CN216181503U - Be applied to base mechanism that turns over of roofing tile forming integrated machine - Google Patents

Abstract

The utility model discloses a blank turning mechanism applied to a roof tile forming integrated machine, which comprises a lower bracket, wherein a transmission auxiliary structure is arranged at the upper end of the lower bracket, the transmission auxiliary structure comprises an input end and an output end, a limit baffle is arranged at one side of the transmission auxiliary structure close to the output end, a photoelectric reflection sensor is fixedly arranged at one side of the transmission auxiliary structure at the output end, shaft guide members are respectively arranged at the left side and the right side of the transmission auxiliary structure, a fixed structure is arranged between the two shaft guide members, a shaft guide groove is arranged on each shaft guide member, a first shaft rod is arranged between the two shaft guide grooves, two ends of the first shaft rod are respectively arranged in the shaft guide grooves in a sliding manner, the limit baffle is connected with the first shaft rod, a driving device is arranged at the lower end of the transmission auxiliary structure close to the input end, the structure of the blank turning mechanism is compact and stable, the blank is fully automatically conveyed to an embossing mechanism through simple mechanical transmission, and the labor cost is greatly reduced, the work efficiency is high, and the feature of environmental protection is strong, can satisfy the market demand, and the practicality is strong.

Description

Be applied to base mechanism that turns over of roofing tile forming integrated machine

Technical Field

The utility model relates to the field of roof tile forming and processing, in particular to a blank turning mechanism applied to a roof tile forming integrated machine.

Background

The tile blank for roof is prepared through mixing raw materials, extruding, demoulding, shearing, chamfering and embossing.

If the roof tile blank needs to be processed and produced automatically, the processed blank needs to be conveyed into embossing equipment seamlessly before embossing operation. In the existing processing technology, the carrying is generally carried through manpower, the working efficiency is low, a large amount of dust generated in the carrying process easily influences the human health, and the environmental protection performance is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a blank turning mechanism applied to a roof tile forming integrated machine, wherein a blank is conveyed to an embossing mechanism through mechanical full-automatic seamless connection, and the problems that manual carrying is needed in the existing processing technology, the working efficiency is low, the environmental protection performance is poor, and the market demand cannot be met are solved.

The technical scheme adopted by the utility model is as follows: a blank turning mechanism applied to a roof tile forming integrated machine comprises a lower bracket, wherein a transmission auxiliary structure is arranged at the upper end of the lower bracket and comprises two supporting side plates which are arranged in parallel relatively and a plurality of sliding rollers which are arranged between the two supporting side plates at intervals, the transmission auxiliary structure comprises an input end and an output end, a limiting baffle is arranged on one side, close to the output end, of the transmission auxiliary structure, the limiting baffle is partially positioned at the upper end of the sliding rollers, photoelectric reflection sensors are fixedly installed on one side, positioned at the output end, of the transmission auxiliary structure, shaft guide members are respectively arranged on the left side and the right side of the transmission auxiliary structure, a fixed structure is arranged between the two shaft guide members, shaft guide grooves are formed in the shaft guide members, a first shaft rod is arranged between the two shaft guide grooves, and two ends of the first shaft rod are respectively installed in the shaft guide grooves in a sliding manner, the limiting baffle is connected with the first shaft rod, a driving device is arranged at the lower end of one side, close to the input end, of the transmission auxiliary structure, the driving device is used for pushing the transmission auxiliary structure to be located at one side of the input end to move upwards, and at the moment, two ends of the first shaft rod slide in the shaft guide grooves and drive the limiting baffle to move downwards relative to the sliding roller.

Preferably, the fixing structure is used for assisting in fixedly connecting the lower bracket and the transmission auxiliary structure, the fixing structure includes a second shaft rod, a shaft hole and an insertion hole, the lower bracket includes two lower plates arranged in parallel relatively, the insertion hole is located at the upper end of the lower plate, the shaft hole is located on the shaft guide member, and the insertion hole and the shaft hole are sequentially penetrated through at two ends of the second shaft rod.

Preferably, the supporting side plates are provided with sliding grooves which are vertically arranged, the left side and the right side of the limiting baffle are respectively provided with clamping strips, the supporting side plates are arranged in the sliding grooves in a matched sliding manner, and the inner diameters of the clamping strips are larger than the groove diameters of the sliding grooves.

More preferably, the driving device comprises a driving push rod and a driving cylinder, the transmission auxiliary structure is located on one side of the input end and is provided with a connecting plate, the driving push rod is connected with the connecting plate, and the driving cylinder is used for driving the driving push rod to move up and down.

The working principle is as follows: when the blank is conveyed to the sliding roller on the transmission auxiliary structure from the input end, the blank has an initial speed, so the blank can be conveyed forwards through the matching of the sliding roller and finally abuts against the limiting baffle plate, at the moment, the transmission auxiliary structure is integrally and horizontally placed, when the photoelectric reflection sensor senses that the blank is completely abutted against the limiting baffle plate, a signal is sent to a central control system of the roof tile forming integrated machine immediately, at the moment, the central control system sends an instruction to the driving cylinder, the driving cylinder drives the driving push rod to push upwards, and further the transmission auxiliary structure is driven to move upwards on one side of the input end, and at the moment, the transmission auxiliary structure is integrally and gradually inclined. Because fixed knot constructs the existence, the lower carriage can only produce relative rotation through the second shaft pole with transmission auxiliary structure, the lower carriage still is fixed this moment promptly, only transmission auxiliary structure produces the slope, and meanwhile, the both ends of first axostylus axostyle slide in the axle guide slot, finally through lever principle, drive limit baffle for smooth roller downstream, remove the spacing to the blank, and then make the blank pass through the action of gravity, can continue to slide to knurling mechanism by smooth roller is supplementary, full-automatic seamless linking transport has been realized, work efficiency promotes greatly.

Compared with the prior art, the utility model has the following beneficial effects: the full-automatic blank conveying mechanism is compact and stable in structure, the blank is conveyed to the embossing mechanism in a full-automatic mode through simple mechanical transmission, labor cost is greatly reduced, working efficiency is high, environmental friendliness is high, market requirements can be met, and practicability is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a first perspective view of the assembled multiple blank-flipping mechanisms of the present invention;

FIG. 5 is a second perspective view of the assembled multiple blank-flipping mechanisms of the present invention;

fig. 6 is a schematic structural diagram of the roof tile forming integration machine applied to the utility model.

In the drawings are labeled: 1-lower bracket, 101-plug hole, 2-support side plate, 201-sliding chute, 3-connecting plate, 4-sliding roller, 5-shaft guide piece, 501-shaft guide groove, 502-shaft hole, 6-drive push rod, 7-first shaft lever, 8-second shaft lever, 9-photoelectric reflection sensor, 10-limit baffle, 1001-clamping strip, 11-conveying belt and 12-blank separating mechanism.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The specific implementation scheme is as follows: referring to fig. 1-6, the utility model is a blank turning mechanism applied to a roof tile forming integrated machine, comprising a lower bracket 1, a transmission auxiliary structure is arranged at the upper end of the lower bracket 1, the transmission auxiliary structure comprises two support side plates 2 arranged in parallel relatively, and a plurality of slide rollers 4 arranged at intervals between the two support side plates 2, the transmission auxiliary structure comprises an input end and an output end, one side of the transmission auxiliary structure close to the output end is provided with a limit baffle 10, the limit baffle 10 is partially positioned at the upper end of the slide roller 4, one side of the transmission auxiliary structure positioned at the output end is fixedly provided with a photoelectric reflection sensor 9, the left side and the right side of the transmission auxiliary structure are respectively provided with a shaft guide member 5, a fixed structure is arranged between the two shaft guide members 5, a shaft guide groove 501 is arranged on the shaft guide member 5, a first shaft rod 7 is arranged between the two shaft guide grooves 501, two ends of the first shaft rod 7 are respectively slidably arranged in the shaft guide grooves 501, the limit baffle 10 is connected with the first shaft rod 7, the lower end of the transmission auxiliary structure close to one side of the input end is provided with a driving device, the driving device is used for pushing the transmission auxiliary structure to be located on one side of the input end to move upwards, at the moment, two ends of the first shaft rod 7 slide in the shaft guide groove 501, and the limit baffle 10 is driven to move downwards relative to the sliding roller 4.

Referring to fig. 3, the fixing structure is used for assisting the fixed connection of the lower bracket 1 and the transmission auxiliary structure, the fixing structure includes the second shaft rod 8, the shaft hole 502 and the insertion hole 101, the lower bracket 1 includes two lower plates arranged in parallel relatively, the insertion hole 101 is located at the upper end of the lower plate, the shaft hole 502 is located on the shaft guide member 5, and the insertion hole 101 and the shaft hole 502 are sequentially penetrated through at two ends of the second shaft rod 8.

In this embodiment, be equipped with spout 201 on the support curb plate 2, spout 201 is vertical setting, and is the runway form, and the left and right sides of limit baffle 10 is equipped with card strip 1001 respectively, and support curb plate 2 matches the sliding connection and places in spout 201, and the internal diameter of card strip 1001 is greater than the groove footpath of spout 201. The design of the clamping strip 1001 and the sliding groove 201 can enable the limit baffle 10 to move relative to the sliding roller 4 accurately and smoothly without deviation.

More specifically, drive arrangement includes drive push rod 6 and drives actuating cylinder, and transmission auxiliary structure is located input one side and is equipped with connecting plate 3, and drive push rod 6 connects connecting plate 3, drives actuating cylinder and is used for the drive push rod 6 up-and-down motion.

In practical production, referring to fig. 4-6, a conveyor belt 11 and a blank dividing mechanism 12 are arranged in front of the blank turning mechanism of the present invention, and the blank dividing mechanism 12 is used for dividing the blanks.

The working principle is as follows: when the blank is conveyed to the sliding roller 4 on the transmission auxiliary structure from the input end, because the blank has the initial speed, therefore through the cooperation of the sliding roller 4, the blank can be conveyed forward and finally abut on the limit baffle 10, at the moment, the transmission auxiliary structure is wholly horizontally placed, when the photoelectric reflection sensor 9 senses that the blank is completely abutted on the limit baffle 10, a signal is sent to the central control system of the roof tile forming integrated machine immediately, at the moment, the central control system sends an instruction to the driving cylinder, the driving cylinder drives the driving push rod 6 to push upwards, and then the transmission auxiliary structure is driven to move upwards on one side of the input end, at the moment, the transmission auxiliary structure is wholly inclined gradually. Because fixed knot constructs the existence, lower carriage 1 and transmission auxiliary structure can only produce relative rotation through second axostylus axostyle 8, lower carriage 1 still is fixed this moment promptly, only transmission auxiliary structure produces the slope, and meanwhile, the both ends of first axostylus axostyle 7 slide in axle guide slot 501, finally through lever principle, drive limit baffle 10 for smooth roller 4 downstream, remove the spacing to the blank, and then make the blank pass through the action of gravity, can continue to slide to knurling mechanism by smooth roller is supplementary, full-automatic seamless linking transport has been realized, work efficiency promotes greatly.

The above mentioned blank-turning mechanism applied to the roof tile forming integration machine is only the preferred embodiment of the present invention, and not to limit the patent scope of the present invention, and all the equivalent structural changes made by the content of the present specification and the attached drawings or the direct/indirect application in other related technical fields under the inventive concept of the present invention are included in the patent protection scope of the present invention.

Claims (4)

1. A blank turning mechanism applied to a roof tile forming integrated machine comprises a lower bracket, wherein a transmission auxiliary structure is arranged at the upper end of the lower bracket and comprises two supporting side plates which are arranged in parallel relatively and a plurality of sliding rollers which are arranged between the two supporting side plates at intervals, the transmission auxiliary structure comprises an input end and an output end, and the blank turning mechanism is characterized in that one side, close to the output end, of the transmission auxiliary structure is provided with a limit baffle, the limit baffle is partially positioned at the upper end of the sliding rollers, one side, positioned at the output end, of the transmission auxiliary structure is fixedly provided with a photoelectric reflection sensor, the left side and the right side of the transmission auxiliary structure are respectively provided with shaft guide members, a fixed structure is arranged between the two shaft guide members, a shaft guide groove is arranged on each shaft guide member, a first shaft rod is arranged between the two shaft guide grooves, and two ends of the first shaft rod are respectively installed in the shaft guide grooves in a sliding manner, the limiting baffle is connected with the first shaft rod, a driving device is arranged at the lower end of one side, close to the input end, of the transmission auxiliary structure, the driving device is used for pushing the transmission auxiliary structure to be located at one side of the input end to move upwards, and at the moment, two ends of the first shaft rod slide in the shaft guide grooves and drive the limiting baffle to move downwards relative to the sliding roller.

2. The blank turning mechanism applied to the roof tile forming integration machine as claimed in claim 1, wherein the fixing structure is used for assisting in fixedly connecting the lower bracket and the transmission auxiliary structure, the fixing structure comprises a second shaft rod, a shaft hole and an insertion hole, the lower bracket comprises two lower plates which are arranged in parallel, the insertion hole is located at the upper end of the lower plates, the shaft hole is located on the shaft guide member, and the insertion hole and the shaft hole are sequentially penetrated through at two ends of the second shaft rod.

3. The blank turning mechanism applied to the roof tile forming and integrating machine according to any one of claims 1 or 2, wherein sliding grooves are formed in the supporting side plates and are vertically arranged, clamping strips are respectively arranged on the left side and the right side of the limiting baffle, the supporting side plates are matched and slidably placed in the sliding grooves, and the inner diameter of each clamping strip is larger than the groove diameter of each sliding groove.

4. The blank turning mechanism applied to the roof tile forming and integrating machine as claimed in claim 3, wherein the driving device comprises a driving push rod and a driving air cylinder, a connecting plate is arranged on one side of the input end of the transmission auxiliary structure, the driving push rod is connected with the connecting plate, and the driving air cylinder is used for driving the driving push rod to move up and down.

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