CN215754670U - Static conveying equipment for industrial materials - Google Patents

Abstract

The utility model provides a static conveying of industrial material is equipped, includes nose portion, tail portion, middle part guide part, material conveying part, wherein, nose portion, middle part guide part, tail portion connect gradually, and material conveying part's both ends are connected with nose portion and tail portion phase splitting respectively, and under the drive of nose portion, material conveying part can follow nose portion, middle part guide part, tail portion and turn round the operation in succession to carry the material. In order to fundamentally solve the problem of serious abrasion of scraper conveying equipment, the utility model carries out subversion on the material conveying principle, changes the sliding abrasion generated by relative motion between materials and conveying elements into relatively static conveying, solves the outstanding problems of high abrasion, low service life and the like of the equipment in the existing conveying process by adopting a material conveying part with a continuous guiding function, effectively reduces the abrasion of the conveying equipment, and greatly improves the integral service life of the conveying equipment.

Description

Static conveying equipment for industrial materials

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to static industrial material conveying equipment.

Background

How to reduce the abrasion of conveyed materials to equipment in the industrial production process and improve the service life of the equipment are the subjects continuously explored by the industry, and particularly in the field of conveying equipment of mechanized fully mechanized mining working surfaces of mine shafts, the abrasion of the conveying equipment is particularly serious because ore materials are high in hardness and are mostly granular and powdery. Because the mechanized fully mechanized coal mining face conveying equipment of mine well engineering is required to be matched with a hydraulic support to complete frequent pushing operation, only the scraper conveyor can meet the operation requirement at present. However, in the actual use process, because sliding friction is adopted between the scraper chain of the scraper conveyor and the conveying equipment main body, after fine particles and powdery materials enter the contact surface between the scraper chain and the equipment main body in relative motion, serious abrasive wear can be generated, the wear of the equipment is greatly aggravated, the service life of the equipment is short, the maintenance cost is high, and the problems that the equipment is seriously worn cannot be fundamentally solved through the traditional structural improvement, the material performance improvement and the like.

Disclosure of Invention

In order to solve the technical problems in the prior art, it is necessary to provide a static industrial material conveying device.

The utility model provides a static transport of industrial material is equipped, including the locomotive portion, tail portion, middle part guide part, material conveying part, wherein, the locomotive portion, middle part guide part, tail portion connects gradually, the locomotive portion is used for driving material conveying part continuous operation, middle part guide part is used for providing continuous direction when the operation for material conveying part, tail portion is used for providing gyration direction when the operation for material conveying part, material conveying part's both ends are connected with locomotive portion and tail portion phase separation respectively, under the drive of locomotive portion, the locomotive portion can be followed to material conveying part, middle part guide part, tail portion continuous gyration operation, thereby carry the material.

Preferably, the middle guide part comprises a middle section and a transition section, the middle section is used for providing continuous guidance for the material conveying part during operation, the transition section is used for connecting the middle section with the nose part and providing slow transition for the material conveying part during operation, the middle section has the same structure as the transition section, the middle section comprises a connecting groove body which is integrally in a groove shape, a middle plate is fixedly arranged at the middle position inside the connecting groove, the middle plate is arranged in parallel with the bottom of the connecting groove, the connecting groove is divided into an upper channel and a lower channel by the middle plate, namely an upper channel and a lower channel, an upper guide rail is arranged in the upper channel and is fixedly arranged on the upper surface of the middle plate, and a lower guide rail is arranged in the lower channel, is fixedly arranged on the lower surface of the middle plate and is opposite to the upper guide rail.

Preferably, the material conveying part comprises a material conveying part and a guiding device, two ends of the material conveying part are respectively connected with the machine head part and the machine tail part, the guiding device comprises a belt pressing connecting plate, a guiding part and a locking part, the belt pressing connecting plate is arranged on the upper surface of the material conveying part, the guiding part is positioned on one side, away from the belt pressing connecting plate, of the material conveying part, the upper part of the guiding part penetrates through the material conveying part and is fixed with the belt pressing connecting plate, the guiding part is meshed with the upper guide rail and the lower track and can provide a guiding effect for the material conveying part along the upper guide rail and the lower track, and the locking part is sleeved on the upper part of the guiding part and positioned on the upper part of the belt pressing connecting plate and is used for fixing the guiding part with the belt pressing connecting plate.

Preferably, the guide part comprises a connecting frame, a rotary wheel and a connecting rod, the connecting rod is fixedly arranged at the upper part of the connecting frame and used for connecting the connecting frame with the press belt connecting plate, the rotary wheel is arranged at the lower part of the connecting frame, and the rotary wheel and the lower part of the connecting frame can rotate in the circumferential direction.

Preferably, the tail part comprises a support frame body, a telescopic device and a telescopic frame body, the support frame body is connected with the middle section, a first guide rail for guiding is fixedly arranged in the support frame body, the first guide rail corresponds to the upper track and the lower track, the telescopic frame body is arranged at one end of the support frame body, the outer wall of one end of the telescopic frame body is connected with the inner wall of the support frame body in a sliding way, a second guide rail for guiding is fixedly arranged in the telescopic frame body, the second guide rail is connected with the first guide rail in a sliding way, one end of the telescopic frame body, which is far away from the support frame body, is provided with a roller for guiding the material conveying piece, the telescoping device sets up in the outside of supporting support body and flexible support body, the one end of telescoping device with support body fixed connection, the other end and the flexible support body fixed connection of telescoping device, the telescoping device can drive flexible support body along the long limit direction slip of supporting the support body.

Preferably, the first guide rail is fixed along the long limit direction of supporting the support body and is set up the intermediate position in supporting the support body inside, first guide rail is including supporting support body upper guideway, supporting support body lower guideway, support body upper guideway, support body lower guideway longitudinal symmetry set up, and the structure is the same, supports support body upper guideway and corresponds with the upper portion track, and support body lower guideway corresponds with the lower part track.

Preferably, the second guide rail is along the fixed intermediate position that sets up in the telescopic frame body inside of the long limit direction of telescopic frame body, the second guide rail includes telescopic frame body upper guideway, telescopic frame body lower guideway, telescopic frame body upper guideway, telescopic frame body lower guideway longitudinal symmetry set up, and the structure is the same, the lower part surface of telescopic frame body upper guideway and the upper portion surface sliding connection who supports the support body upper guideway, the lower part surface of telescopic frame body lower guideway and the upper portion surface sliding connection who supports the support body lower guideway.

Preferably, the two sides of the connecting groove body are fixedly provided with the belt pressing devices, each belt pressing device comprises a pressing plate and a pressing strip, the pressing plates are fixedly arranged on the two sides of the connecting groove body along the long edge direction of the material conveying piece, the pressing plates are located above the material conveying piece, the pressing strips are fixedly arranged on one side, right opposite to the upper surface of the material conveying piece, of the pressing plates, the pressing strips are arranged in an inclined mode, and the inclined direction of the pressing strips is the same as the moving direction of the material conveying piece.

By adopting the technical scheme, compared with the prior art, the utility model has the beneficial effects that: in order to fundamentally solve the problem of serious abrasion of scraper conveying equipment, the utility model carries out subversion on the material conveying principle, changes the sliding abrasion generated by relative motion between materials and conveying elements into relatively static conveying, solves the outstanding problems of high abrasion, low service life and the like of the equipment in the existing conveying process by adopting a material conveying part with a continuous guiding function, effectively reduces the abrasion of the conveying equipment, and greatly improves the integral service life of the conveying equipment.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the connection between the segment and the material conveying part in the present invention.

Fig. 3 is a schematic front view of the connecting groove body according to the present invention.

Fig. 4 is a schematic top view of fig. 3.

Fig. 5 is a side view of the structure of fig. 3.

Fig. 6 is a schematic view of the structure of the guide device of the present invention.

Fig. 7 is a schematic top view of the material handling member of the present invention.

FIG. 8 is a schematic view of the structure of the belt press apparatus of the present invention.

FIG. 9 is a schematic top view of the connection between the belt pressing device and the connecting slot body according to the present invention.

FIG. 10 is a schematic view of the structure of the tail part of the present invention.

Fig. 11 is a schematic cross-sectional structure of fig. 10.

Fig. 12 is a schematic top view of fig. 11.

In the figure: a machine head part 1, a machine tail part 2, a support frame body 21, a telescopic device 22, a telescopic frame body 23, a first guide rail 24, a support frame body upper guide rail 241, a support frame body lower guide rail 242, a second guide rail 25, a telescopic frame body upper guide rail 251, a telescopic frame body lower guide rail 252, a middle guide part 3, a middle section 31, a transition section 32, a connecting groove body 33, a middle plate 331, an upper channel 332, a lower channel 333, an upper guide rail 334, a lower guide rail 335, an auxiliary support plate 336 and a blanking hole 337, the device comprises a mounting plate 338, a material cleaning hole 339, a positioning pin 340, a connecting seat 341, a round hole 342, a material conveying part 4, a press belt connecting plate 41, a guide part 42, a connecting frame 421, a rotary wheel 422, a connecting rod 423, a locking part 43, a telescopic skirt 44, a material conveying part 45, a press belt device 5, a press plate 51, a pressing strip 52, an embedding groove 53, an overlapping groove 54, an overlapping bump 55 and a mounting hole 56.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, it is obvious that the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Referring to fig. 1 to 12, an embodiment of the present invention provides an industrial material static conveying device, including a head part 1, a tail part 2, a middle guide part 3, and a material conveying part 4, where the head part 1, the middle guide part 3, and the tail part 2 are connected in sequence, the head part 1 is used to drive the material conveying part 4 to operate continuously, the head part 1 is provided with a rotation driving device, which can drive the material conveying part 4 to operate continuously, and the head part 1 is also used as an unloading end for conveying materials, and can unload the materials to a next-stage conveying system; middle part guide part 3 is used for providing continuous direction for material conveying part 4 when the operation, tail part 2 is used for providing gyration direction for material conveying part 4 when the operation, the both ends of material conveying part 4 are connected with nose part 1 and tail part 2 respectively, material conveying part 4 is as the main part of transported substance material, under the drive of nose part 1, material conveying part 4 can follow nose part 1, middle part guide part 3, tail part 2 continuous gyration operation to carry out the continuous conveyor to the material. In the process of conveying materials, the materials and the material conveying part 4 are always kept in a relatively static state, relative sliding friction and abrasion do not exist between the materials and the material conveying part 4, and meanwhile, the material conveying part 4 can rotate along the guide of the set track of the middle guide part 3 to convey the materials to the machine head part 1.

Specifically, the middle guiding part 3 includes a middle section 31 and a transition section 32, the middle section 31 is used for providing continuous guiding for the material conveying part 4 during operation, the transition section 32 is used for connecting the middle section 31 with the nose part 1 and providing slow transition for the material conveying part 4 during operation, the middle section 31 and the transition section 32 have the same structure, the middle section 31 has at least two, and the middle section 31 is connected in sequence, the middle section 31 includes a connecting groove body 33, the connecting groove body 33 is integrally in a groove shape, a middle plate 331 is fixedly arranged at the middle position inside the connecting groove, the middle plate 331 is arranged in parallel with the bottom of the connecting groove, the middle plate 331 divides the connecting groove into an upper channel 332 and a lower channel 333, an upper guide rail 334 is arranged in the upper channel 332, the upper guide rail 334 is fixedly arranged on the upper surface of the middle plate 331, and a lower guide rail 335 is arranged in the lower channel 333, the lower guide 335 is fixedly provided on the lower surface of the middle plate 331, and the lower guide 335 is provided to face the upper guide 334.

The upper surface of the middle plate 331 is fixedly provided with auxiliary support plates 336, the auxiliary support plates 336 are oppositely arranged at two sides of the upper guide rail 334, and the auxiliary support plates 336 can support the material conveying member 45.

Wherein, the middle plate 331 is provided with blanking holes 337, and the blanking holes 337 are equidistantly arranged along the long side direction of the middle plate 331. Through the blanking hole 337 that sets up, can be convenient for fall into the attached material on the material transportation piece 45 the bottom of spread groove body 33.

Wherein, the upper surface of the middle plate 331 is fixedly provided with a mounting plate 338, and the mounting plate 338 is oppositely arranged at two sides of the upper guide rail 334. The mounting plate 338 can be provided with carrier rollers which can guide the material conveying member 45 and support the material conveying member 45.

Wherein, the lower part of connecting groove body 33 lateral wall has seted up clear material hole 339, and clear material hole 339 sets up along the long limit direction equidistance of connecting groove body 33. After a certain amount of material is stored at the bottom of the connecting groove body 33, the material at the bottom of the connecting groove body 33 can be cleaned out through the material cleaning hole 339.

The end of one end of the connecting groove body 33 is provided with a positioning pin 340, the positioning pin 340 is located at any end of the connecting groove body 33, and the positioning pin 340 is located at two sides of the end of the connecting groove body 33. The positioning pin 340 is of an asymmetric spherical positioning structure, so that bending guiding after connection between two adjacent connecting groove bodies 33 can be realized.

Wherein, two ends of connecting groove body 33 are fixed respectively and are provided with connecting seat 341, offer the round hole 342 that is used for installing the dumbbell pin on connecting seat 341 to can connect two adjacent connecting groove bodies 33 through the dumbbell pin.

Specifically, the material conveying part 4 comprises a material conveying part 45 and a guiding device, wherein the material conveying part is a conveying belt, two ends of the material conveying part are respectively connected with the machine head part 1 and the machine tail part 2, the guiding device comprises a press belt connecting plate 41, a guiding component 42 and a locking component 43, the press belt connecting plate 41 is arranged on the upper surface of the material conveying part 45, the guiding component 42 is positioned on one side of the material conveying part 45 far away from the press belt connecting plate 41, the upper part of the guiding component 42 penetrates through the material conveying part 45, and is fixed to the platen connecting plate 41, the guide member 42 is engaged with the upper rail 334 and the lower rail 335 and is movable along the upper rail 334 and the lower rail 335, can provide continuous direction for material transportation spare 45, guide part 42 can provide the direction for material transportation spare 45, and guide part 42 can guarantee that the conveyer belt width direction does not off tracking. The locker 43 is fitted over the guide member 42 and positioned over the push-belt coupling plate 41 to fix the guide member 42 to the push-belt coupling plate 41. The guide member 42 can be fixed by the connecting plate 41 for press belt, and the material transporting member 45 can be prevented from being wrinkled in the width direction.

The guide member 42 includes a connection frame 421, a rotation wheel 422, and a connection rod 423, wherein the connection frame 421 is a "T" shaped connection rod 423 fixedly disposed on the upper portion of the connection frame 421 for connecting the connection frame 421 with the push belt connection plate 41, the rotation wheel 422 is disposed on the lower portion of the connection frame 421, and the rotation wheel 422 and the lower portion of the connection frame 421 can rotate circumferentially.

Wherein, the connecting rod 423 is detachably connected with the connecting frame 421. Wherein, the upper surface of the connecting frame 421 is provided with a positioning hole, and the lower part of the connecting rod 423 is inserted into the positioning hole, so as to play a role in positioning the connecting rod 423. The lower part of connecting rod 423 adopts the pinhole connected mode with link 421, and after the locating hole was inserted to the lower part of connecting rod 423, can be fixed the lower part of connecting rod 423 with link 421 through locating pin 6 to the change is dismantled to the convenience.

Wherein, the push belt connecting plate 41 is provided with a stepped hole for the connecting rod 423 to pass through. The upper portion of connecting rod 423 adopts the echelonment, inserts the downthehole back of shoulder at the upper portion of connecting rod 423, can with the lower extreme joint of shoulder, and the upper end of connecting rod 423 is exactly the upper portion that is located the shoulder, and connecting rod 423 adopts the threaded connection mode with retaining member 43, retaining member 43 suit is to connecting rod 423, through screwing retaining member 43, can be connected connecting rod 423 with pressing the area connecting plate 41, and fixed back, retaining member 43 is exactly the upper portion that is located the shoulder.

Wherein, the two side edges of the material conveying piece 45 are provided with telescopic skirts 44. When material transportation spare 45 normal transportation, flexible shirt rim 44 is in normal condition, and when taking place crooked, the flexible shirt rim 44 in material transportation spare 45 inboard can contract, and the flexible shirt rim 44 in the outside can open, and the bending size freely contracts when this structure can turn according to material transportation spare 45 and opens, guarantees that material transportation spare 45 does not take place to tear and fold.

Specifically, the tail part 2 includes a support frame 21, a telescopic device 22, and a telescopic frame 23, the support frame 21 is connected to the middle section 31, a first guide rail 24 is fixedly disposed inside the support frame 21, the first guide rail 24 corresponds to the upper rail 5 and the lower rail 6, the first guide rail 24 can provide guidance for the guide device 20 on the conveyor belt 10, the telescopic frame 23 is disposed at one end of the support frame 21, an outer wall of one end of the telescopic frame 23 is slidably connected to an inner wall of the support frame 21, a second guide rail 25 is fixedly disposed inside the telescopic frame 23, the second guide rail 25 is overlapped with the first guide rail 24, the second guide rail 25 is slidably connected to the first guide rail 24, so that the second guide rail 25 and the first guide rail 24 form a continuous linear guide rail, the telescopic device 22 is disposed outside the support frame 21 and the telescopic frame 23, the telescopic device 22 is a mechanical assembly with a telescopic function, such as hydraulic cylinders, pneumatic cylinders, electric telescopic cylinders, etc. One end of the telescopic device 22 is fixedly connected with the support frame body 21, the other end of the telescopic device 22 is fixedly connected with the telescopic frame body 23, and the telescopic device 22 can drive the telescopic frame body 23 to slide along the long side direction of the support frame body 21. After the tail is flexible, support and can be pulled open certain distance between support frame body 21 and the flexible support body 23, and second guide rail 25 is when following the removal of flexible support body 23, can slide along first guide rail 24, at this moment, second guide rail 25 still is in the overlap joint state with first guide rail 24, thereby form continuous guide rail, can provide continuous direction for guider on material transportation spare 45, guarantee the flexible back of tail, the derailment phenomenon can not take place for guider on the material transportation spare 45, reduce 45 off tracking of material transportation spare, tear accident incidence such as area.

Wherein, first guide rail 24 is fixed along the long limit direction of supporting frame body 21 and is set up the intermediate position in supporting frame body 21 inside, and first guide rail 24 is including supporting frame body upper guideway 241, supporting frame body lower guideway 242, supports frame body upper guideway 241, supporting frame body lower guideway 242 longitudinal symmetry and sets up, and the structure is the same. The support frame upper rail 241 corresponds to the upper rail 5, and the support frame lower rail 242 corresponds to the lower rail 335, thereby forming a continuous rail.

Wherein, the second guide rail 25 is fixedly arranged at the middle position inside the telescopic frame body 23 along the long side direction of the telescopic frame body 23, the second guide rail 25 comprises a telescopic frame body upper guide rail 251 and a telescopic frame body lower guide rail 252, the telescopic frame body upper guide rail 251 and the telescopic frame body lower guide rail 252 are symmetrically arranged up and down, and have the same structure, the lower surface of the telescopic frame body upper guide rail 251 is slidably connected with the upper surface of the support frame body upper guide rail 241, and the lower surface of the telescopic frame body lower guide rail 252 is slidably connected with the upper surface of the support frame body lower guide rail 242.

Specifically, the belt pressing device comprises a pressing plate 51 and a pressing strip 52, wherein the pressing plate 51 is fixedly arranged on two sides of the connecting groove body 33 along the long side direction of the material conveying piece 45, the pressing plate 51 is positioned above the material conveying piece 45, the pressing strip 52 is fixedly arranged on one side, right facing the upper surface of the material conveying piece 45, of the pressing plate 51, the pressing strip 52 is arranged in an inclined mode, and the inclined direction of the pressing strip 52 is the same as the moving direction of the material conveying piece 45. The material of the bead 52 is polyurethane. When the material conveying part is used, the pressing strips 52 are attached to the upper surface of the material conveying part 45, so that the sealing is kept between the pressing strips 52 and the material conveying part 45, the material can be prevented from falling from the material conveying part 45, meanwhile, the obliquely arranged pressing strips 52 can guide the materials on the edges of the two sides of the material conveying part 45 to gather towards the middle of the material conveying part 45, the conveyed material is always in the middle of the material conveying part 45, and the material is prevented from flowing to the two sides of the material conveying part 45.

Wherein, the surface of the side of the pressing plate 51 facing the material transporting member 45 is provided with an embedding groove 53, the embedding groove 53 is obliquely arranged, and the oblique direction of the embedding groove 53 is the same as the moving direction of the material transporting member 45. The embedding grooves 53 are arranged in the longitudinal direction of the pressing plate 51 at equal intervals in this order.

The pressing strip 52 is embedded into the embedding groove 53, the pressing strip 52 and the embedding groove 53 are in interference fit, and the pressing strip 52 can be conveniently replaced after being worn. The lower part of the pressing strip 52 is higher than the pressing plate 51, and the lower surface of the pressing strip 52 is attached to the upper surface of the material conveying piece 45.

Wherein, the clamp plate 51 has two at least, and overlap joint recess 54 has been seted up to clamp plate 51's one end, and clamp plate 51's the other end is fixed and is provided with overlap joint lug 55, and overlap joint lug 55 on the preceding clamp plate 51 overlaps with overlap joint recess 54 on the last clamp plate 51 each other, makes clamp plate 51 wholly connect gradually to can make the both sides of material transportation piece 45 form encapsulated situation, prevent that the material from spilling and fall.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (8)

1. The utility model provides a static conveying equipment of industrial material which characterized in that: including the locomotive portion, tail portion, middle part guide part, material transport portion, wherein, the locomotive portion, middle part guide part, tail portion connects gradually, the locomotive portion is used for driving material transport portion continuous operation, middle part guide part is used for providing continuous direction for material transport portion when the operation, tail portion is used for providing gyration direction for material transport portion when the operation, material transport portion's both ends are connected with locomotive portion and tail portion phase-splitting respectively, under the drive of locomotive portion, the locomotive portion can be followed to material transport portion, middle part guide part, tail portion continuous gyration operation, thereby carry the material.

2. The static industrial material conveying equipment according to claim 1, characterized in that: the middle guide part comprises a middle section and a transition section, the middle section is used for providing continuous guide for the material conveying part during operation, the transition section is used for connecting the middle section with the machine head part and providing slow transition for the material conveying part during operation, the middle section and the transition section are identical in structure, the middle section comprises a connecting groove body, the connecting groove body is integrally in a groove shape, a middle plate is fixedly arranged at the middle position inside the connecting groove, the middle plate is parallel to the bottom of the connecting groove, the connecting groove is divided into an upper channel and a lower channel by the middle plate, namely the upper channel and the lower channel, an upper guide rail is arranged in the upper channel, the upper guide rail is fixedly arranged on the upper surface of the middle plate, a lower guide rail is arranged in the lower channel, the lower guide rail is fixedly arranged on the lower surface of the middle plate, and the lower guide rail and the upper guide rail are oppositely arranged.

3. The static industrial material conveying equipment according to claim 2, characterized in that: the material conveying part comprises a material conveying part and a guiding device, two ends of the material conveying part are respectively connected with the head part and the tail part, the guiding device comprises a press belt connecting plate, a guiding part and a locking part, the press belt connecting plate is arranged on the upper surface of the material conveying part, the guiding part is located on one side, away from the press belt connecting plate, of the material conveying part, the upper part of the guiding part penetrates through the material conveying part and is fixed with the press belt connecting plate, the guiding part is meshed with an upper guide rail and a lower track and can move along the upper guide rail and the lower track, a guiding effect is provided for the material conveying part, the locking part is sleeved on the upper part of the guiding part and located on the upper part of the press belt connecting plate, and the guiding part is fixed with the press belt connecting plate.

4. The static industrial material conveying equipment according to claim 3, characterized in that: the guide part comprises a connecting frame, a rotary wheel and a connecting rod, the connecting rod is fixedly arranged on the upper portion of the connecting frame and used for connecting the connecting frame with the press belt connecting plate, the rotary wheel is arranged on the lower portion of the connecting frame, and the rotary wheel and the lower portion of the connecting frame can rotate in the circumferential direction.

5. The static industrial material conveying equipment according to claim 3, characterized in that: the tail part comprises a support frame body, a telescopic device and a telescopic frame body, the support frame body is connected with the middle section, a first guide rail for guiding is fixedly arranged in the support frame body, the first guide rail corresponds to the upper track and the lower track, the telescopic frame body is arranged at one end of the support frame body, the outer wall of one end of the telescopic frame body is connected with the inner wall of the support frame body in a sliding way, a second guide rail for guiding is fixedly arranged in the telescopic frame body, the second guide rail is connected with the first guide rail in a sliding way, one end of the telescopic frame body, which is far away from the support frame body, is provided with a roller for guiding the material conveying piece, the telescoping device sets up in the outside of supporting support body and flexible support body, the one end of telescoping device with support body fixed connection, the other end and the flexible support body fixed connection of telescoping device, the telescoping device can drive flexible support body along the long limit direction slip of supporting the support body.

6. The static industrial material conveying equipment according to claim 5, characterized in that: the first guide rail is fixedly arranged at the middle position inside the support frame body along the long edge direction of the support frame body, the first guide rail comprises a support frame body upper guide rail and a support frame body lower guide rail, the support frame body upper guide rail and the support frame body lower guide rail are arranged in a vertically symmetrical mode and are identical in structure, the support frame body upper guide rail corresponds to the upper portion track, and the support frame body lower guide rail corresponds to the lower portion track.

7. The static industrial material conveying equipment according to claim 6, characterized in that: the second guide rail is along the fixed intermediate position that sets up in telescopic frame body inside of telescopic frame body's long limit direction, the second guide rail includes telescopic frame body upper guideway, telescopic frame body lower guideway, telescopic frame body upper guideway, telescopic frame body lower guideway longitudinal symmetry set up, and the structure is the same, telescopic frame body upper guideway's lower part surface and the upper portion surface sliding connection who supports the support body upper guideway, telescopic frame body lower guideway's lower part surface and the upper portion surface sliding connection who supports the support body lower guideway.

8. The static industrial material conveying equipment according to claim 3, characterized in that: the connecting groove comprises a connecting groove body and is characterized in that belt pressing devices are fixedly arranged on two sides of the connecting groove body and comprise pressing plates and pressing strips, the pressing plates are fixedly arranged on two sides of the connecting groove body along the long edge direction of a material conveying piece, the pressing plates are located above the material conveying piece, the pressing strips are fixedly arranged on one side, right opposite to the upper surface of the material conveying piece, of the pressing plates, the pressing strips are arranged in an inclined mode, and the inclined direction of the pressing strips is the same as the moving direction of the material conveying piece.

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