CN220657146U - Environment-friendly asphalt regenerant adding auxiliary structure - Google Patents

Abstract

The utility model relates to the technical field of asphalt regeneration, in particular to an environment-friendly auxiliary structure for adding an asphalt regenerant; including shell, chassis, filling hopper and ration control unit, ration control unit includes the mounting bracket, the roof, the mounting panel, a plurality of storage cylinder, a controller, annular weighing sensor and proportioning hopper, when need adjust the regenerant in to the churn, start through the second automatically controlled valve that corresponds of controller control, thereby open corresponding conveyer pipe through the second automatically controlled valve, carry the regenerant that corresponds to the inside of proportioning hopper through the conveyer pipe, when annular weighing sensor detects the regenerant weight in the proportioning hopper and reach preset weight, close corresponding conveyer pipe through the second automatically controlled valve of controller control, and open corresponding row material pipe through the first automatically controlled valve of controller control, thereby carry the regenerant after the ration to the filling hopper in, make when the regenerant addition of control, degree of automation is higher.

Description

Environment-friendly asphalt regenerant adding auxiliary structure

Technical Field

The utility model relates to the technical field of asphalt recycling, in particular to an environment-friendly auxiliary structure for adding an asphalt recycling agent.

Background

The asphalt regenerant needs to be mixed and stirred before being added, so that various regenerants are mixed and moisture in the regenerant needs to be dried, and the regenerant is convenient to mix with waste asphalt, but the existing regenerant needs to be mixed and stirred manually, and then is dried by a drying device and then is mixed with the waste asphalt, so that the regenerant has the advantages of high labor intensity, uneven mixing, complex structure and inconvenient use.

In order to solve the above problems, the prior published patent (CN 210473675U) discloses an auxiliary structure is added to environment-friendly asphalt regenerant, which comprises a housing, chassis and filling hopper, the bottom bilateral symmetry of shell is connected with the chassis, and the filling hopper is installed to the top one side of shell link up, the inside of shell is provided with heating net and churn, and both ends of churn all pass the both ends of shell, be provided with the heating net between the outside of churn and the inner wall of shell, and the inside level of churn is provided with mixed auger, the motor is installed to one end of mixed auger running through churn terminal surface. According to the technical scheme, the asphalt regenerant can be mixed and dried, the regenerant and the waste asphalt are mixed and stirred after being mixed conveniently, so that the performance of asphalt is recovered, and the problems of uneven mixing, complex structure and inconvenient use caused by the existing manual mixing and drying labor intensity are avoided.

However, the structure of the filling hopper in the existing environment-friendly asphalt regenerant adding auxiliary structure is simpler, the quantitative control of various regenerants cannot be realized, the addition amount of the regenerants needs to be manually controlled, and the degree of automation is low.

Disclosure of Invention

The utility model aims to provide an environment-friendly asphalt regenerant adding auxiliary structure, and aims to solve the technical problems that the structure of a filling hopper in the existing environment-friendly asphalt regenerant adding auxiliary structure is simpler, multiple regenerants cannot be quantitatively controlled, the adding amount of the regenerants needs to be manually controlled, and the degree of automation is low.

In order to achieve the above purpose, the utility model provides an environment-friendly asphalt regenerant adding auxiliary structure, which comprises a shell, a bottom frame, a filling hopper and a quantitative control unit, wherein the bottom of the shell is symmetrically connected with the bottom frame, one side of the top of the shell is provided with the filling hopper in a penetrating way, a heating net and a stirring cylinder are arranged in the shell, both ends of the stirring cylinder penetrate through both ends of the shell, the heating net is arranged between the outer side of the stirring cylinder and the inner wall of the shell, the inside of the stirring cylinder is horizontally provided with a mixing auger, one end of the mixing auger penetrates through the end face of the stirring cylinder and is provided with a motor, one side of the top of the outer side of the stirring cylinder is provided with a feeding through hole in a penetrating way, and the bottom of the filling hopper penetrates through the feeding through hole and extends into the stirring cylinder;

the quantitative control unit comprises a mounting frame, a top plate, a mounting plate, a plurality of storage barrels, a controller, an annular weighing sensor and a quantitative hopper, wherein the mounting frame is connected with the shell in a detachable mode and covered on the upper portion of the filling hopper, the mounting frame is far away from one end of the shell and is provided with the top plate, a plurality of storage barrels are arranged on the top plate, the middle portion of the mounting frame is provided with the mounting plate, a through groove is formed in the mounting plate in a penetrating mode, the upper surface of the mounting plate is further provided with the annular weighing sensor, the annular weighing sensor is arranged outside the through groove, the upper surface of the annular weighing sensor is provided with the quantitative hopper, the quantitative hopper is in a funnel structure arrangement mode, the bottom of the quantitative hopper is provided with a discharge pipe in a penetrating mode, each discharge pipe is provided with a first electric control valve, each storage barrel is provided with an output pipe, each output pipe is located above the quantitative hopper, each output pipe is provided with a second electric control valve, and the second electric control valve is further connected with the second electric control valve and the second electric control valve.

The weighing hopper comprises a hopper body and a placing ring, wherein the placing ring is fixedly arranged on the periphery of the top end of the hopper body, and the placing ring is placed on the upper surface of the annular weighing sensor.

The mounting frame comprises a frame body and four fixing feet, wherein the fixing feet are arranged at four bottom corners of the frame body, and each fixing foot is far away from one end of the frame body and is connected with the shell in a detachable mode.

Each fixing foot comprises a supporting rod and a fixing block, one end of each supporting rod is fixedly connected with the frame body, the fixing block is fixedly arranged at the other end of each supporting rod, and the fixing blocks are detachably connected with the shell.

The environment-friendly asphalt regenerant adding auxiliary structure comprises a storage cylinder, wherein the storage cylinder is arranged on the top of the storage cylinder, and a sealing plug is arranged at the port of the storage cylinder.

Wherein, every all be provided with perspective window on the lateral wall of storage cylinder.

According to the environment-friendly asphalt regenerant adding auxiliary structure, when regenerant is required to be regulated in the stirring cylinder, the corresponding second electric control valve is controlled to be started by the controller, so that the corresponding conveying pipe is opened by the second electric control valve, the corresponding regenerant is conveyed into the quantitative hopper through the conveying pipe, when the annular weighing sensor detects that the weight of the regenerant in the quantitative hopper reaches the preset weight, the corresponding conveying pipe is closed by the controller, the corresponding discharging pipe is opened by the first electric control valve, and the quantitative regenerant is conveyed into the filling hopper.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of an environment-friendly asphalt recycling agent adding auxiliary structure according to a first embodiment of the present utility model.

Fig. 2 is an enlarged view of a partial structure at a of fig. 1 provided by the present utility model.

Fig. 3 is a schematic structural view of a quantitative control unit in the first embodiment of the present utility model.

Fig. 4 is a schematic view showing an internal split structure of the housing in the first embodiment of the present utility model.

Fig. 5 is a schematic structural view of a cartridge according to a second embodiment of the present utility model.

101-shell, 102-underframe, 103-filling hopper, 104-mounting frame, 105-top plate, 106-mounting plate, 107-storage cylinder, 108-controller, 109-annular weighing sensor, 110-quantitative hopper, 111-hopper body, 112-placing ring, 113-frame body, 114-fixed leg, 115-supporting rod, 116-fixed block, 117-heating net, 118-stirring cylinder, 119-mixing auger, 120-motor, 121-feeding through hole, 122-through groove, 123-discharging pipe, 124-first electric control valve, 125-output pipe, 126-second electric control valve, 201-filling pipe, 202-sealing plug and 203-perspective window.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment:

referring to fig. 1 to 4, fig. 1 is a schematic structural view of an auxiliary structure for adding an environment-friendly asphalt recycling agent in the first embodiment, fig. 2 is an enlarged partial structural view at a of fig. 1, fig. 3 is a schematic structural view of a quantitative control unit in the first embodiment, and fig. 4 is a schematic structural view of an inner split structure of a housing in the first embodiment.

The utility model provides an environment-friendly asphalt regenerant adding auxiliary structure, which comprises the following components: including shell 101, chassis 102, filling hopper 103 and ration control unit, ration control unit includes mounting bracket 104, roof 105, mounting panel 106, a plurality of storage cylinder 107, controller 108, annular weighing sensor 109 and quantitative fill 110, quantitative fill 110 includes the bucket body 111 and places the ring 112, mounting bracket 104 includes support body 113 and four fixed feet 114, every fixed foot 114 all includes bracing piece 115 and fixed block 116. The problem that the adding amount of the regenerant needs to be manually controlled and the automation degree is low is solved by the scheme, the structure of the filling hopper 103 in the existing environment-friendly asphalt regenerant adding auxiliary structure is simpler, the quantitative control of various regenerants cannot be realized, and the scheme can be used on the structure of the environment-friendly asphalt regenerant adding auxiliary structure.

For this concrete implementation mode, the bottom bilateral symmetry of shell 101 is connected with chassis 102, install is link up in top one side of shell 101 filling hopper 103, the inside of shell 101 is provided with heating net 117 and churn 118, the both ends of churn 118 are all passed the both ends of shell 101, the outside of churn 118 with be provided with between the inner wall of shell 101 heating net 117, the inside level of churn 118 is provided with mixing auger 119, mixing auger 119's one end runs through the terminal surface of churn 118 is installed motor 120, the top one side link up in the outside of churn 118 has seted up feed port 121, the bottom of filling hopper 103 runs through feed port 121, and extends to the inside of churn 118, through set up on shell 101 filling hopper 103, and the bottom of filling hopper 103 runs through shell 101 with set up inside of shell 101 mixing drum 118, through filling hopper 103 adds different types of pitch regenerant through the inside of shell stirring auger 119 in proper order the stirring efficiency has been reduced more evenly in the mixing auger 118 simultaneously in the mixing auger 118 has been carried out in the stirring auger 118.

Wherein the mounting frame 104 is detachably connected with the housing 101 and is covered above the filling hopper 103, one end of the mounting frame 104, which is far away from the housing 101, is provided with the top plate 105, the top plate 105 is provided with a plurality of material storage barrels 107, the middle part of the mounting frame 104 is provided with the mounting plate 106, the mounting plate 106 is provided with a through groove 122 in a penetrating way, the upper surface of the mounting plate 106 is also provided with an annular weighing sensor 109, the annular weighing sensor 109 is arranged outside the through groove 122, the upper surface of the annular weighing sensor 109 is provided with the quantitative hopper 110, the quantitative hopper 110 is in a funnel structure, the bottom of the quantitative hopper 110 penetrates through the through groove 122, the bottom of the quantitative hopper 110 is provided with a material discharge pipe 123, the material discharge pipe 123 is provided with a first electric control valve 124, the bottom of each material storage barrel 107 is provided with an output pipe 125, each output pipe 125 is located above the weighing hoppers 110, a second electric control valve 126 is disposed on each output pipe 125, the mounting frame 104 is further provided with the controller 108, the annular weighing sensor 109, the first electric control valve 124 and the plurality of second electric control valves 126 are electrically connected with the controller 108, when the regenerant needs to be regulated into the mixing drum 118, the corresponding second electric control valve 126 is controlled to be started by the controller 108, so that the corresponding conveying pipe is opened by the second electric control valve 126, the corresponding regenerant is conveyed to the inside of the weighing hoppers 110 through the conveying pipe, when the annular weighing sensor 109 detects that the weight of the regenerant in the weighing hoppers 110 reaches the preset weight, the corresponding conveying pipe is controlled to be closed by the second electric control valve 126 through the controller 108, and the controller 108 controls the first electric control valve 124 to open the corresponding discharge pipe 123, so as to convey the regeneration agent after quantitative to the filling hopper 103.

Secondly, the outer periphery of the top end of the bucket body 111 is fixedly provided with the placement ring 112, the placement ring 112 is placed on the upper surface of the annular weighing sensor 109, and the placement ring 112 is used for facilitating the installation of the weighing bucket 110 on the annular weighing sensor 109.

Simultaneously, four bottom corners of the frame 113 are respectively provided with a fixing leg 114, one end of each fixing leg 114 far away from the frame 113 is detachably connected with the housing 101, and one end of each fixing leg 114 far away from the frame 113 is fixed on the outer wall of the housing 101 by a screw, so that the installation of the installation frame 104 is completed.

In addition, one end of the supporting rod 115 is fixedly connected with the frame 113, the other end of the supporting rod 115 is fixedly provided with the fixing block 116, the fixing block 116 is detachably connected with the housing 101, and by means of the fixing block 116, one end of the fixing leg 114, which is far away from the frame 113, is fixed on the outer wall of the housing 101 by using a screw, so that the fixing leg is more convenient.

When the environment-friendly asphalt regenerant adding auxiliary structure of the embodiment is used, different types of asphalt regenerants are sequentially added into the stirring cylinder 118 arranged in the shell 101 through the filling hopper 103, meanwhile, the different types of asphalt regenerants in the stirring cylinder 118 are mixed and stirred under the drive of the motor 120 through the mixing auger 119 in the stirring cylinder 118, so that the stirring efficiency is better than that of manual stirring, the labor intensity is reduced, when the regenerant is required to be regulated into the stirring cylinder 118, the corresponding second electric control valve 126 is controlled to be started through the controller 108, so that the corresponding conveying pipe is started through the second electric control valve 126, the corresponding regenerant is conveyed into the quantitative hopper 110 through the conveying pipe, when the annular weighing sensor 109 detects that the weight of the regenerant in the quantitative hopper 110 reaches the weight, the corresponding conveying pipe is controlled to be closed through the controller 108, the corresponding conveying pipe is controlled to be opened through the controller 108, and the automatic dosing hopper 124 is controlled to be more high in the regeneration structure after the regenerant is filled into the stirring cylinder 118, and the automatic feeding device is controlled to be more high in the regeneration hopper 124.

Second embodiment:

on the basis of the first embodiment, please refer to fig. 5, fig. 5 is a schematic structural diagram of a storage barrel of the second embodiment.

The utility model provides an environment-friendly asphalt regenerant adding auxiliary structure which also comprises a plurality of feeding pipes 201.

For this embodiment, the top of every storage cylinder 107 all is provided with the notes material pipe 201, every the port department of notes material pipe 201 all is provided with sealing plug 202, through the setting of notes material pipe 201, be convenient for to the inside interpolation regenerant of storage cylinder 107, through the setting of sealing plug 202, avoid external environment to the regenerant in the storage cylinder 107 causes the influence.

Wherein, each side wall of the storage cylinder 107 is provided with a perspective window 203, and the setting of the perspective window 203 facilitates the observation of the residual quantity of the regenerant in the storage cylinder 107.

When the environment-friendly asphalt regenerant adding auxiliary structure is used, through the arrangement of the perspective window 203, the residual quantity of the regenerant in the storage cylinder 107 is convenient to observe, when the residual quantity in the storage cylinder 107 is lower, through the arrangement of the injection pipe 201, the regenerant is convenient to be added into the storage cylinder 107, and through the arrangement of the sealing plug 202, the influence of the external environment on the regenerant in the storage cylinder 107 is avoided.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (6)

1. The utility model provides an environment-friendly asphalt regenerant adds auxiliary structure, includes shell, chassis and filling hopper, the bottom bilateral symmetry of shell is connected with the chassis, the top one side of shell is link up and is installed the filling hopper, the inside of shell is provided with heating net and churn, the both ends of churn all pass the both ends of shell, be provided with between the outside of churn and the inner wall of shell the heating net, the inside level of churn is provided with the mixing auger, the motor is installed to the terminal surface of mixing auger is run through to one end of churn, the feed inlet has been seted up in link up on top one side outside the churn, the bottom of filling hopper is run through the feed inlet, and extends to the inside of churn, its characterized in that,

the quantitative control unit is also included;

the quantitative control unit comprises a mounting frame, a top plate, a mounting plate, a plurality of storage barrels, a controller, an annular weighing sensor and a quantitative hopper, wherein the mounting frame is connected with the shell in a detachable mode and covered on the upper portion of the filling hopper, the mounting frame is far away from one end of the shell and is provided with the top plate, a plurality of storage barrels are arranged on the top plate, the middle portion of the mounting frame is provided with the mounting plate, a through groove is formed in the mounting plate in a penetrating mode, the upper surface of the mounting plate is further provided with the annular weighing sensor, the annular weighing sensor is arranged outside the through groove, the upper surface of the annular weighing sensor is provided with the quantitative hopper, the quantitative hopper is in a funnel structure arrangement mode, the bottom of the quantitative hopper is provided with a discharge pipe in a penetrating mode, each discharge pipe is provided with a first electric control valve, each storage barrel is provided with an output pipe, each output pipe is located above the quantitative hopper, each output pipe is provided with a second electric control valve, and the second electric control valve is further connected with the second electric control valve and the second electric control valve.

2. The environment-friendly asphalt recycling agent adding auxiliary structure according to claim 1, wherein,

the weighing hopper comprises a hopper body and a placement ring, wherein the placement ring is fixedly arranged on the periphery of the top end of the hopper body, and the placement ring is placed on the upper surface of the annular weighing sensor.

3. The environment-friendly asphalt recycling agent adding auxiliary structure according to claim 1, wherein,

the mounting frame comprises a frame body and four fixing feet, wherein the fixing feet are arranged at four bottom corners of the frame body, and each fixing foot is far away from one end of the frame body and is connected with the shell in a detachable mode.

4. The environment-friendly asphalt recycling agent adding auxiliary structure according to claim 3, wherein,

each fixing foot comprises a supporting rod and a fixing block, one end of the supporting rod is fixedly connected with the frame body, the fixing block is fixedly arranged at the other end of the supporting rod, and the fixing block is detachably connected with the shell.

5. The environment-friendly asphalt recycling agent adding auxiliary structure according to claim 1, wherein,

the auxiliary structure is added to environment-friendly asphalt regenerant still includes a plurality of notes material pipes, every the top of storage cylinder all is provided with the notes material pipe, every the port department of notes material pipe all is provided with the sealing plug.

6. The environment-friendly asphalt recycling agent adding auxiliary structure according to claim 5, wherein,

and a perspective window is arranged on the side wall of each storage cylinder.