CN110963261A - Lifting machine structure with adjustable feeding hopper - Google Patents

Abstract

The invention discloses a lifting machine structure with an adjustable feeding hopper, which comprises a large-inclination-angle wavy rack, wherein the large-inclination-angle wavy rack is divided into an upper horizontal section, a slope lifting section and a lower horizontal section, a feeding mechanism is arranged right above the lower horizontal section, the feeding mechanism comprises a feeding hopper and an adjusting box, the bottom of the feeding hopper is communicated with the adjusting box, a hydraulic push rod is arranged at the top of the side wall of one end, away from the slope lifting section, of the adjusting box, an output shaft of the hydraulic push rod penetrates through the horizontal extension of the shell of the adjusting box to be welded inside a push plate, the push plate is slidably connected with a matched storage groove body, the storage groove body is correspondingly arranged at the outer periphery of an opening at the bottom of the feeding hopper and is welded and fixed with the top inside of the adjusting box, and a material guide assembly. The invention better meets the blanking condition required in grain production and processing by the adjustable function of the feeding hopper of the hoister, thereby improving the processing efficiency.

Description

Lifting machine structure with adjustable feeding hopper

Technical Field

The invention mainly relates to the technical field of elevators, in particular to an elevator structure with an adjustable feeding hopper.

Background

The hoist is large mechanical equipment for transportation by changing potential energy, such as a mine hoist, a dam-crossing hoist, a grain hoist and the like. And the hoister for processing the grain is equipment for assisting the processing of the grain products.

According to the raw materials lifting machine for carbon brick production that patent publication number is CN208429520U provides, contain the lifting machine upper segment in this lifting machine, the lifting machine is lower to be economized on, feed hopper, lifting machine support, the speed reducer wheel, main transfer gear, the transfer chain, from the driving wheel, the belt, it sets up a plurality of conveying and fights on the lifting machine transfer chain, avoid the raw materials unrestrained, and set up feed hopper at the lifting machine feed inlet, make the accurate lifting machine that gets into of raw materials, it can make the raw materials get into the lifting machine fast to set up the reciprocating pump on feed hopper.

From this it can be known that the feed hopper that the lifting machine in this patent document used does not possess adjustable function, carries out the material unloading in-process, can not carry out nimble control in the aspect of the even degree when carrying out unloading speed, unloading volume size and unloading for the transport function of lifting machine is comparatively single, can't satisfy the part in the course of working and promote the condition demand, has reduced machining efficiency.

Disclosure of Invention

The invention mainly provides a lifting machine structure with an adjustable feeding hopper, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a lifting machine structure with an adjustable feeding hopper comprises a large-inclination-angle wavy frame, wherein the large-inclination-angle wavy frame is divided into an upper horizontal section, a slope lifting section and a lower horizontal section, a feeding mechanism is arranged right above the lower horizontal section and comprises a feeding hopper and an adjusting box, the bottom of the feeding hopper is in through connection with the adjusting box, a hydraulic push rod is arranged at the top of the side wall at one end of the adjusting box far away from the slope lifting section, an output shaft of the hydraulic push rod penetrates through the horizontal extension of the shell of the adjusting box to the inside and is welded with a push plate, the push plate is in sliding connection with a matched storage groove body, the storage groove body is correspondingly arranged at the outer periphery of an opening at the bottom of the feeding hopper and is welded and fixed with the top in the adjusting box, a guide assembly is arranged at the lower end of the storage groove body and comprises, the utility model discloses a material arrangement groove box, including regulating box, material arrangement groove box, regulating box, baffle, screw cap dish, material arrangement groove box both ends are provided with pivot back shaft and regulation back shaft respectively, the pivot back shaft both ends are run through respectively regulating box both sides casing is the rotation through the bearing and connects, be close to in the material arrangement groove box the opening part of regulating back shaft one end equidistance side by side is provided with four division boards, just the regulating box both sides are kept away from pivot back shaft one end symmetry has seted up the arc regulation mouth, the regulation back shaft both ends are run through two respectively the arc regulation mouth is sliding connection, be equipped with the screw thread section on the outer wall of regulating back shaft one end head, other.

Preferably, there is vibrating motor one side of feed hopper bottom casing through the bolt, the vibrting spear is connected to vibrating motor one end, the vibrting spear runs through feed hopper bottom casing extends to the upper end of inside and has welded three vibration branch in proper order perpendicularly, just the vibrting spear with feed hopper bottom casing junction cover is equipped with rubber bush.

Preferably, one end of the adjusting support shaft, far away from the four partition plates, extends to a position right below the opening at the bottom of the feeding hopper, and the distance between the four partition plates, close to one end of the adjusting support shaft, is larger than the distance between the other ends of the four partition plates.

Preferably, the adjusting box is provided with an anti-slip strip around the opening edge near the outer side of the arc-shaped adjusting opening formed at one end of the positioning rotating wheel, and the inner side wall of the positioning rotating wheel is provided with an annular anti-slip strip corresponding to the anti-slip strip.

Preferably, the inside internal rack conveyer belt that transversely is provided with of big inclination wavy frame, internal rack conveyer belt surface equidistance in proper order is provided with the oblique angle baffle, just mesh respectively on the inner wall of internal rack conveyer belt both ends and is connected with and takes tooth turning roll and take tooth drive roller, take tooth turning roll and take tooth drive roller to be connected with gear motor and driving motor respectively, gear motor passes through the bolt fastening and is in on one side outer wall of lower horizontal segment head, driving motor passes through the bolt fastening and is in go up the horizontal segment head and keep away from on the outer wall of gear motor one side.

Preferably, the internal structure of the internal rack conveyor belt is sequentially divided into a polyurethane layer, a metal wire mesh layer and a heat-resistant rubber layer from outside to inside.

Preferably, one end of each of the upper horizontal section and the lower horizontal section, which is close to the slope lifting section, is provided with a conveying belt auxiliary assembly, each conveying belt auxiliary assembly comprises a group of lower transition rollers, an upper transition roller and a guide pinch roller, each group of the lower transition rollers, the upper transition rollers and the guide pinch rollers is provided with two, and two ends of each of the two lower transition rollers respectively penetrate through the side walls of the lower horizontal section and the slope lifting section, which are connected with the chamfer angles and are in rotating connection through bearings;

two ends of the two upper transition rollers respectively penetrate through the upper horizontal section and the side wall of the slope lifting section at the connection chamfer angle and are in rotary connection through a bearing;

two sets of direction pinch roller respectively the symmetry install in the lateral wall that lower horizontal segment and slope promote section connection chamfer leans on upper end position and last horizontal segment and slope to promote the lateral wall that section connection chamfer leans on lower extreme position and be through the bearing and rotate the connection, and per two the circumference wall of direction pinch roller respectively with the both sides surface edge of internal rack conveyer belt is the rotation contact.

Preferably, the bottom of the upper horizontal section and the bottom of the lower horizontal section are respectively provided with a first platform support frame and a second platform support frame.

Compared with the prior art, the invention has the beneficial effects that:

the bottom of the feeding funnel of the elevator is provided with the adjusting box, the size of a feeding hole at the bottom of the feeding funnel is limited by the sliding connection of the containing groove body and the push plate arranged in the adjusting box and the translational sliding of the push plate is controlled by the telescopic activity of the hydraulic push rod, so that the feeding amount and the feeding speed of the grain raw materials can be adjusted, the grain raw materials can fall into a material arranging groove box below the feeding hole after passing through the feeding hole, the grain raw materials are arranged and distributed by virtue of the intervals formed among the four partition plates in the material arranging groove box, the feeding state of the grain raw materials is more uniform when the grain raw materials slide on the elevator for conveying through the material arranging groove box, the two ends of the material arranging groove box are provided with the rotating support shaft and the adjusting support shaft, and the adjusting support shaft can slide in the two arc-shaped adjusting holes after the positioning rotating wheel at one end, the height of the discharging end of the material arranging groove box is adjusted, when the discharging end tends to be close to a horizontal state, the discharging speed and the discharging amount are further limited, the required discharging condition during grain production processing is better met, and therefore the processing efficiency is improved.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is an overall schematic view of the elevator of the present invention;

FIG. 2 is an enlarged view of area A of FIG. 1;

FIG. 3 is a sectional view showing the inner structure of a hopper and a conditioning tank according to the present invention;

FIG. 4 is an enlarged view of area B of FIG. 3;

FIG. 5 is a schematic view of the structure of the annular anti-slip strip on the inner side of the positioning wheel according to the present invention;

FIG. 6 is a cross-sectional view of the internal structure of a high dip corrugated rack of the present invention;

fig. 7 is a sectional view showing an internal constituent structure of the internal rack conveyor belt of the present invention.

Description of the drawings: 1. a large-dip-angle wave-shaped frame; 1a, an upper horizontal section; 1b, a slope lifting section; 1c, a lower horizontal segment; 11. a first platform support frame; 12. a second platform support frame; 2. a feeding mechanism; 21. a feed hopper; 22. a vibration motor; 22a, a vibrating rod; 22a-1, a vibrating strut; 22b, a rubber bushing; 23. an adjusting box; 23a, an arc-shaped adjusting opening; 23b, anti-skid stripes; 24. a hydraulic push rod; 24a, a push plate; 24b, a storage groove body; 25. a material guiding assembly; 25a, arranging a material box; 25a-1, a partition plate; 25b, a rotation support shaft; 25c, adjusting the supporting shaft; 25c-1, a threaded segment; 25c-2, a stop cap disc; 25d, positioning a rotating wheel; 25d-1, rotating the handle; 25d-2, annular anti-skid stripes; 3. an internal rack conveyor belt; 3a, a polyurethane layer; 3b, a wire mesh layer; 3c, a heat-resistant rubber layer; 31. an oblique angle baffle; 32. a change roller with teeth; 33. a toothed drive roller; 4. a reduction motor; 5. a drive motor; 6. a conveyor belt auxiliary assembly; 61. a lower transition roll; 62. an upper transition roll; 63. and (5) guiding the pressing wheel.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to the attached drawings 1-3, a lifting machine structure with an adjustable feeding hopper comprises a large-inclination-angle wavy rack 1, wherein the large-inclination-angle wavy rack 1 is divided into an upper horizontal section 1a, a slope lifting section 1b and a lower horizontal section 1c, the bottoms of the upper horizontal section 1a and the lower horizontal section 1c are respectively provided with a first platform support frame 11 and a second platform support frame 12, a feeding mechanism 2 is arranged right above the lower horizontal section 1c, the feeding mechanism 2 comprises a feeding hopper 21 and an adjusting box 23, the bottom of the feeding hopper 21 is communicated with the adjusting box 23, the top of the side wall of one end of the adjusting box 23 far away from the slope lifting section 1b is provided with a hydraulic push rod 24, the output shaft of the hydraulic push rod 24 penetrates through the shell of the adjusting box 23 and horizontally extends to the inside of the adjusting box 23 to be welded with a push plate 24a, and the push plate 24a is slidably connected with a, the storage trough body 24b is correspondingly arranged at the periphery of the bottom opening of the feeding hopper 21 and is welded and fixed with the top of the adjusting box 23, a material guide assembly 25 is arranged at the lower end of the storage trough body 24b, the material guide assembly 25 comprises a material arranging trough box 25a, a rotating support shaft 25b and an adjusting support shaft 25c are respectively arranged at two ends of the material arranging trough box 25a, two ends of the rotating support shaft 25b respectively penetrate through the shells at two sides of the adjusting box 23 and are rotatably connected through bearings, four partition plates 25a-1 are arranged at the opening close to one end of the adjusting support shaft 25c in the material arranging trough box 25a in parallel and equidistantly, one end of each partition plate 25a-1, which is far away from the adjusting support shaft 25c, extends to the position right below the bottom opening of the feeding hopper 21, and the distance between the four partition plates 25a-1, which is close to one end of the adjusting, arc-shaped adjusting openings 23a are symmetrically formed in one end, far away from the rotating support shaft 25b, of each of two sides of the adjusting box 23, two ends of the adjusting support shaft 25c penetrate through the two arc-shaped adjusting openings 23a and are in sliding connection, a threaded section 25c-1 is arranged on the outer wall of the head portion of one end of the adjusting support shaft 25c, a cap blocking disc 25c-2 is cast-welded to the head portion of the other end of the adjusting support shaft 25c, a positioning rotating wheel 25d is connected to the threaded section 25c-1 in a threaded mode, and a rotating handle 25d-1 is welded to the outer.

Referring to fig. 4, a vibration motor 22 is arranged on one side of the bottom shell of the feeding funnel 21 through a bolt, one end of the vibration motor 22 is connected with a vibration rod 22a, the vibration rod 22a penetrates through the upper end of the bottom shell of the feeding funnel 21, which extends to the inside, three vibration support rods 22a-1 are sequentially and vertically welded on the upper end of the bottom shell of the feeding funnel 21, and a rubber bushing 22b is sleeved at the joint of the vibration rod 22a and the bottom shell of the feeding funnel 21. In the embodiment, the vibrating rod 22a and the three vibrating struts 22a-1 are vibrated by the vibrating motor 22, so that the grain raw materials accumulated at the feeding port are prevented from being blocked, and the rubber bushing 22b is utilized to better avoid the contact friction with the shell at the bottom of the feeding hopper 21 when the vibrating rod 22a works.

Referring to fig. 2 and 5, an anti-slip stripe 23b is arranged on the adjusting box 23 at an outer side of an arc-shaped adjusting opening 23a formed at an end close to the positioning rotating wheel 25d and around an opening edge, and an annular anti-slip stripe 25d-2 is arranged on an inner side wall of the positioning rotating wheel 25d and corresponds to the anti-slip stripe 23 b. In the embodiment, the annular anti-skid stripe 25d-2 on the positioning rotating wheel 25d is contacted with the anti-skid stripe 23b outside the arc-shaped adjusting opening 23a during the rotation fastening, so that the friction force is increased, the fastening degree of the positioning rotating wheel 25d is maintained, and the positioning rotating wheel is not easy to loosen.

Referring to fig. 1 and 6, an inner rack conveyor belt 3 is transversely arranged inside the large-inclination-angle wavy rack 1, oblique angle baffles 31 are sequentially arranged on the outer surface of the inner rack conveyor belt 3 at equal intervals, a toothed turning roller 32 and a toothed driving roller 33 are respectively engaged and connected to the inner walls of the two ends of the inner rack conveyor belt 3, the toothed turning roller 32 and the toothed driving roller 33 are respectively connected with a reduction motor 4 and a driving motor 5, the reduction motor 4 is fixed on the outer wall of one side of the head of the lower horizontal section 1c through bolts, the driving motor 5 is fixed on the outer wall of one side, away from the reduction motor 4, of the head of the upper horizontal section 1a through bolts, conveyor belt auxiliary assemblies 6 are respectively arranged at one ends, close to the slope lifting section 1b, of the upper horizontal section 1a and the lower horizontal section 1c, and each conveyor belt auxiliary assembly 6, The two ends of the two lower transition rollers 61 penetrate through the side wall of the chamfer connected with the lower horizontal section 1a and the slope lifting section 1b respectively and are in rotary connection through a bearing, the two ends of the two upper transition rollers 62 penetrate through the side wall of the chamfer connected with the upper horizontal section 1a and the slope lifting section 1b respectively and are in rotary connection through a bearing, the two groups of guide pinch rollers 63 are symmetrically arranged on the side wall of the chamfer connected with the lower horizontal section 1c and the slope lifting section 1b respectively and lean against the lower end position and the side wall of the chamfer connected with the upper horizontal section 1a and the slope lifting section 1b lean against the lower end position and are in rotary connection through a bearing, and the circumferential walls of every two guide pinch rollers 63 are respectively in rotating contact with the outer surface edges of the two sides of the inner rack conveyor belt 3. In the embodiment, the driving motor 5 drives the toothed driving roller 33 to rotate, so that the inner rack conveyor belt 3 and the toothed direction changing roller 32 at the other end synchronously rotate, the toothed turning roller 32 utilizes the speed reducing motor 4 to better control the moving speed of the inner rack conveyor belt 3, keeps moving in a uniform speed state, after the grain raw materials fall on the internal rack conveyor belt 3, the grain raw materials are divided and blocked by a plurality of bevel angle baffles 31 which are sequentially arranged at equal intervals, so as to keep the grain raw material from falling down when the inner rack conveying belt 3 moves on the slope lifting section 1b, and two lower transition rollers 61 and upper transition rollers 62 are also utilized to change the support of the moving direction during the load moving process of the internal rack conveyor belt 3, at the switching position of the upper direction and the lower direction, the inner rack conveyor belt 3 is limited not to be separated from the meshing connection of the two lower transition rollers 61 and the upper transition rollers 62 through the two groups of guide press wheels 63 respectively.

Referring to fig. 7, the inner structure of the inner rack conveyor belt 3 is divided into a polyurethane layer 3a, a wire mesh layer 3b and a heat-resistant rubber layer 3c from outside to inside in sequence. In this embodiment, the outer surface of the inner rack conveyor belt 3 can transport food materials such as grains through the environmental protection characteristic of the polyurethane layer 3a, and the heat-resistant rubber layer 3c on the inner surface can keep good hardness to the generated friction and heat when moving under load, so that the phenomenon of slipping caused by softening by heating is avoided, and the metal wire mesh layer 3b on the interlayer enables the strength of the whole inner rack conveyor belt 3 to be better improved, so that the stress capacity is stronger.

The specific process of the invention is as follows:

firstly, grain raw materials are introduced from the top of a feeding funnel 21 by a processing person, the grain raw materials drive an internal vibrating rod 22a and three vibrating support rods 22a-1 to vibrate through a vibrating motor 22 at the bottom of the feeding funnel 21, so that the grain raw materials can smoothly fall onto a material arrangement groove box 25a from a feed opening formed by a push plate 24a in an open state, a hydraulic push rod 24 is started to stretch and retract to adjust the size of the sliding adjustable feed opening of the push plate 24a in a storage groove body 24b, the grain raw materials are uniformly spread and arranged by four partition plates 25a-1 and then slide onto an inner rack conveying belt 3 from a plurality of intervals, the processing person can hold a rotating handle 25d-1 on a positioning rotating wheel 25d to drive the positioning rotating wheel 25d to realize loosening or fastening operation on a threaded section 25c-1 at one end of an adjusting support shaft 25c, adjusting the blanking angle of a material sorting groove box 25a, dividing and blocking grain raw materials on an inner rack conveying belt 3 by means of a plurality of bevel angle baffles 31 which are sequentially arranged at equal intervals, respectively synchronously driving a toothed turning roller 32 and a toothed driving roller 33 to rotate by starting a speed reduction motor 4 and a driving motor 5 to realize the uniform movement of the inner rack conveying belt 3, climbing the grain raw materials from a lower horizontal section 1c to an upper horizontal section 1a through a slope lifting section 1b, carrying out support for changing the movement direction by using two lower transition rollers 61 and an upper transition roller 62 at the position where the upper direction and the lower direction are changed in the uniform movement process of the inner rack conveying belt 3, respectively limiting the inner rack conveying belt 3 from being separated from being connected with the two lower transition rollers 61 and the upper transition roller 62 in a meshing way through two groups of guide press wheels 63, and finally unloading the grain raw materials from the head part at the position of the upper horizontal section 1a, and finishing the work of lifting and conveying.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (8)

1. The utility model provides a lifting machine structure with adjustable feeding hopper, includes big inclination wavy frame (1), its characterized in that, big inclination wavy frame (1) divide into upper horizontal segment (1 a), slope promotion section (1 b) and lower horizontal segment (1 c), be provided with feed mechanism (2) directly over lower horizontal segment (1 c), feed mechanism (2) are including feed hopper (21) and adjusting box (23), feed hopper (21) bottom with adjusting box (23) through connection, adjusting box (23) are kept away from the lateral wall top of slope promotion section (1 b) one end and are installed hydraulic push rod (24), hydraulic push rod (24) output shaft runs through adjusting box (23) casing level has push pedal (24 a) to the inside welding, push pedal (24 a) sliding connection has assorted storage tank body (24 b), the storage tank body (24 b) is correspondingly arranged at the periphery of the bottom opening of the feeding hopper (21) and is welded and fixed with the inner top of the adjusting box (23), a guide assembly (25) is arranged at the lower end of the storage tank body (24 b), the guide assembly (25) comprises a material arranging tank box (25 a), two ends of the material arranging tank box (25 a) are respectively provided with a rotating support shaft (25 b) and an adjusting support shaft (25 c), two ends of the rotating support shaft (25 b) respectively penetrate through the shells at two sides of the adjusting box (23) and are in rotating connection through bearings, four partition plates (25 a-1) are arranged at the opening close to one end of the adjusting support shaft (25 c) in the material arranging tank box (25 a) in parallel and in equal distance, two sides of the adjusting box (23) are far away from one end of the rotating support shaft (25 b), and arc-shaped adjusting openings (23 a) are, two arc regulation mouths (23 a) are respectively run through at regulation back shaft (25 c) both ends and are sliding connection, be equipped with screw thread section (25 c-1) on regulation back shaft (25 c) one end head outer wall, other end head cast joint has fender cap dish (25 c-2), threaded connection has location runner (25 d) on screw thread section (25 c-1), it has commentaries on classics handle (25 d-1) to be close to the edge welding on location runner (25 d) lateral wall.

2. The lifting machine structure with adjustable feeding hopper as claimed in claim 1, characterized in that there is vibrating motor (22) one side of the bottom shell of the feeding hopper (21) through the bolt, vibrating rod (22 a) is connected to one end of the vibrating motor (22), three vibrating struts (22 a-1) are welded vertically in proper order to penetrate through the upper end of the bottom shell of the feeding hopper (21) extending to the inside, and rubber bushing (22 b) is sleeved at the joint of the vibrating rod (22 a) and the bottom shell of the feeding hopper (21).

3. A feed hopper adjustable elevator structure as claimed in claim 1, wherein one end of four said partition plates (25 a-1) remote from said adjusting support shaft (25 c) extends to a position vertically below the bottom opening of said feed hopper (21), and the distance between one ends of four said partition plates (25 a-1) near said adjusting support shaft (25 c) is larger than that between the other ends.

4. The lifting machine structure with the adjustable feeding hopper as claimed in claim 1, characterized in that the outer side of the arc-shaped adjusting opening (23 a) formed in the adjusting box (23) near one end of the positioning rotating wheel (25 d) is provided with an anti-slip strip (23 b) around the opening edge, and the inner side wall of the positioning rotating wheel (25 d) is provided with an annular anti-slip strip (25 d-2) corresponding to the anti-slip strip (23 b).

5. The lifting machine structure with adjustable feeding hopper of claim 1, characterized in that, the inside internal tooth rack conveyer belt (3) that transversely is provided with of steep wavy frame (1), internal tooth rack conveyer belt (3) surface is provided with oblique angle baffle (31) in proper order equidistance, just be connected with on the inner wall of internal tooth rack conveyer belt (3) both ends respectively the meshing take tooth turning roll (32) and take tooth drive roller (33), take tooth turning roll (32) and take tooth drive roller (33) to be connected with gear motor (4) and driving motor (5) respectively, gear motor (4) are fixed in through the bolt on the outer wall of one side of lower horizontal segment (1 c) head, driving motor (5) are through the bolt fastening in go up horizontal segment (1 a) head and keep away from on the outer wall of gear motor (4) one side.

6. The structure of the elevator with adjustable feeding hopper as claimed in claim 5, characterized in that the internal structure of the internal rack conveyor belt (3) is divided into a polyurethane layer (3 a), a wire mesh layer (3 b) and a heat-resistant rubber layer (3 c) from outside to inside in sequence.

7. The lifting machine structure with the adjustable feeding hopper as recited in claim 5, wherein a conveying belt auxiliary assembly (6) is respectively disposed at one end of the upper horizontal section (1 a) and the lower horizontal section (1 c) close to the slope lifting section (1 b), the conveying belt auxiliary assembly (6) comprises a set of lower transition rollers (61), an upper transition roller (62) and two sets of guide pinch rollers (63), two lower transition rollers (61), two upper transition rollers (62) and two guide pinch rollers (63) are respectively disposed in each set, and two ends of the two lower transition rollers (61) respectively penetrate through the side walls of the connecting chamfer of the lower horizontal section (1 c) and the slope lifting section (1 b) and are rotatably connected through bearings;

two ends of the two upper transition rollers (62) respectively penetrate through the side walls of the connection chamfer of the upper horizontal section (1 a) and the slope lifting section (1 b) and are in rotary connection through bearings;

two sets of direction pinch roller (63) symmetry respectively install in the lateral wall that lower horizontal segment (1 c) and slope promotion section (1 b) are connected the chamfer department leans on upper end position and last horizontal segment (1 a) and slope promotion section (1 b) to connect the lateral wall of chamfer department and lean on lower extreme position and be the rotation through the bearing and connect, and per two the circumference wall of direction pinch roller (63) respectively with the both sides surface edge of internal rack conveyer belt (3) is the rotation contact.

8. A lifting machine structure with adjustable feeding hopper as claimed in claim 7, characterized in that the bottom of the upper horizontal section (1 a) and the lower horizontal section (1 c) are respectively provided with a first platform support frame (11) and a second platform support frame (12).

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