CN215853369U - Continuous non-crushing elevator - Google Patents

Abstract

The continuous non-crushing hoister has the advantages that the existing hoister can achieve the purpose of conveying materials with good scattering property and small hardness such as grains through secondary digging, but cannot achieve continuous loading and vertical hoisting for materials with large hardness, large particles such as gravels and coal and the like without a method for achieving secondary digging. Continuous type does not have broken lifting machine, its constitution includes: the organism, install sprocket head wheel and sprocket tail wheel on the organism, sprocket head wheel with sprocket tail wheel pass through annular conveyor and connect, annular conveyor include a set of endless chain of taking the bracket with install the bracket on the annular conveyer trough, the both sides of annular conveyer trough flange has, the annular conveyer trough on install the striker plate, prevent during the vertical lift that the material from dropping. The product is used for horizontal and vertical lifting of materials.

Description

Continuous non-crushing elevator

Technical Field

The utility model relates to a material vertical lifting device which can be widely applied to the fields of grains, coal, non-coal mines, environmental protection and the like.

Background

The traditional material vertical lifting equipment mainly comprises a bucket type lifting machine, the buckets are mounted on a bucket belt or a chain at intervals, when materials are loaded, the materials cannot be loaded into the buckets once, about half of the materials can fall into a lifting machine body and are dug up by the bucket for the second time, the materials are broken greatly, and more power is consumed.

The aim of conveying materials such as grains and the like with good scattering property and small hardness can be achieved through secondary digging, but materials such as gravels, coal and the like with large hardness and large particles cannot be dug secondarily at all, continuous loading and vertical lifting cannot be achieved, only a method of single-bucket loading and lifting can be adopted, and the efficiency is very low.

And the bucket elevator is characterized in that buckets are arranged on the annular bucket belt at intervals, materials are put into the bucket from the feeding port during work, the materials entering the buckets are driven by the bucket belt to move upwards to lift the materials to a required height, and the materials turn at the head wheel and are then unloaded.

Disclosure of Invention

The utility model provides large-scale lifting equipment which can continuously load and has low energy consumption and can lift mineral materials with large hardness and large particles.

The purpose of the utility model is realized as follows:

continuous type does not have broken lifting machine, its constitution includes: the organism, install sprocket head wheel and sprocket tail wheel on the organism, sprocket head wheel with sprocket tail wheel pass through annular conveyor and connect, annular conveyor include a set of endless chain of taking the bracket with install the bracket on the annular conveyer trough, the both sides of annular conveyer trough flange has, the annular conveyer trough on install the striker plate, prevent during the vertical lift that the material from dropping.

The continuous type does not have broken lifting machine, annular conveyer trough include integration annular conveyer trough or combination formula annular conveyer trough, combination formula annular conveyer trough connect through zero clearance plugging device by a set of transport cell body and form, the bracket include L type bracket or vertical bracket or the type bracket of remaining silent.

The continuous non-crushing elevator is characterized in that the annular conveying device comprises a feeding section annular conveying device and a vertical lifting section annular conveying device, the feeding section annular conveying device is converted into the vertical lifting section annular conveying device through a steering track or a steering chain wheel, and the feeding section annular conveying device is horizontally arranged or obliquely arranged.

The continuous non-crushing elevator is characterized in that the integrated annular conveying groove is fixed on the brackets through connecting pieces, or the brackets on two sides are connected through the supporting beams, and the integrated annular conveying groove is fixed on the supporting beams through the connecting pieces.

The continuous type does not have broken lifting machine, integration annular conveyer trough including have the flange rubber conveyer trough, PVC conveyer trough, polyurethane conveyer trough or the nylon conveyer trough, the bearing beam include angle steel bearing beam or channel-section steel bearing beam or dull and stereotyped bearing beam, the flange include shirt rim formula flange or take the flange of open-ended flange or overlap joint formation.

The continuous non-crushing hoister is characterized in that the conveying groove body comprises a conveying groove body with a trapezoidal or U-shaped section, the material baffle is arranged on the conveying groove body, and the bottom of the conveying groove body or the left end and the right end of the conveying groove body are connected with the bracket.

The continuous non-crushing elevator is characterized in that the gapless plugging device comprises a skirt edge plugging device or an elastic plugging device or an overlapping plugging device or a contact plugging device or a socket contact plugging device, and the insertion end of the socket contact plugging device is an insertion groove formed by extending the conveying groove body.

The height of the striker plate corresponds to the distance between the striker plates, and the height of the striker plate is 30-250mm when the distance between the striker plates is 50-200 mm; the height of the material baffle is 130-350mm when the distance between the material baffle is 200-300 mm; the height of the material baffle is 270-600mm when the distance between the material baffle is 300-450 mm; when the distance between the material baffle plates is 450mm and 750mm, the height of the material baffle plates is 420 mm and 900mm, each material baffle plate comprises a lifting section material baffle plate and a blocking section material baffle plate, the lifting section material baffle plate is perpendicular to the bottom surface of the annular conveying groove, and the included angle between the blocking section material baffle plate and the lifting section material baffle plate is 90-160 degrees.

The bottom surface of the integrated annular conveying groove is positioned on the inner side of an annular formed by connecting lines of the centers of chain shafts of the annular chains, and the perimeter of the bottom surface of the integrated annular conveying groove is smaller than or equal to the perimeter of the annular formed by connecting lines of the centers of the chain shafts.

Continuous type do not have broken lifting machine, when lifting height is higher drive sprocket with driven sprocket between have power auxiliary sprocket, the striker plate be combined type striker plate, the striker plate main part be the steel sheet, the limit portion of steel sheet has the macromolecular material to bordure, promotion section annular conveyor connect horizontal segment or slope section annular conveyor.

Has the advantages that:

1. the vertical lifting equipment used in industry mainly comprises a bucket elevator, and the working principle of the bucket elevator is as follows: the material entering the dustpan is lifted to a required height under the driving of the upward operation of the dustpan belt, and the material is turned at a head wheel and then unloaded. The bucket elevator has the advantages that the buckets are arranged at intervals, the spare positions among the buckets cannot be used for loading materials, and the transportation efficiency is low. The continuous non-crushing hoister has the advantages of continuous loading of materials in the annular conveying groove without dead angles, high loading and cutting efficiency and high equipment yield.

2. Traditional lifting machine material gets into from the feed inlet, and only the material part enters into the winnowing pan, and the material that has about half in addition can drop to the bottom of the body, and the material digs it when the return stroke winnowing pan moves the lifting machine bottom, digs and gets the process impact great, increases the breakage, increases the energy consumption simultaneously. The material baffle plate is arranged on the bottom surface of the annular conveying groove, the flanges are arranged on two sides of the annular conveying groove, and the annular conveying groove and the flanges are connected into a continuous charging structure, so that the material is fully loaded, the crushing rate of the material is greatly reduced, and the energy consumption is reduced.

3. The annular conveying device consists of an annular chain with flexible turning and a light annular conveying groove arranged on the annular chain, and the diameters of the head and tail wheels can be greatly reduced due to the flexible turning, so that the overall size of the whole machine body is reduced, and the manufacturing cost is reduced. Meanwhile, as the diameter of the head pulley is smaller, the striker plate of the annular conveying groove forms an opening structure with a larger opening at the position of the head pulley, so that the discharging is facilitated. Because it is effectual to unload, can design into closely spaced with the striker plate, improve the material and fill the coefficient. The head wheel has small diameter, the skirt-shaped flanges are fully unfolded, and the material is not easy to clamp.

4. The main body of the utility model for bearing the pulling force is the chain, the annular conveying groove only bears the function of loading materials, the material for manufacturing the annular conveying groove does not need to bear the pulling force, the annular conveying groove can be manufactured into light type, the manufacturing cost is low, and meanwhile, the relatively thin material is convenient for turning. The chain is provided with the bracket, so that the installation of the annular conveying groove is facilitated.

5. When the conveying trough with the flanges turns inwards, namely turns to an inclined position from a horizontal position, the skirt at the upper part of the annular conveying trough is in a compressed state, a larger conversion angle is generally required during conversion, and the higher the flanges are, the larger the conversion angle is required. According to different heights of the flanges, the lower flange generally needs a conversion diameter of about 0.5m, the higher flange generally needs a conversion diameter of several meters, and the conversion diameter is too large and cannot be realized by depending on a steering wheel. The annular conveying device comprises a group of annular chains with brackets and an annular conveying groove arranged on the brackets, and can steer by depending on a steering track for large-diameter conversion requirements, and the turning radius of the steering track is not limited. And the traditional skirt edge belt conveying equipment cannot use a rail bending rail, so that the height of the flange is limited, and only the skirt edge with smaller height can be used, thereby influencing the yield.

6. The annular conveying groove comprises an integrated annular conveying groove or a combined annular conveying groove, can be used for different materials, and can be used for improving loose materials due to low requirement on the strength of the groove body. The combined annular conveying trough is formed by connecting a group of trough-shaped conveying trough bodies through a gapless plugging device, and the baffle plate is arranged on the conveying trough bodies, so that the baffle plate and the conveying trough bodies form an integrated standard structure, the combined annular conveying trough is convenient to manufacture and install, and is suitable for lifting mineral raw materials such as large-particle hard sandstone coal and the like.

7. The traditional bucket elevator only has a vertical lifting section, materials cannot be completely loaded into the bucket, about half of the materials can fall into the elevator body and are dug up by the second time, the materials are broken greatly, and more power is consumed. The aim of conveying materials such as grains and the like with good scattering property, small hardness and small particles can be achieved by secondary digging, but for materials such as sandstone and coal with poor fluidity, the materials cannot be dug by a traditional hoister with larger hardness, continuous loading and vertical lifting cannot be realized, only a method of single-bucket loading and lifting can be adopted, and the efficiency is very low. The annular conveying device comprises a feeding section annular conveying device and a vertical lifting section annular conveying device, wherein the feeding section annular conveying device is horizontally or obliquely arranged, materials in the feeding structure flow but fall into a space partitioned by adjacent baffle plates, the materials cannot fall into the outer side of the annular conveying groove, and 100% loading of the materials is thoroughly realized. So that the materials such as sand, stone, coal and the like with poor fluidity and high hardness can be continuously and vertically lifted. The damage rate of the existing hoister to grains is generally about 1 percent, which causes grain loss. The grain yield of China is 6.5 hundred million tons every year, and 325 million tons of grains can be saved if half of the grains are conveyed by the rolling friction conveyor for transportation, and the saving effect is remarkable. Continuous lifting equipment is not available in the coal industry so far, the utility model can supplement the blank of the coal continuous lifting equipment, and the coal mining cost is reduced.

8. The bracket of the utility model comprises an L-shaped bracket or a vertical bracket or an inverted U-shaped bracket, which can be selected according to different requirements. During vertical lifting, two side edges of the inverted-U-shaped bracket are fixed on the chain shaft, the supporting effect is strong, when the conveying amount is large or when heavier mineral raw materials such as coal, sand and stone are conveyed, the top of the inverted-U-shaped bracket and the bottom of the conveying box are fixed together, and the inverted-U-shaped bracket can provide larger bearing capacity to complete the work. The vertical face bracket is simple to manufacture, can be arranged on the side face of the conveying groove for a conveyor with small conveying amount, and is simple in structure and easy to process. When the conveying capacity is medium or the conveying is needed to turn, the L-shaped bracket is suitable for being adopted, the conveying groove and the chain roller can form a certain distance by the L-shaped bracket, and no obstacle exists when the chain turns.

9. The feeding section annular conveying device can be converted into a vertical lifting section annular conveying device through a steering track or a steering chain wheel. According to the steering track, the bending half-diameter of the steering track can be in a range from 0.2 meter to several meters, and the steering track is suitable for an annular conveying groove with a higher flange height. For endless conveyor troughs with higher speeds and less high rib heights, a steering sprocket may be used.

10. The bracket is provided with the connecting hole, and the integrated annular conveying groove can be conveniently fixed on the bracket. The utility model can connect the brackets at two sides into a whole through the supporting beam to form a firm bearing structure, and the integrated annular conveying groove is fixed on the supporting beam through the connecting piece. The striker plate is fixed on the bearing beam through the connecting bolt, so that the bearing beam is stressed clearly and has a stable structure.

11. The integrated annular conveying groove can be made of various materials for different working conditions, and comprises a rubber conveying groove with the flanges, a PVC conveying groove, a polyurethane conveying groove or a nylon conveying groove. The bearing beam comprises an angle steel bearing beam or a channel steel bearing beam or a flat plate bearing beam, and is simple in structure and easy for batch production. The flanges comprise skirt type flanges or flanges with openings or flanges formed by overlapping, and can be selected and used according to different materials.

12. Long-term tests show that the reasonable corresponding relation between the height of the striker plate and the distance between the striker plates is summarized. The striker plate comprises a lifting section striker plate and a blocking section striker plate, wherein the lifting section striker plate is vertical to the bottom surface, and when the lifting section striker plate is lifted vertically, the lifting section striker plate can lift materials and can load the materials to the maximum extent. The included angle between the blocking section material baffle plate and the lifting section material baffle plate is 90-150 degrees, so that materials can be blocked when the material baffle plate is lifted vertically, and the materials are prevented from falling.

13. The bottom surface of the integrated annular conveying groove is positioned on the inner side of an annular formed by connecting lines of the centers of the chain shafts of the annular chain, the perimeter of the bottom surface of the integrated annular conveying groove is less than or equal to the perimeter of the annular formed by connecting lines of the centers of the chain shafts, and the turning obstacle caused by a polygon formed by connecting lines of the chain shafts can be overcome during operation.

14. When the lifting height is higher, the power auxiliary chain wheel is arranged between the driving chain wheel and the driven chain wheel, so that the power of the middle position can be increased, and the requirement on the tension of the chain is reduced. The striker plate can also be made into a composite striker plate, the main body of the striker plate is a steel plate, and the edge of the steel plate is wrapped by a high polymer material, so that the wear resistance is enhanced, and the crushing rate generated by impact is reduced.

15. Traditional lifting machine can only hoist perpendicularly when carrying material, and the lifting machine promotes grain to the storehouse top when grain is put into storage, then grain gets into the belt feeder and transports grain into storage by the belt feeder, needs two equipment, and the elephant trunk still need be used in the equipment room linking, and the energy consumption is high, and the cost is also high. The rolling elevator can run in a turning way, the lifting section annular conveying device can turn to form a connecting horizontal section or inclined section annular conveying device, and the aim of warehousing grains can be achieved through one working procedure when the grains are warehoused. The belt conveyor is omitted, and the grain breakage rate is greatly reduced.

16. The annular conveying groove with the wavy annular flanges can make the opening width of the upper opening larger than that of the bottom edge, and can well solve the problems of incomplete head discharging and material reversing. The corrugation of the corrugated annular rib can incline forwards, and materials can be prevented from falling from the skirt edge when the corrugated annular rib is inclined and lifted vertically.

17. According to the combined annular conveying trough, the gapless plugging device is arranged between the conveying trough bodies, so that no gap for falling the materials into the trough bodies exists between the trough bodies in the material conveying process of the conveying trough bodies, and the normal completion of the conveying operation is ensured. The structure is simple, the front and the rear plugs of the conveying hopper are omitted, the accident rate is low, and the yield is high. The gapless plugging device comprises an elastic plugging device and a folding plugging device, the two plugging devices can realize seamless connection when being connected with the conveying grooves, no material falls into gaps during normal conveying, no opening is formed between the conveying grooves during turning, and the gapless plugging device is very suitable for conveying powder or a mixture of the powder and particles or a conveyor needing turning during conveying. According to the lap joint plugging device or the top contact device or the socket contact type plugging device, although a tiny gap exists between the conveying groove bodies, powdery materials are easy to leak; the conveying grooves are provided with openings during turning, so that the conveying grooves are not suitable for turning, but the structure is simple, the manufacturing cost is low, and the conveying grooves are suitable for conveying pure particles and materials which do not need to turn during the conveying process. The insertion end of the socket contact type plugging device is an insertion groove formed by extending the conveying groove, the manufacturing is simple, and no accident is caused during working.

18. The conveying trough has the advantages that the transverse bearing beams are arranged at the bottom of the conveying trough, and the vertical anti-bending columns are arranged on the two side faces of the conveying trough, so that the pressure can be overcome by adopting thinner materials during the manufacturing of the conveying trough, the weight of the conveying trough is reduced, the cost is reduced, the phenomenon that the conveying trough is too heavy, the conveying energy consumption is increased, and useless work is done is avoided. The conveying trough body equipment with the trapezoidal section can be vertically stacked during delivery, so that the delivery volume is reduced. When the volume weight of the material is larger, the U-shaped conveying groove is used, so that the risk of deformation of the conveying groove can be reduced.

19. The folding plugging device is a trapezoidal or U-shaped plugging device, the front end and the rear end of the trapezoidal or U-shaped plugging device are respectively and correspondingly connected with the trapezoidal or U-shaped conveying groove, the shapes of the plugging devices are identical, and the plugging devices are easy to connect. The folding and plugging device can be skirt-shaped, wave-shaped or pi-shaped, and is very flexible to manufacture. The pleated occlusion device expands to a slightly expanded dumbbell shape in the middle, which is not more than partially folded.

20. Traditional lifting means, in order to increase the intensity of casing, often all adopt the material thickness who increases the curb plate, this kind of mode increase cost, extravagant material. The two side surfaces of the middle machine body are polygonal side plates formed by cold bending of steel plates, the side plates on each side comprise more than 5 right angles, the side plates on the two sides are connected through the connecting rods, the geometric shapes of the side plates are changed, the connection of the rod pieces enables the side plates to greatly enhance the integral structural strength of the machine body while reducing the material use, the use is more stable and reliable, meanwhile, the polygonal side plates can be produced in batch through a production line, the production efficiency is improved, and the machine body manufacturing cost is greatly reduced.

21. The diameter of the roller of the chain is larger than the width of the chain sheet, the requirement on the track is not high, the chain can be used only by a plane whole working surface, and the special track is not needed. The roller of the chain comprises a roller with a flange, and when the machine body is manufactured to have deviation, the roller of the chain can be limited to run in the track without deviation. Because the power transmission process overlength increases the chain atress load during long distance transport, sets up power auxiliary sprocket between drive sprocket and driven sprocket, can make the chain atress balanced, reduces the emergence of accident. The rail comprises a flat rail, a profile steel rail or a concave rail, and can be used under different conditions of different tension, level or turning, use working conditions and the like.

22. The position of the turning track can be adjusted up, down, left and right, so that the track and the chain roller are accurately matched, and the defects caused by large machine body structure and difficulty in meeting the requirement on manufacturing precision are overcome. The chain pitch of 38-280 mm is suitable for conveying materials such as powdery fine powder with small output quantity, and is also suitable for conveying large-scale materials such as coal mines and non-coal mines.

Description of the drawings:

FIG. 1 is a schematic structural diagram of a main body of the continuous non-crushing hoister (with an integrated annular conveying groove);

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of section A-A of FIG. 1;

FIG. 4 is an enlarged schematic view of section a of FIG. 1;

FIG. 5 is an enlarged schematic view of section b of FIG. 1;

FIG. 6 is an enlarged schematic view at c of FIG. 3;

FIG. 7 is a schematic cross-sectional view B-B of FIG. 5;

FIG. 8 is a schematic structural diagram of a main body of the continuous non-crushing elevator with the combined annular conveying groove;

FIG. 9 is a top view of FIG. 8;

FIG. 10 is a schematic cross-sectional view taken along line C-C of FIG. 8;

FIG. 11 is an enlarged schematic view of section d of FIG. 8;

FIG. 12 is a schematic view from D-D of FIG. 11;

fig. 13 is a schematic view of a turning elevator;

FIG. 14 is a schematic view of a vertical hoist with power-assisted wheels;

FIG. 15 is a schematic view of the power-assisted wheel mounting of the integrated annular conveying trough;

FIG. 16 is a top view of FIG. 15;

FIG. 17 is a schematic view of the structure of a conveying trough;

fig. 18 is a left side view of fig. 17.

The specific implementation mode is as follows:

example 1:

continuous type does not have broken lifting machine, its constitution includes: organism 1 installs organism 1 on sprocket head wheel 11 and sprocket tail wheel 12, sprocket head wheel 11 with sprocket tail wheel 12 connect through annular conveyor 2, annular conveyor 2 include a set of endless chain 3 of taking bracket 31 and install bracket 31 on annular conveyer trough 4, the both sides of annular conveyer trough 4 flange 41 has, annular conveyer trough on install striker plate 5, prevent that the material from dropping when lifting perpendicularly, drive sprocket link actuating mechanism 17.

Example 2:

the continuous non-breaking hoister in embodiment 1, the ring-shaped conveying groove 4 comprises an integrated ring-shaped conveying groove 6 or a combined ring-shaped conveying groove 7, the combined ring-shaped conveying groove is formed by connecting a group of conveying groove bodies 71 through a gapless plugging device 72, and the bracket comprises an L-shaped bracket or a vertical bracket or a n-shaped bracket.

Example 3:

the continuous non-crushing elevator of embodiment 2, the endless conveyor 2 comprises a feeding section endless conveyor 21 and a vertical lifting section endless conveyor 22, the feeding section endless conveyor 21 is changed into the vertical lifting section endless conveyor 22 by a turning track 13 or a turning chain wheel 14, and the feeding section endless conveyor is arranged horizontally or obliquely.

Example 4:

in the continuous non-crushing elevator of embodiment 2, the integrated annular conveying trough is fixed on the bracket 31 through a connecting piece, or the brackets 31 on both sides are connected through a supporting beam 32, and the integrated annular conveying trough is fixed on the supporting beam 32 through a connecting piece.

Example 5:

the continuous non-crushing elevator in embodiment 2, the integrated annular conveying groove 6 includes a rubber conveying groove, a PVC conveying groove, a polyurethane conveying groove or a nylon conveying groove with the rib, the support beam 32 includes an angle steel support beam or a channel steel support beam or a flat plate support beam, and the rib 41 includes a skirt type rib or a rib with an opening or a rib formed by overlapping.

Example 6:

the continuous non-crushing hoister in embodiment 2 is characterized in that the conveying trough body 71 comprises a conveying trough body with a trapezoidal or U-shaped cross section, the material baffle is arranged on the conveying trough body 71, and the bottom of the conveying trough body or the left end and the right end of the conveying trough body are connected with the bracket 31.

Example 7:

in the continuous non-crushing elevator of embodiment 2 or 6, the gapless plugging device 72 includes a skirt plugging device, an elastic plugging device, an overlapping plugging device, a contact plugging device, or a socket contact plugging device, and an insertion end of the socket contact plugging device is an insertion groove formed by extending the conveying trough body.

Example 8:

the continuous non-crushing elevator in the embodiment 1, 2, 3, 4, 5, 6 or 7, wherein the height of the striker plate 5 corresponds to the distance between the striker plates 5, and the height of the striker plate is 30-2050mm when the distance between the striker plates is 50-200 mm; the height of the material baffle is 130-350mm when the distance between the material baffle is 200-300 mm; the height of the material baffle is 270-600mm when the distance between the material baffle is 300-450 mm; the height of the material baffle is 420-900mm when the distance between the material baffle is 450-750mm, the material baffle 5 comprises a lifting section material baffle 51 and a blocking section material baffle 52, the lifting section material baffle 51 is perpendicular to the bottom surface of the annular conveying groove, and the included angle between the blocking section material baffle 52 and the lifting section material baffle is 90-160 degrees.

Example 9:

the continuous non-crushing hoist of embodiment 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8, wherein the bottom surface of the integrated annular conveying groove 6 is located inside an annular shape formed by a connecting line of the centers of the chain shafts of the endless chains, and the circumference of the bottom surface of the integrated annular conveying groove 6 is less than or equal to the circumference of the annular shape formed by the connecting line of the centers of the chain shafts.

Example 10:

embodiment 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9 the continuous type does not have broken lifting machine, when the lifting height is higher the drive sprocket with driven sprocket between have power auxiliary sprocket 15, striker plate 5 be combined type striker plate, the striker plate main part be the steel sheet, the limit portion of steel sheet has the macromolecular material to bordure, lifting section annular conveyor connect horizontal segment or inclined section annular conveyor 23.

Claims (9)

1. A continuous non-crushing elevator, which comprises the following components: the organism, install sprocket head wheel and sprocket tail wheel on the organism, characterized by: sprocket head wheel with sprocket tail wheel pass through annular conveyor and connect, annular conveyor include a set of endless chain of taking the bracket with install the bracket on the annular conveyer trough, the both sides of annular conveyer trough flange has, the annular conveyer trough on install the striker plate, prevent during the vertical lift that the material from dropping.

2. The continuous non-fragmenting hoist as claimed in claim 1, characterized in that: the annular conveying groove comprises an integrated annular conveying groove or a combined annular conveying groove, the combined annular conveying groove is formed by connecting a group of conveying groove bodies through a gapless plugging device, and the bracket comprises an L-shaped bracket or a vertical bracket or an inverted U-shaped bracket.

3. A continuous non-disintegrating elevator as claimed in claim 1 or 2, characterized in that: the annular conveying device comprises a feeding section annular conveying device and a vertical lifting section annular conveying device, the feeding section annular conveying device is converted into the vertical lifting section annular conveying device through a steering track or a steering chain wheel, and the feeding section annular conveying device is horizontally arranged or obliquely arranged.

4. The continuous non-fragmenting hoist as claimed in claim 2, characterized in that: the integrated annular conveying groove is fixed on the bracket through a connecting piece, or the brackets on two sides are connected through a supporting beam, and the integrated annular conveying groove is fixed on the supporting beam through a connecting piece.

5. The continuous non-fragmenting hoist as claimed in claim 4, characterized in that: the integrated annular conveying groove comprises a rubber conveying groove, a PVC conveying groove, a polyurethane conveying groove or a nylon conveying groove with flanges, the bearing beam comprises an angle steel bearing beam or a channel steel bearing beam or a flat plate bearing beam, and the flanges comprise skirt type flanges or flanges with openings or overlapped flanges.

6. The continuous non-fragmenting hoist as claimed in claim 2, characterized in that: the conveying trough body comprises a conveying trough body with a trapezoidal or U-shaped section, the material baffle is arranged on the conveying trough body, and the bottom of the conveying trough body or the left end and the right end of the conveying trough body are connected with the bracket.

7. The continuous non-crushing hoist as claimed in claim 2 or 6, characterized in that: the gapless plugging device comprises a skirt edge plugging device or an elastic plugging device or an overlapping plugging device or a contact plugging device or a socket contact plugging device, and the insertion end of the socket contact plugging device is an insertion groove formed by extending the conveying groove body.

8. A continuous non-disintegrating elevator as claimed in claim 1 or 2, characterized in that: the height of the material baffle plates corresponds to the distance between the material baffle plates, and when the distance between the material baffle plates is 50-200mm, the height of the material baffle plates is 30-250 mm; the height of the material baffle is 130-350mm when the distance between the material baffle is 200-300 mm; the height of the material baffle is 270-600mm when the distance between the material baffle is 300-450 mm; when the distance between the material baffle plates is 450mm and 750mm, the height of the material baffle plates is 420 mm and 900mm, each material baffle plate comprises a lifting section material baffle plate and a blocking section material baffle plate, the lifting section material baffle plate is perpendicular to the bottom surface of the annular conveying groove, and the included angle between the blocking section material baffle plate and the lifting section material baffle plate is 90-160 degrees.

9. A continuous non-disintegrating elevator as claimed in claim 4 or 5, characterized in that: the bottom surface of the integrated annular conveying groove is positioned on the inner side of an annular formed by the central connecting line of the chain shafts of the annular chain, and the perimeter of the bottom surface of the integrated annular conveying groove is less than or equal to the perimeter of the annular formed by the central connecting line of the chain shafts.

Images