CN107503517B - Concrete belt conveying and pumping integrated machine - Google Patents

Abstract

The invention relates to a concrete belt conveying and pumping integrated machine which comprises a chassis, wherein a feeding mechanism, a conveying mechanism and a pumping mechanism are arranged above the chassis, the discharge ends of the feeding mechanism and the pumping mechanism are communicated with the feed end of the conveying mechanism, the discharge end of the conveying mechanism is provided with a discharge hopper, and concrete is conveyed to the conveying mechanism through the feeding mechanism or the pumping mechanism and then poured to a designated position through the conveying mechanism and the discharge hopper; the invention provides a concrete belt conveying and pumping integrated machine which has the functions of conveying and pumping concrete, has low requirement on the size of concrete particles in conveying operation, can reduce labor intensity, and serves rural markets in a faster, better and more environment-friendly mode.

Description

Concrete belt conveying and pumping integrated machine

Technical Field

The invention relates to mechanical equipment for construction, in particular to a concrete belt conveying and pumping integrated machine.

Background

The boom pump truck has the functions of integrating pumping and distributing, and along with the promotion of urban construction, a great deal of boom pump truck is used in rural construction houses, but because rural commodity concrete mixing stations are not popular, rural areas are mostly stirred in a field stirring mode, the stirring and the distributing work of the boom pump truck is completed by different machines, the different machines need to be matched in specification, the occupied area is large, the installation and the debugging are labor-consuming and time-consuming, the production efficiency is low, the rural stirring equipment speed is too slow, and the pumping speed is far behind that of the boom pump, so that the equipment is wasted; in addition, the rural roads are narrow, and some equipment is difficult to reach the final construction site, so that the rural labor force is scarce year by year and the manual commission rises year by year; moreover, in the foundation concrete pouring process of rural house construction, the requirement on the particle size of concrete is high, but the requirement of the cantilever crane pump truck is often not met by the particle size of the concrete required by rural house construction, so that people think that the concrete required by rural house construction is conveyed by using a belt conveyor, but the belt conveyor for concrete conveying in the market at present does not have the functions of automatic feeding of concrete raw materials and concrete conveying, so that the design of the medium-and small-sized integrated belt conveyor suitable for stirring and conveying of the concrete in villages and towns is needed.

In order to solve the problems, he invented a 'boom pump truck with a forced mixer' (application number CN 201621119292.1), which adds a forced mixer at the rear part of the automobile body and adopts a foldable feeding device, so as to solve the defects of non-integration of mixing and conveying and the defect of larger volume and inconvenience in driving in rural sections compared with the traditional boom pump truck. However, the requirement of the cantilever crane pump truck on the particle size of concrete is high, the particle size cannot be too large, but the particle size of the concrete required by rural house construction cannot meet the requirement of the cantilever crane pump truck, and the phenomenon of blockage of a concrete pumping pipeline is easy to occur. On the basis, others invented a mobile belt conveyor (patent number: CN 201620320714.5) for pouring concrete in a turning block, the requirement on the size of concrete particles is not high by conveying the concrete through the belt conveyor, but the mobile belt conveyor does not have the function of automatically feeding and stirring the raw materials of the concrete, so that the whole concrete stirring pouring operation can be realized by being matched with a plurality of devices, and the existing three-in-one arm support pump is inferior.

Therefore, the design of the integrated machine with the functions of belt conveying and pumping is very necessary when the height of a concrete using site is not high and the requirement on concrete particles is not high, the belt conveying can be adopted for low-altitude operation, and when the height of concrete pouring operation is high, the pumping function can be adopted for pumping concrete to the high-altitude operation site, meanwhile, the labor intensity can be reduced, and the equipment in rural markets can be served in a faster, better and more environment-friendly mode.

Disclosure of Invention

Based on the above, it is necessary to provide a concrete belt conveying and pumping integrated machine, which has the functions of conveying and pumping concrete, and the conveying operation has low requirement on the size of concrete particles, and can reduce the labor intensity, thereby serving rural markets in a faster, better and more environment-friendly way.

The utility model provides a concrete belt carries, pump sending all-in-one, includes the chassis, the chassis top is provided with feed mechanism, defeated material mechanism and pumping mechanism, feed mechanism and pumping mechanism's discharge end with the feed end intercommunication of defeated material mechanism, the discharge end of defeated material mechanism is provided with out the hopper, and concrete is carried to defeated material mechanism through feed mechanism or pumping mechanism, and again through defeated material mechanism and discharge hopper watering to appointed position.

According to the concrete belt conveying and pumping integrated machine, the feeding mechanism, the conveying mechanism and the pumping mechanism are arranged on the chassis in a centralized manner, so that the integrated belt machine has concrete conveying and pumping functions, belt conveying can be adopted when the height of a concrete using site is not high and low-altitude operation with low requirements on concrete particles is not high, and concrete pumping can be carried out to the high-altitude operation site by adopting the pumping function when the height of concrete pouring operation is high; the feeding mechanism, the material conveying mechanism and the pumping mechanism can work cooperatively, and meanwhile, the feeding mechanism, the material conveying mechanism and the pumping mechanism can work independently according to construction conditions and construction requirements, so that the utilization rate of equipment can be maximized, the maximum economic benefit is obtained, and the problem that two modes of equipment, namely low-altitude operation and high-altitude operation, in concrete pouring operation in the existing building construction cannot be commonly used is well solved.

In one embodiment, a first rotary table is arranged at the right end above the chassis, the discharging end of the pumping mechanism is rotatably connected with the chassis through the first rotary table, the first rotary table comprises a first rotary support, the feeding end of the feeding mechanism is arranged at the middle position of the first rotary support, a second rotary table is arranged at the top of the first rotary support, the discharging end of the feeding mechanism is rotatably connected with the first rotary support through the second rotary table, a control box and a power unit are arranged at the left end above the chassis, the power unit is controlled by the control box, the power unit provides power for the feeding mechanism, the feeding mechanism and the pumping mechanism are vertically stacked together through the first rotary table and the second rotary table, and the feeding mechanism can also rotate mutually without interference, so that the feeding mechanism and the pumping mechanism have the following advantages: 1. the feeding mechanism, the conveying mechanism and the pumping mechanism are overlapped up and down, so that the whole structure of the equipment is compact and attractive, the equipment is convenient to communicate with each other, the whole conveying or pumping distance of concrete is shortened, and connecting materials among the parts are saved; 2. the feeding mechanism and the feeding mechanism are arranged in a mutually rotating mode, operation of the feeding mechanism and the feeding mechanism is facilitated, recovery and reset after operation of the feeding mechanism are facilitated, rotation is recovered to the upper portion of the feeding mechanism after operation of the feeding mechanism is completed, the whole size of the device is greatly reduced, and the device is facilitated to pass through and be stable in the road driving process.

Preferably, a water tank can be arranged above the pumping mechanism, the water tank is arranged to facilitate the flushing operation of the equipment by nearby water taking, and further, a water pump can be arranged in the water tank, and a water gun for flushing is arranged in the water tank, so that the pressure of flushing water is increased, the equipment can be better cleaned, and the effects of maintaining the appearance of the equipment and keeping clean are achieved; meanwhile, by injecting water into the water tank, the counterweight function is realized in the using process of the equipment,

to maintain stability of the device during use; after the operation is finished, the water in the water tank is discharged, so that the overall weight of the equipment is reduced, the equipment is convenient to move, and the oil consumption required by running of the equipment is reduced.

Preferably, the water tank is a cuboid water tank, the right lower corner of the top of the water tank is provided with a water inlet ball valve, the water inlet ball valve is in threaded connection with the top wall of the water tank, a flushing pump is arranged inside the water tank, the right lower corner of the bottom wall of the water tank is provided with a water outlet ball valve, the flushing pump is communicated with the water outlet ball valve, the water outlet end of the water outlet ball valve can be externally connected with a water pipe or a water gun through the flushing pump and the water outlet ball valve, so that the water inside the water tank of the belt conveyor can be conveniently utilized to flush equipment, and the equipment is kept clean and tidy.

In one embodiment, the second rotary table comprises a second rotary inner ring fixedly arranged at the top of the first rotary support, a second rotary outer ring is rotatably sleeved outside the second rotary inner ring, a gear ring is arranged on the outer side of the second rotary outer ring, the second rotary support is fixedly arranged above the second rotary outer ring, a second rotary table motor is fixedly arranged at the top of the first rotary support, a gear is fixedly arranged on a rotary shaft of the second rotary table motor, the gear on the rotary shaft of the second rotary table motor is in meshed transmission connection with the second rotary outer ring, and the feeding mechanism is connected with the second rotary support.

In one embodiment, the feeding mechanism comprises a feeding belt support, the upper end and the lower end of the feeding belt support are respectively provided with a feeding belt rotating shaft, the feeding belt rotating shafts are sleeved with feeding belts, one side of the lower end of the feeding belt support is provided with a first motor, the feeding belt rotating shafts at the lower end of the feeding belt support are driven to rotate so as to drive the feeding belts to rotate, two sides of the upper end of the feeding belt support are respectively provided with a first hinge support, two sides of the second hinge support are respectively provided with a second hinge support, a feeding mechanism lifting oil cylinder is arranged between the first hinge support and the second hinge support at the same side, two ends of the feeding mechanism lifting oil cylinder are respectively in matched rotation connection with the first hinge support and the second hinge support through the rotating shafts, and the lower end of the feeding belt support is provided with a first receiving hopper which is used for receiving concrete from an external stirring device through the first receiving hopper and then is conveyed to the feeding mechanism through the feeding belts.

Preferably, the feeding mechanism is a folding feeding mechanism, the feeding mechanism comprises a feeding belt support, the upper section and the lower section of the feeding belt support are hinged end to end, the upper section is provided with a feeding belt rotating shaft, the upper end and the lower section of the feeding belt support are respectively transversely provided with a feeding belt rotating shaft, the feeding belt rotating shaft is sleeved with a feeding belt, the lower section is provided with a first motor on one side of the lower end of the feeding belt support, the first motor drives the feeding belt rotating shaft on the lower section of the feeding belt support to rotate so as to drive the feeding belt to rotate to convey concrete upwards, the lower section is respectively provided with a third hinging seat on two sides of the upper end of the feeding belt support, the two sides of the feeding belt support are respectively provided with a fourth hinging seat, a feeding belt support overturning cylinder is arranged between the third hinging seat and the fourth hinging seat on the same side, two ends of the feeding belt support overturning cylinder are respectively connected with a fourth hinging seat through a third hinging seat and a fourth hinging seat, and the two ends of the feeding belt support overturning cylinder are respectively connected with a fourth hinging seat through a hinge, and a concrete conveying hopper is arranged at the lower end of the feeding belt receiving device through a hinge.

Two sections the loading belt support is articulated end to cooperation loading belt support upset hydro-cylinder and loading belt support upset hydro-cylinder both ends are respectively through pivot and being located down the section the third free bearing and the upper segment of loading belt support upper end the fourth free bearing cooperation rotation connection of loading belt support realizes the folding purpose of feed mechanism, and when the piston rod of loading belt support upset hydro-cylinder stretched out, the lower festival the loading belt support upset is folded to the upper segment loading belt support top, and when the piston rod of loading belt support upset hydro-cylinder was retrieved, the lower festival the loading belt support is overturned downwards, upper and lower loading belt support end to end makes things convenient for the transportation of concrete.

In one embodiment, the material conveying mechanism comprises a basic arm and at least two sections of telescopic arms sleeved in the basic arm in sequence, the tail part of the basic arm is rotatably connected with the first rotary support through a rotating shaft, the telescopic arms are movably connected with the external telescopic arms or the basic arm through rollers and sliding rails, the feeding end of the basic arm is provided with a second material receiving hopper, the outer side of the lower side wall of the basic arm is provided with a telescopic cylinder and two basic arm lifting cylinders, one end of a cylinder barrel of each basic arm lifting cylinder is hinged with the first rotary support, one end of a piston rod of each basic arm is hinged with the basic arm, and at least two sections of telescopic arms sleeved in the basic arm and connected through rollers and a inhaul cable are connected through a rope; the cylinder barrel one end of flexible hydro-cylinder with basic arm articulates, and its piston rod one end with be located the inside tip of first section flexible arm of basic arm articulates, the both ends of basic arm and flexible arm are provided with the material conveying belt pivot respectively, the cover is equipped with the material conveying belt respectively in the material conveying belt pivot at basic arm and flexible arm both ends, is located be provided with the second motor on the lateral wall of basic arm and flexible arm front end respectively, the second motor drive is located the material conveying belt pivot of basic arm and flexible arm front end rotates in order to drive the material conveying belt rotates, a plurality of through-holes have been seted up respectively on the lateral wall of basic arm and flexible arm, set up the through-hole and have two advantages: firstly, the overall weight of the whole conveying mechanism is obviously reduced, so that the running and the operation of the belt conveyor are lighter; secondly, the through holes are formed, so that the telescopic arms and the inside of the basic arms are conveniently cleaned, the maintenance of the material conveying mechanism is facilitated, and the overall service life of the belt conveyor is prolonged; thirdly, the tensioning mechanism of the material conveying belt is convenient to adjust, and the operation difficulty of the equipment is reduced; the material discharging ends of the basic arm and the telescopic arm are respectively provided with a scraping plate, the scraping plates are respectively contacted with a material conveying belt below the scraping plates, and a rubber scraping plate is arranged, so that on one hand, concrete is conveniently adhered to the surface of the material conveying belt below the scraping plates, on the other hand, the lower ends of the scraping plates are contacted with the material conveying belt below the scraping plates, the concrete falling from the material conveying belt flows downwards along the scraping plates, the scraping plates play a role of a material guiding plate to a certain extent, and the phenomenon that solids and liquid of the concrete are separated can be placed to a certain extent; the discharging hopper is arranged at the end part of the innermost telescopic arm, concrete conveyed from the second receiving hopper through the conveying belt is finally poured to a designated place through the discharging hopper at the end part of the innermost telescopic arm, and the whole conveying operation is completed;

The single-stage conveying multi-stage telescopic material conveying mechanism has the following advantages: firstly, the telescopic arm is not easy to generate deviation in the telescopic process, and the tensioning mechanism is simple and reliable; and secondly, the effect of conveying concrete is equivalent to that of a conveying mechanism adopting a whole section of belt, but the whole construction cost of the conveying mechanism adopting a telescopic type is lower, and the conveying mechanism is favorable for acceptance and popularization of the market.

Preferably, a first arm extending runner is installed on the inner wall of the end part of a first section of telescopic arm in the basic arm, a first arm extending stay rope bypasses the first arm extending runner, the first end of the first arm extending stay rope is connected with the basic arm, the second end of the first arm extending stay rope is connected with a second section of telescopic arm, a first arm retracting runner is installed on the inner wall of the tail part of the first section of telescopic arm in the basic arm, the first arm retracting stay rope bypasses the first arm retracting runner, the first end of the first arm retracting stay rope is connected with the basic arm, the second end of the first arm retracting stay rope is connected with the second section of telescopic arm, when a piston rod of a telescopic oil cylinder stretches out, the first section of telescopic arm in the basic arm extends outwards, and simultaneously, the first arm extending stay rope and the first arm retracting arm are combined with a roller and a sliding rail between the telescopic arm, and the second section of telescopic arm are pulled to stretch outwards together with the first section of telescopic arm; correspondingly, when the piston rod of the telescopic cylinder is recovered, the first telescopic arm inhaul cable and the first telescopic arm rotating wheel are combined with the roller and the sliding rail between the telescopic arm and the basic arm, the second section of telescopic arm is pulled to be recovered inwards together with the first section of telescopic arm, the first section of telescopic arm and the second section of telescopic arm are jointly telescopic, the telescopic efficiency of the telescopic arm is improved, the time of the whole concrete pouring operation is saved, further, the concrete pouring distance needs to be improved, and the pouring distance of the whole telescopic arm can be correspondingly improved by adding the corresponding telescopic arm, the rope, the rotating wheel, the roller and the sliding rail in the second section of telescopic arm.

Preferably, the discharging hopper is hinged with the end part of the second section of telescopic arm in a hinged connection mode, the discharging direction of the discharging hopper is always kept vertical to the ground under the action of self gravity, the angle of concrete pouring is guaranteed, the precision of concrete pouring is improved, and further preferably, a vertical material guiding pipe is arranged at the discharging hole of the discharging hopper, so that concrete is prevented from splashing in the pouring process.

Preferably, the end part of the innermost telescopic arm is fixedly provided with a lifting hook, and the lifting hook is arranged at the end part of the innermost telescopic arm to be matched with the lifting cylinder on the basic arm, so that the belt conveyor can be regarded as a crane for use when needed, and the belt conveyor is favorable for market approval and popularization.

In one embodiment, the first rotary table comprises a first rotary inner ring fixedly arranged on the chassis, a first rotary outer ring is rotatably sleeved outside the first rotary inner ring, a gear ring is arranged outside the first rotary outer ring, the first rotary support is fixedly arranged above the first rotary outer ring, a first rotary table motor is fixedly arranged on the chassis, a gear is fixedly arranged on a rotary shaft of the first rotary table motor, the gear on the rotary shaft of the first rotary table motor is in meshed transmission connection with the first rotary outer ring, and the pumping mechanism is connected with the second rotary support.

In one embodiment, the pumping mechanism comprises 2 drag pump cylinders, a concrete piston, a gate valve assembly, a stirring system, 2 water tanks, 2 conveying cylinders, a hopper and a Y-shaped pipe, wherein the concrete piston is arranged inside the conveying cylinders, the piston rod ends of the 2 drag pump cylinders are respectively connected with the concrete piston, the hopper is positioned above the stirring system and used for feeding the stirring system, the drag pump cylinders, the water tanks, the conveying cylinders, the gate valve assembly, the stirring system and the Y-shaped pipe are sequentially communicated, two feeding ports of the Y-shaped pipe are respectively communicated with 2 discharging ports of the stirring system, the 2 feeding ports of the stirring system are respectively and sequentially communicated with the gate valve assembly, the conveying cylinders, the water tanks and the drag pump cylinders, and the discharging ports of the Y-shaped pipe are communicated with the feeding ends of the conveying mechanism.

The working principle of the drag pump is as follows: when the pressure oil enters the rodless cavity of the right drag pump cylinder, the piston rod of the pressure oil pushes the right concrete piston to discharge concrete in the conveying cylinder, at the moment, the right flashboard seals a channel of the right conveying cylinder leading to a hopper under the action of the slide valve cylinder, the discharged concrete in the conveying cylinder is discharged to a Y-shaped pipe (connected with a conveying pipeline), meanwhile, hydraulic oil in the rod cavity of the right drag pump cylinder enters the rod cavity of the left drag pump cylinder through a closed loop to enable the piston rod to drive the left concrete piston to retract and suck the concrete, and the left flashboard moves to a lower position under the action of the slide valve cylinder, so that the channel of the left conveying cylinder leading to the Y-shaped pipe is sealed, and the concrete in the hopper is sucked into the left conveying cylinder under the boosting action of a stirring blade. When the motion reaches the end point, the hydraulic control reversing valve is pushed by the high-pressure oil in the rodless cavity of the right drag pump cylinder, so that the automatic reversing is realized. Firstly, the gate valve is reversed, then the oil cylinder of the drag pump is reversed, so that the concrete in the left concrete cylinder is discharged to the Y-shaped pipe, the right concrete cylinder sucks the concrete in the hopper to complete a working cycle, the left and right conveying cylinders are reciprocated in this way to continuously complete sucking and pushing operations, and the concrete in the hopper is continuously discharged to reach a pouring point through the Y-shaped pipe and the conveying mechanism.

Preferably, the chassis comprises a cab part and a bearing part, the feeding mechanism, the material conveying mechanism and the pumping mechanism are arranged at the right end above the bearing part, the power unit and the controller are arranged at the left end above the bearing part, the upper side and the lower side of each corner of the bearing part are respectively provided with an ear plate, the ear plates are respectively and rotatably connected with an extension rod through hinge shafts, the tail end of each extension rod is provided with a supporting leg which can stretch out and draw back along the up-down direction, the supporting legs comprise supporting leg oil cylinders and supporting leg plates, the cylinder ends of the supporting leg oil cylinders are connected with the extension rods, the piston rod ends of the supporting leg oil cylinders are connected with the supporting leg plates, the extension rods are hinged with the chassis, when the equipment needs to operate, the extension rods at the corners of the bearing part are unfolded, and then the supporting leg oil cylinders are controlled to extend out so as to realize stable support on different terrains, the equipment can realize stable support on different terrains, and adapt to the construction capability of the equipment to more rural terrains; when the equipment needs to be moved or is in a non-operation state, the extension rod can be retracted and the supporting leg oil cylinder is in a recovery state, so that the whole equipment is very compact due to the design, the stability of the equipment can be well ensured while the volume of the whole equipment is reduced, the requirement of the whole operation of the equipment is met, the volume of the equipment is small, and the equipment can conveniently run on rural road sections, so that the equipment is more suitable for rural house construction work.

In one embodiment, the power unit comprises a third motor, an oil tank, an electronic valve group and an oil pump, the third motor drives the oil pump to rotate so as to provide power for the lifting oil cylinder of the feeding mechanism, the lifting oil cylinder of the basic arm, the telescopic oil cylinder, the towing oil cylinder and the supporting leg oil cylinder, the first motor, the second motor, the third motor, the first rotary table motor and the second rotary table motor are controlled by the control box, and the control box orderly controls the motors and the oil cylinders to act through the electronic valve group and control buttons on the box body of the control box.

The beneficial effects obtained by the invention are as follows: according to the concrete belt conveying and pumping integrated machine provided by the invention, the feeding mechanism, the conveying mechanism and the pumping mechanism are intensively arranged on the chassis, so that the integrated belt machine has the concrete conveying and pumping functions, when the height of a concrete using site is not high and the requirement on concrete particles is not high, the belt conveying can be adopted for low-altitude operation, when the height of concrete pouring operation is high, the pumping function can be adopted for pumping concrete to an high-altitude operation site, the problem that two modes of equipment of low-altitude operation and high-altitude operation in the existing building construction cannot be commonly used is well solved, the belt machine is adopted for conveying concrete, the problem that the size of concrete particles is not high is completely avoided, meanwhile, the phenomenon of blockage in the concrete conveying process is completely avoided, and when the equipment is idle, the feeding mechanism is folded, the conveying mechanism and an extension rod on the chassis are contracted, the whole volume of the equipment is greatly reduced, and the equipment is convenient to move or travel in rural road sections.

Drawings

FIG. 1 is a schematic view of the structure of an upper part according to an embodiment of the present invention;

FIG. 2 is a schematic view of a left-hand partial structure of an upper assembly part according to one embodiment of the present invention;

FIG. 3 is a schematic view of a bottom partial structure at a first steering station according to an embodiment of the present invention;

FIG. 4 is a schematic view of a partial structure at a second steering stage in an embodiment of the invention;

FIG. 5 is a schematic view of a feeding mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a pumping mechanism in one embodiment of the invention;

FIG. 7 is a schematic view of the chassis of an embodiment of the present invention;

FIG. 8 is a schematic bottom view of a load-bearing portion of a chassis in accordance with one embodiment of the present invention;

fig. 9 is a schematic structural view of a feeding mechanism according to another embodiment of the present invention.

Detailed Description

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," and the like indicate an orientation or positional relationship based on that shown in the drawings, merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "plurality" is two or more unless specifically defined otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

As shown in fig. 1 to 5, for convenience of description, the "up", "down", "left", "right", "front", "rear" azimuth references in the present invention are based on the azimuth shown in fig. 1; the utility model provides a concrete belt delivery, pump sending all-in-one, includes chassis (not shown in the figure), is provided with feed mechanism 20, delivery mechanism 10 and pumping mechanism 30 above the chassis, and feed mechanism 10 and pumping mechanism 30's discharge end and the feed end intercommunication of delivery mechanism 10, and the discharge end of delivery mechanism 10 is provided with out the hopper, and concrete is carried to delivery mechanism 10 through feed mechanism 20 or pumping mechanism 30, and again through delivery mechanism 10 and out the hopper and water to appointed position.

Preferably, a first rotary table 40 is arranged at the right end above the chassis, the discharge end of the pumping mechanism 30 is rotatably connected with the chassis through the first rotary table 40, the first rotary table 40 comprises a first rotary support 402, the feed end of the material conveying mechanism 10 is arranged at the middle position of the first rotary support 402, a second rotary table 50 is arranged at the top of the first rotary support 402, the discharge end of the material feeding mechanism 20 is rotatably connected with the first rotary support 402 through the second rotary table 50, a control box and a power unit are arranged at the left end above the chassis, the power unit is controlled by the control box, and the power unit provides power for the material feeding mechanism 20, the material conveying mechanism 10 and the pumping mechanism 30.

Specifically, the second rotary table 50 includes a second rotary inner ring fixedly disposed at the top of the first rotary support 402, a second rotary outer ring rotatably sleeved outside the second rotary inner ring, and a gear ring outside the second rotary outer ring, a second rotary support 501 is fixedly disposed above the second rotary outer ring, a second rotary table motor is fixedly disposed at the top of the first rotary support 402, a gear is fixedly disposed on a rotary shaft of the second rotary table motor, the gear on the rotary shaft of the second rotary table motor is meshed and in transmission connection with the second rotary outer ring, and the feeding mechanism 20 is connected with the second rotary support 501.

Specifically, the feeding mechanism 20 includes a feeding belt support 201, upper and lower ends of the feeding belt support 201 are respectively provided with a feeding belt rotating shaft, a feeding belt is sleeved on the upper and lower feeding belt rotating shafts, one side of the lower end of the feeding belt support 201 is provided with a first motor, the first motor drives the feeding belt rotating shaft located at the lower end of the feeding belt support 201 to rotate so as to drive the feeding belt to rotate, two sides of the upper end of the feeding belt support 201 are respectively provided with a first hinge support 202, two sides of a second rotary support 501 are respectively provided with a second hinge support 502, a feeding mechanism lifting cylinder 203 is arranged between the first hinge support 202 and the second hinge support 502 on the same side, two ends of the feeding mechanism lifting cylinder 203 are respectively connected with the first hinge support 202 and the second hinge support 502 in a matched rotation mode, and the lower end of the feeding belt support 201 is provided with a first receiving hopper which receives concrete from an external stirring device and conveys the concrete to the feeding mechanism 10 through the feeding belt.

Specifically, the material conveying mechanism 10 includes a basic arm 103 and at least two sections of telescopic arms sleeved in the basic arm 103 in sequence, the tail of the basic arm 103 is rotatably connected with a first rotary bracket 402 through a rotating shaft 404, the telescopic arms are movably connected with the external telescopic arms or the basic arm 103 through rollers and sliding rails, a second material receiving hopper is arranged at the feeding end of the basic arm 103, a telescopic cylinder and two basic arm lifting cylinders 104 are arranged at the outer side of the lower side wall of the basic arm 103, one end of a cylinder barrel of each basic arm lifting cylinder 104 is hinged with the first rotary bracket 402, one end of a piston rod of each basic arm is hinged with the basic arm 103, and at least two sections of telescopic arms sleeved in the basic arm 103 and connected through rollers and a guy cable are connected through a rope; the cylinder barrel one end of flexible hydro-cylinder articulates with basic arm 103, and its piston rod one end articulates with the tip of the first section flexible arm 102 that is located basic arm 103 inside, the both ends of basic arm 103 and flexible arm are provided with material conveying belt pivot 105 respectively, the cover is equipped with material conveying belt 106 respectively on the material conveying belt pivot 105 at basic arm 103 and flexible arm both ends, be provided with the second motor on the lateral wall that is located basic arm 103 and flexible arm front end respectively, the rotation of material conveying belt pivot 105 that is located basic arm 103 and flexible arm front end respectively is in order to drive material conveying belt 106 rotation, a plurality of through-holes have been seted up respectively on the lateral wall of basic arm 103 and flexible arm, the discharge end of basic arm 103 and flexible arm is provided with the scraper respectively, the scraper contacts with the material conveying belt 106 of its below, the discharge hopper sets up the tip at the flexible arm that is located innermost, concrete that is carried from the second material receiving hopper through material conveying belt 106, finally, through the hopper that is located the flexible arm tip of innermost, to appointed place, accomplish whole material conveying operation.

Preferably, a first arm stretching runner 109 is installed on the inner wall of the end part of the first section of telescopic arm 102 positioned in the basic arm 103, a first arm stretching cable 110 bypasses the first arm stretching runner 109, the first end of the first arm stretching cable is connected with the basic arm 103, the second end of the first arm stretching cable is connected with the second section of telescopic arm 101, a first arm shrinking runner 108 is installed on the inner wall of the tail part of the first section of telescopic arm 102 positioned in the basic arm 103, the first arm shrinking cable 107 bypasses the first arm shrinking runner 108, the first end of the first arm shrinking cable is connected with the basic arm 103, and the second end of the first arm shrinking cable is connected with the second section of telescopic arm 101.

Preferably, the discharging hopper is hinged with the end part of the second section of telescopic arm 101 in a hinged connection mode, the discharging direction of the discharging hopper is always vertical to the ground under the action of self gravity, the concrete pouring angle is guaranteed, the concrete pouring precision is improved, and further preferably, a vertical material guiding pipe is arranged at the discharging hole of the discharging hopper, so that concrete is prevented from splashing in the pouring process.

Specifically, the first rotary table 40 includes a first rotary inner ring 405 fixedly disposed on the chassis, a first rotary outer ring 401 rotatably sleeved outside the first rotary inner ring 405, a gear ring disposed outside the first rotary outer ring 401, a first rotary support 402 fixedly disposed above the first rotary outer ring 401, a first rotary table motor 403 fixedly disposed on the chassis, a gear fixedly disposed on a rotating shaft of the first rotary table motor 403, and a gear in the rotating shaft of the first rotary table motor 403 engaged with the first rotary outer ring 401 for transmission connection, where the pumping mechanism 30 is connected with the second rotary support 402.

Specifically, the pumping mechanism 30 includes 2 drag pump cylinders 301, a concrete piston 302, a gate valve assembly 303, a stirring system 304, 2 water tanks 308, 2 conveying cylinders 307, a hopper 306 and a Y-shaped pipe 305, the concrete piston 302 is disposed inside the conveying cylinders 307, piston rod ends of the 2 drag pump cylinders 301 are respectively connected with the concrete piston 302, the hopper 306 is located above the stirring system 304 and is used for feeding of the stirring system 304, the drag pump cylinders 301, the water tanks 308, the conveying cylinders 307, the gate valve assembly 303, the stirring system 304 and the Y-shaped pipe 305 are sequentially communicated, two feeding ports of the Y-shaped pipe 305 are respectively communicated with 2 feeding ports of the stirring system 304, the 2 feeding ports of the stirring system 304 are respectively sequentially communicated with the gate valve assembly 303, the conveying cylinders 307, the water tanks 308 and the drag pump cylinders 301, and the feeding ports of the Y-shaped pipe 305 are respectively communicated with the feeding ports of the feeding mechanism 10.

Preferably, the chassis 60 includes a cab portion 601 and a bearing portion 602, the feeding mechanism 20, the feeding mechanism 10 and the pumping mechanism 30 are disposed at a right end above the bearing portion 602, the power unit and the controller are disposed at a left end above the bearing portion 602, ear plates 603 are respectively disposed at an upper side and a lower side of each corner of the bearing portion 602, the upper ear plates 603 and the lower ear plates 603 are respectively and rotatably connected with extension rods 604 through hinge shafts, a supporting leg 605 capable of extending and retracting in an up-down direction is disposed at an end of each extension rod 604, the supporting leg 605 includes a supporting leg oil cylinder 6051 and a supporting leg plate 6055, a cylinder end of the supporting leg oil cylinder 6051 is connected with the extension rods 604, and a piston rod end of the supporting leg oil cylinder 6051 is connected with the supporting leg plate 6052.

Specifically, the power unit includes a third motor, an oil tank, an electronic valve group and an oil pump, the third motor drives the oil pump to rotate to provide power for the lifting oil cylinder 203 of the feeding mechanism, the lifting oil cylinder 104 of the basic arm, the telescopic oil cylinder, the oil cylinder 301 of the towing pump and the oil cylinder 6051 of the supporting leg, the first motor, the second motor, the third motor, the first rotary table motor 403 and the second rotary table motor are controlled by a control box, and the control box orderly controls the motors and the oil cylinders to act through the electronic valve group and control buttons on the box body of the electronic valve group.

Further, as an alternative embodiment, as shown in fig. 9, a multi-stage telescopic arm sleeving and matching structure is arranged between the basic arm 103 and the telescopic arm of the material conveying mechanism, and because the telescopic arm is of a metal frame structure, the mass is larger, the load of the telescopic cylinder in the telescopic process is larger, and sand stone and concrete are inevitably dropped between the arm structures, so that the blockage and blocking are caused, the deflection and tilting of the telescopic arm are easily caused, the load of the telescopic cylinder is further increased, the normal extension and retraction of the telescopic arm are influenced, and based on the telescopic arm, further improvement is performed on the basic arm and the telescopic arm. The conveying mechanism comprises a master arm 901 and a slave arm 902, wherein the master arm 901 is a master frame sleeved outside the slave arm 902, the slave arm 902 is a slave frame sleeved inside the master arm 901, the basic arm 103 is the master arm 901, the telescopic arm is the slave arm 902, the telescopic arm arranged in the middle layer is the slave arm 902 of the upper stage, and meanwhile, the lower master arm 901 is also the smaller master arm 901 of the lower stage, as an alternative scheme, through holes are arranged on the side walls of the two sides of the master arm 901, and the through holes have the functions of reducing weight, facilitating cleaning, facilitating sediment concrete dropping and convenient maintenance. The bottom surface front end and the rear end of the lower extreme of parent arm 901 are provided with the slagging-off groove 903, slagging-off groove 903 is logical groove structure, is fixed with the storage bag below the slagging-off groove 903 outside. The inner side end part of the corresponding sub-arm 902 is fixedly provided with a scraping inner plate 904, the inner side end part of the sub-arm 902 is fixedly provided with an inwardly extending fixed framework, the end part of the fixed framework is fixedly provided with a scraping framework, the scraping framework is formed by welding two metal rectangular rigid plates in an angle, the cross section of the scraping framework is at a certain angle, the upper end and the lower end of the scraping framework are fixedly provided with scraping rubber plates, and the scraping rubber plates are in abutting fit with the inner side end surfaces of the parent arms 901. The scraping framework and the scraping rubber plate are matched, so that the scraping inner plate 904 has certain rigidity, and is favorable for scraping down concrete and sand which are attached to the inner wall of the parent arm 901 and are fixed firmly. Still further, scrape material rubber slab and mother arm 901 inner wall complex area one point radian inclined plane setting, be provided with parallel arrangement's friction arris on this inclined plane, this friction arris is favorable to sweeping out the concrete friction on the mother arm 901 inner wall, and some concrete residue and dust in fine and small pieces can promote the cleaning through subsequent friction arris simultaneously to realize furthest's cleaning, make things convenient for follow-up washing with flowing water to clean. Preferably, an included angle of 120 degrees is formed between the two rectangular rigid plates of the scraping framework, so that an included angle between the scraping inner plate 904 and the inner wall of the parent arm 901 is 120 degrees, and inclined scraping of concrete residues is facilitated, and residue guiding is facilitated. The scraping framework can be matched with a fixed edge 907 arranged at the mouth of the main arm 901, so that the sub-arm 902 is prevented from falling out of the main arm 901 under extreme conditions, and the safety of equipment is improved.

Further, in order to further position the sub-arm 902, the direction of the sub-arm 902 is restricted, the sub-arm 902 is prevented from being skewed, and the load of the telescopic cylinder is reduced, a track plate 905 is provided on the outer side surfaces of both sides of the sub-arm 902, the outer side surface of the sub-arm 902 is opposite to the inner side surface of the main arm 901, the track plate 905 is provided along the extending direction of the sub-arm 902, and the track plate 905 is provided with more than two track plates symmetrically provided on both sides of the sub-arm 902. The extending length of the track plate 905 is equal to or longer than the telescopic length of the sub-arm 902. The inner side surface of the master arm 901 is detachably fixed with a plurality of rolling bearings 906, the rolling bearings 906 are arranged on the inner wall of the master arm 901 along the extending direction of the master arm 901, and the track plates 905 of the sub-arms 902 are borne on the corresponding plurality of rolling bearings 906, so that the pressure of the sub-arms 902 on the pulley structure of the lower end surface of the inner wall of the master arm 901 is reduced, and meanwhile, the directions of the sub-arms 902 are positioned at two sides, and the offset direction of the sub-arms 902 is limited within an acceptable error range, so that the load of a telescopic oil cylinder is reduced.

Still further, the rolling bearing 906 includes a fixed support installed on the inner side of the main arm 901, an inner ring fixed to the fixed support, an outer ring in contact with the track plate 905, rolling elements disposed between the inner ring and the outer ring, and a cage for limiting the rolling elements and guiding the rolling elements to rotate to perform lubrication, where the outer ring is of a hemispherical hollow shell structure, and the top end of a sphere of the hemispherical hollow shell can be abutted to the outer side of the sub arm 902, so as to limit the extension and retraction direction of the sub arm 902, and the torus of the hemispherical hollow shell is in rolling contact with the lower end face of the track plate 905, so as to perform the function of supporting the sub arm 902, and reduce the compression of the bottom surface of the main arm 901. The rolling bearings 906 are provided in a plurality, and the arrangement of the structure enables the parent arm 901 to provide an upward supporting force to the child arm 902 and a lateral force for limiting, and even if one rolling bearing 906 fails or falls down, the other rolling bearings 906 can still take on the supporting function. Be provided with the fixed orifices on the female arm 901 side, antifriction bearing 906 can put into female arm 901 inboard from the through-hole of female arm 901 side, then fixes the fixed bolster on female arm 901 side, is favorable to installation, maintenance, and clearance, cleanness are also more convenient, and assembly efficiency is higher.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (9)

1. The concrete belt conveying and pumping integrated machine is characterized by comprising a chassis, wherein a feeding mechanism, a conveying mechanism and a pumping mechanism are arranged above the chassis, the discharge ends of the feeding mechanism and the pumping mechanism are communicated with the feed end of the conveying mechanism, a discharge hopper is arranged at the discharge end of the conveying mechanism, concrete is conveyed to the conveying mechanism through the feeding mechanism or the pumping mechanism and is poured to a designated position through the conveying mechanism and the discharge hopper;

The right end above the chassis is provided with a first rotary table, the discharge end of the pumping mechanism is rotatably connected with the chassis through the first rotary table, the first rotary table comprises a first rotary support, the feed end of the material conveying mechanism is arranged at the middle position of the first rotary support, the top of the first rotary support is provided with a second rotary table, and the discharge end of the material feeding mechanism is rotatably connected with the first rotary support through the second rotary table;

the second rotary table comprises a second rotary inner ring fixed at the top of the first rotary support, a second rotary outer ring is rotatably sleeved outside the second rotary inner ring, a gear ring is arranged outside the second rotary outer ring, a second rotary support is fixedly arranged above the second rotary outer ring, and the feeding mechanism is connected with the second rotary support;

the material conveying mechanism comprises a basic arm and at least two sections of telescopic arms sleeved in the basic arm in sequence, the tail part of the basic arm is rotatably connected with the first rotary support through a rotating shaft, the telescopic arms are movably connected with the external telescopic arms or the basic arm through rollers and sliding rails, the feeding end of the basic arm is provided with a second material receiving hopper, the outer side of the lower side wall of the basic arm is provided with a telescopic cylinder and two basic arm lifting cylinders, one end of a cylinder barrel of each basic arm lifting cylinder is hinged with the first rotary support, one end of a piston rod of each basic arm is hinged with the basic arm, and at least two sections of telescopic arms sleeved in the basic arm and connected with each other through rollers and a guy rope are connected through a rope; one end of a cylinder barrel of the telescopic cylinder is hinged with the basic arm, one end of a piston rod of the telescopic cylinder is hinged with the end part of a first section of telescopic arm positioned in the basic arm, two ends of the basic arm and the telescopic arm are respectively provided with a material conveying belt rotating shaft, the material conveying belt rotating shafts at the two ends of the basic arm and the telescopic arm are respectively sleeved with a material conveying belt,

The side walls of the front ends of the basic arm and the telescopic arm are respectively provided with a second motor, the second motors drive the rotating shafts of the conveying belts of the front ends of the basic arm and the telescopic arm to rotate so as to drive the conveying belts to rotate, the discharging ends of the basic arm and the telescopic arm are respectively provided with a scraping plate, the scraping plates are respectively contacted with the conveying belts below the scraping plates, and the discharging hopper is arranged at the end part of the telescopic arm positioned at the innermost side;

the material conveying mechanism comprises a main arm and sub-arms, the main arm is a main frame sleeved outside the sub-arms, the sub-arms are sub-frames sleeved inside the main arm, the basic arm is the main arm, the telescopic arms are the sub-arms, and through holes are arranged on side walls of two sides of the main arm.

2. The concrete belt conveying and pumping integrated machine according to claim 1, wherein a control box and a power unit are arranged at the left end above the chassis, the power unit is controlled by the control box, and the power unit provides power for the feeding mechanism, the conveying mechanism and the pumping mechanism.

3. The concrete belt conveying and pumping integrated machine according to claim 2, wherein a second rotary table motor is fixedly arranged at the top of the first rotary support, a gear is fixedly arranged on a rotary shaft of the second rotary table motor, and the gear on the rotary shaft of the second rotary table motor is in meshed transmission connection with the second rotary outer ring.

4. The concrete belt conveying and pumping integrated machine according to claim 3, wherein the feeding mechanism comprises a feeding belt support, feeding belt rotating shafts are respectively arranged at the upper end and the lower end of the feeding belt support, a feeding belt is sleeved on the feeding belt rotating shafts, a first motor is arranged on one side of the lower end of the feeding belt support, the feeding belt rotating shafts at the lower end of the feeding belt support are driven to rotate so as to drive the feeding belt to rotate, first hinge supports are respectively arranged at two sides of the upper end of the feeding belt support, a feeding mechanism lifting oil cylinder is arranged between the first hinge support and the second hinge support at the same side, two ends of the feeding mechanism lifting oil cylinder are respectively connected with the first hinge support and the second hinge support in a matched rotating mode through the rotating shafts, and a first receiving hopper is arranged at the lower end of the feeding belt support.

5. The concrete belt conveying and pumping integrated machine according to claim 1, wherein a first arm extending rotating wheel is installed on the inner wall of the end part of a first section of telescopic arm in the basic arm, a first arm extending stay rope bypasses the first arm extending rotating wheel, the first end of the first arm extending stay rope is connected with the basic arm, the second end of the first arm extending stay rope is connected with a second section of telescopic arm, a first arm retracting rotating wheel is installed on the inner wall of the end part of the first section of telescopic arm in the basic arm, the first arm retracting stay rope bypasses the first arm retracting rotating wheel, the first end of the first arm extending stay rope is connected with the basic arm, and the second end of the first arm extending stay rope is connected with the second section of telescopic arm.

6. The concrete belt conveying and pumping integrated machine according to claim 1, wherein the discharging hopper is hinged with the end part of the second telescopic arm in a hinged connection mode, and the discharging direction of the discharging hopper is always vertical to the ground under the action of self gravity.

7. The concrete belt conveying and pumping integrated machine according to claim 3, wherein the first rotary table comprises a first rotary inner ring fixedly arranged on the chassis, a first rotary outer ring is rotatably sleeved outside the first rotary inner ring, a gear ring is arranged outside the first rotary outer ring, the first rotary support is fixedly arranged above the first rotary outer ring, a first rotary table motor is fixedly arranged on the chassis, a gear is fixedly arranged on a rotary shaft of the first rotary table motor, the gear on the rotary shaft of the first rotary table motor is in meshed transmission connection with the first rotary outer ring, and the pumping mechanism is connected with the first rotary support.

8. The concrete belt conveying and pumping integrated machine according to claim 3, wherein the pumping mechanism comprises a drag pump cylinder, a concrete piston, a gate valve assembly, a stirring system, a water tank, a conveying cylinder, a hopper and a Y-shaped pipe, the concrete piston is arranged inside the conveying cylinder, a piston rod end of the drag pump cylinder is connected with the concrete piston, the hopper is positioned above the stirring system and used for feeding the stirring system, the drag pump cylinder, the water tank, the conveying cylinder, the gate valve assembly, the stirring system and the Y-shaped pipe are sequentially communicated, and a discharge port of the Y-shaped pipe is communicated with a feeding end of the conveying mechanism.

9. The concrete belt conveying and pumping integrated machine according to claim 2, wherein the power unit comprises a third motor, an oil tank, an electronic valve group and an oil pump, the oil tank, the oil pump and the electronic valve group are mutually communicated through oil pipes, the third motor drives the oil pump to rotate so as to power the feeding mechanism, the feeding mechanism and the pumping mechanism, and the third motor and the electronic valve group are controlled by the control box.

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