CN220866584U - Single-port rotary blanking and distributing machine - Google Patents

Abstract

The utility model relates to the technical field of cloth machines, and provides a single-port rotary blanking cloth machine which comprises a frame, a travelling mechanism, a cloth hopper, a rotary driving mechanism arranged at the periphery of the discharge port of the cloth hopper, a rotary chute hinged with a rotary table of the rotary driving mechanism and positioned below the discharge port of the cloth hopper, and a telescopic mechanism connected between the rotary chute and the rotary table of the rotary driving mechanism, wherein the rotary chute has a rotation degree of freedom in the horizontal direction by virtue of the rotary driving mechanism, and has a rotation degree of freedom in the vertical direction separated from or in contact with and sealed with the discharge port of the cloth hopper by virtue of the telescopic mechanism. The problem that the standard spiral material distributor in the related art is only suitable for the situations of small component drop, large material receiving area and one-way outlet blanking on a plane die table, and the situations of large component drop, small material receiving area and requirement of all-dimensional outlet blanking can not be met is solved.

Description

Single-port rotary blanking and distributing machine

Technical Field

The utility model relates to the technical field of cloth machines, in particular to a single-port rotary blanking cloth machine.

Background

The standard spiral distributor comprises a steel structure support, a large traveling mechanism, a small traveling mechanism, a hopper body, a lifting mechanism, a stirring mechanism, a distributing mechanism, a hydraulic system, an electrical control system and a safety protection mechanism. The stirring mechanism and the distributing mechanism are arranged on the hopper body to form a distributing unit, the distributing unit is connected with the trolley travelling mechanism through the hydraulic lifting mechanism, the trolley travelling mechanism is arranged on a track of the trolley travelling mechanism, the trolley travelling mechanism is combined, the distributing unit can move in two vertical directions, the steel structure support supports the trolley travelling mechanism, the travelling mechanism is started to drive the distributing unit to longitudinally and transversely move along the die table, the moving range covers the whole die table, and the omnibearing distributing is realized. The lifting mechanism drives the material distribution unit to vertically lift, the material distribution requirements of prefabricated components with different thicknesses can be met, the lifting mechanism is driven by a hydraulic cylinder, and the lifting stroke is 300mm, 600mm and 1000 mm.

Due to structural limitations, the standard spiral distributor is only suitable for the conditions of small component drop, large material receiving area and one-way outlet blanking on a planar die table, and cannot meet the conditions of large component drop, small material receiving area and requirement of all-dimensional outlet blanking.

Disclosure of utility model

The utility model provides a single-port rotary blanking spreader, which solves the problems that the standard spiral spreader in the related art is only suitable for the situation that the component drop on a plane die table is small, the receiving area is large and the unidirectional outlet blanking is carried out, and the situation that the component drop is large, the receiving area is narrow and the omnibearing outlet blanking is required can not be satisfied.

The technical scheme of the utility model is as follows: the utility model provides a single-port rotary blanking cloth machine, includes the frame, sets up running gear in the frame, and hoist and mount just have the cloth hopper of lift degree of freedom in running gear below, and the key lies in: the material distributor further comprises a rotary driving mechanism arranged on the periphery of the discharge hole of the material distribution hopper, a rotary chute hinged with the rotary table of the rotary driving mechanism and positioned below the discharge hole of the material distribution hopper, and a telescopic mechanism connected between the rotary chute and the rotary table of the rotary driving mechanism, wherein the rotary chute has a rotation degree of freedom in the horizontal direction by means of the rotary driving mechanism, and the rotary chute has a rotation degree of freedom in the vertical direction separated from or in contact with the discharge hole of the material distribution hopper by means of the telescopic mechanism.

The material distributor further comprises a stirring mechanism, wherein the stirring mechanism comprises a transverse stirring shaft arranged in the material distribution hopper, stirring teeth arranged on the transverse stirring shaft and a power mechanism fixed on the outer wall of the material distribution hopper, and one end of the transverse stirring shaft penetrates through the material distribution hopper and then is connected with an output shaft of the power mechanism.

The travelling mechanism comprises a longitudinal travelling mechanism in rolling fit with the frame and a transverse travelling mechanism in rolling fit with the longitudinal travelling mechanism, and the cloth hopper is hung below the transverse travelling mechanism.

The distributing machine further comprises a hoisting device arranged above the transverse travelling mechanism and a pulley arranged above the transverse travelling mechanism, a steel wire rope of the hoisting device bypasses the pulley and is connected with a distributing hopper, and the distributing hopper has lifting freedom degree by means of the hoisting device.

The cloth machine also comprises a guide mechanism, wherein the guide mechanism comprises a guide column, a guide sleeve and a guide sleeve, the upper end of the guide column is connected with the transverse travelling mechanism, the guide sleeve is sleeved on the guide column and is connected with the cloth hopper, and the guide sleeve is in sliding fit with the guide column.

Transverse limiting plates are arranged above two ends of the longitudinal travelling mechanism.

Longitudinal limiting plates are arranged above two ends of the frame.

The working principle and the beneficial effects of the utility model are as follows: the rotary driving mechanism is arranged on the periphery of the discharge hole of the cloth hopper, the rotary chute is arranged below the discharge hole of the cloth hopper and is hinged with the rotary table of the rotary driving mechanism, and the telescopic mechanism is connected between the rotary chute and the rotary table of the rotary driving mechanism. When the material is distributed, the longitudinal travelling mechanism can drive the transverse travelling mechanism and the material distribution hopper to synchronously move along the longitudinal direction and the horizontal direction on the frame, the transverse travelling mechanism can drive the material distribution hopper to horizontally move along the longitudinal direction on the longitudinal travelling mechanism, the rotary chute is separated from the material outlet of the material distribution hopper through the extension of the telescopic mechanism, the concrete material in the material distribution hopper flows out along the rotary chute by gravity and falls into the cavity of the die, the rotary chute can be driven to rotate in the horizontal direction by the rotary driving mechanism, 360-degree omnibearing material distribution is realized, and when the material distribution device is not used, the rotary chute is in contact seal with the material outlet of the material distribution hopper through the contraction of the telescopic mechanism. Can meet the conditions of large fall of components, narrow receiving area and requirement of omnibearing outlet blanking.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a front view of the present utility model in particular use.

Fig. 2 is a schematic diagram of a connection structure between the distributing hopper and the travelling mechanism and between the distributing hopper and the rotary chute in fig. 1.

Fig. 3 is a side view of the present utility model.

Fig. 4 is a schematic diagram of a connection structure between the distributing hopper and the travelling mechanism and between the distributing hopper and the rotary chute in fig. 3.

Fig. 5 is a schematic structural view of the rotary chute of the present utility model in contact with and sealing the cloth hopper.

Fig. 6 is a top view of the present utility model.

In the figure: 1. the device comprises a frame, 2, a cloth hopper, 3, a rotary driving mechanism, 4, a rotary chute, 5, a telescopic mechanism, 6, a transverse stirring shaft, 7, a power mechanism, 8, a longitudinal running mechanism, 9, a transverse running mechanism, 10, a hoisting device, 11, pulleys, 12, a steel wire rope, 13, a guide post, 14, a guide sleeve, 15, a transverse limiting plate, 16, a longitudinal limiting plate, 17, a die, 18 and a die table.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on the embodiments of the present utility model, are intended to be encompassed within the scope of the present utility model.

The single-port rotary blanking spreader comprises a frame 1, a travelling mechanism arranged on the frame 1, a cloth hopper 2 which is hoisted below the travelling mechanism and has lifting freedom degrees, a rotary driving mechanism 3 arranged on the periphery of a discharge hole of the cloth hopper 2, a rotary chute 4 hinged with a rotary table of the rotary driving mechanism 3 and positioned below the discharge hole of the cloth hopper 2, and a telescopic mechanism 5 connected between the rotary chute 4 and the rotary table of the rotary driving mechanism 3, wherein the rotary chute 4 has the horizontal rotation freedom degrees by the rotary driving mechanism 3, and the rotary chute 4 has the vertical rotation freedom degrees separated from or contacted and sealed with the discharge hole of the cloth hopper 2 by the telescopic mechanism 5.

As a further improvement of the utility model, the distributor also comprises a stirring mechanism, wherein the stirring mechanism comprises a transverse stirring shaft 6 arranged in the distributing hopper 2, stirring teeth arranged on the transverse stirring shaft 6 and a power mechanism 7 fixed on the outer wall of the distributing hopper 2, and one end of the transverse stirring shaft 6 passes through the distributing hopper 2 and is connected with an output shaft of the power mechanism 7. As shown in fig. 1, 2, 3 and 4, in the material distribution process, the power mechanism 7 is used for driving the materials in the transverse stirring shaft 6 to stir, so that the materials can be prevented from being accumulated.

As a further improvement of the utility model, the travelling mechanism comprises a longitudinal travelling mechanism 8 which forms rolling fit with the frame 1 and a transverse travelling mechanism 9 which forms rolling fit with the longitudinal travelling mechanism 8, and the cloth hopper 2 is hoisted below the transverse travelling mechanism 9. As shown in fig. 1, 2, 3, 4 and 6, the longitudinal travelling mechanism 8 can drive the transverse travelling mechanism 9 and the cloth hopper 2 to synchronously move horizontally along the front-back direction, and the transverse travelling mechanism 9 can drive the cloth hopper 2 to horizontally move along the left-right direction, so that the position of the cloth hopper 2 is changed according to actual needs, and the cloth requirements of dies 17 with different sizes are better met.

As a further improvement of the utility model, the spreader further comprises a hoisting device 10 arranged above the transverse traveling mechanism 9 and a pulley 11 arranged above the transverse traveling mechanism 9, wherein a steel wire rope 12 of the hoisting device 10 is connected with the cloth hopper 2 after passing around the pulley 11, and the cloth hopper 2 has a lifting degree of freedom by virtue of the hoisting device 10. As shown in fig. 3 and fig. 4, two front and rear pulleys 11 are simultaneously arranged on the left and right sides of the transverse travelling mechanism 9, four steel wire ropes 12 of the winding device 10 are respectively wound around one pulley 11 and then connected with the cloth hopper 2, the winding device 10 drives the cloth hopper 2 to lift through the steel wire ropes 12, and the cloth hopper 2 can be adjusted to a proper position according to the height of a die on a die table so as to conveniently distribute the die.

As a further improvement of the utility model, the cloth machine also comprises a guide mechanism, wherein the guide mechanism comprises a guide column 13, the upper end of which is connected with the transverse travelling mechanism 9, and a guide sleeve 14, which is sleeved on the guide column 13 and is connected with the cloth hopper 2, and the guide sleeve 14 and the guide column 13 form sliding fit. As shown in fig. 1, fig. 2, fig. 3 and fig. 4, two front and rear guide sleeves 14 are simultaneously arranged on the left side and the right side of the cloth hopper 2, correspondingly, four guide posts 13 are arranged on the transverse traveling mechanism 9, and the guide sleeves 14 slide up and down along the guide posts 13 in the lifting process of the cloth hopper 2, so that the shaking of the cloth hopper 2 can be effectively prevented, the stability is better, and the accurate and controllable position of the cloth hopper 2 is ensured.

As a further improvement of the utility model, transverse limiting plates 15 are arranged above both ends of the longitudinal running gear 8. As shown in fig. 1 and 6, the front and rear two lateral limiting plates 15 are simultaneously arranged at the left and right ends of the longitudinal running mechanism 8, and when the lateral running mechanism 9 moves left and right on the longitudinal running mechanism 8, the lateral limiting plates 15 can play a limiting role to prevent the lateral running mechanism 9 from slipping off from the longitudinal running mechanism 8, so that the safety is higher.

As a further improvement of the utility model, longitudinal limiting plates 16 are arranged above both ends of the frame 1. As shown in fig. 1, 3 and 6, the front end and the rear end of the frame 1 are both provided with two left and right longitudinal limiting plates 16 at the same time, and the longitudinal limiting plates 16 can play a limiting role in the process that the longitudinal travelling mechanism 8 moves back and forth at the top of the frame 1, so that the longitudinal travelling mechanism 8 is prevented from slipping off the frame 1, and the safety is higher.

When the utility model is specifically used, the longitudinal travelling mechanism 8 can drive the transverse travelling mechanism 9, the cloth hopper 2 and the winding device 10 to synchronously move horizontally along the front-back direction on the frame 1, the transverse travelling mechanism 9 can drive the cloth hopper 2 and the winding device 10 to horizontally move along the left-right direction on the longitudinal travelling mechanism 8, and the winding device 10 can drive the cloth hopper 2 to move up and down. During material distribution, the rotary chute 4 is separated from the discharge hole of the material distribution hopper 2 through the extension of the telescopic mechanism 5, as shown by the rotary chute 4 in the solid line part in fig. 1 and 2, concrete materials in the material distribution hopper 2 flow out along the rotary chute 4 by gravity and fall into the cavity of the die 17 positioned on the die table 18, the rotary chute 4 can be driven to rotate in the horizontal direction by the rotary driving mechanism 3, 360-degree omnibearing material distribution is realized, and when the rotary chute is not used, the rotary chute 4 is in contact seal with the discharge hole of the material distribution hopper 2 through the contraction of the telescopic mechanism 5, as shown by the rotary chute 4 in the dotted line part in fig. 1 and 2. Can meet the conditions of large fall of components, narrow receiving area and requirement of omnibearing outlet blanking.

Claims (7)

1. The utility model provides a single-port rotary blanking cloth machine, includes frame (1), sets up running gear on frame (1) and hoist and mount are in running gear below and have cloth hopper (2) of lift degree of freedom, its characterized in that: the cloth machine is characterized by further comprising a rotary driving mechanism (3) arranged on the periphery of the discharge hole of the cloth hopper (2), a rotary chute (4) hinged with a rotary table of the rotary driving mechanism (3) and positioned below the discharge hole of the cloth hopper (2), and a telescopic mechanism (5) connected between the rotary chute (4) and the rotary table of the rotary driving mechanism (3), wherein the rotary chute (4) has a rotation degree of freedom in the horizontal direction by means of the rotary driving mechanism (3), and the rotary chute (4) has a rotation degree of freedom in the vertical direction separated from or contacted with the discharge hole of the cloth hopper (2) by means of the telescopic mechanism (5).

2. The single port rotary blanking machine of claim 1, wherein: the material distributor further comprises a stirring mechanism, wherein the stirring mechanism comprises a transverse stirring shaft (6) arranged in the material distribution hopper (2), stirring teeth arranged on the transverse stirring shaft (6) and a power mechanism (7) fixed on the outer wall of the material distribution hopper (2), and one end of the transverse stirring shaft (6) penetrates through the material distribution hopper (2) and then is connected with an output shaft of the power mechanism (7).

3. The single port rotary blanking machine of claim 1, wherein: the travelling mechanism comprises a longitudinal travelling mechanism (8) in rolling fit with the frame (1) and a transverse travelling mechanism (9) in rolling fit with the longitudinal travelling mechanism (8), and the cloth hopper (2) is hoisted below the transverse travelling mechanism (9).

4. A single port rotary blanking machine as claimed in claim 3, wherein: the cloth machine further comprises a winding device (10) arranged above the transverse traveling mechanism (9) and a pulley (11) arranged above the transverse traveling mechanism (9), a steel wire rope (12) of the winding device (10) bypasses the pulley (11) and then is connected with the cloth hopper (2), and the cloth hopper (2) has lifting freedom degree by means of the winding device (10).

5. A single port rotary blanking machine as claimed in claim 3, wherein: the cloth machine also comprises a guide mechanism, wherein the guide mechanism comprises a guide column (13) with the upper end connected with the transverse travelling mechanism (9), and a guide sleeve (14) sleeved on the guide column (13) and connected with the cloth hopper (2), and the guide sleeve (14) and the guide column (13) form sliding fit.

6. A single port rotary blanking machine as claimed in claim 3, wherein: transverse limiting plates (15) are arranged above two ends of the longitudinal travelling mechanism (8).

7. A single port rotary blanking machine as claimed in claim 3, wherein: longitudinal limiting plates (16) are arranged above two ends of the frame (1).