CN211894941U - Bush conveyor - Google Patents

Abstract

The utility model discloses a bushing conveying device, which comprises a vibration discharging assembly, a distributing assembly, a feeding assembly and a power unit, wherein the vibration discharging assembly comprises a vibration disc, and a discharging port in the vibration discharging assembly sends a bushing into the distributing assembly through a pipeline; the material distributing assembly and the material loading assembly are both arranged on a bottom plate, and the material distributing assembly is communicated and matched with the material loading assembly; the material distributing assembly comprises a material distributing pipeline and a product separating rod; the material distributing pipeline is matched with the bottom plate to form an inclined channel; the product separating rod is inserted into the inclined channel and matched with the inclined channel; the tail end of the product separation rod is provided with a return spring matched with the bottom plate, and the product separation rod can reset after moving along the inclined channel by utilizing the return spring. The utility model has the advantages of simple structure, reasonable in design utilizes single power supply to realize two station actions, realizes two action purposes, and is efficient, and is with low costs, has extensive production and application and worth.

Description

Bush conveyor

Technical Field

The utility model relates to a material separation conveyor, specific can be with bush spare according to the preface, send the bush conveyor who pushes away to indicating preset position and can preventing that the bush from hanging even problem transporting the in-process one by one that says so.

Background

The bushing is a matching set used for a specific position of a mechanical part to achieve the effects of sealing, wear protection and the like. Many parts and mechanisms require the use of bushings in subsequent assembly and use.

The existing bushing is installed by manually placing the bushing at a designated position, and then pressing and combining the bushing with a part through a die. In this way, the manual lining placing is adopted, so that the actual industrial production efficiency is greatly restricted. In particular, due to many factors such as cost and quality control, industrial automatic processing has become the mainstream development direction in the industry, and the processing of most parts is automated, that is, the whole or most parts in the whole process of feeding, processing and discharging can be realized by means of automatic equipment to realize industrial continuity and automation.

Under the existing conditions, the manual placement of the bushing directly restricts the processing speed of the whole production line, namely, the automatic processing speed is restricted to be consistent with the manual discharging speed. In order to meet the requirement of subsequent industrialized connection processing, the currently adopted method is simpler, the number of operators is increased by increasing stations, and the speed of discharging is accelerated.

In order to achieve the above-mentioned drawbacks, the industry attempts to replace the traditional manual work with a traditional industrial automatic bushing feeding device by simple modification, which does not completely meet the conveying requirements of bushing products, and more specifically, such a device does not have a function of material distribution one by one, so that the bushings may be hung when fed into a processing position, thereby causing damage to the whole equipment and affecting the normal completion of production. The structure of a part of lining feeding devices with a material distributing function is also complex, for example, the lining feeding devices are separated one by using an optoelectronic device and an electromechanical assembly, and the use requirements cannot be well met no matter in the aspects of use and application effects and actual application cost.

In summary, a lining conveying device with low cost, high efficiency and one-by-one feeding function is urgently needed in the industry.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough that prior art exists, provide a simple structure, with low costs and possess and divide the material loading function and then prevent that the bush from hanging bushing conveyor who links.

In order to achieve the above object, the utility model adopts the following technical scheme: a bushing conveying device comprises a vibration discharging assembly, a distributing assembly, a feeding assembly and a power unit, wherein the vibration discharging assembly comprises a vibration disc, and a discharging port in the vibration discharging assembly feeds a bushing into the distributing assembly through a pipeline; the material distributing assembly and the material loading assembly are both arranged on a bottom plate, and the material distributing assembly is communicated and matched with the material loading assembly; the material distributing assembly comprises a material distributing pipeline and a product separating rod; the material distributing pipeline is matched with the bottom plate to form an inclined channel; the product separating rod is inserted into the inclined channel and matched with the inclined channel; the tail end of the product separating rod is provided with a return spring matched with the bottom plate, and the product separating rod can move along the inclined channel and then return by utilizing the return spring; the tail end of the product separating rod extends out of the bottom plate; a square material channel is arranged in the material distributing pipeline, and a bushing fed from the vibration discharging assembly enters the square material channel and is matched with a product separating rod in the material distributing pipeline; the square material channel comprises a large channel section and a small channel section, the lower surfaces of the large channel section and the small channel section are transited through an oblique transition section, the lower surface of the small channel section is lower than the transition section, so that a step-shaped fall is formed between the transition section and the small channel section, and the upper parts of the large channel section and the small channel section are transited through an inclined plane; the feeding assembly comprises a base, a jig and a push rod, the jig is installed in the base, the base is provided with a horizontal channel, the jig is provided with a vertical channel along the axial direction, and the horizontal channel is communicated with the vertical channel; the horizontal channel is also connected with the small channel section of the square material channel; the jig is provided with a limiting elastic sheet in the vertical channel, and the limiting elastic sheet is used for clamping the bushing in the vertical channel to prevent the bushing from being ejected; the push rod is inserted into the vertical channel of the jig from the chassis and matched with the vertical channel; the power unit comprises a cushion block arranged on the bottom surface of the bottom plate and a cylinder arranged on the cushion block; the push rod is inserted into the cushion block and connected with the cylinder, and can realize reciprocating motion in the vertical direction under the driving of the cylinder; the rod body of the push rod is provided with a guide slope block which is in alignment fit with the product separating rod, and when the push rod moves upwards, the slope of the guide slope block is utilized to push the product separating rod to move along the oblique channel, so that the front end of the product separating rod extends out of the bottom surface of the square material channel of the material distributing channel.

Further, an air blowing device is additionally arranged between a discharge port of the vibration discharging device and a communicating pipeline of the material distributing assembly, and the air blowing device is used for enabling the lining component in the pipeline to move forwards.

Furthermore, the vibration discharging assembly is communicated with the large channel section in the material distributing assembly through a pipeline.

Further, the front section of the product separating rod extends from the surface of the transition section between the large channel section and the small channel section.

Further, when in need of use, the vibration discharging assembly is provided with a material placing device in sequence at the discharging port of the vibration plate, the material placing device in sequence comprises a frame, a photoelectric sensor, an upper air cylinder, a lower air cylinder and a guide rail, the guide rail is arranged on the frame, the photoelectric sensor is arranged right above the guide rail through an installation support, the photoelectric sensor is used for detecting and counting materials on the guide rail, the upper air cylinder is vertically arranged right above the guide rail, a stop dog is arranged on a main shaft of the upper air cylinder, the stop dog can block the guide rail through the telescopic motion of the air cylinder, further the sequential material placing is realized, the lower air cylinder is arranged below the guide rail and is positioned on one side of the discharging port of the vibration plate, the main shaft of the lower air cylinder extends out and can be inserted into the.

Furthermore, the transition section and the small channel section in the square material channel form a step-shaped fall, and the fall height of the step-shaped fall is slightly larger than the wall thickness of the lining product.

The utility model discloses during the implementation, vibrations ejection of compact subassembly shakes chaotic bush and sends out in order, through send it to the square material way of dividing the material subassembly in the pay-off guide rail, promote between the bush again, make the bush that is located first order ranking get into the horizontal channel of base, then, power pack drives the push rod and goes upward, utilize the push rod to push horizontal channel's bush in perpendicular passageway, reach the assigned position after, it is spacing to utilize spacing shell fragment to carry on, prevent that the bush from being blown and pop out, in this action, the direction inclined plane piece promotes product separator rod and follows slant passageway motion, make product separator rod front end stretch out, support the bush, realize taking off the material separation.

The utility model has the advantages of simple structure, reasonable in design utilizes single power supply to realize two station actions, realizes two action purposes, and is efficient, and is with low costs, has extensive production and application and worth.

Drawings

FIG. 1 is a schematic structural view of example 1.

Fig. 2 is a schematic structural diagram of the material distributing assembly, the material loading assembly and the power unit in the matching state in embodiment 1.

Fig. 3 is a schematic structural view of a square material channel of the material distributing assembly in embodiment 1.

Fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.

Detailed Description

For the convenience of further understanding, the present invention will be further described by referring to the embodiments shown in the drawings.

Example 1:

as shown in fig. 1-3, the device comprises a vibration discharging assembly 1, a material distributing assembly 2, a material loading assembly 3 and a power unit 4, wherein the vibration discharging assembly 1 is a vibration disc, and a material outlet of the vibration discharging assembly 1 feeds a lining into the material distributing assembly 2 through a pipeline; the material distributing assembly 2 and the material loading assembly 3 are both arranged on a bottom plate 5, and the material distributing assembly 2 is communicated and matched with the material loading assembly 3; the material distributing assembly 2 comprises a material distributing pipeline 6 and a product separating rod 7; the material distributing pipeline 6 is matched with the bottom plate 5 to form an inclined channel 8; the product separating rod 7 is inserted into the inclined channel 8 to be matched with the inclined channel; the tail end of the product separation rod 7 is provided with a return spring 9 matched with the bottom plate, and the return spring 9 can be used for enabling the product separation rod 7 to reset after moving along the inclined channel 8; the tail end of the product separating rod 7 extends out of the bottom plate 5; a square material channel is arranged in the material distributing pipeline 6, a bushing fed from the vibration discharging assembly 1 enters the square material channel and is matched with a product separating rod 7 in the material distributing pipeline 6; the square material channel comprises a large channel section 9 and a small channel section 10, the lower surfaces of the large channel section 9 and the small channel section 10 are transited through an oblique transition section 11, the lower surface of the small channel section 10 is lower than the transition section 11, so that a step-shaped fall is formed between the transition section 11 and the small channel section 10, and the upper parts of the large channel section 9 and the small channel section 10 are transited through an inclined plane 12; the feeding assembly 3 comprises a base 13, a jig 14 and a push rod 15, wherein the jig 14 is installed in the base 13, the base 13 is provided with a horizontal channel 16, the jig 14 is provided with a vertical channel 17 along the axial direction, and the horizontal channel 16 is communicated with the vertical channel 17; the horizontal channel 16 is also connected with the small channel section 10 of the square material channel; the jig 14 is provided with a limiting elastic sheet 18 in the vertical channel 17, and the limiting elastic sheet 18 is used for clamping the bushing in the vertical channel 17 to prevent the bushing from being ejected; the push rod 15 is inserted into the vertical channel 17 of the jig 14 from the chassis and matched with the vertical channel; the power unit 4 comprises a cushion block 18 arranged on the bottom surface of the bottom plate 5 and a cylinder 19 arranged on the cushion block 18; the push rod 15 is inserted into the cushion block 18 and connected with the cylinder 19, and can realize reciprocating motion in the vertical direction under the driving of the cylinder 19; the rod body of the push rod 15 is provided with a guide slope block 20, the guide slope block 20 is matched with the product separating rod 7 in an alignment mode, when the push rod 15 moves upwards, the slope of the guide slope block 20 is utilized to push the product separating rod 7 to move along an oblique channel, and the front end of the product separating rod 7 extends out of the bottom surface of the square material channel of the material distributing channel 6. An air blowing device is additionally arranged between a discharge port of the vibration discharging device 1 and a communicating pipeline of the material distributing assembly, and the air blowing device is utilized to enable the lining member in the pipeline to move forwards. The vibration discharging component 1 is communicated with a large channel section 9 in the material distributing component 2 through a pipeline.

Example 2:

as shown in fig. 4, comprises a vibration discharging component, a material distributing component, a material loading component and a power unit, wherein the vibration discharging component comprises a vibration disc 21 and a sequential discharging device 22, the sequential discharging device 22 is arranged at the discharging port of the vibration disc 21, the in-sequence discharging device 22 comprises a frame, a photoelectric sensor, an upper cylinder, a lower cylinder and a guide rail, wherein the guide rail is arranged on the frame, the photoelectric sensor is arranged right above the guide rail through a mounting bracket, used for detecting and counting materials on the guide rail, the upper air cylinder is vertically arranged right above the guide rail, the main shaft of the upper air cylinder is provided with a stop block, the stop block can stop the guide rail through the telescopic motion of the air cylinder, the materials are discharged in sequence, the lower air cylinder is arranged below and above the guide rail and is positioned on one side of a discharge port of the vibration disc, and the main shaft of the lower air cylinder extends out and can be inserted into the guide rail to limit the materials in the guide rail; a discharge hole in the vibration discharge assembly sends the lining into the material distribution assembly through a pipeline; the material distributing assembly and the material loading assembly are both arranged on a bottom plate, and the material distributing assembly is communicated and matched with the material loading assembly; the material distributing assembly comprises a material distributing pipeline and a product separating rod; the material distributing pipeline is matched with the bottom plate to form an inclined channel; the product separating rod is inserted into the inclined channel and matched with the inclined channel; the tail end of the product separating rod is provided with a return spring matched with the bottom plate, and the product separating rod can move along the inclined channel and then return by utilizing the return spring; the tail end of the product separating rod extends out of the bottom plate; a square material channel is arranged in the material distributing pipeline, and a bushing fed from the vibration discharging assembly enters the square material channel and is matched with a product separating rod in the material distributing pipeline; the square material channel comprises a large channel section and a small channel section, the lower surfaces of the large channel section and the small channel section are transited through an oblique transition section, the lower surface of the small channel section is lower than the transition section, so that a step-shaped fall is formed between the transition section and the small channel section, and the upper parts of the large channel section and the small channel section are transited through an inclined plane; the feeding assembly comprises a base, a jig and a push rod, the jig is installed in the base, the base is provided with a horizontal channel, the jig is provided with a vertical channel along the axial direction, and the horizontal channel is communicated with the vertical channel; the horizontal channel is also connected with the small channel section of the square material channel; the jig is provided with a limiting elastic sheet in the vertical channel, and the limiting elastic sheet is used for clamping the bushing in the vertical channel to prevent the bushing from being ejected; the push rod is inserted into the vertical channel of the jig from the chassis and matched with the vertical channel; the power unit comprises a cushion block arranged on the bottom surface of the bottom plate and a cylinder arranged on the cushion block; the push rod is inserted into the cushion block and connected with the cylinder, and can realize reciprocating motion in the vertical direction under the driving of the cylinder; the rod body of the push rod is provided with a guide slope block which is in alignment fit with the product separating rod, and when the push rod moves upwards, the slope of the guide slope block is utilized to push the product separating rod to move along the oblique channel, so that the front end of the product separating rod extends out of the bottom surface of the square material channel of the material distributing channel.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used 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," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, and a connection between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A liner delivery apparatus, characterized by: the vibration discharging assembly comprises a vibration disc, and a discharge port in the vibration discharging assembly feeds a lining into the material distributing assembly through a pipeline; the material distributing assembly and the material loading assembly are both arranged on a bottom plate, and the material distributing assembly is communicated and matched with the material loading assembly; the material distributing assembly comprises a material distributing pipeline and a product separating rod; the material distributing pipeline is matched with the bottom plate to form an inclined channel; the product separating rod is inserted into the inclined channel and matched with the inclined channel; the tail end of the product separating rod is provided with a return spring matched with the bottom plate, and the product separating rod can move along the inclined channel and then return by utilizing the return spring; the tail end of the product separating rod extends out of the bottom plate; a square material channel is arranged in the material distributing pipeline, and a bushing fed from the vibration discharging assembly enters the square material channel and is matched with a product separating rod in the material distributing pipeline; the square material channel comprises a large channel section and a small channel section, the lower surfaces of the large channel section and the small channel section are transited through an oblique transition section, the lower surface of the small channel section is lower than the transition section, so that a step-shaped fall is formed between the transition section and the small channel section, and the upper parts of the large channel section and the small channel section are transited through an inclined plane; the feeding assembly comprises a base, a jig and a push rod, the jig is installed in the base, the base is provided with a horizontal channel, the jig is provided with a vertical channel along the axial direction, and the horizontal channel is communicated with the vertical channel; the horizontal channel is also connected with the small channel section of the square material channel; the jig is provided with a limiting elastic sheet in the vertical channel, and the limiting elastic sheet is used for clamping the bushing in the vertical channel to prevent the bushing from being ejected; the push rod is inserted into the vertical channel of the jig from the chassis and matched with the vertical channel; the power unit comprises a cushion block arranged on the bottom surface of the bottom plate and a cylinder arranged on the cushion block; the push rod is inserted into the cushion block and connected with the cylinder, and can realize reciprocating motion in the vertical direction under the driving of the cylinder; the rod body of the push rod is provided with a guide slope block which is in alignment fit with the product separating rod, and when the push rod moves upwards, the slope of the guide slope block is utilized to push the product separating rod to move along the oblique channel, so that the front end of the product separating rod extends out of the bottom surface of the square material channel of the material distributing channel.

2. A liner transport apparatus as set forth in claim 1, wherein: an air blowing device is additionally arranged between a discharge port of the vibration discharging device and a communicating pipeline of the material distributing assembly, and the air blowing device is utilized to enable the lining component in the pipeline to move forwards.

3. A liner transport apparatus as set forth in claim 1, wherein: the vibration discharging component is communicated with the large channel section in the material distributing component through a pipeline.

4. A liner transport apparatus as set forth in claim 1, wherein: the front section of the product separation rod extends out of the surface of the transition section between the large channel section and the small channel section.

5. A liner transport apparatus as set forth in claim 1, wherein: vibrations ejection of compact subassembly is installed one in proper order blowing device in the discharge gate department of vibrations dish, this in proper order blowing device includes the frame, photoelectric sensor, go up the cylinder, the lower cylinder, the guide rail is installed in the frame, photoelectric sensor installs directly over the guide rail through a installing support, be used for detecting and counting the material on the guide rail, it installs directly over the guide rail perpendicularly to go up the cylinder, go up and install a dog on the cylinder main shaft, can realize stopping of dog to the guide rail through cylinder concertina movement, and then realize according to the preface blowing, the lower cylinder is installed in the guide rail upper and lower, it leads to the fact vibrations dish discharge gate one side to be located, lower cylinder owner axial is stretched out and can be inserted in the guide rail, carry on.

6. A liner transport apparatus as set forth in claim 1, wherein: the transition section and the small channel section in the square material channel form a step-shaped fall, and the height of the fall is slightly larger than the wall thickness of the lining product.

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