CN112661046A - Building construction class material hoisting device - Google Patents

Abstract

The invention relates to a lifting device for building construction materials, which comprises a plurality of vertically arranged lifter shells, a transverse transportation mechanism is arranged between the shell bodies of the lifters and is arranged on a rack rail, a vertical lifting mechanism and a material bearing device are arranged in the shell of the lifter, the vertical lifting mechanism lifts the material bearing device to a rack rail, the material bearing device comprises a material bearing rack, a feeding mechanism and a discharging mechanism, the material bearing rack comprises a bottom plate, a first side plate and a second side plate which are positioned at two sides of the bottom plate, a first transverse plate and a second transverse plate are formed at the top of the first side plate and the second side plate, a connecting plate is arranged between the first transverse plate and the second transverse plate, the feeding mechanism comprises a feeding plate, a jacking cylinder arranged on the bottom plate, a first feeding side plate and a second feeding side plate, and the jacking cylinder acts on the feeding plate. The invention has the advantages of simple structure, convenient operation, high efficiency of material lifting, large quantity and wide practicability.

Description

Building construction class material hoisting device

Technical Field

The invention belongs to the technical field of building construction equipment, and particularly relates to a building construction material lifting device.

Background

Need apply to material hoisting device in construction's constitution to satisfy the demand of carrying the material, but most of material hoisting device all adopt elevator formula or tower crane lifting machine at present

As is known well, the tower crane lifting machine is that the indispensable hoisting equipment of building trade is various, has the pier door machine of being applied to the pier aspect to hang the jacket and hang the tower crane lifting machine, and this machine carries out the loading and unloading operation between bank and ship, ship and the ship, and the not enough is: the bulk cargo loading and unloading progress is slow, the energy consumption is high, the labor intensity of workers is high, and the working efficiency is low; there is tower crane lifting machine who is applied to in the aspect of the building to be equipped with the body of the tower, the body of the tower is formed by unit steel framework upper and lower extreme reciprocal anchorage, the body of the tower upper end is equipped with the jacking frame, the lower extreme is fixed mutually with the supporting seat, jacking frame upper end is connected with the slewing arm through the gyration dish, both sides are connected with the body of the tower through the jacking hydraulic cylinder, the jacking cylinder is through hydraulic self-elevating motor drive, be equipped with variable amplitude motor on the slewing arm, elevator motor and slewing motor, lift and gyration when lifting building materials with the control tower crane, slewing arm one end is equipped with the promotion lifting hook, the other end is equipped with the balancing weight, in operation, the skip that will be equipped with the material: the structure is unreasonable, the function is single, the work efficiency is low, the daily workload only accounts for thirty percent, seventy percent of standby suspension stop is not beneficial to the construction of large-scale buildings. After the floors are initially built, for the operation of high-rise buildings, concrete is generally conveyed to a construction site of the high-rise buildings through a pipeline in a concrete pumping and feeding mode, and the concrete pump truck has the following defects: when a plurality of high-rise buildings are constructed simultaneously, each building needs to be provided with one set of pumping vertical pipe, the input amount of the pumping vertical pipe is very large, the power consumption is large, and the cost is high. To the low latitude pouring operation, its concrete tower hangs the lifting machine and is equipped with horizontal guide pulley and steel wire pulley usually on the jacking frame of body of the tower, wire rope passes through horizontal guide pulley and steel wire pulley one end and links to each other with the ground winch through the leading wheel, the skip is connected to the other end, body of the tower one side is equipped with uninstallation track and ash storage bucket, the central authorities at the body of the tower are established to the promotion track, in operation, the skip that will be equipped with the concrete promotes corresponding floor, make the concrete unload in the ash storage bucket, the handcart of reloading is poured, its not enough is: the structure is unreasonable, and first, the every circulation of work of tower crane lifting machine can only promote a ash storage bucket material, and energy consumption is big, and work efficiency is low, the construction progress is long, and second when the workman works, need the hand push handcart through the passageway of setting up between floor and the pylon, just can pack the concrete in the ash storage bucket into the handcart, the security is poor.

Based on the above problem, it is necessary to design a material lifting device that facilitates use to satisfy the demand that the building transported the material.

Disclosure of Invention

The invention aims to provide a building construction material lifting device, which improves the efficiency and safety performance of material conveying and the versatility.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a building construction class material hoisting device which characterized in that: the automatic feeding device comprises a plurality of vertically arranged lifter shell bodies, wherein a transverse conveying mechanism is arranged between the lifter shell bodies, the transverse conveying mechanism is arranged on a rack track, a vertical lifting mechanism and a material bearing device are arranged in the lifter shell bodies, the vertical lifting mechanism lifts the material bearing device onto the rack track, the material bearing device comprises a material bearing rack, a feeding mechanism and a discharging mechanism, the material bearing rack comprises a bottom plate, a first side plate and a second side plate, the first side plate and the second side plate are positioned on two sides of the bottom plate, a first transverse plate and a second transverse plate are formed on the top of the first side plate and the second side plate, a connecting plate is arranged between the first transverse plate and the second transverse plate, the feeding mechanism comprises a feeding plate, a jacking cylinder arranged on the bottom plate, a first feeding side plate and a second feeding side plate, the jacking cylinder acts on the feeding plate, the feeding side plate I and the feeding side plate II are provided with feeding driving wheel sets in pairs, the feeding driving wheel sets are connected in a linkage manner through a belt, a supporting beam for supporting the feeding plate is arranged between the bottoms of the feeding side plate I and the feeding side plate II, a first driving motor and a driving wheel are arranged at the bottom of the feeding plate, the driving wheel of the first driving motor is connected with the feeding driving wheel set close to the driving wheel in a linkage manner, the feeding direction of the feeding driving wheel set is vertical to the direction of the transverse transportation mechanism, the vertical lifting mechanism comprises a mounting plate, a second driving motor and a belt pulley device, a first belt pulley is formed at one end of the second driving motor, the belt pulley device comprises a second belt pulley, a third belt pulley and a fourth belt pulley, the first belt pulley is connected with the second belt pulley in a linkage manner, and the second belt pulley is coaxially arranged with the third belt pulley, the third belt pulley with the fourth belt pulley linkage is connected, the second belt pulley with the third belt pulley sets up on the mounting panel, the fourth belt pulley sets up the top at the elevator casing, the third belt pulley with be provided with the belt between the fourth belt pulley, the one end of belt with the bottom of feed plate is connected, the other end of belt is connected with the top of connecting plate.

Based on the technical scheme, the invention is further provided with a third driving motor arranged on the bottom plate, one end of the third driving motor is connected with a fifth belt pulley, the first side plate and the second side plate are provided with discharge belt pulley groups in pairs, the fifth belt pulley is in linkage connection with the discharge belt pulley group close to the fifth belt pulley, the discharge belt pulley groups are in linkage connection, the belt pulleys of the same group of discharge belt pulley groups are coaxially arranged, and the discharge direction of the discharge belt pulley groups is consistent towards the direction of the transverse transportation mechanism.

Based on the technical scheme, the invention is further provided with that the rack track comprises an inner rack and an outer rack, a transverse bracket is laid between the inner frame and the outer frame, an inner rail and an outer rail are arranged on the transverse bracket, the inner track is arranged close to the inner frame, the outer track is arranged close to the inner frame, an inner belt wheel and an outer belt wheel are arranged between the inner track and the outer track, a synchronizing shaft is arranged between the inner belt pulley and the outer belt pulley, one end of the synchronizing shaft positioned on the inner track is provided with a synchronizing wheel, the synchronizing wheel is connected with a fourth driving motor, the fourth driving motor is connected with an output wheel, the output wheel and the synchronizing wheel are in linkage connection through a synchronizing belt, an inner conveying belt is connected between inner belt pulleys on the inner rail, and an outer conveying belt is arranged between the outer belt pulleys on the outer rail.

Based on the technical scheme, the elevator further comprises a guide mechanism arranged in the elevator shell, the guide mechanism comprises a guide column, two ends of the guide column are respectively connected with the top of the elevator shell and the mounting plate, and the first side plate and the second side plate are provided with sliding blocks which linearly move along the direction of the guide column.

Based on the technical scheme, the invention further provides that the guide column is provided with a limiting block.

Based on the technical scheme, the invention further comprises a blanking device, wherein the blanking device is positioned between the shell of the lifting machine and the transverse conveying mechanism.

Based on the technical scheme, the blanking device further comprises a support frame, and a first spiral track and a second spiral track which are connected with the support frame, wherein a plurality of transmission rollers arranged along the direction of the spiral tracks are arranged between the first spiral track and the second spiral track, each transmission roller comprises a driving roller and a driven roller, a fifth driving motor is arranged on the driving roller, chain gears are arranged on the driving roller and the driven roller, the driving roller and the driven roller are in linkage connection through chains, and the driven roller are connected through chains.

Based on the technical scheme, the supporting frame further comprises supporting columns, supporting bases and supporting supports, the supporting bases are uniformly distributed along the circumferential direction of the supporting columns, the supporting supports are located on the supporting columns and are arranged at different heights along the direction of the supporting columns, one end of each supporting support is connected with the corresponding supporting column, the other end of each supporting support extends to the bottoms of the first spiral track and the second spiral track, and reinforcing plates are formed between the supporting bases.

Based on the technical scheme, the invention further provides that the space between the driving roller and the driven roller is made of stainless steel materials.

Based on the technical scheme, the four-beam-type steel plate support base further comprises four support bases, wherein each support base comprises a base plate, four I-shaped steel plates located on the base plates and four strength plates located on the I-shaped steel plates, and each reinforcing plate is of a triangular structure.

The material lifting device has the beneficial effects of simple structure, convenience in operation, high material lifting efficiency, large quantity and wide practicability.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural view of a blanking device according to an embodiment of the present invention.

FIG. 2 is a schematic view of a material holding device and a vertical lifting mechanism according to an embodiment of the invention.

Fig. 3 is a perspective view of a material holding device and a vertical lifting mechanism according to an embodiment of the invention.

Fig. 4 is a schematic view of a rack rail according to an embodiment of the invention.

Fig. 5 is a schematic view of a blanking device according to an embodiment of the invention.

Fig. 6 is a partial schematic view of a material loading device according to an embodiment of the invention.

FIG. 7 is a schematic diagram of an embodiment of the present invention.

The reference numerals are used to designate the same elements,

10. a hoist housing; 20. a transverse transport mechanism; 30. a rack rail; 301. an inner frame; 302. an outer frame; 303. a transverse frame; 304. an inner rail; 305. an outer rail; 306. an inner belt pulley; 307. an outer belt pulley; 308. a synchronizing wheel; 309. a fourth drive motor; 3010. an output wheel; 3011. a synchronous belt; 3012. an inner conveyor belt; 3013. an outer conveyor belt; A. a vertical lifting device; B. a material bearing device; 40. A base plate; 50. a first side plate; 60. a second side plate; 70. a first transverse plate; 80. a second transverse plate; 90. A connecting plate; 100. a feeding plate; 110. jacking a cylinder; 120. a feeding side plate I; 130. a feeding side plate II; 140. a feed drive wheel set; 150. a support beam; 160. a first drive motor; 170. a driving wheel; 180. mounting a plate; 190. a second drive motor; 200. a first pulley; 210. a pulley arrangement; 210a, a second pulley; 210b, a third pulley; 210c, a fourth pulley; 220. a belt; 230. a third drive motor; 240. a fifth belt pulley; 250. a discharging belt pulley group; 260. a guide post; 270. a slider; 280. a limiting block; 290. a blanking device; 300. a support frame; 3001. a support pillar; 3002. a support base; 3002a, a backing plate; 3002b, i-steel plate; 3002c, strength plates; 3003. A support bracket; 3004. a reinforcing plate; 310. a first spiral track; 320. a second spiral track; 330. A driving roller; 3301. a drive roll; 3302. a driven roller; 340. a fifth drive motor; 350. a chain gear;

Detailed Description

Embodiments of the present application will be described in detail with reference to the accompanying drawings and examples, so that the implementation process of the present application, which is based on the technical means for solving the technical problems and achieving the technical effects, can be fully understood and implemented.

Referring to fig. 1 to 7, the invention adopts the following technical scheme that the building construction material lifting device comprises a plurality of vertically arranged lifter shells 10, a transverse transportation mechanism 20 is arranged between the lifter shells 10, the number of the lifter shells 10 is selected according to the point of providing materials as required, the corresponding transverse transportation mechanism 20 is correspondingly changed, and the transverse transportation mechanisms 20 can be arranged in a plurality of rows, wherein the embodiment is illustrated by 3 lifter shells 10 and 2 transverse transportation mechanisms 20 in the same row.

The transverse transportation mechanism 20 is arranged on the rack rail 30, a vertical lifting mechanism and a material bearing device B are arranged in the lifter shell 10, and the vertical lifting mechanism lifts the material bearing device B to the rack rail 30.

The material bearing device B comprises a material bearing rack, a feeding mechanism and a discharging mechanism, wherein the material bearing rack comprises a bottom plate 40, a first side plate 50 and a second side plate 60 which are positioned at two sides of the bottom plate 40, a first transverse plate 70 and a second transverse plate 80 are formed at the tops of the first side plate 50 and the second side plate 60, a connecting plate 90 is arranged between the first transverse plate 70 and the second transverse plate 80, the feeding mechanism comprises a feeding plate 100, a jacking cylinder 110, a first feeding side plate 120 and a second feeding side plate 130 which are arranged on the bottom plate 40, the jacking cylinder 110 acts on the feeding plate 100 to realize the ascending and descending of the feeding plate 100, feeding driving wheel sets 140 are arranged on the first feeding side plate 120 and the second feeding side plate 130 in pairs, the feeding driving wheel sets 140 are connected through a belt in a linkage manner, and a supporting beam 150 for supporting the feeding plate 100 is arranged between the bottoms of the first feeding side plate 120 and the second, the bottom of feed plate 100 is provided with first driving motor 160 and action wheel 170, first driving motor 160 drive action wheel 170 is connected with the linkage of the feeding driving wheelset 140 that is close to action wheel 170, the direction of feed of feeding driving wheelset 140 with the direction of horizontal transport mechanism 20 is perpendicular, above-mentioned feed mechanism is when using, first driving motor 160 rotates to drive action wheel 170 and rotate, because the effect of belt, action wheel 170 says that the feeding driving wheelset 140 that is close to action wheel 170 rotates and connects, other feeding driving wheelset 140 also rotates in step thereupon, then with the realization feeding of material from the place of pan feeding has received the material, promote through vertical hoist mechanism afterwards.

Wherein vertical lifting mechanism includes mounting panel 180, second driving motor 190, belt pulley device 210, the one end of second driving motor 190 forms first belt pulley 200, belt pulley device 210 includes second belt pulley 210a, third belt pulley 210b and fourth belt pulley 210c, first belt pulley 200 with second belt pulley 210a linkage is connected, second belt pulley 210a with third belt pulley 210b coaxial arrangement, third belt pulley 210b with fourth belt pulley 210c linkage is connected, second belt pulley 210a with third belt pulley 210b sets up on mounting panel 180, fourth belt pulley 210c sets up the top at lifting machine casing 10, third belt pulley 210b with be provided with belt 220 between the fourth belt pulley 210c, the one end of belt 220 with the bottom of feed plate 100 is connected, the other end of the belt 220 is connected to the top of the connecting plate 90.

The vertical lifting mechanism moves in such a way that the second driving motor 190 drives the first belt pulley 200 to rotate, then the first belt pulley 200 drives the second belt pulley 210a to rotate, the second belt pulley 210a and the third belt pulley 210B rotate synchronously because the second belt pulley 210a and the third belt pulley 210B are coaxially arranged, the third belt pulley 210B drives the fourth belt pulley 210c to rotate, one end of the belt is connected with the bottom of the feeding plate 100, and the other end of the belt is connected with the top of the connecting plate 90, so that after rotation, under the action of the belt, the belt lifts or lowers the material bearing device B, and when the belt lifts to the position of the transverse conveying mechanism, the material is conveyed to the transverse conveying mechanism 20 through the discharging mechanism

Wherein discharge mechanism adopts following technical scheme, still be provided with third driving motor 230 on the bottom plate 40, the one end of third driving motor 230 is connected with fifth belt pulley 240, be provided with ejection of compact pulley group 250 on first curb plate 50 and the second curb plate 60 in pairs, fifth belt pulley 240 is connected with the ejection of compact pulley group 250 linkage that is close to fifth belt pulley 240, the linkage is connected between ejection of compact pulley group 250, with organizing coaxial setting between the belt pulley of ejection of compact pulley group 250, the direction of ejection of compact direction orientation transverse transport mechanism 20 of ejection of compact pulley group 250 is unanimous.

The rack track 30 comprises an inner rack 301 and an outer rack 302, a transverse support is laid between the inner rack 301 and the outer rack 302, an inner track 304 and an outer track 305 are arranged on the transverse support, the inner track 304 is arranged close to the inner rack 301, the outer track 305 is arranged close to the inner rack 301, an inner belt pulley 306 and an outer belt pulley 307 are arranged between the inner track 304 and the outer track 305, a synchronizing shaft is arranged between the inner belt pulley 306 and the outer belt pulley 307, a synchronizing wheel 308 is arranged at one end of the synchronizing shaft, which is located at the inner track 304, the synchronizing wheel 308 is connected with a fourth driving motor 309, the fourth driving motor 309 is connected with an output wheel 3010, the output wheel 3010 and the synchronizing wheel 308 are linked through a synchronizing belt 3011, an inner conveying belt 3012 is connected between the inner belt pulleys 306 on the inner track 304, an outer conveyor belt 3013 is disposed between the outer rail and the outer belt pulley 307.

Be provided with guiding mechanism in the lifting machine casing 10, guiding mechanism includes guide post 260, the both ends of guide post 260 respectively with lifting machine casing 10's top and mounting panel 180 are connected, be provided with slider 270 on first curb plate 50 and the second curb plate 60, slider 270 is followed linear motion is made to guide post 260 direction, can realize holding the stability of material device B when vertical motion through guide post 260. Meanwhile, the guide column 260 is further provided with a limiting block 280 for limiting and stopping the material bearing device B, the limiting block 280 is arranged at a position, close to the top of the elevator shell 10, of the upper end of the guide column 260, and is arranged at a position, close to the vertical lifting mechanism, of the lower end of the guide column 260, so that the uppermost end and the lowermost end are limited.

The invention further includes a blanking device 290, the blanking device 290 is located between the elevator housing 10 and the transverse transport mechanism 20, referring to fig. 7, a transverse transport mechanism 20 is disposed at the elevator housing 10 at the extreme end, the transverse transport mechanism 20 is disposed perpendicular to the elevator housing 10, then the blanking device 290 is disposed at the end of the transverse transport mechanism 20, of course, the transverse transport mechanism 20 may also be disposed parallel to the elevator housing 10 and disposed at the same center line, wherein the blanking device 290 includes a support frame 300, a first spiral track 310 and a second spiral track 320 connected to the support frame 300, a plurality of driving rollers 330 disposed along the spiral track direction are disposed between the first spiral track 310 and the second spiral track 320, the driving rollers 330 include a driving roller 3301 and a driven roller 3302, the driving roller 3301 is provided with a fifth driving motor 340, be provided with chain gear 350 on drive roller 3301 and the driven voller 3302, be connected through the chain linkage between drive roller 3301 and the driven voller 3302, be connected through the chain between driven voller 3302 and the driven voller 3302, be made for stainless steel material between drive roller 3301 and the driven voller 3302.

The support frame 300 includes support column 3001, support base 3002 and support holder 3003, support base 3002 is along support column 3001 circumferencial direction evenly distributed, support holder 3003 is located on the support column 3001, and set up on the not co-altitude along support column 3001 direction, support holder 3003's one end is connected with support column 3001, and one end extends to the bottom of first spiral track 310 and second spiral track 320 in addition, be formed with reinforcing plate 3004 between the support base 3002, support base 3002 includes backing plate 3002a, is located the I-steel sheet 3002b on backing plate 3002a and is located the strength plate 3002c on the I-steel sheet 3002b, support base 3002 is provided with four, reinforcing plate 3004 is the triangle-shaped structure.

The invention has the advantages of simple structure, convenient operation, high efficiency of material lifting, large quantity and wide practicability.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to substantially achieve the technical effect.

The use of the elevator casings according to 10 is more frequent; 20. a transverse transport mechanism; 30. a rack rail; 301. an inner frame; 302. an outer frame; 303. a transverse frame; 304. an inner rail; 305. an outer rail; 306. An inner belt pulley; 307. an outer belt pulley; 308. a synchronizing wheel; 309. a fourth drive motor; 3010. an output wheel; 3011. a synchronous belt; 3012. an inner conveyor belt; 3013. an outer conveyor belt; A. a vertical lifting device; B. a material bearing device; 40. a base plate; 50. a first side plate; 60. a second side plate; 70. a first transverse plate; 80. a second transverse plate; 90. a connecting plate; 100. a feeding plate; 110. jacking a cylinder; 120. a feeding side plate I; 130. a feeding side plate II; 140. a feed drive wheel set; 150. a support beam; 160. a first drive motor; 170. a driving wheel; 180. mounting a plate; 190. a second drive motor; 200. a first pulley; 210. a pulley arrangement; 210a, a second pulley; 210b, a third pulley; 210c, a fourth pulley; 220. a belt; 230. a third drive motor; 240. a fifth belt pulley; 250. a discharging belt pulley group; 260. a guide post; 270. a slider; 280. a limiting block; 290. a blanking device; 300. a support frame; 3001. a support pillar; 3002. a support base; 3002a, a backing plate; 3002b, i-steel plate; 3002c, strength plates; 3003. a support bracket; 3004. a reinforcing plate; 310. a first spiral track; 320. a second spiral track; 330. a driving roller; 3301. a drive roll; 3302. a driven roller; 340. a fifth drive motor; 350. it should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or system comprising a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

While the foregoing description shows and describes several preferred embodiments of the invention, it is to be understood, in light of the foregoing description, that the invention is not limited to the form disclosed herein, but is not intended to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the invention as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a building construction class material hoisting device which characterized in that: the material loading device comprises a plurality of vertically arranged lifter shell bodies (10), wherein a transverse conveying mechanism (20) is arranged between the lifter shell bodies (10), the transverse conveying mechanism (20) is arranged on a rack rail (30), a vertical lifting mechanism and a material loading device (B) are arranged in the lifter shell bodies (10), the vertical lifting mechanism lifts the material loading device (B) to the rack rail (30), the material loading device (B) comprises a material loading rack, a feeding mechanism and a discharging mechanism, the material loading rack comprises a bottom plate (40), a first side plate (50) and a second side plate (60) which are positioned on two sides of the bottom plate (40), a first transverse plate (70) and a second transverse plate (80) are formed at the tops of the first side plate (50) and the second side plate (60), and a connecting plate (90) is arranged between the first transverse plate (70) and the second transverse plate (80), the feeding mechanism comprises a feeding plate (100), a jacking cylinder (110) arranged on a bottom plate (40), a first feeding side plate (120) and a second feeding side plate (130), wherein the jacking cylinder (110) acts on the feeding plate (100) to realize the ascending and descending of the feeding plate (100), feeding driving wheel sets (140) are arranged on the first feeding side plate (120) and the second feeding side plate (130) in pairs, the feeding driving wheel sets (140) are connected through a belt in a linkage manner, a supporting beam (150) for supporting the feeding plate (100) is arranged between the bottoms of the first feeding side plate (120) and the second feeding side plate (130), a first driving motor (160) and a driving wheel (170) are arranged at the bottom of the feeding plate (100), the first driving motor (160) drives the driving wheel (170) to be in linkage connection with the feeding driving wheel set (140) close to the driving wheel (170), the feeding direction of feeding driving wheel group (140) is perpendicular to the direction of horizontal transport mechanism (20), vertical lifting mechanism includes mounting panel (180), second driving motor (190), belt pulley device (210), first belt pulley (200) is formed to the one end of second driving motor (190), belt pulley device (210) includes second belt pulley (210a), third belt pulley (210b) and fourth belt pulley (210c), first belt pulley (200) with second belt pulley (210a) linkage connection, second belt pulley (210a) with third belt pulley (210b) coaxial setting, third belt pulley (210b) with fourth belt pulley (210c) linkage connection, second belt pulley (210a) with third belt pulley (210b) sets up on mounting panel (180), fourth belt pulley (210c) set up the top at elevator casing (10), third belt pulley (210b) with be provided with belt (220) between fourth belt pulley (210c), the one end of belt (220) with the bottom of feed plate (100) is connected, the other end and the top of connecting plate (90) of belt (220) are connected.

2. The building construction material lifting device according to claim 1, wherein a third driving motor (230) is further arranged on the bottom plate (40), one end of the third driving motor (230) is connected with a fifth belt pulley (240), discharging belt pulley sets (250) are arranged on the first side plate (50) and the second side plate (60) in pairs, the fifth belt pulley (240) is in linkage connection with the discharging belt pulley set (250) close to the fifth belt pulley (240), the discharging belt pulley sets (250) are in linkage connection with each other, the belt pulleys of the discharging belt pulley sets (250) in the same group are coaxially arranged, and the discharging direction of the discharging belt pulley sets (250) is consistent towards the direction of the transverse transport mechanism (20).

3. The building construction material lifting device according to claim 2, wherein the frame rail (30) comprises an inner frame (301) and an outer frame (302), a transverse bracket is laid between the inner frame (301) and the outer frame (302), an inner rail (304) and an outer rail (305) are arranged on the transverse bracket, the inner rail (304) is arranged close to the inner frame (301), the outer rail (305) is arranged close to the inner frame (301), an inner belt pulley (306) and an outer belt pulley (307) are arranged between the inner rail (304) and the outer rail (305), a synchronizing shaft is arranged between the inner belt pulley (306) and the outer belt pulley (307), a synchronizing wheel (308) is arranged at one end of the synchronizing shaft located at the inner rail (304), and a fourth driving motor (309) is connected to the synchronizing wheel (308), the fourth driving motor (309) is connected with an output wheel (3010), the output wheel (3010) is connected with the synchronizing wheel (308) in a linkage mode through a synchronizing belt (3011), an inner conveying belt (3012) is connected between inner belt wheels (306) on the inner track (304), and an outer conveying belt (3013) is arranged between outer belt wheels (307) on the outer track.

4. The building construction material lifting device according to claim 3, wherein a guiding mechanism is arranged in the lifter housing (10), the guiding mechanism comprises a guiding column (260), two ends of the guiding column (260) are respectively connected with the top of the lifter housing (10) and the mounting plate (180), a sliding block (270) is arranged on the first side plate (50) and the second side plate (60), and the sliding block (270) moves linearly along the direction of the guiding column (260).

5. The building construction material lifting device as claimed in claim 4, wherein a stop block (280) is further provided on the guide post (260).

6. A building construction material lifting device according to claim 1 or 5, further comprising a blanking device (290), said blanking device (290) being located between the lifter case (10) and the transverse transport mechanism (20).

7. The building construction material lifting device according to claim 6, characterized in that: unloader (290) including support frame (300), first spiral track (310) be connected with support frame (300) with second spiral track (320), set up a plurality of driving roller (330) that set up along with the spiral track direction between first spiral track (310) and second spiral track (320), driving roller (330) include drive roll (3301) and driven voller (3302), set up fifth driving motor (340) on drive roll (3301), be provided with chain gear (350) on drive roll (3301) and driven voller (3302), be connected through the chain linkage between drive roll (3301) and driven voller (3302), be connected through the chain between driven voller (3302) and driven voller (3302).

8. The building construction material lifting device according to claim 7, wherein the supporting frame (300) comprises supporting columns (3001), supporting bases (3002) and supporting brackets (3003), the supporting bases (3002) are uniformly distributed along the circumferential direction of the supporting columns (3001), the supporting brackets (3003) are located on the supporting columns (3001) and are arranged at different heights along the direction of the supporting columns (3001), one end of each supporting bracket (3003) is connected with the corresponding supporting column (3001), the other end of each supporting bracket extends to the bottoms of the first spiral track (310) and the second spiral track (320), and reinforcing plates (3004) are formed between the supporting bases (3002).

9. The building construction material lifting device according to claim 8, wherein a stainless steel material is arranged between the driving roller (3301) and the driven roller (3302).

10. A building construction material lifting device according to claim 9, wherein the supporting base (3002) comprises a backing plate (3002a), an i-shaped steel plate (3002b) on the backing plate (3002a), and a strength plate (3002c) on the i-shaped steel plate (3002b), the number of the supporting base (3002) is four, and the reinforcing plate (3004) is a triangular structure.

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