CN218663999U - Unpowered roller transmission device of closestool support plate - Google Patents

Abstract

The utility model discloses an unpowered roller transmission device of a closestool support plate, which comprises an unpowered roller line and a driving mechanism, wherein the driving mechanism comprises a pushing rod, the driving mechanism is used for driving the pushing rod to move back and forth, a non-return part is arranged between non-return pushing blocks, and the non-return part is used for the non-return rotation of the non-return pushing blocks; the loading board is placed to unpowered cylinder line, actuating mechanism drive pushing ram is preceding to be pushed away or the action of retracting, the loading board has been placed between the contrary ejector pad of multiunit, when the pushing ram impels because the contrary ejector pad at loading board rear is provided with contrary portion of ending, contrary portion is contradicted with the pushing ram and then contrary loading board, promote the loading board and move ahead, and when actuating mechanism drive pushing ram retracts, the inclined plane of contrary ejector pad is pushed down after contacting the loading board bottom, contrary ejector pad rotates around the bolt, transmission loading board and closestool blank that this kind of transmission mode can be steady, the electrical components who uses are few, the effectual fault rate that has reduced, energy saving has been realized.

Description

Unpowered roller transmission device of closestool support plate

Technical Field

The utility model relates to an unpowered cylinder, especially an unpowered cylinder transmission device of closestool support plate.

Background

In the ceramic production process, the application of automatic conveying lines is increasing. In view of the requirements of the ceramic body on the transmission line: the conveying is stable, and the transition is free from jamming, so that the blank loss in the conveying process is reduced.

However, in the process of implementing the embodiments of the present application, the inventors of the present application found that the above-mentioned technology has at least the following technical problems:

the conveying line driven by a long-distance motor is formed by splicing multiple sections, the two sections are inevitably blocked at the butt joint part, meanwhile, a pneumatic blocking cylinder is adopted for stopping the on-line product, and the impact between the bearing plates is inevitable. The driving motor has large starting instant impact, needs to run for a long time, has higher energy consumption, and has higher operation failure rate of the motor and electrical elements in the high-temperature and high-humidity environment of a ceramic production workshop.

SUMMERY OF THE UTILITY MODEL

The utility model provides an unpowered cylinder transmission device of closestool support plate for solve the transmission unstable and electrical components problem of can't energy-conservation more.

According to one aspect of the utility model, an unpowered roller transmission device of a closestool carrier plate is provided, which comprises a transmission device body;

at least one unpowered roller line is arranged, and a bearing plate is placed on the unpowered roller line;

the driving mechanism comprises a pushing rod, the driving mechanism is used for driving the pushing rod to move back and forth, the pushing rod is positioned on one side of the unpowered roller line and arranged in parallel, non-return pushing blocks are hinged to two sides of the pushing rod, the two non-return pushing blocks are in one group, the non-return pushing blocks are provided with a plurality of groups and arranged at equal intervals, a non-return part is arranged between the non-return pushing blocks, and the non-return part is used for the non-return rotation of the non-return pushing blocks;

the side section of the non-return push block is in a right-angle triangle shape, the long side of the non-return push block in the right-angle triangle shape is vertically higher than the unpowered roller line, and the short side of the non-return push block in the right-angle triangle shape is vertically lower than the unpowered roller line.

Furthermore, the conveying advancing direction of the unpowered roller line is opposite to the inclined edge of the non-return push block, the gravity center of the non-return push block is added at the bottom of the non-return push block, the non-return push block is kept upright in a static state, and the non-return part of the inclined edge of the non-return push block is abutted against the push rod in the static state.

Furthermore, a guide mechanism is arranged at the output end of the driving mechanism, a pushing rod is detachably mounted on the guide mechanism, the pushing rod and the driving mechanism are arranged in parallel up and down, and the guide mechanism is used for assisting the driving mechanism to drive the pushing rod to keep parallel.

Further, guiding mechanism includes linear guide and slide, and wherein linear guide sets up in the one side setting that is close to actuating mechanism of unpowered roller line, the push rod can be dismantled and be connected with the slide, slide and linear guide sliding fit.

Furthermore, the number of the unpowered roller lines is two, and the driving mechanism is fixedly arranged between the two unpowered roller lines.

Furthermore, one end of the pushing rod, which is far away from the driving mechanism, is provided with a balance supporting wheel, the bottom of the unpowered roller line is also provided with a sliding plate parallel to the unpowered roller line, and the balance supporting wheel slides on the sliding plate.

The utility model has the advantages that:

the utility model discloses a set up unpowered cylinder line and place the loading board, actuating mechanism drive pushing ram is preceding to be pushed away or the action of retracting, the loading board has been placed between the contrary ejector pad of multiunit, when the pushing ram impels because the contrary ejector pad at loading board rear is provided with contrary portion, contrary portion contradicts and then contrary loading board with the pushing ram, promote the loading board and move ahead, and during the retracting of actuating mechanism drive pushing ram, the inclined plane contact loading board bottom back of contrary ejector pad is pushed down, it rotates around the bolt to end contrary ejector pad, so realize that loading board and body impel forward repeatedly, this kind of transmission mode can steady transmission loading board and closestool body, the electrical components who uses are few, the effectual fault rate that has reduced, energy-conservation has been realized.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic view of a first embodiment of the unpowered roller line in a top-down section configuration;

FIG. 2 is a schematic view of an overall main sectional structure of a first embodiment of the present invention;

FIG. 3 is a schematic side sectional view of a first embodiment of the present invention;

fig. 4 is an enlarged schematic structural diagram of a point a in fig. 2 according to the first embodiment of the present invention.

In the figure: 1. an unpowered roller line; 11. a slide plate; 2. a drive mechanism; 21. a push rod; 211. a balance support wheel; 3. a non-return push block; 31. a backstop portion; 4. a guide mechanism; 41. a linear guide rail; 42. a slide base; 5. a carrier plate.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It is to be noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present application, where the contrary is not intended, the use of directional terms such as "upper, lower, top, bottom" generally refer to the orientation as shown in the drawings, or to the component itself being oriented in a vertical, perpendicular, or gravitational direction; similarly, "inner and outer" refer to the inner and outer relative to the contours of the components themselves for ease of understanding and description, but the above directional terms are not intended to limit the invention.

Fig. 1-4 show a first embodiment of an unpowered roller transmission device for a toilet carrier according to the present invention.

An unpowered roller transmission device of a closestool carrier plate comprises a transmission device body and a transmission device body, wherein the transmission device body is provided with a transmission shaft;

the device comprises an unpowered roller line 1, wherein at least one unpowered roller line 1 is arranged, and a bearing plate 5 is arranged on the unpowered roller line 1;

the driving mechanism 2 comprises a pushing rod 21, the driving mechanism 2 is used for driving the pushing rod 21 to move back and forth, the pushing rod 21 is positioned on one side of the unpowered roller line 1 and is arranged in parallel, non-return push blocks 3 are hinged to two sides of the pushing rod 21, the non-return push blocks 3 form a group, the non-return push blocks 3 are provided with multiple groups and are arranged at equal intervals, non-return parts 31 are arranged between the non-return push blocks 3, and the non-return parts 31 are used for the non-return rotation of the non-return push blocks 3; the driving mechanism 2 can be driven by an air cylinder, a hydraulic cylinder or a motor to realize forward pushing or retracting action; the driving mechanisms 2 can be arranged on two sides of the unpowered roller line 1 and started synchronously, so that the single unpowered roller line 1 is ensured to be more stable when the bearing plate 5 and the blank are conveyed, and the deviation is prevented;

the side section of the non-return push block 3 is in a right-angle triangle shape, the long side of the non-return push block 3 in the right-angle triangle shape is vertically higher than the unpowered roller line 1, and the short side of the non-return push block 3 in the right-angle triangle shape is vertically lower than the unpowered roller line 1; when the driving mechanism 2 retracts into the pushing rod 21, the bearing plate 5 abuts against the non-return pushing block 3, the non-return pushing block 3 rotates, the bearing plate 5 presses the non-return pushing block 3, and the bearing plate 5 moves at the bottom of the bearing plate 5 to retract into the pushing rod 21.

The utility model discloses a set up unpowered cylinder line 1 and place loading board 5, 2 drive pushing ram 21 of actuating mechanism are advanced to push away or the action of withdrawal, loading board 5 has been placed between the contrary ejector pad 3 of multiunit, when pushing ram 21 impels because the contrary ejector pad 3 at 5 backs of loading board is provided with contrary 31, contrary 31 is contradicted and then contrary loading board 5 with pushing ram 21, promote loading board 5 and move ahead, and when 2 drive pushing ram 21 of actuating mechanism retract, the inclined plane of contrary ejector pad 3 contacts and is pushed down behind 5 bottoms of loading board, contrary ejector pad 3 rotates around the bolt, so realize repeatedly that loading board 5 and body impel forward, this kind of transmission mode can steady transmission loading board 5 and closestool body, the electrical components who uses are few, the effectual fault rate that has reduced, energy-conservation has been realized.

The conveying advancing direction of the unpowered roller line 1 is opposite to the inclined edge of the non-return push block 3, the gravity center of the non-return push block 3 is weighted at the bottom of the non-return push block 3, the non-return push block 3 is kept upright in a static state, and the non-return part 31 of the inclined edge of the non-return push block 3 props against the push rod 21 in the static state;

when the driving mechanism 2 drives the pushing rod 21 to push forward, the long side of the non-return pushing block 3 pushes the bearing plate 5 to move, and the bevel non-return part 31 of the non-return pushing block 3 prevents the non-return pushing block 3 from rotating when the pushing rod 21 pushes forward.

The output end of the driving mechanism 2 is provided with a guide mechanism 4, the guide mechanism 4 is detachably provided with a push rod 21, the push rod 21 and the driving mechanism are arranged in parallel up and down, and the guide mechanism 4 is used for assisting the driving mechanism 2 to keep parallel when driving the push rod 21;

the driving mechanism 2 and the pushing rod 21 are arranged up and down, the driving mechanism 2 has more installation space, the unpowered roller line 1 comprises the guide mechanism 4, and the driving mechanism 2 is added to drive the pushing rod 21 to move stably.

The guide mechanism 4 comprises a linear guide rail 41 and a sliding seat 42, wherein the linear guide rail 41 is arranged on one side of the unpowered roller line 1 close to the driving mechanism 2, the push rod 21 is detachably connected with the sliding seat 42, and the sliding seat 42 is in sliding fit with the linear guide rail 41;

the guiding mechanism 4 preferably adopts a linear guide rail 41 and a sliding seat 42, and since the driving mechanism 2 is arranged in parallel at one side of the unpowered roller line 1, referring to fig. 1-2, the propelling rod 21 is detachably connected above the sliding seat 42, and the sliding seat 42 is in sliding fit with the linear guide rail 41 to increase the stability of propelling and retracting the propelling rod 21.

The two unpowered roller lines 1 are arranged, and the driving mechanism 2 is fixedly arranged between the two unpowered roller lines 1.

Preferably, two unpowered roller lines 1 are adopted to further increase the supporting area of the bearing plate 5, so that the bearing plate 5 is deviated when the driving transmission is stably prevented, and the driving mechanism 2 is located between the two unpowered roller lines 1 and operates stably.

The push rod 21 is equidistantly provided with balance support wheels 211, the bottom of the unpowered roller line 1 is also provided with a sliding plate 11 parallel to the unpowered roller line 1, and the balance support wheels 211 slide on the sliding plate 11.

When the length of the propelling rod 21 is enough, the balance supporting wheels 211 are arranged at equal intervals on the propelling rod 21, referring to fig. 1-2, the balance supporting wheels 211 are perpendicular to the propelling rod 21, and the balance supporting wheels 211 ensure that when the length of the propelling rod 21 is too long, the balance supporting wheels support and slidably fit with the sliding plate 11, and the forward pushing and retracting of the propelling rod 21 driven by the driving mechanism 2 can be increased.

It is obvious that the above described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An unpowered roller transmission device of a closestool carrier plate is characterized by comprising a transmission device, a transmission device and a transmission device, wherein the transmission device is provided with a transmission device;

at least one unpowered roller line is arranged, and a bearing plate is placed on the unpowered roller line;

the driving mechanism comprises a pushing rod, the driving mechanism is used for driving the pushing rod to move back and forth, the pushing rod is positioned on one side of the unpowered roller line and arranged in parallel, non-return pushing blocks are hinged to two sides of the pushing rod, the two non-return pushing blocks are in one group, the non-return pushing blocks are provided with a plurality of groups and arranged at equal intervals, a non-return part is arranged between the non-return pushing blocks, and the non-return part is used for the non-return rotation of the non-return pushing blocks;

the side section of the non-return push block is in a right-angle triangle shape, the long side of the non-return push block in the right-angle triangle shape is vertically higher than the unpowered roller line, and the short side of the non-return push block in the right-angle triangle shape is vertically lower than the unpowered roller line.

2. The unpowered roller conveying device of a toilet carrier according to claim 1, wherein the conveying direction of the unpowered roller line is opposite to the inclined edge of the non-return push block, the bottom of the non-return push block emphasizes the center of gravity, the non-return push block is kept upright in a static state, and the non-return part of the inclined edge of the non-return push block abuts against the push rod in the static state.

3. The unpowered roller conveyor of toilet carrier plates of claim 1 wherein the output end of the driving mechanism is provided with a guiding mechanism, the guiding mechanism is detachably mounted with a pushing rod, the pushing rod is arranged in parallel up and down with the driving mechanism, and the guiding mechanism is used to assist the driving mechanism to keep parallel when driving the pushing rod.

4. The unpowered roller conveyor of toilet carrier plates of claim 3 wherein the guide mechanism comprises a linear guide and a slide, wherein the linear guide is disposed on a side of the unpowered roller line adjacent to the drive mechanism, and the push rod is detachably connected with the slide, and the slide is slidably engaged with the linear guide.

5. The unpowered roller conveyor of toilet carrier plates of claim 1 wherein there are two unpowered roller lines and the drive mechanism is fixedly disposed between the two unpowered roller lines.

6. The unpowered roller conveyor of toilet carrier plates of claim 1 wherein the pushing rod is provided with a balance support wheel at an end thereof remote from the driving mechanism, and the unpowered roller line is further provided at a bottom thereof with a sled parallel to the unpowered roller line, the balance support wheel sliding on the sled.

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