CN211548813U - Conveying and pouring device based on high-rise building concrete construction - Google Patents

Abstract

The utility model discloses a conveying and pouring device based on high-rise building concrete construction, which belongs to the field of concrete conveying and pouring, and comprises a main frame, an upper supporting platform and a lower supporting base which are respectively positioned at the upper end and the lower end of the main frame, a first vertical conveying pipe with a feeding pipe at the lower end is arranged at the inner side of the main frame, a slewing bearing mechanism is arranged at the upper supporting platform, two first horizontal conveying pipes are symmetrically arranged at the top end of the first vertical conveying pipe, thereby realizing the bidirectional conveying of concrete materials, the bidirectional conveying also plays a balance role for the device when expanding the construction range, in addition, the two first horizontal conveying pipes are connected with a directional conveying mechanism through a first bent pipe, the directional conveying mechanism is matched with a traction mechanism to realize the conveying and pouring at any angle, the construction range is further effectively expanded to a certain degree, and effectively improve the construction efficiency.

Description

Conveying and pouring device based on high-rise building concrete construction

Technical Field

The utility model relates to a concrete feeding pours the field, and more specifically says, relates to a carry and pour device based on high-rise building concrete construction.

Background

At present, concrete conveying and pouring of concrete are completed mainly by utilizing a concrete pump machine and a distributing machine to be matched with a tower crane, and conveying and pouring of concrete construction materials are performed by arranging structures such as conveying pipes on the distributing machine.

When concrete conveying and pouring are carried out through the existing distributing machine, because the distributing machine is usually provided with the conveying structure in one direction, the top end of the distributing machine is also provided with the weight box for balancing the conveying structure, so that the balance operation of the device is realized, the pouring range of the conveying structure in one direction is limited, the quick large-area pouring is difficult to realize, and the operation flexibility and the pouring efficiency are still to be improved.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a carry and pour device based on high-rise building concrete construction, top symmetry through at first vertical conveyer pipe sets up two first horizontal conveyer pipes, realize the bidirectional transport of concrete material, bidirectional transport still plays balanced effect to the device when expanding the construction range under, two first horizontal conveyer pipes all are connected with directional conveying mechanism through first return bend in addition, directional conveying mechanism cooperation drive mechanism can realize the transport of arbitrary angle and pour, this construction range of further effectively enlarging to a certain extent, and effectively improve the efficiency of construction.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A conveying and pouring device based on high-rise building concrete construction comprises a main frame, an upper supporting platform and a lower supporting base, wherein the upper supporting platform and the lower supporting base are respectively positioned at the upper end and the lower end of the main frame, a first vertical conveying pipe with an inlet pipe at the lower end is installed at the inner side of the main frame, a slewing bearing mechanism is installed at the position of the upper supporting platform, the bottom end of the slewing bearing mechanism is rotatably connected with the bottom end of the first vertical conveying pipe through a first rotary joint, the top end of the slewing bearing mechanism is fixedly connected with two communicating pipes communicated with the first vertical conveying pipe, the outlets at the two ends of the two communicating pipes are fixedly connected with first transverse conveying pipes, the upper end of the slewing bearing mechanism is fixedly connected with a cross beam for supporting the two first transverse conveying pipes, the outer ends of the two first transverse conveying pipes are rotatably provided with a directional conveying mechanism through a first bent pipe, the outer, two first horizontal conveyer pipes are symmetrically arranged on the top end of the first vertical conveyer pipe, so that the two-way conveying of concrete materials is realized, the two-way conveying is carried out under the action of balancing the device when the construction range is enlarged, in addition, the two first horizontal conveyer pipes are connected with a directional conveying mechanism through a first bent pipe, the directional conveying mechanism is matched with a traction mechanism to realize the conveying and pouring of any angle, the construction range is further effectively enlarged to a certain extent, and the construction efficiency is effectively improved.

Further, slewing bearing mechanism includes and rotates the cavity connecting pipe of connecting on last supporting platform inner wall through the bearing, the upper and lower end of cavity connecting pipe respectively with two communicating pipes, first rotary joint fixed connection, the top department fixed mounting of body frame has carries out driven actuating mechanism to the cavity connecting pipe, drives the rotation of cavity connecting pipe through actuating mechanism to realize the rotatory operation of transport structure such as the crossbeam on its top and first horizontal conveyer pipe, effectively enlarge construction scope.

Further, actuating mechanism locates the first gear on the cavity connecting pipe lateral wall including fixed cover, fixed mounting has the driving motor who corresponds with first gear position on the lateral wall of body frame, driving motor's drive end fixedly connected with and the second gear that first gear engagement is connected, and first gear and second gear all are located supporting platform's below.

Further, directional conveying mechanism includes the second return bend of installing in first return bend bottom through second rotary joint, the horizontal conveyer pipe of one end fixedly connected with second of second rotary joint is kept away from to the second return bend, the hose is pour through third return bend fixedly connected with to the front end of the horizontal conveyer pipe of second, and being provided with of second rotary joint helps the horizontal conveyer pipe of second to rotate along second rotary joint's axis direction to further be favorable to enlarging transport, pour the scope, effectively improve the construction flexibility.

Further, drive mechanism includes the gusset plate of fixed connection in the crossbeam outer end, the gusset plate is run through to the lower extreme of first return bend, the lower extreme of gusset plate is provided with movable sleeve and establishes first otic placode on first return bend lateral wall, and first otic placode rotates the bottom of connecting at the gusset plate, fixed mounting has two second otic placodes, two on the lateral wall of the horizontal conveyer pipe of second all run through the cover on the second otic placode and be equipped with traction cable, two the second otic placode is all detained with first otic placode through traction cable and is established and be connected, and first otic placode can be followed the axis direction of first return bend lower extreme and rotated, and first otic placode can be followed the axis direction of second rotary joint and rotated promptly to when the horizontal conveyer pipe of second was rotatory along with the second rotary joint, the smooth and easy rotary motion of traction cable of fixed connection between first otic placode and second otic placode.

Further, first otic placode fixedly connected with movable sleeve, the movable sleeve is established on the lateral wall of first return bend lower extreme, and the upper end of movable sleeve is all around along the equal fixedly connected with of annular direction and the axis of rotation of being connected is rotated to the gusset plate bottom, the ring channel that is used for the axis of rotation to rotate the connection is offered to the bottom of gusset plate, two the second otic placode is all located on the horizontal conveyer pipe of second through fixed pot head.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

(1) this scheme sets up two first horizontal conveyer pipes through the top symmetry at first vertical conveyer pipe, realize the two-way transport of concrete material, two-way transport still plays balanced effect to the device when expanding the construction scope under, two first horizontal conveyer pipes all are connected with directional conveying mechanism through first return bend in addition, directional conveying mechanism cooperation drive mechanism can realize arbitrary angle's transport and pour, this construction scope of further effectively enlarging to a certain extent, and effectively improve the efficiency of construction.

(2) Directional conveying mechanism includes and installs the second return bend in first return bend bottom through second rotary joint, the horizontal conveyer pipe of one end fixedly connected with second of second rotary joint is kept away from to the second return bend, the hose is pour through third return bend fixedly connected with to the front end of the horizontal conveyer pipe of second, being provided with of second rotary joint helps the horizontal conveyer pipe of second to rotate along second rotary joint's axis direction, thereby further be favorable to enlarging the transport, pour the scope, effectively improve the construction flexibility.

(3) Set up the traction cable who is used for carrying out the traction to the horizontal conveyer pipe of second in the bottom of gusset plate, help improving directional conveying mechanism's construction steadiness, and be used for the first otic placode of fixed traction cable upper end to pass through movable sleeve swivelling joint at the gusset plate lower extreme, and the movable sleeve cover is established on the lower extreme outer wall of first return bend, movable sleeve 23 can carry out rotary motion along the axis direction of second rotary joint 17 promptly, thereby when directional conveying mechanism is carrying out the angular rotation, a traction cable for fixing the horizontal conveyer pipe of second also can be followed the second rotary joint and rotated, can not influence its rotation under playing towed prerequisite to directional conveying mechanism.

Drawings

Fig. 1 is a schematic front structural view of the present invention;

fig. 2 is a schematic perspective view of a joint of the slewing bearing mechanism and the upper support platform of the present invention;

FIG. 3 is a schematic view of the connection between the driving mechanism and the hollow connecting tube;

fig. 4 is a schematic perspective view of the joint of the directional conveying mechanism and the traction mechanism of the present invention;

fig. 5 is a schematic perspective view of a joint of the second ear plate and the second transverse duct according to the present invention.

The reference numbers in the figures illustrate:

the main frame 1, 2 lower supporting bases, 3 upper supporting platforms, 4 first vertical conveying pipes, 5 feeding pipes, 6 hollow connecting pipes, 7 bearings, 8 first rotary joints, 9 first gears, 10 second gears, 11 driving motors, 12 cross beams, 13 second communicating pipes, 14 first transverse conveying pipes, 15 first bent pipes, 16 reinforcing plates, 17 second rotary joints, 18 second bent pipes, 19 second transverse conveying pipes, 20 third bent pipes, 21 pouring hoses, 22 first lug plates, 23 movable sleeves, 24 fixed sleeves, 25 second lug plates and 26 traction steel cables.

Detailed Description

The drawings in the embodiments of the present invention will be combined; the technical scheme in the embodiment of the utility model is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the present invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all belong to the protection scope of the utility model.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-3, a conveying and pouring device based on high-rise building concrete construction comprises a main frame 1, an upper supporting platform 3 and a lower supporting base 2 which are respectively positioned at the upper end and the lower end of the main frame 1, a first vertical conveying pipe 4 with a feeding pipe 5 at the lower end is installed at the inner side of the main frame 1, a rotary supporting mechanism is installed at the upper supporting platform 3, the bottom end of the rotary supporting mechanism is rotatably connected with the bottom end of the first vertical conveying pipe 4 through a first rotary joint 8, the top end of the rotary supporting mechanism is fixedly connected with two communicating pipes 13 communicated with the first vertical conveying pipe 4, the outlets at the two ends of the two communicating pipes 13 are fixedly connected with a first transverse conveying pipe 14, the two communicating pipes 13 are arranged to effectively realize bidirectional conveying, and through the arrangement of the rotary supporting mechanism, the first transverse conveying pipe 14 at the upper end and the rotation of other structures can be realized while the, thereby effectively enlarging the range of conveying and pouring to a certain extent.

Concretely, slewing bearing mechanism includes to rotate through bearing 7 and connects the cavity connecting pipe 6 on last supporting platform 3 inner wall, the upper and lower end of cavity connecting pipe 6 respectively with two communicating pipes 13, first rotary joint 8 fixed connection, the top department fixed mounting of body frame 1 has carries out the actuating mechanism that drives to cavity connecting pipe 6, drive the rotation of cavity connecting pipe 6 through actuating mechanism, thereby realize the rotary operation of transport structure such as crossbeam 12 and first horizontal conveyer pipe 14 on its top, effectively enlarge construction scope.

Wherein, actuating mechanism locates first gear 9 on the 6 lateral walls of cavity connecting pipe including fixed cover, and fixed mounting has the driving motor 11 that corresponds with first gear 9 position on the lateral wall of body frame 1, and driving end fixedly connected with of driving motor 11 and the second gear 10 that first gear 9 meshing is connected, and first gear 9 and second gear 10 all are located supporting platform 3's below.

Referring to fig. 1, a cross beam 12 for supporting two first transverse conveying pipes 14 is fixedly connected to the upper end of the slewing bearing mechanism, a reinforcing rib for reinforcing and supporting the first transverse conveying pipes 14 is further disposed on the cross beam 12, which is not shown in the figure, concrete is conveyed upwards through a feeding pipe 5 and a first vertical conveying pipe 4, and is conveyed in two directions through two communicating pipes 13, a valve can be disposed inside one end of each of the two first transverse conveying pipes 14, which is close to the two communicating pipes 13, and can be used for controlling the conveying, a directional conveying mechanism is rotatably mounted at the outer ends of the two first transverse conveying pipes 14 through a first elbow 15, the concrete after the two-way conveying is conveyed to the directional conveying mechanism through the first elbow 15, and is conveyed at any angle in the horizontal direction by the directional conveying mechanism, so as to further effectively expand the conveying and pouring range, and the outer end of the beam 12 is fixedly connected with a traction mechanism for pulling the directional conveying mechanism, and the traction mechanism is favorable for improving the supporting effect of the directional conveying mechanism.

Referring to fig. 4, specifically, the directional conveying mechanism includes a second bent pipe 18 installed at the bottom end of the first bent pipe 15 through a second rotary joint 17, one end of the second bent pipe 18 far away from the second rotary joint 17 is fixedly connected with a second transverse conveying pipe 19, the front end of the second transverse conveying pipe 19 is fixedly connected with a pouring hose 21 through a third bent pipe 20, and the second rotary joint 17 is arranged to enable the second transverse conveying pipe 19 to rotate along the axis direction of the second rotary joint 17, so that the conveying and pouring range is further expanded, and the construction flexibility is effectively improved.

Wherein, the traction mechanism comprises a reinforcing plate 16 fixedly connected with the outer end of the beam 12, the lower end of the first elbow 15 penetrates through the reinforcing plate 16, the lower end of the reinforcing plate 16 is provided with a first ear plate 22 movably sleeved on the outer side wall of the first elbow 15, the first ear plate 22 is rotatably connected with the bottom end of the reinforcing plate 16, the side wall of the second transverse conveying pipe 19 is fixedly provided with two second ear plates 25, the two second ear plates 25 are respectively sleeved with a traction steel cable 26 in a penetrating way, the two second ear plates 25 are respectively buckled and connected with the first ear plate 22 through the traction steel cable 26, namely, the first ear plate 22 is provided with two ear holes, the second ear plates 25 are provided with one ear hole, the first ear plate 22 is fixedly connected with a movable sleeve 23, the movable sleeve 23 is movably sleeved on the outer side wall of the lower end of the first elbow 15, namely, the movable sleeve 23 is sleeved on a vertical pipe at the lower end of the first elbow 15, and the periphery of the upper end of the movable sleeve 23 is fixedly connected with a rotating, the ring channel that is used for the axis of rotation to rotate the connection is offered to gusset plate 16's bottom, axis of rotation and ring channel cooperation sliding connection, effectively realize the rotary motion of movable sleeve 23, two second otic placodes 25 all locate the horizontal conveyer pipe 19 of second through fixed cover 24 cover on, first otic placode 22 can be rotatory along the axis direction of first return bend 15 lower extreme along the movable sleeve 23, first otic placode 22 can be rotatory along the axis direction of second rotary joint 17 promptly, thereby when the horizontal conveyer pipe 19 of second is rotatory along with second rotary joint 17, smooth and easy rotary motion can be done to the traction cable wire of fixed connection between first otic placode 22 and second otic placode 25.

The utility model discloses set up two first horizontal conveyer pipes 14 through two communicating pipes 13 symmetries in crossbeam 12, realize the two-way transport of concrete material, and need not to add the weight box at one end of crossbeam, two-way transport still is favorable to expanding the construction scope under the effect that plays the balance, and the slewing bearing mechanism of communicating pipe 13 bottom is linked together through first rotary joint 8 and first vertical conveyer pipe 4, under the rotatory drive of actuating mechanism, realize crossbeam 12 and transport structure's rotation operation;

in addition, the two first transverse conveying pipes 14 are connected with a directional conveying mechanism through a first bent pipe 15, the directional conveying mechanism is composed of a second rotary joint 17, a second bent pipe 18, a second transverse conveying pipe 19, a third bent pipe 20 and a pouring hose 21, since the second rotary joint 17 is rotatably connected to the bottom end of the first elbow 15, the casting position of the directional conveying mechanism can be adjusted through the second rotary joint 17, so as to further expand the application range of the conveying and pouring device, effectively improve the flexibility of the construction operation, the traction mechanism arranged above the directional conveying mechanism plays a role in traction, and after the directional conveying mechanism rotates, the movable sleeve 23 movably sleeved on the side wall of the lower end of the first elbow 15 rotates along the circumferential direction of the second rotary joint 17 along with the first ear plate 22, so that the normal traction operation of the two traction steel cables 26 is realized.

The above; is only a preferred embodiment of the present invention; however, the scope of protection of the present invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; according to the technical scheme of the utility model and the improvement conception, equivalent substitution or change is carried out; are all covered by the protection scope of the utility model.

Claims (6)

1. The utility model provides a carry pouring device based on high-rise building concrete construction, includes body frame (1), is located last supporting platform (3) and the lower support base (2) of lower extreme on body frame (1) respectively, its characterized in that: a first vertical conveying pipe (4) with a feeding pipe (5) at the lower end is arranged at the inner side of the main frame (1), a rotary supporting mechanism is arranged at the upper supporting platform (3), the bottom end of the rotary supporting mechanism is rotationally connected with the bottom end of the first vertical conveying pipe (4) through a first rotary joint (8), the top end of the slewing bearing mechanism is fixedly connected with two communicating pipes (13) communicated with the first vertical conveying pipe (4), outlets at two ends of the two communicating pipes (13) are fixedly connected with a first transverse conveying pipe (14), the upper end of the slewing bearing mechanism is fixedly connected with a cross beam (12) for supporting two first transverse conveying pipes (14), the outer ends of the two first transverse conveying pipes (14) are respectively provided with a directional conveying mechanism in a rotating way through a first bent pipe (15), the outer end of the cross beam (12) is fixedly connected with a traction mechanism for pulling the directional conveying mechanism.

2. The conveying and pouring device based on the concrete construction of the high-rise building, according to claim 1, is characterized in that: slewing bearing mechanism includes to rotate through bearing (7) and connects cavity connecting pipe (6) on last supporting platform (3) inner wall, the upper and lower end of cavity connecting pipe (6) respectively with two communicating pipe (13), first rotary joint (8) fixed connection, the top department fixed mounting of body frame (1) has carries out driven actuating mechanism to cavity connecting pipe (6).

3. The conveying and pouring device based on the concrete construction of the high-rise building, according to claim 2, is characterized in that: actuating mechanism locates first gear (9) on cavity connecting pipe (6) lateral wall including fixed cover, fixed mounting has driving motor (11) that correspond with first gear (9) position on the lateral wall of body frame (1), the drive end fixedly connected with of driving motor (11) and second gear (10) that first gear (9) meshing is connected, and first gear (9) and second gear (10) all are located the below of supporting platform (3).

4. The conveying and pouring device based on the concrete construction of the high-rise building, according to claim 1, is characterized in that: directional conveying mechanism includes second return bend (18) of installing in first return bend (15) bottom through second rotary joint (17), the horizontal conveyer pipe of one end fixedly connected with second (19) of second rotary joint (17) is kept away from in second return bend (18), hose (21) are pour to the front end through third return bend (20) fixedly connected with of the horizontal conveyer pipe of second (19).

5. The conveying and pouring device based on the concrete construction of the high-rise building, according to claim 4, is characterized in that: traction mechanism includes gusset plate (16) of fixed connection in crossbeam (12) outer end, gusset plate (16) are run through to the lower extreme of first return bend (15), the lower extreme of gusset plate (16) is provided with movable cover and establishes first otic placode (22) on first return bend (15) lateral wall, and first otic placode (22) rotate to be connected in the bottom of gusset plate (16), fixed mounting has two second otic placodes (25), two on the lateral wall of the horizontal conveyer pipe of second (19) all run through the cover on second otic placode (25) and be equipped with traction cable (26), two second otic placode (25) are all detained through traction cable (26) and are established with first otic placode (22) and be connected.

6. The conveying and pouring device based on the concrete construction of the high-rise building, according to claim 5, is characterized in that: first otic placode (22) fixedly connected with movable sleeve (23), movable sleeve (23) movable sleeve is established on the lateral wall of first return bend (15) lower extreme, and the upper end of movable sleeve (23) is all around along the equal fixedly connected with of annular direction and gusset plate (16) bottom rotation axis of rotation of being connected, the ring channel that is used for the axis of rotation to rotate the connection is offered to the bottom of gusset plate (16), two second otic placode (25) all are located on the horizontal conveyer pipe of second (19) through fixed cover (24) cover.

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