CN110293627A - The concrete mixing plant basic framework of integration operation and transport - Google Patents

Abstract

This application involves the concrete mixing plant basic framework of integration operation and transport, including can seat in the under(-)chassis in compartment, it is hinged by third hinge joint and main support in under(-)chassis rear end；The main support includes the lower bracket hinged with under(-)chassis, and lower bracket upper end is hinged by the second hinge joint and upper bracket；Upper bracket upper end is hinged by the first hinge joint and host platform；First hinge joint includes the first articulated shaft, and second hinge joint includes the second articulated shaft, and the third hinge joint includes third articulated shaft.The locking device that can be rotated for controlling each hinge joint is provided on the first articulated shaft, the second articulated shaft, third articulated shaft.The application can realize that top folds, middle part folds and fold three kinds of folding modes twice, be used for vehicle-mounted concrete mixing plant, the application structure is simple, strong applicability, cannot be only used for vehicle-mounted concrete mixing plant, it may also be used for other any stirring class work stations.

Description

The concrete mixing plant basic framework of integration operation and transport

Technical field

This application involves the concrete mixing plant basic frameworks of a kind of integration operation and transport.

Background technique

Concrete mixing plant is the combined unit for concentrated compactness concrete, also known as concrete prefabricated field.Due to it Mechanization, the degree of automation are higher, so productivity is also very high, and can guarantee the quality of concrete and save cement, are usually used in The engineerings such as large and medium-sized water conservancy, electric power, the bridge that concrete works amount is big, long in time limit, building site is concentrated.With the hair of urban construction Exhibition is had an enormous advantage using the mixing plant tool of concentrated compactness, offer commerical ready-mixed concrete, thus is rapidly developed, and be Concrete Pumping Construction is promoted, realization is stirred, conveyed, pouring mechanical integration of operation and create conditions.

Concrete mixing plant is mainly by stirring host, material weighing system, material-transporting system, storing material system and control The five big systems such as system processed and other affiliated facilities form.The lower part of storing material system is provided with delivery pipe, powder carry Into teeter chamber, pipeline conveys the aggregates such as sandstone into teeter chamber, after powder and aggregate are stirred in teeter chamber, from stirring Mix the discharge port outflow of room blanking setting, the aggregate and powder that concrete mixer truck is then flowed out from discharge port in the lower section of discharge port The mixture of material.

Concrete mixing plant in the prior art is built respectively afterwards in place in equipment conveying, this allows for each equipment State in independent transport, installation certainly will be brought to transport, installation and be cumbersome process, and then influence concrete mixing plant Come into operation the time.

Summary of the invention

The purpose of the application is to propose that one kind can store stirring host, material weighing system, material-transporting system, material The five big systems such as deposit system and control system collection can be transported integrally together in one, in place after can quickly be installed one The concrete mixing plant basic framework of bodyization operation and transport.

The purpose of the application be achieved in that integration operation and transport concrete mixing plant basic framework include can Seat is hinged by third hinge joint and main support in under(-)chassis rear end in the under(-)chassis in compartment；The main support includes The hinged lower bracket with under(-)chassis, lower bracket upper end are hinged by the second hinge joint and upper bracket；In upper bracket End is hinged by the first hinge joint and host platform；First hinge joint includes the first articulated shaft, the second hinge joint packet The second articulated shaft is included, the third hinge joint includes third articulated shaft.In the first articulated shaft, the second articulated shaft, third articulated shaft On be provided with the locking device that can be rotated for controlling each hinge joint.

Further, first articulated shaft, the second articulated shaft, third articulated shaft two sides are screw rod, are revolved on screw rod It is connected to locking device；The locking device is lock nut.

The first hydraulic arm is provided in upper bracket, first the first cylinder body of hydraulic arm rear portion and upper bracket lower part are cut with scissors It connects, the first hydraulic arm front end and host platform lower end surface are hinged.The second hydraulic arm, the second hydraulic arm are provided on under(-)chassis The second cylinder body of rear portion and under(-)chassis are hinged, and the second hydraulic arm front end and lower bracket are hinged.

Bidirectional hydraulic arm hinge joint, the first cylinder of the first hydraulic arm are provided in the lower bracket on the downside of the second hinge joint Second cylinder base of body and the second hydraulic arm is hingedly point articulated with bidirectional hydraulic arm after being butted against and fixed.First hydraulic arm front end Hinged with host platform bottom surface, the second hydraulic arm lower end and under(-)chassis are hinged.

Due to carrying out above-mentioned technical proposal, the application can realize that top folds, middle part folds and folds three kinds twice and fold Mode is used for vehicle-mounted concrete mixing plant, and in working condition, host platform can meet requirement for height, and vehicle can enter master Below machine platform；In travel position, host platform is foldable to be packed up, and reduces whole height, is met transport and is required.The application knot Structure is simple, strong applicability, cannot be only used for vehicle-mounted concrete mixing plant, it may also be used for other any stirring class work stations.

Detailed description of the invention: the specific structure of the application is provided by drawings and examples below:

Fig. 1 is the structural schematic diagram of the application；

Fig. 2 is the folded structural schematic diagram in the application top；

Fig. 3 is folded structural schematic diagram in the middle part of the application；

Fig. 4 is the application folded structural schematic diagram twice；

Fig. 5 is that there are two the application structural schematic diagrams that hydraulic device can be folded twice for band；

Fig. 6 is the folded structural schematic diagram twice on the basis of Fig. 5；

Fig. 7 is the application structural schematic diagram that middle part folding can be carried out with a hydraulic device；

Fig. 8 is the folded structural schematic diagram in middle part on the basis of Fig. 7；

Fig. 9 is that there are two the application structural schematic diagrams that hydraulic device can be folded twice for another band；

Figure 10 is the portion the A enlarged drawing of Fig. 9；

Figure 11 is the folded structural schematic diagram that links on the basis of Fig. 9.

Legend: 1, host platform, the 2, first hinge joint, 3, upper bracket, the 4, second hinge joint, 5, lower bracket, 6, bottom Portion's frame, 7, third hinge joint, the 8, second hydraulic arm, 8-1, the second cylinder body, the 9, first hydraulic arm, 9-1, the first cylinder body, 10, after Strut, 11, front strut, 12, lower supporting rod, 13, internal overarm support, 14, lower hopper, 15, bidirectional hydraulic arm hinge joint.

Specific embodiment: the application is not limited by following embodiments, can be according to the technical solution and reality of the application Situation determines specific embodiment.

Embodiment 1: as shown in Figure 1, integration operation and transport concrete mixing plant basic framework include can seat in vehicle Under(-)chassis 6 in compartment, it is hinged by third hinge joint 7 and main support in 6 rear end of under(-)chassis；The main support includes and bottom The hinged lower bracket 5 of portion's frame 6,5 upper end of lower bracket are hinged by the second hinge joint 4 and upper bracket 3；Upper bracket 3 Upper end is hinged by the first hinge joint 2 and host platform 1；First hinge joint 2 includes the first articulated shaft, and described second is hinged Point 4 includes the second articulated shaft, and the third hinge joint 7 includes third articulated shaft.In the first articulated shaft, the second articulated shaft, third The locking device that can be rotated for controlling each hinge joint is provided on articulated shaft.

Further, first articulated shaft, the second articulated shaft, third articulated shaft two sides are screw rod, are revolved on screw rod It is connected to locking device；The locking device is lock nut.

Successively mountable control room, proportioning machine back to front on the under(-)chassis 6, are fixed on host platform 1 and stir Mix host；Conveying device is provided between stirring host and proportioning machine.

The stirring host is used to that the aggregate in it will to be entered and powder stirring is uniform, and material, water and supplies are stirred It mixes and finished product is uniformly made.

Control room is to being provided with ladder between host platform；The control room is used to control the operating of each component of mixing plant, stirs Station all working is mixed to complete by the control instruction that control room issues.

Conveying device is reversible belt conveyor, is used to supply the material to stirring host；The conveying device Including the horizontal feed fixed section being laid below proportioning machine, horizontal feed fixed section one end is to tilting at stirring host feed inlet Extend, ramp extension includes hinged inclination conveying folded section and inclination conveying fixed section.

In mixing plant work, front strut has been respectively fixedly connected between the front and rear sides and under(-)chassis of host platform 1 11, rear pole 10, front strut 11, rear pole 10 are used to reinforce stability of the host platform 1 when opening.

The application includes the following three types folding mode:

The first folding mode: as shown in Fig. 2, in travel position, unclamping the locking device at the first hinge joint 2, keeps the The locking of two hinge joints 4, third hinge joint 7, and front strut 11, rear pole 10 are removed simultaneously, host platform 1 can turn over downwards at this time Turn, is affiliated in main support side.

Second of folding mode: as shown in figure 3, in travel position, the locking device at the second hinge joint 4 is unclamped, is protected The locking of the first hinge joint 2, third hinge joint 7 is held, and removes front strut 11, rear pole 10, host platform 1 and top branch simultaneously Frame 3 can downwardly turn over.Lowermost strut 12 need to be installed between host platform 1 and lower bracket 5 at this time.

For the intensity for increasing host platform 1 and upper bracket 3, internal overarm support is fixed between host platform 1 and upper bracket 3 13。

The third folding mode: as shown in figure 4, in travel position, at the first hinge joint 2 of release, third hinge joint 7 Locking device, keeps the locking of the second hinge joint 4, and removes front strut 11, rear pole 10 simultaneously, and host platform 1 can turn over downwards Turn, main support can fold aft engine platform 1 and be seated on main support, main support is seated bottom frame to 6 side to overturn of under(-)chassis On frame 6.

Embodiment 2: as shown in Fig. 2,4,5, the first hydraulic arm 9,9 rear portion of the first hydraulic arm are provided in upper bracket 3 First cylinder body 9-1 and 3 lower hinge of upper bracket, 9 front end of the first hydraulic arm and 1 lower end surface of host platform are hinged.In bottom frame The second hydraulic arm 8 is provided on frame 6,8 rear portion the second cylinder body 8-1 of the second hydraulic arm and under(-)chassis 6 are hinged, the second hydraulic arm 8 Front end and lower bracket 5 are hinged.

Pass through the flexible of the first hydraulic arm 9 of control and the second hydraulic arm 8, and control the first hinge joint 2, third hinge joint 7 Locking whether, it can be achieved that first in embodiment 1, the third folding mode.

In travel position, the locking device at the first hinge joint 2 is unclamped, keeps the second hinge joint 4, third hinge joint 7 Locking, and remove front strut 11, rear pole 10 simultaneously, the first hydraulic arm 9 of control retracts, and the second hydraulic arm 8 remains stationary this When host platform 1 downwardly turned under the control of the first hydraulic arm 9, be affiliated in main support side, realize the first folding in embodiment 1 Folded mode.Reverse operating host platform 1 can be unfolded in working condition.

In travel position, the first hinge joint 2, the locking device at third hinge joint 7 are unclamped, the second hinge joint 4 is kept Locking, and remove front strut 11, rear pole 10 simultaneously, the second hydraulic arm 8 of control retracts, and the first hydraulic arm 9 first remains stationary, Main support folds under the pulling of the second hydraulic arm 8 to under(-)chassis；After main support host platform 1 folds in place, control the One hydraulic arm 9 retracts, and host platform 1 is pulled to downwardly turn over, until host platform 1 and main support are laminated, realizes in embodiment 1 the Three kinds of folding modes.Reverse operating main support and host platform 1 can be unfolded in working condition.

Embodiment 3: as shown in Figure 7,8, being provided with the first hydraulic arm 9 in lower bracket 4,9 rear portion of the first hydraulic arm the One cylinder body 9-1 and 4 lower hinge of lower bracket, 9 front end of the first hydraulic arm and 1 lower end surface of host platform are hinged.In travel position When, the locking device at the second hinge joint 4 is unclamped, the locking of the first hinge joint 2, third hinge joint 7 is kept, and simultaneously before removal Strut 11, rear pole 10.The retraction of the first hydraulic arm 9 is controlled, under the pulling of the first hydraulic arm 9, host platform 1 is in company with top branch Frame 3 downwardly turns over 90 °, after overturning in place, and lowermost strut 12 is installed between host platform 1 and lower bracket 5.Realize embodiment 1 In second of folding mode.Reverse operating upper bracket and host platform 1 can be unfolded in working condition.

For the intensity for increasing host platform 1 and upper bracket 3, internal overarm support is fixed between host platform 1 and upper bracket 3 13。

Embodiment 4: as shown in figs. 9-11, bidirectional hydraulic arm hinge is provided in the lower bracket 5 of 4 downside of the second hinge joint It is after contact 15, the first cylinder body 9-1 of the first hydraulic arm 9 and the second bottom cylinder body 8-1 of the second hydraulic arm 8 are butted against and fixed and double It is hinged to hydraulic arm hinge joint 15.First hydraulic arm, 9 front end and 1 bottom surface of host platform are hinged, 8 lower end of the second hydraulic arm and bottom Frame 6 is hinged.

First cylinder body 9-1 of the first hydraulic arm 9 docks fixed mode with the second bottom cylinder body 8-1 of the second hydraulic arm 8 It can be welding, a variety of fixed forms such as hinged, so that angle can keep stable between the first hydraulic arm 9 and the second hydraulic arm 8 180 ° of also angle variables.

First cylinder body 9-1 of the first hydraulic arm 9 docks fixed mode with the second bottom cylinder body 8-1 of the second hydraulic arm 8 It may also is that setting one fixing sleeve, by the first cylinder body 9-1 and the second cylinder body 8-1 be inserted into respectively by fixing sleeve both ends and with fixation Set is fixed, and shaft is arranged on fixing sleeve, which is the articulated shaft that can be used as bidirectional hydraulic arm hinge joint 15.

Fixation is docked with the second bottom cylinder body 8-1 of the second hydraulic arm 8 for the first cylinder body 9-1 of the first hydraulic arm 9 Mode is varied, also has refer to other connection type in the prior art, therefore the application does not make this further to retouch in detail It states, several fixed forms proposed in the application are relatively simple.

In embodiment 1-3, in working condition, between host platform 1 and main support, between main support and under(-)chassis 6 Angle is 90 °.

In embodiment 4, in working condition, between host platform 1 and main support, pressed from both sides between main support and under(-)chassis 6 Angle is 90 °；Angle is 180 ° between first hydraulic arm 9 and the second hydraulic arm 8, the first hydraulic arm 9, the second hydraulic arm 8 and master Bracket, host platform 1, the angle between under(-)chassis 6 are 30-60 °, preferably 45 °.

In embodiment 1-4, opening is provided in the middle part of host platform 1, open lower end is fixed with lower hopper 14；Stirring master It is open described in the discharge port face of machine, the concrete materials being stirred enter lower hopper 14 by opening.

Above description is only intended to clearly illustrate the application example, and is not to presently filed embodiment Restriction.Guarantor of all technical solution changes and variations that derived from for belonging to the application still in the application Protect the column of range.

Claims (10)

1. the concrete mixing plant basic framework of integration operation and transport, it is characterised in that: including under(-)chassis, in bottom frame Frame rear end is hinged by third hinge joint and main support；The main support includes the lower bracket hinged with under(-)chassis, lower part Pedestal upper end is hinged by the second hinge joint and upper bracket；It is cut with scissors by the first hinge joint and host platform upper bracket upper end It connects；First hinge joint includes the first articulated shaft, and second hinge joint includes the second articulated shaft, the third hinge joint packet Include third articulated shaft.

2. the concrete mixing plant basic framework of integration operation as described in claim 1 and transport, it is characterised in that: the Can one articulated shaft, the second articulated shaft be provided with the locking device that rotate for controlling each hinge joint on third articulated shaft.

3. the concrete mixing plant basic framework of integration operation as claimed in claim 2 and transport, it is characterised in that: described First articulated shaft, the second articulated shaft, third articulated shaft two sides are screw rod, and locking device is screwed on screw rod；The locking Device is lock nut.

4. the concrete mixing plant basic framework of integration operation as claimed in claim 1 or 3 and transport, it is characterised in that: In mixing plant work, front strut, rear pole have been respectively fixedly connected between the front and rear sides and under(-)chassis of host platform.

5. the concrete mixing plant basic framework of integration operation as claimed in claim 1 or 3 and transport, it is characterised in that: The first hydraulic arm, first the first cylinder body of hydraulic arm rear portion and upper bracket lower hinge, the first liquid are provided in upper bracket Pressure arm front end and host platform lower end surface are hinged；The second hydraulic arm, the second hydraulic arm rear portion second are provided on under(-)chassis Cylinder body is hinged with under(-)chassis, and the second hydraulic arm front end and lower bracket are hinged.

6. the concrete mixing plant basic framework of integration operation as claimed in claim 1 or 3 and transport, it is characterised in that: The first hydraulic arm, first the first cylinder body of hydraulic arm rear portion and lower bracket lower hinge, the first liquid are provided in lower bracket Pressure arm front end and host platform lower end surface are hinged.

7. the concrete mixing plant basic framework of integration operation as claimed in claim 1 or 3 and transport, it is characterised in that: Bidirectional hydraulic arm hinge joint, the first cylinder body of the first hydraulic arm and second are provided in the lower bracket on the downside of the second hinge joint Second cylinder base of hydraulic arm is hingedly point articulated with bidirectional hydraulic arm after being butted against and fixed；First hydraulic arm front end and host are flat Platform bottom surface is hinged, and the second hydraulic arm lower end and under(-)chassis are hinged.

8. the concrete mixing plant basic framework of integration operation as claimed in claim 1 or 3 and transport, it is characterised in that: In working condition, between host platform and main support, angle is 90 ° between main support and under(-)chassis.

9. the concrete mixing plant basic framework of integration operation as claimed in claim 7 and transport, it is characterised in that: in work When making state, between host platform and main support, angle is 90 ° between main support and under(-)chassis；First hydraulic arm and Angle is 180 ° between two hydraulic arms, the first hydraulic arm, the second hydraulic arm and main support, host platform, between under(-)chassis Angle is 30-60 °.

10. the concrete mixing plant basic framework of integration operation as described in claim 1 and transport, it is characterised in that: It is provided with opening in the middle part of host platform, open lower end is fixed with lower hopper.