JP2015528076A - Concentrated rotary dispenser - Google Patents

Abstract

The present invention is capable of rotating around a height axis (24) fixed to a carrier table (14) that can be installed on the installation surface (18), and a carrier table fixing region in the region of its own inlet end (22). Horizontal rotation in the region of the first jib pipe (26) which is arranged on the carrier (14) and receives the action of the pressure of the concentrated substance and the outlet side end (25) of the first jib pipe (26) Rotation for dense material, in particular for ready-mixed concrete, comprising a second jib pipe (30) arranged pivotably around an axis (28) and in communication with said first jib pipe (26) Regarding distributors. The configuration claimed in the claims is that the first jib pipe (26) is further in a horizontal axis (32) relative to the carrier (14) in the region of its inlet end (22). ), The second jib pipe (30) is further rotated around the rotation axis (34) perpendicular to the horizontal rotation axis (28). ) To the outlet side end (25). Furthermore, a parallel guide means (36) is provided between the first jib pipe (26) and the second jib pipe (30), and the parallel guide means (36) is connected to the first jib pipe (26). The second jib pipe (30) is configured and suitable to hold the second jib pipe (30) in a direction substantially parallel to the ground plane (18) at different rotational positions.

Description

  The present invention is arranged on the carrier, which can be installed on the installation surface, and is arranged on the carrier so as to be rotatable about the height axis of the carrier fixed in the region of its own inlet side end, where the pressure of the concentrated substance A first jib pipe that receives the action of the first jib pipe, and a second jib pipe that is arranged to be rotatable about a horizontal rotation axis in the region of the outlet side end of the first jib pipe and communicates with the first jib pipe. The invention relates to a rotary distributor for concentrated material, in particular for ready-mixed concrete, with a jib pipe.

  In large-scale concrete construction projects where large amounts of ready-mixed concrete must be discharged in a short time, classical concrete placement methods such as concrete processing using a crane bowl are not efficient enough. In addition, if concrete distances or high altitudes must be overcome during concrete transport, stationary concrete pumps with a transport pipe system are most often used today. As a distributor provided at the end of the stationary conveyance pipe, for example, a distribution boom and a rotary distributor are considered. A rotary distributor of the kind mentioned at the beginning usually consists of a two-part jib, a counter-jib with ballast and a carrier that is most often formed as a stand foot. Both jib pipes of a bipartite jib are usually connected via a link that allows only rotation about a vertical axis. That is, the rotary distributor can only move in a horizontal plane. The boom in the distribution boom is usually assembled from a carrying structure and a transport pipe connected thereto for safety reasons due to its high working altitude. The arm is in most cases only composed of a self-supporting conveying pipe. Usually, the rotary distributor does not have a drive unit and is manually guided by an operator. Its cost is relatively favorable due to its simplicity and short reach. Therefore, it is advantageously used when the purpose of concrete placing is simple. Unlike the distribution boom, the shear shearing motility of the second jib pipe relative to the first jib pipe has the advantage that the rotary distributor is mainly suitable for plain concrete casting. In the case of concrete casting for such a purpose, even if there is little experience and education of the operator, the concrete can be easily discharged to any location within the working radius of the rotary distributor by manually moving the jib pipe. it can. In so doing, the risk of damaging or injuring an object or person within the working range is relatively low. On the other hand, the rotary distributor has a concept-like drawback compared to a stationary distribution boom. The rotary distributor cannot overcome obstacles within the working range. Moreover, there are many vertical bars for columns or walls, barrier plates, transport containers or storage containers, etc. on the concrete striking surface of the construction site. These members limit the mobility of the rotary distributor, and the installation location of the rotary distributor needs to be changed many times, which is uneconomical. In some cases, the use of a rotary distributor must be completely abandoned, so that only expensive stationary booms can be substituted.

  Starting from this point, the object of the present invention is to improve a rotary distributor of the kind mentioned at the beginning so that its working range can be expanded and any obstacles on the construction site can be easily avoided. .

  In order to solve this problem, a combination of the constituent elements described in claim 1 and claim 2 is proposed. Advantageous configurations and further configurations of the invention are apparent from the dependent claims.

The idea of the solution according to the present invention is that, in particular, if the rotary distributor has a first jib pipe that can be lifted, the entire jib can be easily rotated so that the obstacle can be overcome. There is no hassle of moving the installation location of the. In order to lift the first jib pipe, according to the present invention, the first jib pipe can be rotated around the horizontal axis with respect to the carrier, in addition to the vertical axis of rotation, in the region of the inlet end. It is. In this case, if the pivot part between the two jib pipes has only one horizontal axis as usual, the second jib pipe will also be inclined when the first jib pipe is lifted. As a result, the axis of rotation between the two jib pipes is no longer oriented vertically. The second jib pipe necessarily turns sideways. In order to avoid this drawback, according to the present invention, the second jib pipe is further rotatable relative to the outlet end of the first jib pipe about a rotation axis perpendicular to the horizontal rotation axis. It is proposed that parallel guide means be provided between the first jib pipe and the second jib pipe. This parallel guide means
Configured and suitable to hold the second jib pipe in a direction substantially parallel to the ground plane at different pivot positions of the first jib pipe, and / or
Configured to hold the rotation axis of the second jib pipe perpendicular to the horizontal rotation axis in a direction parallel to the height axis of the carrier base at different rotation positions of the first jib pipe; Is suitable.

  By this treatment, the second jib pipe is always held horizontally through the parallel guide means independently of the inclination angle of the first jib pipe.

  Guiding the second jib pipe in parallel with the installation surface can be realized, for example, using two tension elements. These tension elements connect the pivot point of the first jib pipe with the pivot point of the second jib pipe. The parallel guide means is a strip portion oriented parallel to the height axis fixed to the carrier, and a rotation axis of the second jib pipe disposed at the outlet side end of the first jib pipe. A coupler mechanism having a double crank type four-bar linkage coupler, which is oriented in parallel, and the second jib pipe is oriented substantially perpendicular to the coupler of the four-bar linkage mechanism.

  When a self-supporting jib pipe is used, the first jib pipe is connected to a pipe member fixed to the carrier via at least two pipe elbows and a corresponding number of pipe couplings. The two pipe couplings are advantageously configured as rotary couplings with rotational axes that are oriented perpendicular to each other. .

  Other configurations may be used when using the first and second jib pipes. In this case, the second jib pipe is connected at its inlet end to the outlet end of the first jib pipe via at least two pipe elbows and a corresponding quantity of pipe couplings. Two pipe couplings of the rings are configured as rotary couplings with rotational axes that are oriented perpendicular to each other. In this case, advantageously, one rotary coupling of the rotary coupling forms the height axis and the other rotary coupling forms the horizontal axis of the first jib pipe relative to the carrier.

  A ballast jib that rotates together with the first jib pipe is arranged around the height axis of the carrier base in the region of the inlet end of the first jib pipe to ensure sufficient uprightness of the rotary distributor If so, it is advantageous.

  There are several possibilities to raise and lower the jib. According to one advantageous configuration, the first jib pipe can be rotated with respect to the carrier using a lift device with the second jib pipe raised or lowered. In this case, the lifting device is tensioned or tensioned between the first jib pipe and the ballast jib and mechanically operable under the rotation of the first jib pipe about its height axis. It has a member. For this reason, the lift device preferably has a lever pivotally attached to the ballast jib or the strip of the four-bar linkage mechanism and movable via the drive mechanism, and the lever free end of the lever is a tension / tension member. It is connected to the first jib pipe via According to an advantageous further configuration of this principle, the lifting device has a double arm lever arranged on the ballast jib, the load arm of the double arm lever being connected to the first jib pipe via a tension / tension member. The power arm of the combined, dual arm lever is supported by a ballast jib and is preferably connected to a drive mechanism configured as a hydraulic cylinder. In addition, for even distribution of concrete on the concrete striking surface or in the dam, the second jib pipe carries an end hose hanging downwards at its free end, for example with a 90 ° elbow. May be advantageous.

Next, the present invention will be described in detail with reference to embodiments illustrated in the drawings.
It is a figure of the divider | distributor provided with the double arm jib and the end hose. FIG. 4 is a diagram of a jib of a rotary distributor with jib arms that are coupled together via a pipe elbow. It is a principle diagram of a rotary distributor equipped with a carrier, two jib pipes, and parallel guide means.

  The rotary dispenser 10 illustrated in the drawings is used to supply ready-mixed concrete to a construction site facing technical or economic problems with direct dispensing using a stationary dispensing boom. The rotary distributor 10 can overcome both a large concrete striking surface and a certain height at its outlet 12, nevertheless is simple in construction and easy to operate.

  As can be seen from FIGS. 1 and 3, the rotary distributor has a carrier 14, and the carrier 14 can be erected on an installation surface 18 with four rotating legs 16 arranged in a star shape. The four rotary legs 16 can be rotated upward and sidewise in pairs, so that the rotary distributor 10 can be transported in a space-saving manner in a truck or container without being disassembled.

  The rotary distributor 10 has a double-armed jib 20 that is arranged on the carrier 14 so as to be rotatable about a height axis 24 fixed to the carrier in the region of the inlet end 22 thereof. A first jib pipe 26 and a second jib pipe 26 which is arranged in the region of the outlet side end 25 of the first jib pipe 26 so as to be rotatable around a horizontal rotation axis 28 and communicates with the first jib pipe 26. Jib pipe 30. A feature of the present invention is that the first jib pipe 26 is further rotatable relative to the carrier 14 around the horizontal axis 32 in the region of the inlet end 22 thereof, and the second jib pipe 30 is further rotated in the horizontal axis of rotation. It can rotate with respect to the outlet end 25 of the first jib pipe 26 around the rotation axis 34 perpendicularly to 28. A plurality of parallel guide means 36 are provided between the first jib pipe 26 and the second jib pipe 30. The parallel guide means 36 is provided so that the second jib pipe 30 is always held in a direction substantially parallel to the installation surface 18 when the first jib pipe 26 is in various rotational positions. . This is because when the first jib pipe 26 is in various rotation positions, the rotation axis 34 perpendicular to the horizontal rotation axis 28 of the second jib pipe 30 is supported by the action of the parallel guide means 36. It also means that the table is held in a direction parallel to the fixed height axis 24. That is, the parallel guide means 36 includes a strip 38 oriented parallel to the first fixed height axis 24, and the second jib pipe 30 disposed at the outlet side end 25 of the first jib pipe 26. A parallelogram guide or double crank type coupler mechanism having a coupler 40 oriented parallel to the axis of rotation 34 of the shaft. In this case, the second jib pipe 30 is oriented substantially perpendicular to the coupler 40 and draws a coupler curve with its tip 42. The coupler curve is obtained from the fact that the first jib pipe 26 is always oriented horizontally when rotating.

  In order to stabilize the direction of the second jib pipe 30 at a position parallel to the installation surface 18, a tension member 70 is further provided in the embodiment of FIGS. 1 and 3. The tension member 70 extends obliquely from the free end of the coupler 40 toward the second jib pipe 30 and is fixed thereto. The second jib pipe 30 may further be coupled with the carrier plate 72 for further reinforcement. The support plate 72 is provided to prevent the second jib pipe 30 from being bent by the load of flowing ready-mixed concrete.

  The second jib pipe 30 opens at its free end 42 through an 90 ° elbow 44 to an end hose 46 that hangs downward. The concrete can be conveniently delivered to the concrete placing location via the end hose 46.

  As can be seen in FIG. 2, the jib 20 is assembled from a plurality of self-supporting jib pipes 26,30. In this case, the first jib pipe 26 is connected to the base-fixed pipe member 52 via four pipe elbows 48 and five pipe couplings 50 in total. In this case, two of the pipe couplings are formed as rotary joints 50 ', 50 "with rotary axes 24, 32 oriented perpendicular to each other. In this case, one rotary joint 50' is high. The longitudinal axis 24 is formed, while the other rotary joint 50 ″ forms the horizontal axis 32 of the first jib pipe 26 relative to the carrier 14. Further, in the embodiment shown in FIG. 2, the second jib pipe 30 is connected to the first jib pipe 26 at its inlet end 54 via five pipe elbows 56 and six pipe couplings 58. Connected to the outlet end 25, the pipe coupling 58 ′ as a rotary coupling between the first jib pipe 26 and the second jib pipe 30 forms a horizontal pivot axis 28 for other rotations. The coupling (not shown) forms a rotation axis 34 perpendicular thereto.

  In the region of the inlet end 22 of the first jib pipe 26 is provided a ballast jib 60 that rotates together with the fixed base height axis 24. The ballast jib 60 is necessary for the stability of the rotary distributor 10 on the installation surface 18.

  Another feature of the present invention is that the first jib pipe 26 is pivotable relative to the carrier 14 about its inlet side horizontal axis 32 using the lift device 62 when the second jib pipe 30 is raised or lowered. It is to be. In the embodiment illustrated in FIGS. 1 and 3, the lift device 62 is stretched between the first jib pipe 26 and the ballast jib 60 and is capable of rotating the first jib pipe 26 about the horizontal axis 32. And a tension or tension member 64 which can be mechanically operated. In this embodiment, the lift device 62 consists of a double arm lever 66 pivotally attached to the ballast jib 60, whose load arm 66 ′ is coupled to the first jib pipe 26 via a tension or tension member 64, The power arm 66 ″ is connected to a drive mechanism 68 which is supported by a ballast jib 60 and configured as a hydraulic cylinder. This embodiment relates to a special embodiment for operating the jib 10. Lifting of one jib pipe 26 can be realized in other ways, for example, the lift device 62 is a lever that is pivotally attached to a ballast jib 60 or a strip 38 of a four-bar linkage mechanism and is movable via a drive mechanism 68. The free lever end may have the lever connected to the first jib pipe 26 via a tension or tension member 64. The rise and fall of the first Jibupaipu 26 may be performed by hand.

  In summary, it is as follows. The present invention is arranged on the carrier 14, which can be installed on the installation surface 18, and can be rotated around a height axis 24 fixed to the carrier in the region of its own entrance end 22. Therefore, the first jib pipe 26 subjected to the action of the pressure of the concentrated material and the first jib pipe 26 are disposed so as to be rotatable around a horizontal rotation axis 28 in the region of the outlet side end portion 25 of the first jib pipe 26, and The invention relates to a rotary distributor for concentrated material, in particular for ready-mixed concrete, comprising a second jib pipe 30 in communication with the jib pipe 26. The configuration described in the claims as being novel is that the first jib pipe 26 is further rotatable about a horizontal axis 32 relative to the carrier 14 in the region of the inlet end 22 thereof. In other words, the second jib pipe 30 is further rotatable with respect to the outlet side end 25 of the first jib pipe 26 around a rotation axis 34 perpendicular to the horizontal rotation axis 28. is there. Further, a parallel guide means 36 is provided between the first jib pipe 26 and the second jib pipe 30, and the parallel guide means 36 is arranged so that the second jib pipe 26 has the second rotation position at different rotational positions. The jib pipe 30 is configured and suitable to hold the jib pipe 30 in a direction substantially parallel to the ground plane 18.

DESCRIPTION OF SYMBOLS 10 Rotating distributor 12 Outlet part 14 Carrying base 16 Rotating leg 18 Installation surface 20 Double arm jib 22 Inlet side end 24 Horizontal axis / Rotating axis / Height direction axis 25 Outlet side end 26 First jib pipe 28 Horizontal Rotation axis 30 Second jib pipe 32 Horizontal axis / Rotation axis 34 Vertical rotation axis 36 Parallel guide means 38 Strip 40 Coupler 42 Tip 44 90 ° elbow 46 End hose 48 Pipe elbow 50 Pipe coupling 50 ', 50 "Rotation Coupling 52 Pipe member 54 Inlet end 56 Pipe elbow 58 Pipe coupling 58 'Rotating coupling 60 Ballast jib 62 Lifting device 64 Tension or tension member 66 Double arm lever 66' Load arm 66 "Power arm 68 Drive mechanism 70 Tension Member 72 Carrier plate

Claims (12)

A carrier table (14) that can be installed on the installation surface (18), and the carrier table (14) that can rotate around a height axis (24) of the carrier table in the region of its inlet end (22). 14) where there is a first jib pipe (26) which is subjected to the action of the pressure of the concentrated substance and a horizontal pivot axis (28) in the region of the outlet end (25) of said first jib pipe (26). In a rotary distributor for concentrated material, in particular for ready-mixed concrete, comprising a second jib pipe (30) arranged pivotably around the first jib pipe (26).
The first jib pipe (26) is further rotatable about a horizontal axis (32) relative to the carrier (14) in the region of the inlet end (22);
The second jib pipe (30) is further at the outlet end (25) of the first jib pipe (26) about a rotation axis (34) perpendicular to the horizontal rotation axis (28). Being rotatable,
Parallel guide means (36) is provided between the first jib pipe (26) and the second jib pipe (30), and the parallel guide means (36) is different from the first jib pipe (26). Constructed and suitable to hold the second jib pipe (30) in a pivoting position in a direction substantially parallel to the ground plane (18);
Rotating distributor characterized by. A carrier table (14) that can be installed on the installation surface (18), and the carrier table (14) that can rotate around a height axis (24) of the carrier table in the region of its inlet end (22). 14) where there is a first jib pipe (26) which is subjected to the action of the pressure of the concentrated substance and a horizontal pivot axis (28) in the region of the outlet end (25) of said first jib pipe (26). For dense material, in particular for ready-mixed concrete, in particular with a second jib pipe (30) which is pivotally arranged around and communicates with the first jib pipe (26). In the rotary distributor described in
The first jib pipe (26) is further rotatable about a horizontal axis (32) relative to the carrier (14) in the region of the inlet end (22);
The second jib pipe (30) is further at the outlet end (25) of the first jib pipe (26) about a rotation axis (34) perpendicular to the horizontal rotation axis (28). Being rotatable,
Parallel guide means (36) is provided between the first jib pipe (26) and the second jib pipe (30), and the parallel guide means (36) is different from the first jib pipe (26). In the rotation position, the rotation axis (34) of the second jib pipe (30) perpendicular to the horizontal rotation axis (28) is parallel to the height axis (24) of the support base. Constructed and suitable for holding in any direction,
Rotating distributor characterized by.   The parallel guide means (36) has a strip (38) oriented parallel to the height axis (24) of the carrier base, and the outlet end of the first jib pipe (30). A double-crank four-bar linkage coupler (40) oriented parallel to the rotational axis (34) of the second jib pipe (30) disposed in the section (25). Rotational distribution according to claim 1 or 2, characterized in that the second jib pipe (30) is oriented substantially perpendicular to the coupler (40) of the four-bar linkage. Machine.   The first jib pipe (26) is connected to a pipe member (52) fixed to the carrier via at least two pipe elbows (48) and a corresponding number of pipe couplings (50); Two of the pipe couplings (50) are configured as rotational couplings (50 ', 50 ") with rotational axes (24, 32) oriented perpendicular to each other. The rotary distributor according to any one of claims 1 to 3, characterized in that:   One rotary coupling (50 ′) of the rotary coupling forms the height axis (24) and the other rotary coupling (50 ″) is the first jib pipe (14) to the carrier (14). 26. The rotary distributor according to claim 4, characterized in that it forms the horizontal axis (32) of 26).   The second jib pipe (30) is connected at its inlet end (54) via at least two pipe elbows (56) and a corresponding quantity of pipe couplings (58). 26) a rotary coupling with a rotational axis (28, 34) connected to the outlet end (25) of which the two pipe couplings of the pipe couplings are oriented perpendicular to each other The rotary distributor according to claim 1, wherein the rotary distributor is configured as (58 ′).   One of the rotary couplings (58 ') forms the horizontal pivot axis (28), and the other rotary coupling is the first jib pipe (26) and the second jib pipe. The rotary distributor according to claim 6, characterized in that the rotation axis (34) is formed perpendicularly to the rotation axis (30).   A ballast jib (60) that rotates together with the first jib pipe around a height axis (24) of the carrier base in the region of the inlet end (22) of the first jib pipe (26). The rotary distributor according to claim 1, wherein the rotary distributor is arranged.   The first jib pipe (26) is rotatable with respect to the carrier (14) using a lift device (62) in a state where the second jib pipe (30) is raised or lowered. A rotary distributor according to any one of the preceding claims, characterized in that it is characterized in that   The lifting device is stretched between the first jib pipe (26) and the ballast jib (60), and rotates around the height axis (32) of the first jib pipe (26). 10. A rotary distributor according to claim 9, characterized in that it has a tension or tension member (64) that can be mechanically operated under motion.   The lift device (62) has a lever (66) that is pivotally attached to the ballast jib (60) or the strip (38) of the four-bar linkage mechanism and is movable through a drive mechanism. 11. The rotary distributor according to claim 10, characterized in that the free end of the lever is connected to the first jib pipe (26) via the tension / tension member (64).   The lift device (62) has a double arm lever (66) disposed on the ballast jib (60), and the load arm (66 ') of the double arm lever pulls the tension / tension member (64). The first jib pipe (26) through which the power arm (66 ") of the double arm lever is supported by the ballast jib (60) and is preferably configured as a hydraulic cylinder (68). The rotary distributor according to claim 10 or 11, wherein the rotary distributor is connected to the rotary distributor.

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