CN215853304U - Mould transports platform - Google Patents

Abstract

A mould conveying platform comprises a support, a belt wheel II, a transverse driving motor, a longitudinal driving motor, a jacking device, a slide rod, a belt wheel V and a control box, wherein a frame enclosed by supporting plates is arranged at the upper part of the support, the transverse roller wheel support and the longitudinal roller wheel support are arranged in the frame, two groups of eccentric hole aligning holes are correspondingly arranged at two ends in the transverse roller wheel support, two groups of eccentric shaft aligning holes are correspondingly arranged at two ends of the longitudinal roller wheel support, the eccentric hole aligning holes of the transverse roller wheel support and the eccentric shaft aligning holes of the longitudinal roller wheel support respectively correspond to each other, the corresponding eccentric hole aligning holes of the transverse roller wheel support and the eccentric shaft aligning holes of the longitudinal roller wheel support are connected through a conversion wheel, a push rod is arranged at the bottom of the conversion wheel, the bottom of the push rod is connected on the slide rod in a sliding manner, one or more groups of transverse moving wheel are respectively arranged at two sides of the transverse roller wheel support, one or more groups of longitudinal moving wheel are arranged in the longitudinal roller wheel support, the transverse driving motor, the longitudinal driving motor and the jacking device are all electrically connected with the control box. The conveying efficiency is high.

Description

Mould transports platform

Technical Field

The utility model relates to a conveying platform, in particular to a mold conveying platform, and belongs to the technical field of heavy object conveying devices.

Background

The mould is a tool for molding articles, and a mould conveying device is often required to convey the mould in the use of the mould, so that the trouble of a user is reduced. However, the existing mold conveying devices all have a series of problems, for example, the temperature of the mold which is just disassembled is high, the heat dissipation is slow, so that the mold arrangement is troublesome, and the mold easily slides down or the mold conveying device easily collides in the transportation process, so that the danger of collision is easily caused. In particular, in the green brick tea compression molding process, because the pressure maintaining time is long, one production line can adopt a plurality of sets of moulds (more than 200 sets) to circularly operate so as to improve the productivity, a large number of moulds are mutually extruded and pushed on the line, the peripheries of the moulds are difficult to avoid collision and damage, and a high pushing force is needed to drive the line body, so that a hydraulic mode is usually adopted, the vibration is obvious during the integral operation, the noise pollution exists, and the production line is difficult to combine and change according to the production change after being built. Therefore, the existence of the problems affects the use process of the die and cannot meet the market demand.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provide a mould conveying platform.

In order to achieve the purpose, the technical solution of the utility model is as follows: a mould conveying platform comprises a support, a belt wheel II, a transverse driving motor, a longitudinal driving motor, a jacking device, a slide rod, a belt wheel V and a control box, wherein a bottom plate is arranged on the upper portion of the support, a frame surrounded by supporting plates is arranged on the periphery of the bottom plate, a transverse roller support and a longitudinal roller support are arranged above the bottom plate in the frame surrounded by the supporting plates, two groups of eccentric hole aligning holes are correspondingly formed in two ends in the transverse roller support, two groups of eccentric shaft aligning holes are correspondingly formed in two ends of the longitudinal roller support, the longitudinal roller support is arranged in the middle of the frame formed by the transverse roller support, the eccentric hole aligning holes of the transverse roller support are respectively corresponding to the eccentric shaft aligning holes of the longitudinal roller support, the eccentric hole aligning holes of the corresponding transverse roller support are connected with the eccentric shaft aligning holes of the longitudinal roller support through a conversion wheel, and outer teeth are arranged on the outer ring of the conversion wheel, the top of the conversion wheel is provided with a central shaft, the bottom of the conversion wheel is provided with an eccentric shaft, the conversion wheel is provided with an eccentric hole, the eccentric shaft of the conversion wheel is inserted into an eccentric shaft aligning hole of the longitudinal roller wheel bracket, the eccentric hole of the conversion wheel is connected with an eccentric hole of the transverse roller wheel bracket through a pin shaft I, the central shaft of the conversion wheel is connected with a support, the bottom of the conversion wheel is provided with a push rod, the push rod comprises two push rods which are connected through a connecting plate, two ends of the two push rods are provided with racks, the racks at two ends of the two push rods are respectively meshed with outer teeth of an outer ring of the conversion wheel, the jacking device is connected with the connecting plate through a pin shaft II, the bottom of the push rod is connected on a slide rod in a sliding manner, the slide rod is arranged on a slide rod seat, two sides of the transverse roller wheel bracket are respectively provided with one or more groups of transverse movable wheel groups, and the transverse movable wheel groups comprise a plurality of transverse movable wheels which are uniformly arranged, a plurality of transverse moving wheels in a transverse moving wheel set are connected through a rotating shaft I, two ends of the rotating shaft I penetrate through a transverse roller wheel support, a belt wheel III is installed on one end of the rotating shaft I of one transverse moving wheel set, the belt wheel III is connected with a belt wheel II through a belt II, the belt wheel II is connected with an output shaft of a transverse driving motor, a belt wheel IV is installed on the other end of the rotating shaft I of the transverse moving wheel set, the belt wheels IV of the transverse moving wheel set are connected through a belt III, one or more groups of longitudinal moving wheel sets are arranged in the longitudinal roller wheel support, each longitudinal moving wheel set comprises two or more longitudinal moving wheels, two or more longitudinal moving wheels in each longitudinal moving wheel set are connected through the rotating shaft II, two ends of the rotating shaft II penetrate through the longitudinal roller wheel support, and two belt wheels I are arranged on the rotating shaft II in each longitudinal moving wheel set, belt wheel I between two adjacent sets of vertical movable wheelsets is connected through belt I, and belt I of the vertical movable wheelset of one end is connected with belt wheel V through belt IV in the vertical gyro wheel support, belt wheel V and vertical driving motor output shaft, horizontal driving motor, vertical driving motor, jacking ware all be connected with the control box electricity.

The transverse driving motor is arranged on the fixed seat.

And support legs are arranged on four legs of the support.

The table top is arranged above the transverse moving wheel set and the longitudinal moving wheel set, and through holes are formed in the table top corresponding to the transverse moving wheels and the longitudinal moving wheels.

The table top is provided with universal beads.

The table board is provided with a detector, and the detector is electrically connected with the control box.

The transverse roller support comprises two side beams, one ends of the two side beams are connected through a front beam, and the other ends of the two side beams are connected through a rear beam.

The longitudinal roller support comprises an inner frame, and two side plates of the inner frame are connected through an inner frame positioning column.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model has the advantages of simple structure, small die reversing impact, high conveying efficiency, independent operation, reliable operation and high efficiency.

2. The utility model can be used for an automatic production line and has good combination customization universality.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a sectional view a-a in fig. 3.

Fig. 5 is a bottom schematic view of the present invention.

Fig. 6 is a schematic view of a mesa-free structure of the present invention.

FIG. 7 is a schematic view of the first structure of the longitudinal moving wheel set and the transverse moving wheel set of the present invention.

FIG. 8 is a schematic structural view of the longitudinal moving wheel set and the transverse moving wheel set of the present invention.

FIG. 9 is a third schematic view of the structure of the longitudinal moving wheel set and the transverse moving wheel set of the present invention.

Fig. 10 is a schematic view of the structure of the lateral roller bracket of the present invention.

FIG. 11 is a schematic view of the longitudinal roller support structure of the present invention.

Fig. 12 is a schematic view of a conversion wheel according to the present invention.

FIG. 13 is a first schematic view of the connection between the lateral roller bracket and the longitudinal roller bracket according to the present invention.

FIG. 14 is a second schematic view of the connection between the lateral roller support and the longitudinal roller support of the present invention.

FIG. 15 is a third schematic view of the connection of the lateral roller support and the longitudinal roller support of the present invention.

In the figure: the device comprises a support 1, support legs 2, a table board 3, universal beads 4, a detector 5, a support plate 6, a transverse moving wheel 7, a longitudinal moving wheel 8, an inner frame 9, an inner frame positioning column 10, a belt wheel I11, a belt I12, a transverse driving motor 13, a fixed seat 14, a support 15, a conversion wheel 16, a side beam 17, a rotating shaft I18, a rotating shaft II 19, a longitudinal driving motor 20, a belt wheel II 21, a belt wheel III 22, a belt II 23, a jacking device 24, a mounting plate 25, a pin shaft II 26, a sliding rod 27, a sliding rod seat 28, a push rod 29, a connecting plate 30, a belt III 31, a belt wheel IV 32, a bottom plate 33, a front beam 34, a rear beam 35, a belt IV 36, a belt wheel V37, a control box 38, a transverse roller support 39, a longitudinal roller support 40, an eccentric hole 41, an eccentric shaft 42, a central shaft 43, an eccentric shaft 44, an eccentric hole 45 and an outer tooth 46.

Detailed Description

The utility model is described in further detail below with reference to the following description of the drawings and the detailed description.

Referring to fig. 1 to 15, a mold transporting platform comprises a support 1, a belt pulley ii 21, a transverse driving motor 13, a longitudinal driving motor 20, a jacking device 24, a sliding rod 27, a belt pulley v 37 and a control box 38.

Referring to fig. 1 to 15, a bottom plate 33 is arranged at the upper part of the bracket 1, a frame enclosed by the supporting plates 6 is arranged around the bottom plate 33, and a transverse roller bracket 39 and a longitudinal roller bracket 40 are arranged above the bottom plate 33 in the frame enclosed by the supporting plates 6. Two groups of eccentric hole-aligning holes 41 are correspondingly arranged at two ends in the transverse roller bracket 39, two groups of eccentric hole-aligning holes 42 are correspondingly arranged at two ends of the longitudinal roller bracket 40, and the longitudinal roller bracket 40 is arranged in the middle of a frame formed by the transverse roller bracket 39; and the eccentric hole pair hole 41 of the lateral roller bracket 39 and the eccentric shaft pair hole 42 of the longitudinal roller bracket 40 correspond to each other, respectively, and the corresponding eccentric hole pair hole 41 of the lateral roller bracket 39 and the eccentric shaft pair hole 42 of the longitudinal roller bracket 40 are connected by the switching wheel 16.

Referring to fig. 1 to 15, the outer ring of the conversion wheel 16 is provided with outer teeth 46, the top of the conversion wheel 16 is provided with a central shaft 43, the bottom of the conversion wheel 16 is provided with an eccentric shaft 44, and the conversion wheel 16 is provided with an eccentric hole 45; the eccentric shaft 44 of the conversion wheel 16 is inserted into the eccentric shaft hole 42 of the longitudinal roller bracket 40, the eccentric hole 45 of the conversion wheel 16 is connected with the eccentric hole 41 of the transverse roller bracket 39 through the pin I, and the central shaft 43 of the conversion wheel 16 is connected with the support 15. The bottom of the conversion wheel 16 is provided with a push rod 29, the push rod 29 comprises two push rods, and the two push rods are connected through a connecting plate 30; racks are arranged at two ends of the two push rods, and the racks at the two ends of the two push rods are respectively meshed with the outer teeth 46 of the outer ring of the conversion wheel 16. The jacking device 24 is connected with the connecting plate 30 through a pin shaft II 26, the jacking device 24 is fixed on the mounting plate 25, the mounting plate 25 is fixed on the bottom plate 33, the bottom of the push rod 29 is connected onto the sliding rod 27 in a sliding mode, the push rod 29 can freely slide along the sliding rod 27, and the sliding rod 27 is installed on the sliding rod seat 28.

Referring to fig. 1 to 15, two sides of the transverse roller bracket 39 are respectively provided with one or more groups of transverse moving wheel sets, and the transverse moving wheel sets comprise a plurality of transverse moving wheels 7 which are uniformly arranged, and the number of the transverse moving wheels is more than three; a plurality of transverse driving wheels 7 in the transverse driving wheel set are in through connection through a rotating shaft I18, and two ends of the rotating shaft I18 penetrate through the transverse roller bracket 39. One end of a rotating shaft I18 of one group of transverse moving wheel sets is provided with a belt wheel III 22, the belt wheel III 22 is connected with a belt wheel II 21 through a belt II 23, and the belt wheel II 21 is connected with an output shaft of the transverse driving motor 13; belt wheels IV 32 are mounted at the other end of the rotating shaft I18 of the transverse moving wheel set, and the belt wheels IV 32 of the transverse moving wheel set are connected through a belt III 31. The longitudinal roller support 40 is internally provided with one or more groups of longitudinal movable wheel groups, each longitudinal movable wheel group comprises two or more longitudinal movable wheels 8, the two or more longitudinal movable wheels 8 in each longitudinal movable wheel group are connected in a penetrating manner through a rotating shaft II 19, two ends of the rotating shaft II 19 penetrate through the longitudinal roller support 40, two belt wheels I11 are arranged on the rotating shaft II 19 in each longitudinal movable wheel group, and the belt wheels I11 between two adjacent groups of longitudinal movable wheel groups are connected through a belt I12; the belt I12 of the longitudinal movable wheel set at one end of the longitudinal roller bracket 40 is connected with a belt wheel V37 through a belt IV 36, and the belt wheel V37 is connected with the output shaft of the longitudinal driving motor 20.

Referring to fig. 1 to 15, the transverse driving motor 13, the longitudinal driving motor 20 and the jack 24 are electrically connected to the control box 38.

Referring to fig. 1 to 15, the transverse driving motor 13 is disposed on the fixing base 14, the fixing base 14 is disposed at the bottom of the bottom plate 33, and the longitudinal driving motor 20 is disposed on the transverse roller bracket 39.

Referring to fig. 1 to 15, the support 1 is provided with support legs 2 at four feet.

Referring to fig. 1 to 15, a table top 3 is arranged above the transverse moving wheel set and the longitudinal moving wheel set, and through holes are arranged on the table top 3 corresponding to the transverse moving wheel 7 and the longitudinal moving wheel 8. And the table-board 3 is provided with universal beads 4; the table board 3 is provided with a detector 5, and the detector 5 is electrically connected with the control box 38.

Referring to fig. 1 to 15, the lateral roller bracket 39 includes two side members 17, one end of each side member 17 is connected to the front member 34, and the other end of each side member 17 is connected to the rear member 35. Alternatively, the lateral roller bracket 39 may be a unitary weldment, casting or machined piece.

Referring to fig. 1 to 15, the longitudinal roller bracket 40 includes an inner frame 9, and two side plates of the inner frame 9 are connected by an inner frame positioning column 10. Alternatively, the longitudinal roller support 40 may be a unitary weldment, casting or machined.

Referring to fig. 1 to 15, in operation, the rack on the push rod 29 drives the switching wheel 16 to rotate, and the switching wheel 16 supports the transverse moving wheel set and the longitudinal moving wheel set respectively, so as to realize longitudinal and transverse movement under different working conditions. The specific working process is as follows: and (3) transverse movement: the control box 38 controls the starting of the jacking device 24, the jacking device 24 extends out to a preset position, in the process, the connecting plate 30 drives the push rod 29 to move, the push rod 29 drives the conversion wheel 16 to rotate through the rack, the conversion wheel 16 rotates around the central shaft 43 of the conversion wheel, the eccentric hole 45 rotates to the highest position, the corresponding eccentric hole 41 of the transverse roller wheel support 39 rotates to the highest position, the transverse driving motor 13 is started, the belt wheel II 21, the belt wheel III 22, the belt II 23, the belt III 31 and the belt wheel IV 32 drive the rotating shaft I18 to rotate, the transverse driving wheel 7 rises to the highest point and protrudes out of the through hole to be higher than the upper portion of the universal bead 4, and therefore the transverse driving wheel 7 drives a mold or other targets to transversely move. Longitudinal movement: the control box 38 controls the starting of the jacking device 24, the jacking device 24 retracts to a preset position, in the process, the connecting plate 30 drives the push rod 29 to move, the push rod 29 drives the conversion wheel 16 to rotate through the rack, the conversion wheel 16 rotates around the central shaft 43 of the conversion wheel, the eccentric shaft 44 rotates to the highest position, the corresponding eccentric shaft hole 42 of the longitudinal roller support 40 rotates to the highest position, the longitudinal driving motor 20 is started, the belt IV 36, the belt pulley V37, the belt pulley I11 and the belt I12 drive the rotating shaft II 19 to rotate, the longitudinal driving wheel 8 rises to the highest point and protrudes out of the through hole and is higher than the upper portion of the universal bead 4, and therefore the longitudinal roller drives the mold or other objects to move longitudinally. The power supply in the control box 38 is turned on, the detector 5 is started, the detector 5 detects the position of the mold or other objects, the control box 38 automatically operates the transverse driving motor 13 or the longitudinal driving motor 20 according to the target position set by the control box 38 or receives an external instruction, and the mold or other objects are conveyed to the set position.

Referring to fig. 1 to 15, the platform can realize the transverse and longitudinal movement of a delivery mold or other target object, and the mold or other target object has no displacement in the vertical direction; the whole machine operates stably and has low power consumption. Meanwhile, the platform is used independently, can be used for assembling lines, is flexible in line assembling, can realize the cooperative operation of the on-line conveyed target objects, and is high in conveying efficiency.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model relates, several simple deductions or substitutions may be made without departing from the spirit of the utility model, and the above-mentioned structures should be considered as belonging to the protection scope of the utility model.

Claims (8)

1. A mould transports platform which characterized in that: comprises a bracket (1), a belt wheel II (21), a transverse driving motor (13), a longitudinal driving motor (20), a jacking device (24), a sliding rod (27), a belt wheel V (37) and a control box (38), wherein a bottom plate (33) is arranged at the upper part of the bracket (1), a frame surrounded by a supporting plate (6) is arranged around the bottom plate (33), a transverse roller bracket (39) and a longitudinal roller bracket (40) are arranged above the bottom plate (33) in the frame surrounded by the supporting plate (6), two groups of eccentric hole aligning holes (41) are correspondingly arranged at two ends in the transverse roller bracket (39), two groups of eccentric shaft aligning holes (42) are correspondingly arranged at two ends of the longitudinal roller bracket (40), the longitudinal roller bracket (40) is arranged in the middle part of the frame formed by the transverse roller bracket (39), and the eccentric hole aligning holes (41) of the transverse roller bracket (39) are respectively corresponding to the eccentric shaft aligning holes (42) of the longitudinal roller bracket (40), the corresponding eccentric hole pair hole (41) of the transverse roller bracket (39) is connected with the eccentric shaft pair hole (42) of the longitudinal roller bracket (40) through a conversion wheel (16), the outer ring of the conversion wheel (16) is provided with outer teeth (46), the top of the conversion wheel (16) is provided with a central shaft (43), the bottom of the conversion wheel (16) is provided with an eccentric shaft (44), the conversion wheel (16) is provided with an eccentric hole (45), the eccentric shaft (44) of the conversion wheel (16) is inserted into the eccentric shaft pair hole (42) of the longitudinal roller bracket (40), the eccentric hole (45) of the conversion wheel (16) is connected with the eccentric hole pair hole (41) of the transverse roller bracket (39) through a pin shaft I, the central shaft (43) of the conversion wheel (16) is connected with a support (15), the bottom of the conversion wheel (16) is provided with a push rod (29), and the push rod (29) comprises two push rods, the two push rods are connected through a connecting plate (30), racks are arranged at two ends of the two push rods, the racks at two ends of the two push rods are respectively meshed with outer teeth (46) of the outer ring of a conversion wheel (16), a jacking device (24) is connected with the connecting plate (30) through a pin shaft II (26), the bottoms of the push rods (29) are slidably connected onto a sliding rod (27), the sliding rod (27) is installed on a sliding rod seat (28), one or more groups of transverse moving wheel sets are respectively arranged on two sides of a transverse roller support (39), each transverse moving wheel set comprises a plurality of transverse moving wheels (7) which are uniformly arranged, the plurality of transverse moving wheels (7) in each transverse moving wheel set are in through connection through a rotating shaft I (18), the two ends of the rotating shaft I (18) penetrate through the transverse roller supports (39), one end of the rotating shaft I (18) of one group of the transverse moving wheel sets is provided with a belt wheel III (22), the belt wheel III (22) is connected with the belt wheel II (21) through a belt II (23), the belt wheel II (21) is connected with an output shaft of a transverse driving motor (13), the end of the other end of a rotating shaft I (18) of the transverse moving wheel set is provided with a belt wheel IV (32), the belt wheels IV (32) of the transverse moving wheel set are connected through a belt III (31), one or more groups of longitudinal moving wheel sets are arranged in a longitudinal roller wheel support (40), each longitudinal moving wheel set comprises two or more longitudinal moving wheels (8), the two or more longitudinal moving wheels (8) in each longitudinal moving wheel set are connected through a rotating shaft II (19), the two ends of the rotating shaft II (19) penetrate through the longitudinal roller wheel support (40), two belt wheels I (11) are arranged on the rotating shaft II (19) in each longitudinal moving wheel set, the belt wheels I (11) between the two adjacent groups of longitudinal moving wheels are connected through a belt I (12), a belt I (12) of a longitudinal movable wheel set at one end of the longitudinal roller support (40) is connected with a belt wheel V (37) through a belt IV (36), the belt wheel V (37) is connected with an output shaft of a longitudinal driving motor (20), and the transverse driving motor (13), the longitudinal driving motor (20) and the jacking device (24) are electrically connected with a control box (38).

2. A mold transporting platform as claimed in claim 1, wherein: the transverse driving motor (13) is arranged on the fixed seat (14).

3. A mold transporting platform as claimed in claim 1, wherein: the support (1) is provided with support legs (2) on four legs.

4. A mold transporting platform as claimed in claim 1, wherein: the table top (3) is arranged above the transverse movable wheel set and the longitudinal movable wheel set, and through holes are formed in the table top (3) corresponding to the transverse movable wheel (7) and the longitudinal movable wheel (8).

5. A mold transport platform as in claim 4, wherein: the table top (3) is provided with universal beads (4).

6. A mold transport platform as in claim 4, wherein: the table board (3) is provided with a detector (5), and the detector (5) is electrically connected with the control box (38).

7. A mold transporting platform as claimed in claim 1, wherein: the transverse roller bracket (39) comprises two side beams (17), one ends of the two side beams (17) are connected through a front beam (34), and the other ends of the two side beams (17) are connected through a rear beam (35).

8. A mold transporting platform as claimed in claim 1, wherein: the longitudinal roller support (40) comprises an inner frame (9), and two side plates of the inner frame (9) are connected through an inner frame positioning column (10).

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