CN110562709A

CN110562709A - Industrial stone transportation equipment

Info

Publication number: CN110562709A
Application number: CN201910957275.7A
Authority: CN
Inventors: 付耀有; 何宗孝
Original assignee: Individual
Current assignee: Shaanxi Tianyou Mining Co ltd
Priority date: 2019-10-10
Filing date: 2019-10-10
Publication date: 2019-12-13
Anticipated expiration: 2039-10-10
Also published as: CN110562709B

Abstract

The invention relates to the field of engineering, in particular to industrial stone transportation equipment. The transportation of stones can be realized; the belt I with different widths can be conveniently adapted; a second belt, a first belt with different widths; the second belt has different capabilities of conveying stones; the transmission ratio can be changed, and the speed of transporting stone materials is conveniently improved; the transmission failure of the first middle-end transmission belt can be prevented; the falling rock amount can be conveniently changed. Comprises a transportation device; a feeding device; a passive adjustment device; inputting the assembly; a base plate; a first belt; a second belt; when the falling rock amount is in a gap, under the pushing of the elastic force of the first driven push rod pushing spring, the first driven push rod II reversely pushes the first wedge-shaped push rod to move upwards, and meanwhile, the area of the gap between the gate and the inner wall of the feeding outer frame, which is changed by the gate, is reduced by the second driven push rod II, so that the falling rock amount is recovered; thereby realizing the protection effect on the transportation device.

Description

Industrial stone transportation equipment

Technical Field

The invention relates to the field of engineering, in particular to industrial stone transportation equipment.

Background

The stone transport equipment is a common engineering machine, but the general industrial stone transport equipment can only transport stones with fixed specifications and has single passing function.

disclosure of Invention

the invention aims to provide an industrial stone transport device which can transport stones; the belt I with different widths can be conveniently adapted; a second belt, a first belt with different widths; the second belt has different capabilities of conveying stones; the transmission ratio can be changed, and the speed of transporting stone materials is conveniently improved; the transmission failure of the first middle-end transmission belt can be prevented; the falling rock amount can be conveniently changed.

the purpose of the invention is realized by the following technical scheme:

An industrial stone transport apparatus includes a transport device; a feeding device; a passive adjustment device; inputting the assembly; a base plate; a first belt; a second belt; the first belt wheel is characterized in that: the feeding device is connected with the bottom plate, the conveying device is connected with the bottom plate, the passive adjusting device is connected with the bottom plate, the input assembly is connected with the bottom plate, the first belt is connected with the input assembly, the second belt is connected with the input assembly, and the first belt wheel is connected with the second belt.

as further optimization of the technical scheme, the industrial stone transportation equipment comprises a first expansion roller plate; a first conveying belt; a second conveying belt; a first connecting rod; a first clip rod; a middle end connecting frame; a first bottom end belt; a middle belt I; a middle belt II; expanding the roller; an extension rod I; a first driving plate; a middle sleeve I; a middle-end chassis; straight teeth at the bottom end; a bottom pulley; an expansion rod II; a second expansion roller plate; a middle end sleeve II; a first buffer boss; a second buffer boss; matching with the first boss; matching with the second boss; the inner end of the spring is pushed to form a first spring; the inner end pushes a spring II; the inner end pushes the spring III; the inner end pushes the spring four; a first connecting belt wheel; a connecting rod A; connecting belt wheel II, drive plate I is connected with extension roller plate I, extension rod I is connected with drive plate I, cooperation boss I is connected with extension roller plate I, extension rod I is connected with extension roller, extension roller is connected with middle-end chassis, bottom straight-tooth is connected with extension roller, extension rod II is connected with drive plate I, drive plate I is connected with extension roller plate two, cooperation boss two is connected with extension roller plate two, extension roller plate two is connected with middle-end sleeve two, middle-end sleeve two is connected with buffering boss I, buffering boss I is connected with cooperation boss two, middle-end sleeve two is connected with connecting rod A, connecting rod A is connected with middle-end sleeve I, connecting rod A is connected with middle-end chassis, buffering boss two is connected with cooperation boss I, connecting belt wheel I is connected with connecting rod A, the connecting rod A is connected with the connecting belt wheel II, and the conveying belt I and the buffering boss II are connected; the first matched boss is connected with the second conveying belt, and the second conveying belt is connected with the first buffering boss; the matching boss is connected with the boss II, the middle-end connecting frame is connected with the middle-end underframe, the connecting rod I is connected with the middle-end connecting frame, the first clip rod is connected with the connecting rod I, the first bottom belt is connected with the bottom belt wheel, the first middle belt is connected with the first connecting belt wheel, the second middle belt is connected with the second connecting belt wheel, the first belt wheel is connected with the connecting rod A, and the first belt wheel is connected with the second belt.

as the further optimization of the technical scheme, the invention relates to the industrial stone transportation equipment, wherein the feeding device comprises a feeding outer frame; a gate; a gate drive rod; the inner end of the first clamping rod is provided with a first clamping rod; a clamping rod pushes a first spring; a first rectangular sliding hole; a side wall waist groove I; a first side wall chute; a side wall rod I; the first rectangular sliding hole is connected with the feeding frame, the first side wall waist groove is connected with the feeding frame, the first side wall sliding groove is connected with the feeding frame, the first side wall rod is connected with the first side wall rod, the gate is connected with the first side wall sliding groove, the gate is connected with the gate driving rod, the gate driving rod is connected with the first side wall rod, the gate is connected with the first side wall waist groove, the first inner end clamping rod is connected with the gate driving rod, the first clamping rod push spring is connected with the first inner end clamping rod, the first inner end clamping rod is connected with the first clamping groove, and the feeding frame is connected with the first clip rod.

As the technical scheme is further optimized, the invention provides the industrial stone transportation equipment, wherein the passive adjusting device comprises a passive push rod I; a wedge-shaped push rod I; a second passive push rod; the driven push rod I is connected with the wedge-shaped push rod I, the wedge-shaped push rod I is connected with the driven push rod II, the driven push rod I is connected with the driven push rod II, the wedge-shaped push rod I is connected with the square-shaped rod I, and the driven push rod II is connected with the rectangular sliding hole I.

As a further optimization of the technical scheme, the industrial stone transportation equipment comprises an input assembly, an output assembly and a conveying assembly, wherein the input assembly comprises a first input bottom plate; inputting a motor; inputting straight teeth; meshing straight teeth; a conical toothed roller; a first vertical rod; a second vertical rod; a third vertical rod; a first pulley shaft; a first driving rod; a middle end adjusting rod I; a middle slider; a first rectangular boss; a rocker; a first support rod; tensioning the slider I; a first support sliding rod; tensioning a first spring; tensioning a second spring; a slider I; meshing the first bevel gear; a middle-end transmission belt I; a sliding pulley; a first sliding rod; the sliding rod is provided with a first belt wheel; a first threaded rod; fourthly, erecting a rod; the vertical rod I is connected with the input bottom plate I, the vertical rod II is connected with the input bottom plate I, the vertical rod III is connected with the input bottom plate I, the rectangular boss I is connected with the input bottom plate I, and the vertical rod IV is connected with the input bottom plate I; the vertical rod five is connected with the input bottom plate I, the input motor is connected with the vertical rod five, the input motor is connected with the input straight teeth, the input straight teeth are connected with the meshing straight teeth, the meshing straight teeth are connected with the bevel gear rollers, the bevel gear rollers are connected with the vertical rod five, the first belt wheel shaft is connected with the first belt wheel shaft, the first driving rod is connected with the middle end slider, the middle end slider is connected with the first middle end adjusting rod, the first middle end adjusting rod is connected with the first threaded rod, the first threaded rod is connected with the middle end slider, the rocker is connected with the first rectangular boss, the first rectangular boss is connected with the first bracket rod, the first bracket rod is connected with the rocker, the first bracket rod is connected with the first bracket rod, the first tensioning slider is connected with the first bracket rod, the second tensioning spring is connected with the first bracket rod, the first slider is connected with the first bracket rod, the first meshing bevel gear is connected with the first slider, the first meshing bevel gear is connected with a bevel gear roller, the first middle-end transmission belt is connected with a first sliding belt wheel, the first sliding belt wheel is connected with a first support rod, the first sliding belt wheel is connected with a first sliding rod, the first sliding rod wheel is connected with a first sliding rod, the first middle-end transmission belt is connected with a first tensioning slider, the first middle-end transmission belt is connected with the first meshing bevel gear, the first sliding rod wheel is connected with a fourth vertical rod, the first driven push rod is connected with a second vertical rod, the third vertical rod is connected with a second driven push rod, and the first sliding rod wheel is connected with the first belt; the two belts are connected.

the industrial stone transportation equipment has the beneficial effects that:

According to the industrial stone transport equipment, the first U-shaped rod in the transport device drives the first wedge-shaped push rod to move downwards, and the second wedge-shaped push rod shields the gate to change the gap between the gate and the inner wall of the feeding outer frame under the action of the second wedge-shaped push rod, so that the falling stone amount is reduced; when the falling rock amount is in a gap, under the pushing of the elastic force of the first driven push rod pushing spring, the second driven push rod reversely pushes the first wedge-shaped push rod to enable the first wedge-shaped push rod to move upwards, and meanwhile, the area of the second driven push rod for shielding the gate to change the gap between the gate and the inner wall of the feeding outer frame is reduced, so that the falling rock amount is recovered; thereby realizing the protection effect on the transportation device.

drawings

the invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic view of the transportation device of the present invention;

FIG. 5 is a schematic view of the structure of the transportation device of the present invention;

FIG. 6 is a third schematic structural view of the transportation device of the present invention;

FIG. 7 is a fourth schematic structural view of the transportation device of the present invention;

FIG. 8 is a fifth schematic structural view of the transportation device of the present invention;

FIG. 9 is a sixth schematic view of the transport device of the present invention;

FIG. 10 is a seventh structural view of the transportation device of the present invention;

FIG. 11 is a schematic view eight of the structure of the transportation device of the present invention;

FIG. 12 is a ninth schematic structural view of the transportation device of the present invention;

FIG. 13 is a cross-sectional view of the transport device of the present invention;

FIG. 14 is a first schematic structural view of a feeding device according to the present invention;

FIG. 15 is a schematic structural view of a feeding device according to the present invention;

FIG. 16 is a third schematic structural view of a charging device according to the present invention;

FIG. 17 is a fourth schematic structural view of the feeding device of the present invention;

FIG. 18 is a schematic structural view of a charging device according to the present invention;

FIG. 19 is a sixth schematic view of the feeding device of the present invention;

FIG. 20 is a schematic view of the passive adjustment mechanism of the present invention;

FIG. 21 is a first schematic diagram of the input assembly of the present invention;

FIG. 22 is a second schematic diagram of the input assembly of the present invention;

FIG. 23 is a third schematic view of the input assembly of the present invention;

fig. 24 is a fourth schematic structural diagram of the input assembly of the present invention.

In the figure: a transportation device 1; 1-1 of an expansion roller plate; 1-2 of a first conveying belt; 1-3 of a second conveying belt; 1-4 of a connecting rod I; 1-5 of a first clip rod; middle connecting frames 1-6; a first belt 1-7 at the bottom end; 1-8 of a middle belt I; a middle belt II 1-9; 1-10 parts of an expansion rolling shaft; 1-11 of an expansion rod; driving a first drive plate 1-12; 1-13 of a middle sleeve; middle-end underframe 1-14; 1-15 straight teeth at the bottom end; bottom belt wheels 1-16; a second expansion rod 1-17; a second expansion roller plate 1-18; a second middle-end sleeve 1-19; 1-20 parts of a buffering boss I; a second buffer boss 1-21; 1-22 of a first matching boss; matching with a second boss 1-23; the inner end of the push spring I is 1-24; the inner end pushes a second spring 1-25; the inner end pushes the spring three 1-26; the inner end pushes the spring four 1-27; connecting belt wheels 1-28; connecting rods A1-29; connecting belt wheels II 1-30; a feeding device 2; feeding outer frames 2-1; 2-2 of a gate; a gate driving rod 2-3; the inner end of the clamping rod I is 2-4; a clamping rod push spring I is 2-5; 2-6 of a rectangular sliding hole I; 2-7 of a side wall waist groove I; 2-8 of a side wall chute I; 2-9 parts of a side wall rod; a first clamping groove 2-10; a passive adjustment device 3; a first passive push rod 3-1; 3-2 of a wedge-shaped push rod; a second passive push rod 3-3; a driven push rod pushes a spring I3-4; an input assembly 4; an input backplane I4-1; inputting a motor 4-2; inputting straight teeth 4-3; 4-4 of meshing straight teeth; 4-5 of a bevel gear roller; 4-6 parts of a first vertical rod; 4-7 parts of a second vertical rod; 4-8 of a vertical rod III; 4-9 of a pulley shaft I; 4-10 of a first driving rod; the middle end adjusting rod I is 4-11; 4-12 of middle-end sliders; 4-13 of a rectangular boss I; 4-14 parts of a rocker; 4-15 parts of a first support rod; 4-16 of tensioning slider I; 4-17 of a first bracket sliding rod; 4-18 parts of a tension spring; tensioning springs II 4-19; 4-20 parts of a slider I; meshing the first bevel gear 4-21; 4-22 parts of a middle-end transmission belt I; 4-23 sliding belt wheels; 4-24 of a first sliding rod; 4-25 sliding bar belt wheels; 4-26 parts of a first threaded rod; 4-27 parts of vertical rod; 4-28 of vertical rod five; a bottom plate 5; a first belt 6; a second belt 7; belt wheel I8

Detailed Description

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

the fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 24, and an industrial stone transport apparatus includes a transport device 1, a feeding device 2, a passive adjusting device 3, an input assembly 4, a bottom plate 5, a first belt 6, a second belt 7, and a first belt wheel 8, and is characterized in that: throw material device 2 and be connected with bottom plate 5, conveyer 1 is connected with bottom plate 5, and passive adjusting device 3 is connected with bottom plate 5, and input assembly 4 is connected with bottom plate 5, and belt 6 is connected with input assembly 4, and belt two 7 is connected with input assembly 4, and band pulley one 8 is connected with belt two 7.

the second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-24, and the first embodiment is further described, wherein the transportation device 1 comprises a first expansion roller plate 1-1, a first transportation belt 1-2, a second transportation belt 1-3, a first connection rod 1-4, a first loop bar 1-5, a middle end connection frame 1-6, a first bottom end belt 1-7, a first middle end belt 1-8, a second middle end belt 1-9, an expansion roller 1-10, a first expansion rod 1-11, a first driving plate 1-12, a first middle end sleeve 1-13, a first middle end underframe 1-14, a straight bottom end tooth 1-15, a bottom end belt wheel 1-16, a second expansion rod 1-17, a second expansion roller plate 1-18, a second middle end sleeve 1-19, a first buffer boss 1-20, a second buffer boss 1-21, The expansion roller comprises a first matching boss 1-22, a second matching boss 1-23, a first inner end push spring 1-24, a second inner end push spring 1-25, a third inner end push spring 1-26, a fourth inner end push spring 1-27, a first connecting belt wheel 1-28, a first connecting rod A1-29 and a second connecting belt wheel 1-30, wherein a first driving plate 1-12 is connected with a first expansion roller plate 1-1, a first expansion rod 1-11 is connected with a first driving plate 1-12, a first matching boss 1-22 is connected with a first expansion roller plate 1-1, a first expansion rod 1-11 is connected with a first expansion roller 1-10, a first expansion roller 1-10 is connected with a middle end chassis 1-14, a bottom straight tooth 1-15 is connected with a middle end chassis 1-14, and a bottom straight tooth 1-15 is connected with a first expansion roller 1-10, the second expansion rod 1-17 is connected with the first expansion roller 1-10, the second expansion rod 1-17 is connected with the first drive plate 1-12, the first drive plate 1-12 is connected with the second expansion roller 1-18, the second matching boss 1-23 is connected with the second expansion roller 1-18, the second expansion roller 1-18 is connected with the second middle end sleeve 1-19, the second middle end sleeve 1-19 is connected with the first buffering boss 1-20, the first buffering boss 1-20 is connected with the second matching boss 1-23, the second middle end sleeve 1-19 is connected with the connecting rod A1-29, the connecting rod A1-29 is connected with the first middle end sleeve 1-13, the connecting rod A1-29 is connected with the first middle end underframe 1-14, the second buffering boss 1-21 is connected with the first matching boss 1-22, the first connecting belt wheel 1-28 is connected with the connecting rod A1-29, the connecting rod A1-29 is connected with the second connecting belt wheel 1-30, the first transport belt 1-2 is connected with the second buffer boss 1-21 and the first matching boss 1-22, the second transport belt 1-3 is connected with the first buffer boss 1-20 and the second matching boss 1-23, the middle connecting frame 1-6 is connected with the middle underframe 1-14, the first connecting rod 1-4 is connected with the middle connecting frame 1-6, the first loop rod 1-5 is connected with the first connecting rod 1-4, the first bottom belt 1-7 is connected with the bottom belt wheel 1-16, the first middle belt 1-8 is connected with the first connecting belt wheel 1-28, and the second middle belt 1-9 is connected with the second connecting belt wheel 1-30, the first belt wheel 8 is connected with the connecting rod A1-29, and the first belt wheel 8 is connected with the second belt 7;

An input motor 4-2 is started, an input straight tooth 4-3 is driven to rotate by the input motor 4-2, an engagement straight tooth 4-3 and an engagement straight tooth 4-4 are in engagement transmission, a bevel gear roller 4-5 is driven to rotate by the engagement straight tooth 4-4, an engagement bevel gear I4-21 is driven to rotate by the bevel gear roller 4-5, a middle end transmission belt I4-22 is driven to move by the engagement bevel gear I4-21, a sliding belt pulley 4-23 is driven to move by the middle end transmission belt I4-22, a sliding rod I4-24 is driven to rotate by the sliding belt pulley 4-23, a sliding rod pulley I4-25 is driven to rotate by the sliding rod pulley I4-25, a pulley I8 is driven to rotate by the belt pulley II 7, and a connecting rod A1-29 is driven to rotate by the sliding rod pulley I8, the connecting rods A1-29 drive the first middle-end sleeves 1-13 and the second middle-end sleeves 1-19 to rotate simultaneously, further drive the first expansion roller plates 1-1 and the second expansion roller plates 1-18 to rotate simultaneously, further drive the first belts 6 and the second belts 7 to move simultaneously through the first buffer bosses 1-20, the second buffer bosses 1-21, the first matching bosses 1-22 and the second matching bosses 1-23, and drive the movement of stones through the first belts 6 and the second belts 7, so that the stones are transported; when the widths of the first belt 6 and the second belt 7 need to be changed according to actual requirements, in order to adapt to the first belt 6 and the second belt 7 with different widths, the bottom-end belt pulleys 1-16 are manually rotated, the bottom-end straight teeth 1-15 are driven to rotate through the bottom-end belt pulleys 1-16, the expansion rollers 1-10 are driven to rotate through the meshing transmission of the bottom-end straight teeth 1-15 and the expansion rollers 1-10, the expansion roller plates 1-18 and the expansion roller plates 1-1 are respectively far away from the middle-end sleeve pipes 1-19 and the middle-end sleeve pipes 1-13 through the connection of threaded chutes on the expansion rollers 1-10 with the expansion rods 1-11 and the expansion rods 1-17, and further the distances between the expansion roller plates 1-18 and the middle-end sleeve pipes 1-19 or between the expansion roller plates 1-1 and the middle-end sleeve pipes 1-13 are changed, therefore, the stone transporting belt is convenient to adapt to the first belt 6 and the second belt 7 with different widths, and the first belt 6 and the second belt 7 with different widths have different stone transporting capabilities.

the third concrete implementation mode:

The embodiment is described below with reference to fig. 1-24, and the embodiment further describes the first embodiment, wherein the feeding device 2 comprises a feeding outer frame 2-1, a gate 2-2, a gate driving rod 2-3, an inner end clamping rod one 2-4, a clamping rod pushing spring one 2-5, a rectangular sliding hole one 2-6, a side wall waist groove one 2-7, a side wall sliding groove one 2-8, a side wall rod one 2-9, and a clamping groove one 2-10, the rectangular sliding hole one 2-6 is connected with the feeding outer frame 2-1, the side wall waist groove one 2-7 is connected with the feeding outer frame 2-1, the side wall sliding groove one 2-8 is connected with the feeding outer frame 2-1, the side wall rod one 2-9 is connected with the feeding outer frame 2-1, and the clamping groove one 2-10 is connected with the side wall rod one 2-9, the gate 2-2 is connected with the side wall chute I2-8, the gate 2-2 is connected with the gate driving rod 2-3, the gate driving rod 2-3 is connected with the side wall rod I2-9, the gate 2-2 is connected with the side wall waist groove I2-7, the inner end clamping rod I2-4 is connected with the gate driving rod 2-3, the clamping rod pushing spring I2-5 is connected with the inner end clamping rod I2-4, the inner end clamping rod I2-4 is connected with the clamping groove I2-10, and the feeding outer frame 2-1 is connected with the clip rod I1-5.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 24, and the embodiment further describes the first embodiment, where the passive adjustment device 3 includes a first passive push rod 3-1, a first wedge-shaped push rod 3-2, a second passive push rod 3-3, and a first passive push rod push spring 3-4, the first passive push rod 3-1 is connected to the first wedge-shaped push rod 3-2, the first wedge-shaped push rod 3-2 is connected to the second passive push rod 3-3, the first passive push rod push spring 3-4 is connected to the second passive push rod 3-3, the first wedge-shaped push rod 3-2 is connected to the first square-shaped rod 1-5, and the second passive push rod 3-3 is connected to the first rectangular slide hole 2-6;

When the weight of the stone falling into the conveying device 1 is suddenly increased, the first wedge-shaped push rod 3-2 is driven to move downwards by the first clip-shaped rod 1-5 in the conveying device 1, and the second wedge-shaped push rod 3-2 shields the gate 2-2 to change the gap between the gate 2-2 and the inner wall of the feeding outer frame 2-1 through the action of the first wedge-shaped push rod 3-2 on the second driven push rod 3-3, so that the stone falling amount is reduced; when the falling rock amount is in a gap, under the pushing of the elastic force of the first pushing spring 3-4 of the driven push rod, the second driven push rod 3-3 reversely pushes the first wedge-shaped push rod 3-2, so that the first wedge-shaped push rod 3-2 moves upwards, and meanwhile, the second driven push rod 3-3 shields the gate 2-2 to change the area of the gap between the gate 2-2 and the inner wall of the feeding outer frame 2-1 to be reduced, so that the falling rock amount is recovered; thereby achieving the protective effect on the transportation device 1.

the fifth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-24, and the input assembly 4 includes an input bottom plate 1-4, an input motor 2-4, input straight teeth 3-4, meshing straight teeth 4-4, bevel gear rollers 4-5, a first vertical rod 6-4, a second vertical rod 7-4, a third vertical rod 8-4, a first pulley shaft 9-4, a driving rod 10-4, a middle adjusting rod 11-4, a middle slider 12-4, a rectangular boss 13-4, a rocker lever 14-4, a first support rod 15-4, a first tensioning slider 16-4, a first support slider 17-4, a first tensioning spring 18-4, a second tensioning spring 19-4, a first slider 20-4, meshing bevel teeth 21-4, a first support rod 4-4, a second support slider 4-9, a third support rod 4-10, a fourth support, A middle-end transmission belt I4-22, a sliding belt pulley I4-23, a sliding rod I4-24, a sliding rod belt pulley I4-25, a threaded rod I4-26, an upright rod IV 4-27 and an upright rod V4-28, wherein the upright rod I4-6 is connected with an input bottom plate I4-1, the upright rod II 4-7 is connected with the input bottom plate I4-1, the upright rod III 4-8 is connected with the input bottom plate I4-1, a rectangular boss I4-13 is connected with the input bottom plate I4-1, the upright rod IV 4-27 and the upright rod V4-28 are connected with the input bottom plate I4-1, an input motor 4-2 is connected with the upright rod V4-28, the input motor 4-2 is connected with an input straight tooth 4-3, the input straight tooth 4-3 is connected with a meshing straight tooth 4-4, the meshing straight teeth 4-4 are connected with the bevel gear rollers 4-5, the bevel gear rollers 4-5 are connected with the vertical rods five 4-28, the pulley shafts one 4-9 are connected with the vertical rods one 4-6, the driving rods one 4-10 are connected with the pulley shafts one 4-9, the driving rods one 4-10 are connected with the middle end sliders 4-12, the middle end sliders 4-12 are connected with the middle end adjusting rods one 4-11, the middle end adjusting rods one 4-11 are connected with the threaded rods one 4-26, the threaded rods one 4-26 are connected with the middle end sliders 4-12, the rocking rods 4-14 are connected with the rectangular bosses one 4-13, the rectangular bosses one 4-13 are connected with the support rods one 4-15, the support rods one 4-15 are connected with the rocking rods 4-14, the support sliding rods one 4-17 are connected with the support rods one 4-15, the tensioning slider I4-16 is connected with the bracket slider I4-17, the tensioning spring I4-18 is connected with the bracket slider I4-17, the tensioning spring II 4-19 is connected with the bracket slider I4-17, the slider I4-20 is connected with the bracket slider I4-17, the meshing bevel gear I4-21 is connected with the slider I4-20, the meshing bevel gear I4-21 is connected with the bevel gear roller 4-5, the middle end driving belt I4-22 is connected with the sliding belt pulley 4-23, the sliding belt pulley 4-23 is connected with the bracket slider I4-15, the sliding belt pulley 4-23 is connected with the sliding bar I4-24, the sliding bar belt pulley I4-25 is connected with the sliding bar I4-24, the middle end driving belt I4-22 is connected with the tensioning slider I4-16, the middle-end transmission belt I4-22 is connected with the meshing bevel gear I4-21, the sliding rod belt wheel I4-25 is connected with the vertical rod IV 4-27, the driven push rod I3-1 is connected with the vertical rod II 4-7, the vertical rod III 4-8 is connected with the driven push rod II 3-3, and the sliding rod belt wheel I4-25 is connected with the belt I6 and the belt II 7.

the invention relates to an industrial stone transport device, which has the working principle that: when in use, the input motor 4-2 is started, the input straight tooth 4-3 is driven to rotate by the input motor 4-2, the meshing transmission of the input straight tooth 4-3 and the meshing straight tooth 4-4 is realized, the bevel gear roller 4-5 is driven to rotate by the meshing straight tooth 4-4, the meshing bevel gear roller 4-5 is driven to rotate by the bevel gear roller 4-21, the middle-end transmission belt I4-22 is driven to move by the meshing bevel gear I4-21, the sliding belt pulley 4-23 is driven to move by the middle-end transmission belt I4-22, the sliding rod I4-24 is driven to rotate by the sliding belt pulley 4-23, the sliding rod pulley I4-25 is driven to rotate by the sliding rod pulley I4-25 through the belt II 7, the connecting rod A1-29 is driven to rotate by the sliding rod pulley I8, the connecting rods A1-29 drive the first middle-end sleeves 1-13 and the second middle-end sleeves 1-19 to rotate simultaneously, further drive the first expansion roller plates 1-1 and the second expansion roller plates 1-18 to rotate simultaneously, further drive the first belts 6 and the second belts 7 to move simultaneously through the first buffer bosses 1-20, the second buffer bosses 1-21, the first matching bosses 1-22 and the second matching bosses 1-23, and drive the movement of stones through the first belts 6 and the second belts 7, so that the stones are transported; when the widths of the first belt 6 and the second belt 7 need to be changed according to actual requirements, in order to adapt to the first belt 6 and the second belt 7 with different widths, the bottom-end belt pulleys 1-16 are manually rotated, the bottom-end straight teeth 1-15 are driven to rotate through the bottom-end belt pulleys 1-16, the expansion rollers 1-10 are driven to rotate through the meshing transmission of the bottom-end straight teeth 1-15 and the expansion rollers 1-10, the expansion roller plates 1-18 and the expansion roller plates 1-1 are respectively far away from the middle-end sleeve pipes 1-19 and the middle-end sleeve pipes 1-13 through the connection of threaded chutes on the expansion rollers 1-10 with the expansion rods 1-11 and the expansion rods 1-17, and further the distances between the expansion roller plates 1-18 and the middle-end sleeve pipes 1-19 or between the expansion roller plates 1-1 and the middle-end sleeve pipes 1-13 are changed, the belt conveyor is further convenient to adapt to the first belt 6 and the second belt 7 with different widths, and the capabilities of conveying stone materials are different due to the first belt 6 and the second belt 7 with different widths; when the transmission ratio of the input assembly 4 needs to be changed according to actual conditions, the rocker levers 4-14 are manually rotated, the using positions of the support rods 4-15 on the rectangular bosses I4-13 are changed through threaded connection between the rocker levers 4-14 and the support rods I4-15, the meshing positions of the bevel gear rollers 4-5 and the meshing bevel gears I4-21 are changed through driving of the support rods I4-15, the meshing positions of the bevel gear rollers 4-5 and the meshing bevel gears I4-21 are changed, the distance ratio of the meshing positions to the rotating axes of the bevel gear rollers 4-5 and the meshing bevel gears I4-21 is changed, and the transmission ratio is changed; when the use position of the first meshing bevel gear 4-21 is changed, the form of the first middle-end transmission belt 4-22 in matched connection with the first meshing bevel gear 4-21 is changed, in order to keep the transmission between the first middle-end transmission belt 4-22 and the first meshing bevel gear 4-21 not to fail, the first tensioning slider 4-16 is pushed by the elastic force of the first tensioning spring 4-18, so that the first tensioning slider 4-16 slides on the first support sliding rod 4-17, and the first middle-end transmission belt 4-22 is tensioned by the first tensioning slider 4-16, so that the transmission failure of the first middle-end transmission belt 4-22 is prevented; stone to be transported is thrown in from the upper end of the feeding device 2, meanwhile, the gate driving rod 2-3 is manually pushed, the gate 2-2 is driven to slide in the side wall sliding groove I2-8 through the gate driving rod 2-3, so that a gap is formed between the gate 2-2 and the inner wall of the feeding outer frame 2-1, and the stone can fall conveniently; the gate 2-2 is conveniently driven to change the size of the gap between the gate 2-2 and the inner wall of the feeding outer frame 2-1 through the use position of the gate driving rod 2-3 on the side wall rod I2-9, so that the falling rock amount is conveniently changed; when the weight of the stone falling into the conveying device 1 is suddenly increased, the first wedge-shaped push rod 3-2 is driven to move downwards by the first clip-shaped rod 1-5 in the conveying device 1, and the second wedge-shaped push rod 3-2 shields the gate 2-2 to change the gap between the gate 2-2 and the inner wall of the feeding outer frame 2-1 through the action of the first wedge-shaped push rod 3-2 on the second driven push rod 3-3, so that the stone falling amount is reduced; when the falling rock amount is in a gap, under the pushing of the elastic force of the first pushing spring 3-4 of the driven push rod, the second driven push rod 3-3 reversely pushes the first wedge-shaped push rod 3-2, so that the first wedge-shaped push rod 3-2 moves upwards, and meanwhile, the second driven push rod 3-3 shields the gate 2-2 to change the area of the gap between the gate 2-2 and the inner wall of the feeding outer frame 2-1 to be reduced, so that the falling rock amount is recovered; thereby achieving the protective effect on the transportation device 1.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims

1. the utility model provides an industry building stones transportation equipment, includes conveyer (1), throws material device (2), passive adjusting device (3), input assembly (4), bottom plate (5), belt (6), belt two (7), band pulley (8), its characterized in that: throw material device (2) and be connected with bottom plate (5), conveyer (1) is connected with bottom plate (5), and passive adjusting device (3) are connected with bottom plate (5), and input assembly (4) are connected with bottom plate (5), and belt (6) are connected with input assembly (4), and belt two (7) are connected with input assembly (4), and band pulley (8) are connected with belt two (7).

2. the industrial stone transport apparatus as claimed in claim 1, wherein: the conveying device (1) comprises an expansion roller plate I (1-1), a conveying belt I (1-2), a conveying belt II (1-3), a connecting rod I (1-4), a loop rod I (1-5), a middle-end connecting frame (1-6), a bottom-end belt I (1-7), a middle-end belt I (1-8), a middle-end belt II (1-9), an expansion rolling shaft I (1-10), an expansion rod I (1-11), a driving plate I (1-12), a middle-end sleeve I (1-13), a middle-end underframe (1-14), bottom-end straight teeth (1-15), a bottom-end belt wheel (1-16), an expansion rod II (1-17), an expansion roller plate II (1-18), a middle-end sleeve II (1-19), a buffering boss I (1-20), A second buffer boss (1-21), a first matching boss (1-22), a second matching boss (1-23), a first inner end push spring (1-24), a second inner end push spring (1-25), a third inner end push spring (1-26), a fourth inner end push spring (1-27), a first connecting belt wheel (1-28), a connecting rod A (1-29) and a second connecting belt wheel (1-30), wherein the first driving plate (1-12) is connected with the first expansion roller plate (1-1), the first expansion rod (1-11) is connected with the first driving plate (1-12), the first matching boss (1-22) is connected with the first expansion roller plate (1-1), the first expansion rod (1-11) is connected with the first expansion roller (1-10), and the first expansion roller (1-10) is connected with a middle-end chassis (1-14), bottom end straight teeth (1-15) are connected with a middle end underframe (1-14), bottom end straight teeth (1-15) are connected with an expansion rolling shaft (1-10), an expansion rod II (1-17) is connected with the expansion rolling shaft (1-10), an expansion rod II (1-17) is connected with a driving plate I (1-12), the driving plate I (1-12) is connected with an expansion roller plate II (1-18), a matching boss II (1-23) is connected with the expansion roller plate II (1-18), the expansion roller plate II (1-18) is connected with a middle end sleeve II (1-19), the middle end sleeve II (1-19) is connected with a buffering boss I (1-20), the buffering boss I (1-20) is connected with the matching boss II (1-23), the middle end sleeve II (1-19) is connected with a connecting rod A (1-29), the connecting rod A (1-29) is connected with the middle-end sleeve I (1-13), the connecting rod A (1-29) is connected with the middle-end underframe (1-14), the buffering boss II (1-21) is connected with the matching boss I (1-22), the connecting belt wheel I (1-28) is connected with the connecting rod A (1-29), the connecting rod A (1-29) is connected with the connecting belt wheel II (1-30), the conveying belt I (1-2) is connected with the buffering boss II (1-21) and the matching boss I (1-22), the conveying belt II (1-3) is connected with the buffering boss I (1-20) and the matching boss II (1-23), the middle-end connecting frame (1-6) is connected with the middle-end underframe (1-14), the connecting rod I (1-4) is connected with the middle-end connecting frame (1-6), the first clip rod (1-5) is connected with the first connecting rod (1-4), the first bottom belt (1-7) is connected with the first bottom belt wheel (1-16), the first middle belt (1-8) is connected with the first connecting belt wheel (1-28), the second middle belt (1-9) is connected with the second connecting belt wheel (1-30), the first belt wheel (8) is connected with the first connecting rod A (1-29), and the first belt wheel (8) is connected with the second belt (7).

3. The industrial stone transport apparatus as claimed in claim 1, wherein: the feeding device (2) comprises a feeding outer frame (2-1), a gate (2-2), a gate driving rod (2-3), an inner end clamping rod I (2-4), a clamping rod pushing spring I (2-5), a rectangular sliding hole I (2-6), a side wall waist groove I (2-7), a side wall sliding groove I (2-8), a side wall rod I (2-9) and a clamping groove I (2-10), wherein the rectangular sliding hole I (2-6) is connected with the feeding outer frame (2-1), the side wall waist groove I (2-7) is connected with the feeding outer frame (2-1), the side wall sliding groove I (2-8) is connected with the feeding outer frame (2-1), the side wall rod I (2-9) is connected with the feeding outer frame (2-1), and the clamping groove I (2-10) is connected with the side wall rod I (2-9), the gate (2-2) is connected with the side wall sliding groove I (2-8), the gate (2-2) is connected with the gate driving rod (2-3), the gate driving rod (2-3) is connected with the side wall rod I (2-9), the gate (2-2) is connected with the side wall waist groove I (2-7), the inner end clamping rod I (2-4) is connected with the gate driving rod (2-3), the clamping rod pushing spring I (2-5) is connected with the inner end clamping rod I (2-4), the inner end clamping rod I (2-4) is connected with the clamping groove I (2-10), and the feeding outer frame (2-1) is connected with the clip rod I (1-5).

4. The industrial stone transport apparatus as claimed in claim 1, wherein: the passive adjusting device (3) comprises a first passive push rod (3-1), a first wedge-shaped push rod (3-2), a second passive push rod (3-3) and a first passive push rod pushing spring (3-4), wherein the first passive push rod (3-1) is connected with the first wedge-shaped push rod (3-2), the first wedge-shaped push rod (3-2) is connected with the second passive push rod (3-3), the first passive push rod pushing spring (3-4) is connected with the second passive push rod (3-3), the first wedge-shaped push rod (3-2) is connected with the first square-shaped rod (1-5), and the second passive push rod (3-3) is connected with the first rectangular sliding hole (2-6).

5. the industrial stone transport apparatus as claimed in claim 1, wherein: the input assembly (4) comprises a first input bottom plate (4-1), an input motor (4-2), a first input straight tooth (4-3), a meshing straight tooth (4-4), a bevel gear roller (4-5), a first vertical rod (4-6), a second vertical rod (4-7), a third vertical rod (4-8), a first belt wheel shaft (4-9), a first driving rod (4-10), a first middle-end adjusting rod (4-11), a first middle-end slider (4-12), a first rectangular boss (4-13), a rocker (4-14), a first support rod (4-15), a first tensioning slider (4-16), a first support slider (4-17), a first tensioning spring (4-18), a second tensioning spring (4-19), a first slider (4-20), a first meshing bevel gear (4-21), A middle-end transmission belt I (4-22), a sliding belt wheel I (4-23), a sliding rod I (4-24), a sliding rod belt wheel I (4-25), a threaded rod I (4-26), an upright rod IV (4-27) and an upright rod V (4-28), wherein the upright rod I (4-6) is connected with the input bottom plate I (4-1), the upright rod II (4-7) is connected with the input bottom plate I (4-1), the upright rod III (4-8) is connected with the input bottom plate I (4-1), the rectangular boss I (4-13) is connected with the input bottom plate I (4-1), the upright rod IV (4-27) and the upright rod V (4-28) are connected with the input bottom plate I (4-1), the input motor (4-2) is connected with the upright rod V (4-28), an input motor (4-2) is connected with an input straight tooth (4-3), the input straight tooth (4-3) is connected with a meshing straight tooth (4-4), the meshing straight tooth (4-4) is connected with a bevel gear roller (4-5), the bevel gear roller (4-5) is connected with a vertical rod (4-28), a pulley shaft I (4-9) is connected with a vertical rod I (4-6), a driving rod I (4-10) is connected with the pulley shaft I (4-9), the driving rod I (4-10) is connected with a middle end slider (4-12), the middle end slider (4-12) is connected with a middle end adjusting rod I (4-11), the middle end adjusting rod I (4-11) is connected with a threaded rod I (4-26), the threaded rod I (4-26) is connected with the middle end slider (4-12), the rocker (4-14) is connected with a rectangular boss I (4-13), the rectangular boss I (4-13) is connected with a support rod I (4-15), the support rod I (4-15) is connected with the rocker (4-14), the support slide rod I (4-17) is connected with the support rod I (4-15), the tensioning slider I (4-16) is connected with the support slide rod I (4-17), the tensioning spring I (4-18) is connected with the support slide rod I (4-17), the tensioning spring II (4-19) is connected with the support slide rod I (4-17), the slider I (4-20) is connected with the support slide rod I (4-17), the meshing cone tooth I (4-21) is connected with the slider I (4-20), the meshing cone tooth I (4-21) is connected with a cone tooth roller (4-5), the middle-end transmission belt I (4-22) is connected with the sliding belt wheel I (4-23), the sliding belt wheel I (4-23) is connected with the support rod I (4-15), the sliding belt wheel I (4-23) is connected with the sliding rod I (4-24), the sliding rod belt wheel I (4-25) is connected with the sliding rod I (4-24), the middle-end transmission belt I (4-22) is connected with the tensioning slider I (4-16), the middle-end transmission belt I (4-22) is connected with the meshing conical tooth I (4-21), the sliding rod belt wheel I (4-25) is connected with the vertical rod IV (4-27), the driven push rod I (3-1) is connected with the vertical rod II (4-7), the vertical rod III (4-8) is connected with the driven push rod II (3-3), the sliding rod belt wheel I (4-25) is connected with the belt I (6), The second belt (7) is connected.