CN212049151U - Assembled belt conveyor - Google Patents

Abstract

The utility model discloses an assembled belt conveyor, which comprises a conveyor frame and a carrier roller bracket arranged on the conveyor frame, wherein the conveyor frame is formed by assembling and combining a plurality of frame units along the conveying direction of the assembled belt conveyor; the frame unit comprises a bottom module, a side module and a top module which are detachably connected; the bottom module supports the top module from the bottom through the side module, and the bottom module, the side module and the top module are assembled and combined to form a space grid structure unit. The utility model discloses an assembled band conveyer adopts the modular mode of assembling to and the mode of assembling between each other of frame unit, can simplify the on-the-spot process of assembling, need not moreover with the help of large-scale equipment of assembling, adopt the cordwood system to build assemble can, simple to operate.

Description

Assembled belt conveyor

Technical Field

The utility model relates to a conveying equipment technical field especially relates to an assembled band conveyer.

Background

The belt type belt conveyor is most widely applied to conveying of various bulk materials such as sand, stone, ore, coal and the like. The belt conveyor generally comprises a frame, a driving device, a belt and the like. Belt feeder frame among the prior art, one is to adopt the combination frame, including a plurality of conveying festival, every conveying festival includes two boundary beams that relative setting and the tie-beam of connecting the boundary beam, can dismantle the connection between a plurality of conveying festival, and above-mentioned structure is real web girder structure, only is applicable to the less underload of the little transport capacity of conveyer bandwidth width, and the ground clearance is close, support the occasion that the span is little. The other method is that the frame is formed by welding profile steel and steel plates, then the frame is transported to an installation site by a logistics transport vehicle, and finally the frame is welded, remanufactured and assembled into a whole; the frame of the welding frame type belt conveyor is suitable for conveying heavy materials with large span and high height; the welding type belt conveyor frame is an integrated frame, is generally in a three-super mode of super-wide, super-long and super-high, and actually has the problems of large occupied space, serious coating waste and serious energy waste in the production and manufacturing process; special vehicles are required to transport in the transportation process, the transportation is limited by road conditions, and transportation and delivery cannot be achieved in part of places, so that the traffic is seriously influenced; the delivery period cannot be guaranteed due to weather factors in field installation operation; the on-site manufacturing part has poor manufacturing quality (caused by tools, sites, equipment and the like); the corrosion resistance does not reach the standard; the box is not easy to be packed at the outlet, and the waste of the box body space is serious; the secondary utilization and the relocation remanufacturing have no utilization value, and the service life of the whole body is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides an assembled band conveyer to solve the inconvenient transportation of super wide of current band conveyer's frame overlength, and adopt the technical problem that the big, high heavy material of span is carried to the combination frame not be applicable to.

The utility model adopts the technical scheme as follows:

an assembled belt conveyor comprises a conveyor frame and a carrier roller support arranged on the conveyor frame, wherein the conveyor frame is formed by assembling and combining a plurality of frame units along the conveying direction of the assembled belt conveyor; the frame unit comprises a bottom module, a side module and a top module which are detachably connected; the bottom module supports the top module from the bottom through the side module, and the bottom module, the side module and the top module are assembled and combined to form a space grid structure unit.

Further, the bottom module comprises: the assembly type belt conveyor comprises first boundary beams arranged along the conveying direction of the assembly type belt conveyor, and first cross beams used for detachably connecting the first boundary beams along the width direction of the assembly type belt conveyor, wherein the first boundary beams and the first cross beams are spliced and enclosed to form a rectangular grid structure unit; a first inclined support used for obliquely supporting the rectangular grid structure unit is arranged between the first side beam and the first cross beam; the detachable connection is realized between the first edge beam and the first cross beam, between the first edge beam and the first inclined strut and between the first cross beam and the first inclined strut through the first connecting piece.

Furthermore, a supporting beam with two ends respectively detachably connected to the corresponding first side beams is further arranged between every two adjacent first cross beams, the supporting beam is parallel to the first cross beams, and the first inclined support is supported between the first cross beams and the supporting beam, so that a stable triangular grid structure is formed among the first side beams, the first cross beams and the first inclined support and/or among the first side beams, the supporting beam and the first inclined support.

Further, the side module includes: the first vertical supports are arranged along the height direction of the assembled belt conveyor and used for being detachably connected with the first edge beam and supporting the top module, and the second inclined supports are arranged between every two adjacent first vertical supports and used for obliquely supporting the first vertical supports and the top module; the first boundary beam and the first vertical support and the second inclined support are detachably connected through the second connecting piece.

Furthermore, a third inclined strut for inclined support is arranged between the first vertical strut and the first cross beam on the first side beam, one end of the third inclined strut is connected with and supported on the first vertical strut, and the other end of the third inclined strut is connected with and supported on the first cross beam; or a third inclined strut for inclined support is arranged between the first vertical struts on the two adjacent first side beams, one end of the third inclined strut is connected with and supported on one of the first vertical struts, and the other end of the third inclined strut is connected with and supported on the other first vertical strut.

Further, the top module includes: the second edge beams are parallel to the first edge beams and detachably connected with the first vertical braces, carrier roller supports distributed in the width direction of the assembled belt conveyor are distributed between every two adjacent second edge beams, and the carrier roller supports are uniformly distributed in the conveying direction of the assembled belt conveyor; the second boundary beam and the first vertical support are detachably connected through a third connecting piece.

Furthermore, the first edge beam and the second edge beam respectively comprise a plurality of profile beams and profile connecting pieces for connecting the profile beams; the section bar beam adopts angle steel, I-shaped steel, T-shaped steel, channel steel or O-shaped steel pipes.

Furthermore, the first connecting piece, the second connecting piece and the third connecting piece adopt at least one of a bolt connecting piece, a plug-in connecting piece, a clamping connecting piece, a nesting connecting piece, a hinge connecting piece or a binding connecting piece; the assembly part of the conveyor frame is provided with a support rib which is used for facilitating the assembly and the assembly in place and improving the structural strength and the connection stability of the assembly part; the support rib is at least one of a thick steel plate, a thick metal plate, C-shaped steel, U-shaped steel and H-shaped steel.

Further, the assembly type belt conveyor also comprises a supporting part; the supporting part comprises a supporting leg mechanism for controlling the conveying height of the assembled belt conveyor, an installation mechanism for detachably connecting the supporting leg mechanism with the first side beam and realizing the installation of the supporting leg mechanism at any position, and the supporting leg mechanism is hinged with the installation mechanism;

further, the mounting mechanism comprises a mounting seat used for being connected with the supporting leg mechanism in a hinged mode, a U-shaped bolt used for clamping the first side beam on the mounting seat and fixedly connected with the mounting seat, a first cushion block used for being filled into the first side beam to enable the inner surface of the U-shaped bolt to be completely attached to the first side beam and stably clamping and fixing the first side beam, and a second cushion block used for being filled into the space between the first side beam and the mounting seat to stably clamp and fix the first side beam.

Furthermore, the supporting part also comprises a support leg inclined strut, two ends of the support leg inclined strut are respectively hinged with the first edge beam and the support leg mechanism through an installation mechanism and used for assisting in supporting the first edge beam; the supporting leg mechanism adopts a telescopic mechanism with adjustable height.

Further, the fabricated belt conveyor further includes: the conveying device comprises a driving mechanism and a direction changing mechanism which are arranged at two ends of a conveyor frame, a conveying belt which is arranged on a carrier roller support and driven to operate by the driving mechanism and the direction changing mechanism, a carrier roller which is arranged on the carrier roller support and used for rolling and supporting the conveying belt to move, a cleaning mechanism which is arranged at the tail end of the conveyor frame and used for cleaning residues on the conveying belt, and a tensioning mechanism which is used for tensioning the conveying belt; the fabricated belt conveyor further includes: a walking platform and a protective guardrail which are arranged at the lateral side of the conveyor frame and are used for walking.

The utility model discloses following beneficial effect has:

the utility model discloses an assembled band conveyer, the conveyer frame is assembled by a plurality of frame cell and is made up, and the frame cell adopts the modular mode of assembling of bottom module, lateral part module and top module, can carry out the prefabrication of mill earlier, customizes the ration preparation with bottom module, lateral part module and top module according to the model, then transport the scene to assemble in batches, also can assemble into frame cell in advance and then transport the scene to assemble, so that the transportation with reduce the cost of transportation; and adopt the modular mode of assembling to and the mode of assembling between the frame element each other, can simplify the on-the-spot process of assembling, need not moreover with the help of large-scale equipment of assembling, adopt the cordwood system to build assemble can, simple to operate. The bottom module, the side module and the top module are assembled to form a space grid structure unit, and then a plurality of frame units are assembled to form a conveyor frame.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic view of a conveyor frame of a fabricated belt conveyor of a preferred embodiment of the present invention;

FIG. 2 is an enlarged schematic view of a portion of a conveyor frame of a fabricated belt conveyor according to a preferred embodiment of the present invention;

FIG. 3 is a side schematic view of a conveyor frame of a fabricated belt conveyor of a preferred embodiment of the present invention;

FIG. 4 is a schematic view of a support portion of a fabricated belt conveyor according to a preferred embodiment of the present invention;

FIG. 5 is a partially enlarged schematic view of a support portion of a fabricated belt conveyor according to a preferred embodiment of the present invention; and

FIG. 6 is a schematic view of a fabricated belt conveyor of a preferred embodiment of the present invention;

the reference numbers illustrate:

1. a bottom module; 2. a side module; 3. a top module; 4. a support portion;

11. a first edge beam; 12. a first cross member; 13. a first diagonal brace; 14. a support beam;

21. a first vertical support; 22. a second diagonal brace; 23. a third diagonal brace;

31. a second edge beam;

41. a leg mechanism; 42. an installation mechanism; 421. a mounting seat; 422. a U-shaped bolt; 423. a first cushion block; 424. a second cushion block; 43. the landing leg bracing.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

FIG. 1 is a schematic view of a conveyor frame of a fabricated belt conveyor of a preferred embodiment of the present invention; FIG. 2 is an enlarged schematic view of a portion of a conveyor frame of a fabricated belt conveyor according to a preferred embodiment of the present invention; FIG. 3 is a side schematic view of a conveyor frame of a fabricated belt conveyor of a preferred embodiment of the present invention; FIG. 4 is a schematic view of a support portion of a fabricated belt conveyor according to a preferred embodiment of the present invention; FIG. 5 is a partially enlarged schematic view of a support portion of a fabricated belt conveyor according to a preferred embodiment of the present invention; fig. 6 is a schematic view of a fabricated belt conveyor according to a preferred embodiment of the present invention.

As shown in fig. 1 and 2, the assembly type belt conveyor of the embodiment includes a conveyor frame and a carrier roller support mounted on the conveyor frame, wherein the conveyor frame is formed by assembling and combining a plurality of frame units along the conveying direction of the assembly type belt conveyor; the frame unit comprises a bottom module 1, a side module 2 and a top module 3 which are detachably connected; the bottom module 1 supports the top module 3 from the bottom through the side module 2, and the bottom module 1, the side module 2 and the top module 3 are assembled and combined to form a space grid structure unit. The utility model discloses an assembled band conveyer, the conveyer frame is assembled by a plurality of frame cell and is made up, and the frame cell adopts the modular mode of assembling of bottom module, lateral part module and top module, can carry out the prefabrication of mill earlier, customizes the ration preparation with bottom module, lateral part module and top module according to the model, then transport the scene to assemble in batches, also can assemble into frame cell in advance and then transport the scene to assemble, so that the transportation with reduce the cost of transportation; and adopt the modular mode of assembling to and the mode of assembling between the frame element each other, can simplify the on-the-spot process of assembling, need not moreover with the help of large-scale equipment of assembling, adopt the cordwood system to build assemble can, simple to operate. The bottom module, the side module and the top module are assembled to form a space grid structure unit, and then a plurality of frame units are assembled to form a conveyor frame. The assembled belt conveyor is used for a conveyor with a conveying height of more than or equal to 10 meters, a span of more than or equal to 10 meters and a conveying capacity of more than or equal to 1200 tons/h.

As shown in fig. 1 and 2, in the present embodiment, the bottom module 1 includes: the assembly type belt conveyor comprises a first edge beam 11 arranged along the conveying direction of the assembly type belt conveyor, and a first cross beam 12 used for detachably connecting a plurality of first edge beams 11 along the width direction of the assembly type belt conveyor, wherein the first edge beams 11 and the first cross beam 12 are spliced and enclosed to form a rectangular grid structure unit; a first inclined strut 13 for obliquely supporting the rectangular grid structure unit is arranged between the first side beam 11 and the first cross beam 12; the first side beam 11 and the first cross beam 12, the first side beam 11 and the first inclined strut 13, and the first cross beam 12 and the first inclined strut 13 are detachably connected through first connecting pieces. Above-mentioned bottom module 1 includes first boundary beam 11, first crossbeam 12 and first bracing 13 to realize dismantling the connection through first connecting piece, assemble into bottom module 1 with the concatenation, realize that the on-the-spot of bottom module 1 is assembled and is dismantled, convenient transportation and turnover. The first side beam 11 and the first cross beam 12 are spliced to form a rectangular grid structure, and the rectangular grid structure is obliquely supported by the first inclined strut 1, so that the overall stability and safety of the bottom module 1 are improved, and the temperature support of the side module 2 and the top module 3 and the acting force transmitted by the top module 3 are ensured.

In this embodiment, a support beam 14 with two ends detachably connected to the corresponding first side beams 11 is further disposed between two adjacent first cross beams 12, the support beam 14 is parallel to the first cross beam 12, and the first inclined strut 13 is supported between the first cross beam 12 and the support beam 14, so that a stable triangular grid structure is formed among the first side beam 11, the first cross beam 12, and the first inclined strut 13 and/or among the first side beam 11, the support beam 14, and the first inclined strut 13. A supporting beam 14 is arranged between the two first cross beams 12, so that on one hand, the defect that the pressure capacity of the first cross beams 12 is reduced due to large span can be reduced, and the stability of the whole structure is reduced; on the other hand, by adding the support beam 14, the use of the first cross beam 12 is saved, and the cost is low. And the rigidity and the seismic strength of the whole structure are increased by the support of the first inclined strut 13. And the first inclined strut 13 and the first side beam 11, the first cross beam 12, and the first inclined strut 13 and the supporting beam 14 and the first inclined strut 13 are connected in a stable triangular net frame structure, so that the first side beam 11 and the first cross beam 12 are prevented from being spliced to form a rectangular structure and being deformed.

As shown in fig. 1, 2 and 3, in the present embodiment, the side module 2 includes: the first vertical supports 21 are arranged along the height direction of the assembled belt conveyor and used for being detachably connected with the first edge beam 11 and supporting the top module 3, and the second inclined supports 22 are arranged between every two adjacent first vertical supports 21 and used for obliquely supporting the first vertical supports 21 and the top module 3; the first side beam 11 and the first vertical brace 21 and the second inclined brace 22 are detachably connected through second connecting pieces. Above-mentioned lateral part module 2 includes first erector strut 21 and second bracing 22, lateral part module 2 adopts the assembly integrated configuration equally, first erector strut 21 can dismantle with first crossbeam 11 and be connected, and correspond with first crossbeam 12 and lay, further increase lateral part module 2's support ability, and increase and bottom module 1 and top module 3 between the stability of being connected, support 14 corresponding laying of roof beam first erector strut 21, with the material gravity homodisperse that receives top module 3, the transmission is concentrated power. Similarly, a stable triangular grid structure is formed between the second inclined strut 22 and the first vertical strut 21 and the first side beam 11, and between the second inclined strut 22 and the first vertical strut 21 and the second side beam 31.

Preferably, a third inclined strut 23 for inclined support is arranged between the first vertical strut 21 and the first cross beam 12 on the first edge beam 11, one end of the third inclined strut 23 is connected and supported on the first vertical strut 21, and the other end of the third inclined strut 23 is connected and supported on the first cross beam 12; or a third inclined strut 23 for inclined support is arranged between the first vertical struts 21 on two adjacent first side beams 11, one end of the third inclined strut 23 is connected and supported on one of the first vertical struts 21, and the other end of the third inclined strut 23 is connected and supported on the other first vertical strut 21. The third inclined strut 23 is used for connecting and supporting the bottom module 1 and the side module 2, and the side module 2 on the other side, and increases the internal supporting acting force of the net rack enclosed by the bottom module 1, the side module 2 and the top module 3, so as to increase the overall load-carrying capacity of the conveyor frame, and has the advantages of good integrity, large space rigidity, capability of effectively bearing asymmetric load, concentrated load and dynamic load, and better anti-seismic performance. If one beam or support of the grid structure fails, the internal force can be readjusted only once statically indeterminate times, and the whole structure does not fail.

In this embodiment, the top module 3 includes: the second edge beams 31 are parallel to the first edge beam 11 and detachably connected with the first vertical support 21, carrier roller supports distributed in the width direction of the assembled belt conveyor are distributed between every two adjacent second edge beams 31, and the carrier roller supports are uniformly distributed in the conveying direction of the assembled belt conveyor; the second edge beam 31 and the first vertical support 21 are detachably connected through a third connecting piece. The first edge beam 11 of the top module 3 is parallel to the second edge beam 31, and the first vertical brace 21 is arranged between the first edge beam 11 and the second edge beam 31, that is, the first vertical brace 21 is arranged between the two first edge beams 11 and the two second edge beams 31, and the first edge beam 11 and the second edge beam 31. Therefore, the bottom module 1, the side modules 2 and the top module 3 are formed by assembling beams and supports, so that all parts can be detachably connected, and the strength of a frame structure formed by assembling and combining is further increased by adding the first inclined support 13, the second inclined support 22 and the third inclined support 23.

The conveyor frame of the assembled belt conveyor is of an assembled structure and formed by assembling and combining a plurality of frame units, and the frame units comprise independent bottom modules, side modules and top modules, namely the frame units can be disassembled, so that the conveyor frame is convenient to mount, dismount and transport, and is convenient to turnover and reuse. Above-mentioned assembled band conveyer only needs to send each part to the equipment fixing scene, assembles at the equipment fixing scene according to the drawing requirement again and forms the conveyer frame, and the operation of assembled band conveyer needs to move or reuse after accomplishing, only need with each part subassembly of constituteing the conveyer frame dismantle back packing retrieval and utilization can, can be according to the mode that the part packing was shipped, very big reduction storage space and transportation space.

Above-mentioned assembled band conveyer, conveyer frame only need assemble combination with each part, also can on-the-spot draw materials, and it is simple to make, low cost, the big batch of being convenient for, large-scale production, in the on-the-spot installation of equipment, need not to adopt hot work operations such as welder, burning torch, can not destroy the surperficial anticorrosive coating of current frame, not subject to the weather condition, and the utility model discloses an under the environment of seaside or high anticorrosive requirement is used to the conveyer frame, can guarantee band conveyer's life favorably, conveniently moves refabrication simultaneously, is favorable to the secondary retrieval and utilization, and to a great extent has practiced thrift the resource, has saved customer investment and use cost.

In this embodiment, the first edge beam 11 and the second edge beam 31 each comprise a number of profile beams and profile connectors for connecting the profile beams. The section bar beam adopts angle steel, I-shaped steel, T-shaped steel, channel steel or O-shaped steel pipes. The first side beam 11 and the second side beam 31 can be formed by splicing a plurality of profiles through profile connecting pieces, and are convenient to install and transport. Because the first side beam 11 and the second side beam 31 are main bearing parts, angle steel, I-shaped steel, T-shaped steel, channel steel or O-shaped steel pipes are adopted to meet the rigidity requirement of the whole structure.

In this embodiment, the first connecting piece, the second connecting piece and the third connecting piece are at least one of a bolt connecting piece, a plug connecting piece, a clamping connecting piece, a nesting connecting piece, a hinge connecting piece or a binding connecting piece. The connecting piece can be matched with a bolt by adopting a connecting plate, and the connecting plate is provided with a screw hole matched with the bolt. If the relative position of first boundary beam 11 and second boundary beam 31 is equipped with the through-hole of mutually supporting with the screw of connecting plate to make first erector strut 21 lay between first boundary beam 11 and second boundary beam 31 perpendicularly, and the multiunit through-hole equidistance is laid, so that first erector strut 21 lays between first boundary beam 11 and second boundary beam 31 through the connecting plate equidistance, also makes the left and right sides installation symmetry on the conveyer frame, forms stable structure. For example, the splicing parts of the first side beam 11, the first cross beam 12 and the first inclined strut 13 can be installed on the same connecting plate and are designed with corresponding through holes, and the splicing parts of the first side beam 11, the first inclined strut 13 of the supporting beam 14 can be installed on the same connecting plate and are designed with corresponding through holes, so that the bottom module 1 can be conveniently detached and installed. If the splicing parts of the first side beam 11, the first vertical brace 21 and the second inclined brace 22 can be installed on the same connecting plate and are designed with corresponding through holes, the splicing parts of the second inclined brace 22 and the first vertical brace 21 and the second side beam 31 can be installed on the same connecting plate and are designed with corresponding through holes so as to facilitate the detachment and installation of the side module 2. Optionally, the connecting plate is at least one of a straight plate, an arc plate, an L-shaped plate, a U-shaped plate, a V-shaped plate or a T-shaped plate. The connecting piece can adopt a plug-in connecting piece, for example, the splicing parts of the first edge beam 11, the second edge beam 31 and the first vertical support 21 are provided with socket bases, the first edge beam 11, the first vertical support 21, the second edge beam 31 and the first vertical support 21 are inserted into the socket bases, the connection is limited and stable through cushion blocks, the through holes machined on the section bar can be reduced, and the workload is reduced.

In this embodiment, the assembly part of the conveyor frame is provided with a support rib for facilitating assembly and assembly in place and improving the structural strength and connection stability of the assembly part. The assembly part of the conveyor frame is provided with a support rib which is used for facilitating combination and assembly in place and improving the structural strength and the connection stability of the assembly part. Above-mentioned support rib can increase and assemble position shear capacity and the part and have the position stability of assembling under the effect of great compressive stress, prevents to assemble the buckling in position compression district, can transmit the concentrated force for the atress is even. And the support ribs can increase the strength of the conveyor frame, which can save material in the design. The support ribs also ensure the stability of the conveyor frame in the using process and prevent the assembled parts from loosening to cause operation danger. Alternatively, the support rib 4 is at least one of a thick steel plate, a thick metal plate, C-section steel, U-section steel and H-section steel. The support ribs 4 are made of common rigid and metallic materials, and materials are convenient to obtain and mount. The assembly part is provided with a vibration damping pad, a vibration damping seat or a vibration damping bush for enabling the connection part to buffer the acting force and reducing the friction noise generated in the stress process. And splicing connecting pieces are arranged among the frame units.

As shown in fig. 4 and 5, in the present embodiment, the fabricated belt conveyor further includes a support portion 4. The supporting part 4 comprises a supporting leg mechanism 41 for controlling the conveying height of the assembled belt conveyor, a mounting mechanism 42 for detachably connecting the supporting leg mechanism 41 with the first side beam 11 and realizing the mounting of the supporting leg mechanism 41 at any position, and the supporting leg mechanism 41 is hinged with the mounting mechanism 42. The supporting part 4 is used for realizing the aerial work of the assembled belt conveyor and comprises a supporting leg mechanism 41 and an installation mechanism 42, the installation mechanism 42 can be installed at any position, therefore, the installation position of the supporting leg mechanism 41 can be adjusted according to the size of the load capacity and the span size of the conveyor frame, and the problem that the quality of the assembled belt conveyor is influenced by field assembly and cutting, assembly and welding and other treatment caused by inaccurate equipment foundation and accumulated errors during equipment installation in an equipment installation field can be solved.

As shown in fig. 4 and 5, in the present embodiment, the mounting mechanism 42 includes a mounting seat 421 for being hingedly connected to the leg mechanism 41, a U-bolt 422 for clamping the first side rail 11 to the mounting seat 421 and fixedly connecting to the mounting seat 421, a first cushion block 423 for being stuffed into the first side rail 11 to enable an inner surface of the U-bolt 422 to completely engage with and stably clamp and fix the first side rail 11, and a second cushion block 424 for being stuffed between the first side rail 11 and the mounting seat 421 to stably clamp and fix the first side rail 11. The supporting part 4 is used for realizing the high-altitude operation of the assembled belt conveyor and comprises a supporting leg mechanism 41 and an installation mechanism 42; the mounting mechanism 42 includes a mounting seat 421, a U-shaped bolt 422, a first cushion block 423 and a second cushion block 424, and clamps the first side beam 11 on the mounting seat 421 through the U-shaped bolt 422, so as to realize the non-porous connection between the support portion 4 and the conveyor frame, where the mounting position is not limited, and the first cushion block 423 enables the U-shaped bolt 422 and the first side beam 11 to be stably clamped, prevents the first side beam 11 from moving at the U-shaped bolt 422, and also enables the U-shaped bolt 422 to clamp the first side beams 11 of different shapes, and ensures stable clamping. The second spacer 424 is filled between the first edge beam 11 and the mounting seat 421, so that the first edge beam 11 is clamped in the space enclosed by the U-bolt 422 and the mounting seat 421. The first block 423 and the second block 424 may be made of rubber or plastic to prevent the first side frame and the support portion 4 from being broken. Preferably, the first and second spacers 423 and 424 are vibration damping pads, vibration damping seats or vibration damping bushes.

In this embodiment, the supporting portion 4 further includes a leg diagonal brace 43, two ends of which are respectively hinged to the first side beam 11 and the leg mechanism 41 through a mounting mechanism 42, for assisting in supporting the first side beam 11; the leg mechanism 41 employs a height-adjustable telescopic mechanism. The leg diagonal brace 43 assists in supporting the first side beam 11, the leg diagonal brace 43 is hinged to the leg mechanism 41, the same horizontal plane of the first side beam 11 can be supported, the inclined plane of the first side beam 11 can also be supported, and the two leg diagonal braces 43 are arranged on two sides of the leg mechanism 41 to form stable support. The leg mechanism 41 employs a height-adjustable telescopic mechanism. The assembled belt conveyor can be horizontally transported and also can be transported from low to high or from high to low, and the supporting leg mechanism 41 can be adjusted in height according to the requirements so as to adapt to the corresponding transportation requirements.

As shown in fig. 1, 4 and 6, in the present embodiment, the fabricated belt conveyor further includes: the conveying device comprises a driving mechanism and a direction changing mechanism which are arranged at two ends of a conveyor frame, a conveying belt which is arranged on a carrier roller support and driven to operate by the driving mechanism and the direction changing mechanism, a carrier roller which is arranged on the carrier roller support and used for rolling and supporting the conveying belt to move, a cleaning mechanism which is arranged at the tail end of the conveyor frame and used for cleaning residues on the conveying belt, and a tensioning mechanism which is used for tensioning the conveying belt; the fabricated belt conveyor further includes: a walking platform and a protective guardrail which are arranged at the lateral side of the conveyor frame and are used for walking. In this embodiment, the assembly type belt conveyor further includes: the conveying device comprises a driving mechanism and a direction changing mechanism which are arranged at two ends of a conveyor frame, a conveying belt which is arranged on a carrier roller support and is driven to operate by the driving mechanism and the direction changing mechanism, carrier rollers which are arranged on the carrier roller support and are used for driving the conveying belt to move, a cleaning mechanism which is arranged at the tail end of the conveyor frame and is used for cleaning residues on the conveying belt, and a tensioning mechanism which is used for tensioning the conveying belt; the fabricated belt conveyor further includes: a walking platform and a guardrail which are arranged at the side part of the conveyor frame and used for walking. The assembled belt conveyor further comprises a driving mechanism, a direction changing mechanism, a conveying belt, a carrier roller and a cleaning mechanism, and can be assembled and combined into a whole on a construction site to realize operations such as high altitude, large span, heavy load, large bandwidth and the like, and the assembled belt conveyor is particularly wide in application range.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. An assembled belt conveyor, which comprises a conveyor frame and a roller support arranged on the conveyor frame, and is characterized in that,

the conveyor frame is formed by assembling and combining a plurality of frame units along the conveying direction of the assembled belt conveyor;

the frame unit comprises a bottom module (1), a side module (2) and a top module (3) which are detachably connected;

the bottom module (1) is supported from the bottom through the side module (2) and the top module (3), and the bottom module (1), the side module (2) and the top module (3) are assembled and combined to form a space grid structure unit.

2. The fabricated belt conveyor of claim 1,

the bottom module (1) comprises: the assembly type belt conveyor comprises a first boundary beam (11) arranged along the conveying direction of the assembly type belt conveyor, and a first cross beam (12) used for detachably connecting a plurality of the first boundary beams (11) along the width direction of the assembly type belt conveyor, wherein the first boundary beam (11) and the first cross beam (12) are spliced and enclosed to form a rectangular grid structure unit;

a first inclined support (13) used for obliquely supporting the rectangular grid structure unit is arranged between the first side beam (11) and the first cross beam (12);

the detachable connection is realized between the first edge beam (11) and the first cross beam (12), between the first edge beam (11) and the first inclined strut (13), and between the first cross beam (12) and the first inclined strut (13) through first connecting pieces.

3. The fabricated belt conveyor of claim 2,

it is adjacent two still be equipped with between first crossbeam (12) both ends respectively detachable connection correspond support roof beam (14) on first boundary beam (11), support roof beam (14) with first crossbeam (12) are parallel, first bracing (13) support first crossbeam (12) with support between roof beam (14), so that form stable triangle-shaped truss structure between first boundary beam (11), first crossbeam (12) and first bracing (13) and/or between first boundary beam (11), support roof beam (14) and first bracing (13).

4. The fabricated belt conveyor of claim 2,

the side module (2) comprises: the first vertical supports (21) are arranged along the height direction of the assembled belt conveyor and used for being detachably connected with the first edge beams (11) and supporting the top module (3), and the second inclined supports (22) are arranged between every two adjacent first vertical supports (21) and used for obliquely supporting the first vertical supports (21) and the top module (3);

the first edge beam (11) is detachably connected with the first vertical support (21) and the first vertical support (21) is detachably connected with the second inclined support (22) through second connecting pieces.

5. The fabricated belt conveyor of claim 4,

a third inclined strut (23) for inclined support is arranged between the first vertical strut (21) and the first cross beam (12) on the first edge beam (11), one end of the third inclined strut (23) is connected with and supported on the first vertical strut (21), and the other end of the third inclined strut (23) is connected with and supported on the first cross beam (12); or

And a third inclined strut (23) for inclined support is arranged between the first vertical struts (21) on the two adjacent first edge beams (11), one end of the third inclined strut (23) is connected with and supported on one of the first vertical struts (21), and the other end of the third inclined strut (23) is connected with and supported on the other of the first vertical struts (21).

6. The fabricated belt conveyor of claim 4,

the top module (3) comprises: the second edge beams (31) are parallel to the first edge beams (11) and detachably connected with the first vertical braces (21), carrier roller supports distributed along the width direction of the assembled belt conveyor are distributed between every two adjacent second edge beams (31), and the carrier roller supports are uniformly distributed along the conveying direction of the assembled belt conveyor;

the second edge beam (31) is detachably connected with the first vertical support (21) through a third connecting piece.

7. The fabricated belt conveyor of claim 6,

the first edge beam (11) and the second edge beam (31) comprise a plurality of profile beams and profile connecting pieces for connecting the profile beams;

the section bar beam is made of angle steel, I-shaped steel, T-shaped steel, channel steel or O-shaped steel pipes.

8. The fabricated belt conveyor of claim 6,

the first connecting piece, the second connecting piece and the third connecting piece adopt at least one of a bolt connecting piece, a plug-in connecting piece, a clamping connecting piece, a nested connecting piece, a hinge connecting piece or a binding connecting piece;

the assembly part of the conveyor frame is provided with support ribs for facilitating combination and assembly in place and improving the structural strength and connection stability of the assembly part;

the support rib is at least one of a thick steel plate, a thick metal plate, C-shaped steel, U-shaped steel and H-shaped steel.

9. The fabricated belt conveyor of claim 2,

the assembled belt conveyor also comprises a supporting part (4);

the supporting part (4) comprises a supporting leg mechanism (41) for controlling the conveying height of the assembled belt conveyor, the supporting leg mechanism (41) is detachably connected with the first edge beam (11) and is realized, an installation mechanism (42) is installed at any position of the supporting leg mechanism (41), and the supporting leg mechanism (41) is hinged to the installation mechanism (42).

10. The fabricated belt conveyor of claim 9,

the mounting mechanism (42) comprises a mounting seat (421) used for being hinged with the supporting leg mechanism (41), a U-shaped bolt (422) used for clamping the first edge beam (11) on the mounting seat (421) and fixedly connected with the mounting seat (421), a first cushion block (423) used for being filled into the first edge beam (11) so that the inner surface of the U-shaped bolt (422) can be completely attached to and stably and fixedly clamp the first edge beam (11), and a second cushion block (424) used for being filled into the space between the first edge beam (11) and the mounting seat (421) so as to stably and fixedly clamp the first edge beam (11).

11. The fabricated belt conveyor of claim 10,

the supporting part (4) further comprises a leg inclined strut (43) which is hinged with the first edge beam (11) and the leg mechanism (41) through the mounting mechanism (42) at two ends and is used for assisting in supporting the first edge beam (11);

the supporting leg mechanism (41) adopts a telescopic mechanism with adjustable height.

12. The fabricated belt conveyor of claim 1,

the fabricated belt conveyor further includes: the conveying device comprises a driving mechanism and a direction changing mechanism which are arranged at two ends of a conveyor frame, a conveying belt which is arranged on a carrier roller support and driven to operate by the driving mechanism and the direction changing mechanism, a carrier roller which is arranged on the carrier roller support and used for supporting the conveying belt to move in a rolling manner, a cleaning mechanism which is arranged at the tail end of the conveyor frame and used for cleaning residues on the conveying belt, and a tensioning mechanism which is used for tensioning the conveying belt;

the fabricated belt conveyor further includes: the walking platform is arranged on the lateral side of the conveyor frame and used for walking and a guardrail used for protection.

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