leaf 14 rotate to connecting pole 11 top, so the user can be convenient wash stirring leaf 14.

Because the concrete pouring device further comprises a first slide rail 101, a first slide block 102, a clamping plate 103, a first screw 105 and a nut 106, the first slide rail 101 is connected to the left side and the right side in the bottom plate 1, the first slide block 102 is connected to the first slide rail 101 in a sliding manner, the clamping plate 103 is connected to the upper end of the first slide block 102, first threaded holes 104 are formed in the lower sides of the clamping plate 103, first screws 105 are connected to the lower sides of the outer sides of the positioning plates 2, the first screws 105 penetrate through the first threaded holes 104, the nut 106 is screwed on the outer sides of the first screws 105, when a user needs to fix the material box 3 and then arrange concrete, the user can place the material box 3 on the bottom plate 1 to enable the material box 3 to be respectively positioned between each positioning plate 2 and the clamping plate 103, then the user can push the clamping plate 103 inwards to enable the clamping plate 103 to be in contact with the material box 3, then the user can rotate the nut, so that the nuts 106 fix the position of the clamping plate 103 and thus the material box 3, and the concrete in the material box 3 does not drive the material box 3 to shake in the configuration process.

Because the concrete mixer further comprises the overturning device 30, the overturning device 30 comprises a third rotating rod 301, a rotary disc 302, a bump 303, a second sliding rail 304, a second sliding block 305, a first spring 306, a supporting rod 307, a contact rod 308 and a hammer block 309, the overturning device 30 is arranged above the connecting rod 11, the upper end of the first rotating rod 13 is connected with the third rotating rod 301, the upper end of the third rotating rod 301 is connected with the rotary disc 302, the left side and the right side of the lower side of the rotary disc 302 are both connected with the bumps 303, the left side and the left side of the upper side of the connecting rod 11 are connected with the second sliding rail 304, the second sliding rail 304 is connected with the second sliding block 305 in a sliding manner, the lower end of the second sliding block 305 is connected with the first spring 306, the left end of the second sliding block 305 is connected with the supporting rod 307, the contact rod 308 is connected below the right side of the supporting rod 307, the contact rod 308 can be contacted with the bumps 303, after the stirring blade 14 finishes stirring the concrete in the bin 3, the user can rotate the connecting rod 11 to make the hammer block 309 be located above the bin 3, then the user can make the hammer block 309 move downwards to extend into the bin 3, then the user can rotate the crank 19, the crank 19 drives the first rotating rod 13 to rotate to drive the third rotating rod 301 to rotate, the third rotating rod 301 drives the rotating disc 302 to rotate, thereby driving the lug 303 to rotate, when the lug 303 rotates to be in contact with the contact rod 308, the lug 303 drives the contact rod 308 to move upwards, thereby driving the supporting rod 307, the hammer block 309 and the second sliding block 305 to move upwards, at this time, the first spring 306 is compressed, when the lug 303 rotates to be out of contact with the contact rod 308, the first spring 306 is recovered from a compressed state, the second sliding block 305 is pushed to move downwards, thereby driving the supporting rod 307 and the hammer block 309 to move downwards, thereby enabling the hammer block 309 to move upwards and downwards to turn the concrete in the bin 3, thereby making it more uniform.

Because the clamping device 31 is further included, the clamping device 31 includes a third slide rail 311, a third slide block 312, a second spring 313, a fixed block 314, a mounting rod 315, a positioning sleeve 316, a fifth bearing 317, a fourth rotating rod 318 and a roller 319, the clamping device 31 is provided below the connecting rod 11, the third slide rail 311 is connected below the right side of the connecting rod 11, the third slide rail 311 is connected with the third slide block 312 in a sliding manner, the right end of the third slide block 312 is connected with the second spring 313, the lower end of the third slide block 312 is connected with the fixed block 314, the lower end of the fixed block 314 is connected with the mounting rod 315, the left end of the mounting rod 315 is connected with the positioning sleeve 316, the fifth bearing 317 is connected at the right middle part of the inner wall of the positioning sleeve 316, the fourth rotating rod 318 is connected in the fifth bearing 317, the upper and lower ends of the fourth rotating rod 318 are both connected with the roller 319, when a user needs to position the first, therefore, when the first rotating rod 13 and the third rotating rod 301 are prevented from shaking, and when a user needs to switch the first rotating rod 13 or the third rotating rod 301 to be positioned below the connecting rod 11, the user can firstly move the fixing block 314 rightwards, the fixing block 314 drives the third slider 312 to move rightwards, at this time, the second spring 313 is compressed, the fixing block 314 also drives the mounting rod 315 and the positioning sleeve 316 to move rightwards, so that the fourth rotating rod 318 and the roller 319 are driven to move rightwards, so that the positioning sleeve 316 cannot block the stroke of the first rotating rod 13 or the third rotating rod 301, after the user switches, the user can release the fixing block 314, at this time, the second spring 313 is restored from a compressed state, so that the mounting rod 315 and the positioning sleeve 316 are pushed to move leftwards, so that the positioning sleeve 316 is sleeved on the first rotating rod 13 or the third rotating rod 301, so that the roller 319 contacts the first rotating rod 13 or the third rotating rod 301, so that when the first rotating rod 13 or the third rotating, the first rotating rod 13 or the third rotating rod 301 will rotate on the roller 319, so that the positioning sleeve 316 limits the angle of the first rotating rod 13 or the third rotating rod 301, so that it will not shake.

Because the push rod device further comprises a second screw 3122 and a pressing block 3123, a second threaded hole 3121 is opened on the lower side of the push rod 6, the second screw 3122 is screwed into the second threaded hole 3121, the second screw 3122 is matched with the second threaded hole 3121, the pressing block 3123 is rotatably connected to the right end of the second screw 3122, after a user moves the push rod 6 up and down to move the guide sleeve 5 up and down to a desired position, the user can rotate the second screw 3122, the second screw 3122 is screwed into the right through matching with the second threaded hole 3121, so that the second screw 3122 pushes the pressing block 3123 to move to the right, and the pressing block 3123 fixes the height of the push rod 6.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A configuration device for building concrete processing is characterized by comprising a bottom plate (1), positioning plates (2), a material box (3), a guide rail (4), a guide sleeve (5), a push rod (6), a mounting ring (7), a first bearing seat (8), a connecting block (9), a second bearing seat (10), a connecting rod (11), a third bearing seat (12), a first rotating rod (13), a stirring blade (14), a first gear (15), a fourth bearing seat (16), a second rotating rod (17), a second gear (18) and a crank (19), wherein the middle part of the bottom plate (1) is connected with the two positioning plates (2), the material box (3) is respectively placed on the left side and the right side of the bottom plate (1), the middle part of the bottom plate (1) is connected with the guide rail (4), the guide sleeve (5) is slidably connected on the guide rail (4), the push rod (6) is connected above the left side, the lower side of the guide sleeve (5) is connected with a mounting ring (7), the lower part of the outer side of the mounting ring (7) is connected with a first bearing seat (8), the right side of the first bearing seat (8) is connected with a connecting block (9), the inner right side of the connecting block (9) is connected with a second bearing seat (10), the inner left side of the second bearing seat (10) is connected with a connecting rod (11), the inner left side of the connecting rod (11) is connected with a third bearing seat (12), the inner left side of the third bearing seat (12) is connected with a first rotating rod (13), the lower side of the first rotating rod (13) is connected with a stirring blade (14), the upper side of the first rotating rod (13) is connected with a first gear (15), the inner right side of the connecting rod (11) is connected with a fourth bearing seat (16), the inner fourth rotating rod (16) is connected with a second rotating rod (17), the upper end of the second rotating rod (17) is connected with a crank (19).

2. The configuring equipment for processing building concrete according to claim 1, further comprising a first sliding rail (101), a first sliding block (102), a clamping plate (103), a first screw (105) and a nut (106), wherein the first sliding rail (101) is connected to the left side and the right side in the bottom plate (1), the first sliding block (102) is connected to the first sliding rail (101) in a sliding manner, the clamping plate (103) is connected to the upper end of the first sliding block (102), a first threaded hole (104) is formed in the lower side of the clamping plate (103), the first screw (105) is connected to the lower portion of the outer side of the positioning plate (2), the first screw (105) penetrates through the first threaded hole (104), and the nut (106) is screwed on the outer side of the first screw (105).

3. The configuring equipment for building concrete processing according to claim 2, further comprising a turning device (30), wherein the turning device (30) comprises a third rotating rod (301), a rotating disc (302), a convex block (303), a second sliding rail (304), a second sliding block (305), a first spring (306), a support rod (307), a contact rod (308) and a hammer block (309), the turning device (30) is arranged above the connecting rod (11), the upper end of the first rotating rod (13) is connected with the third rotating rod (301), the upper end of the third rotating rod (301) is connected with the rotating disc (302), the left side and the right side of the lower side of the rotating disc (302) are both connected with the convex block (303), the upper side of the connecting rod (11) is connected with the second sliding rail (304) in a sliding manner, the lower end of the second sliding block (305) is connected with the first spring (306), the left end of the second sliding block (305) is connected with a supporting rod (307), a contact rod (308) is connected to the lower portion of the right side of the supporting rod (307), the contact rod (308) can be in contact with the bump (303), and the upper end of the supporting rod (307) is connected with a hammer block (309).

4. The configuration equipment for building concrete processing according to claim 3, further comprising a clamping device (31), wherein the clamping device (31) comprises a third slide rail (311), a third slide block (312), a second spring (313), a fixed block (314), a mounting rod (315), a positioning sleeve (316), a fifth bearing seat (317), a fourth rotating rod (318) and a roller (319), the clamping device (31) is arranged below the connecting rod (11), the third slide rail (311) is connected below the right side of the connecting rod (11), the third slide rail (311) is connected in the third slide rail (311) in a sliding manner, the second spring (313) is connected at the right end of the third slide block (312), the fixed block (314) is connected at the lower end of the fixed block (314), the mounting rod (315) is connected at the lower end of the mounting rod (315), the positioning sleeve (316) is connected at the left end of the mounting rod (315), the middle part of the right side of the inner wall of the positioning sleeve (316) is connected with a fifth bearing seat (317), a fourth rotating rod (318) is connected in the fifth bearing seat (317), and the upper end and the lower end of the fourth rotating rod (318) are both connected with idler wheels (319).

5. The configuring device for building concrete processing according to claim 4, further comprising a second screw (3122) and a pressing block (3123), wherein the lower side of the push rod (6) is provided with a second threaded hole (3121), the second threaded hole (3122) is internally screwed with the second screw (3122), the second screw (3122) is matched with the second threaded hole (3121), and the pressing block (3123) is rotatably connected to the right end of the second screw (3122).