CN218200716U - Conveyor line bearing jig emptying and recycling device and conveyor line - Google Patents

Abstract

The utility model relates to a conveyor line bearing jig emptying and recycling device and a conveyor line, wherein the conveyor line bearing jig emptying and recycling device comprises an emptying guide piece which is arranged on an incoming material conveyor line, the emptying guide piece is provided with a height limiting bottom surface which is arranged above the incoming material conveyor line, and the setting height of the height limiting bottom surface is used for being greater than the height of a bearing jig and being smaller than the integral height of the bearing jig loaded with parts, so that the empty bearing jig can be recycled; the lateral part of evacuation guide has and meets limit for height bottom surface and be used for and bear the weight of the first guide inclined plane that the supplied materials direction of tool is the setting angle was arranged, and first guide inclined plane is used for contacting with spare part and guiding spare part and bearing the weight of the tool to the low reaches of supplied materials transfer chain. The utility model discloses the problem that can't realize among the prior art that the vacant bearing jig removes automatically has effectively been solved.

Description

Conveyor line bearing jig emptying and recycling device and conveyor line

Technical Field

The utility model relates to a transfer chain bears tool evacuation recovery unit and transfer chain belongs to conveying equipment technical field.

Background

In the processes of automatic production, processing, detection and the like in the field of mechanical automation, in order to further produce, process and detect parts, a large number of parts are generally required to be put into corresponding bearing jigs on a conveying line for transportation and positioning, and each bearing jig is an individual independently arranged.

However, for the parts to be placed on the carrying fixture, due to the fact that the supply is not continuous, the carrying fixture may be empty, and the height of the empty carrying fixture is less than the overall height of the carrying fixture with the parts and the parts, the occurrence of the empty carrying fixture may reduce the number of the parts to be produced, processed and detected in the next production, processing and detection process, and affect the production, processing and detection rate, and in the further production and processing process of the parts, for example, when adding a solution or a material into the parts, since the empty carrying fixture has no parts, the added solution or material may fall on the conveying line, which may not only result in the waste of the production raw materials such as the solution or the material, but also may lead to the seizure of the conveying line in a serious case.

At present, except that the empty bearing jig is manually removed in advance, the most common mode is to use a sensor to detect whether the empty bearing jig exists, although the sensor can detect the empty bearing jig, the empty bearing jig needs to be manually removed, and is difficult to separate from manual intervention, so that the requirement of highly automated production and processing cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveyor line bearing jig emptying and recycling device, which solves the problem that the empty bearing jig can not be automatically removed in the prior art; an object of the utility model is to provide a transfer chain still to solve above-mentioned problem.

In order to achieve the above object, the utility model provides a transfer chain bears tool evacuation recovery unit adopts following technical scheme:

the emptying and recycling device for the conveying line bearing jig comprises an emptying guide piece arranged on an incoming conveying line, wherein the emptying guide piece is provided with a height limiting bottom surface arranged above the incoming conveying line, and the height of the height limiting bottom surface is used for being greater than the height of the bearing jig and smaller than the overall height of the bearing jig loaded with parts, so that the empty bearing jig can be recycled; the lateral part of the emptying guide part is provided with a first guide inclined plane which is connected with the height-limiting bottom surface and is used for forming a set included angle with the incoming material direction of the bearing jig, and the first guide inclined plane is used for contacting with the part and guiding the part and the bearing jig to the downstream of the incoming material conveying line.

The beneficial effects of the above technical scheme are that: the utility model discloses an among the conveyor line bears the weight of the tool evacuation recovery unit, because evacuation guide has the limit for height bottom surface that sets up above the conveyor line that comes, and the height that sets up of limit for height bottom surface is greater than the height of bearing the tool and is less than the whole height that bears the weight of the tool that loads spare part, simultaneously because the lateral part of evacuation guide has the first guide inclined plane that meets with the limit for height bottom surface and is set for the contained angle with the incoming material direction of bearing the tool and arrange, first guide inclined plane is used for contacting with spare part and guiding spare part and bearing the tool to the low reaches of incoming material conveyor line, like this, bear the tool in the in-process of carrying, the bearing the tool that loads spare part can be stopped because the whole height is greater than the height that sets up of limit for height bottom surface, can be stopped by evacuation guide, can pass through the limit for retrieving, thereby realize the reposition with the bearing tool that loads spare part; compared with the prior art, the utility model discloses a limit for height bottom surface and first guide inclined plane that set up, can realize bearing the tool to the vacancy and loading the automatic reposition of redundant personnel that bears the tool of spare part, not only can avoid carrying to the low reaches of supplied materials transfer chain because of the vacancy bears the tool to a certain extent like this, and lead to the raw materials for production to fall and cause the dead phenomenon of transfer chain card on the transfer chain, can further improve the efficiency of production and processing and detection, and can reduce the waste of production raw materials, and also need not to set up the sensor, need not the artifical bearing the tool that shifts out the vacancy, artificial intervention has been avoided to a certain extent, be favorable to improving the efficiency of production and processing and detection.

Further, the evacuation guide part comprises an evacuation guide block, the evacuation guide block comprises a vertically arranged fixing plate and a convex block convexly arranged on the side face of the fixing plate, the bottom face of the fixing plate is lower than the bottom face of the convex block, the height limiting bottom face is formed by the bottom face of the convex block, and the first guide inclined face is formed by the side face of the convex block.

The beneficial effects of the above technical scheme are that: therefore, the structure of the emptying guide piece is simplified, the processing and the manufacturing of the emptying guide piece are facilitated, and the formation of the height-limiting bottom surface and the first guide inclined surface is facilitated.

Furthermore, the evacuation guide block also comprises a guide block fixed on the height-limiting bottom surface, the guide block is provided with a guide side surface which is parallel to and arranged opposite to the side surface of the fixing plate, and the guide side surface, the side surface of the fixing plate and the height-limiting bottom surface jointly enclose a first channel for the empty bearing jig to pass through.

The beneficial effects of the above technical scheme are that: set up the guide piece to the guide effect that the tool removed that bears to vacant has been strengthened to the effect of the first passageway that encloses jointly through guide side, fixed plate side and the limit for height bottom surface of guide piece, and can further strengthen the reposition of redundant personnel effect that bears the tool and load the tool that bears that has spare part to vacant bearing tool, guaranteed the reposition of redundant personnel effect.

Further, the guide block is also provided with a second guide inclined surface which is parallel to or coincidently arranged with the first guide inclined surface, and the second guide inclined surface is used for contacting with the bearing jig loaded with the parts so as to assist the first guide inclined surface to guide the bearing jig and the parts to the downstream of the incoming material conveying line.

The beneficial effects of the above technical scheme are that: because the second guide inclined plane on the guide block is used for contacting with the bearing jig loaded with the parts, and because the second guide inclined plane is parallel to or coincided with the first guide inclined plane, the guide effect on the bearing jig loaded with the parts can be further enhanced through the assistance of the second guide inclined plane to the first guide inclined plane, and then the conveying direction and the shunting effect of the bearing jig loaded with the parts can be further ensured.

Further, the top surface of the bump is flush with the top surface of the fixing plate.

The beneficial effects of the above technical scheme are that: thus, the manufacturing of the emptying guide block is facilitated.

Further, the end of the first guide slope is connected with the side of the fixing plate.

The beneficial effects of the above technical scheme are that: therefore, no other transition structure is arranged between the first guide inclined surface and the side surface of the fixing plate, the interference of other transition structures on the guide effect of the first guide inclined surface is reduced, and the guide effect of the first guide inclined surface on the bearing jig loaded with parts can be further enhanced.

Further, the evacuation guide still includes the cooperation piece that uses with the cooperation of evacuation guide block, cooperation piece and evacuation guide block interval arrangement are provided with the cooperation inclined plane with first guide inclined plane parallel arrangement on the cooperation piece, form the second passageway that supplies the bearing jig that loads spare part to pass through between first guide inclined plane and the cooperation inclined plane.

The beneficial effects of the above technical scheme are that: through the second passageway that cooperation inclined plane formed on first guide inclined plane and the cooperation piece formed, not only can further strengthen the guide effect to the bearing jig who loads spare part, also can guarantee to a certain extent to load the orderliness that the bearing jig who loads spare part carried moreover, made things convenient for further processing production and detection to spare part.

Further, the transfer chain bears tool evacuation recovery unit still including being used for setting up the come material transfer chain and retrieving the gyration guide between the transfer chain, the gyration guide has the central angle and is 180 degrees arc rotary groove, the one end of arc rotary groove is located the rear side of limit for height bottom surface for receive the vacant tool that bears through the limit for height bottom surface, the other end of arc rotary groove is used for extending to retrieving the transfer chain, in order to bear the tool guide to retrieving the transfer chain with vacant.

The beneficial effects of the above technical scheme are that: the empty bearing jig is guided by the arc-shaped rotary groove, so that the conveying path of the empty bearing jig during recovery can be ensured, and the recovery effect is ensured; set the central angle of arc revolving chute to 180 degrees, can realize the 180 degrees transformation of the empty bearing jig direction of delivery that bear like this, guaranteed the unanimity of the direction of delivery of the empty bearing jig of bearing behind the arc revolving chute and retrieving the transfer chain direction of delivery.

Furthermore, the rotary guide part comprises a rotary guide block and a rotary guide plate, the rotary guide block is provided with a semi-arc-shaped outer surface, the rotary guide plate is provided with a semi-arc-shaped inner surface, and the semi-arc-shaped inner surface and the semi-arc-shaped outer surface are arranged at intervals and jointly enclose an arc-shaped rotary groove; the rotary guide part further comprises a transition rotary table arranged below the arc-shaped rotary groove, and the transition rotary table is used for supporting and conveying the vacant bearing jig to the recycling conveying line.

The beneficial effects of the above technical scheme are that: the arc-shaped rotary groove is formed by the rotary guide block and the rotary guide plate in a surrounding mode, so that the guide effect of the vacant bearing jig can be guaranteed, the arc-shaped rotary groove is formed conveniently, in addition, the conveying effect of the vacant bearing jig during conveying in the arc-shaped rotary groove can be enhanced through the transition rotary table, and the conveying smoothness is guaranteed.

In order to achieve the above object, the utility model provides a transfer chain adopts following technical scheme:

a conveying line comprises an incoming material conveying line, a recovery conveying line and a conveying line bearing jig emptying recovery device, wherein the conveying line bearing jig emptying recovery device comprises an emptying guide piece arranged on the incoming material conveying line, the emptying guide piece is provided with a height limiting bottom surface arranged above the incoming material conveying line, and the height of the height limiting bottom surface is used for being larger than the height of a bearing jig and smaller than the overall height of the bearing jig loaded with parts so as to enable the empty bearing jig to be recovered; the lateral part of the emptying guide part is provided with a first guide inclined plane which is connected with the height-limiting bottom surface and is used for forming a set included angle with the incoming material direction of the bearing jig, and the first guide inclined plane is used for contacting with the part and guiding the part and the bearing jig to the downstream of the incoming material conveying line.

The beneficial effects of the above technical scheme are that: in the conveying line of the utility model, the emptying guide part is provided with the height-limiting bottom surface arranged above the incoming conveying line, the height of the height-limiting bottom surface is more than the height of the bearing jig and less than the whole height of the bearing jig loaded with parts, and simultaneously, the side part of the emptying guide part is provided with a first guide inclined surface which is connected with the height-limiting bottom surface and arranged at a set included angle with the incoming direction of the bearing jig, the first guide inclined surface is used for contacting with the parts and guiding the parts and the bearing jig to the downstream of the incoming conveying line, so that the bearing jig is used for conveying, the bearing jig loaded with the parts can be stopped by the emptying guide part due to the fact that the whole height is more than the height of the height-limiting bottom surface and can be conveyed to the downstream of the incoming conveying line under the guidance of the first guide inclined surface, and the height of the empty bearing jig can not be stopped by the emptying guide part due to being less than the height of the height-limiting bottom surface, the height-limiting bottom surface can be recovered, thereby realizing shunting with the bearing jig loaded with the parts; compared with the prior art, the utility model discloses a limit for height bottom surface and first guide inclined plane that set up, can realize bearing the tool to the vacancy and loading the automatic reposition of redundant personnel that bears the tool that has spare part, not only can avoid carrying the low reaches to the supplied materials transfer chain because of the vacancy bears the tool to a certain extent like this, and lead to the raw materials for production to fall to cause the dead phenomenon of transfer chain card on the transfer chain, can further improve the efficiency of production and processing and detection, and can reduce the waste of raw materials for production, and also need not to set up the sensor, need not the artifical bearing the tool that shifts out the vacancy, artificial intervention has been avoided to a certain extent, be favorable to improving the efficiency of production and processing and detection.

Further, the evacuation guide part comprises an evacuation guide block, the evacuation guide block comprises a vertically arranged fixing plate and a convex block convexly arranged on the side face of the fixing plate, the bottom face of the fixing plate is lower than the bottom face of the convex block, the height limiting bottom face is formed by the bottom face of the convex block, and the first guide inclined face is formed by the side face of the convex block.

The beneficial effects of the above technical scheme are that: therefore, the structure of the emptying guide piece is simplified, the processing and the manufacturing of the emptying guide piece are facilitated, and the formation of the height-limiting bottom surface and the first guide inclined surface is facilitated.

Furthermore, the evacuation guide block further comprises a guide block fixed on the height limiting bottom surface, the guide block is provided with a guide side surface which is parallel to and arranged opposite to the side surface of the fixing plate, and the guide side surface, the side surface of the fixing plate and the height limiting bottom surface jointly enclose a first channel for the empty bearing jig to pass through.

The beneficial effects of the above technical scheme are that: set up the guide piece to the guide effect that the tool removed that bears to vacant has been strengthened to the effect of the first passageway that encloses jointly through guide side, fixed plate side and the limit for height bottom surface of guide piece, and can further strengthen the reposition of redundant personnel effect that bears the tool and load the tool that bears that has spare part to vacant bearing tool, guaranteed the reposition of redundant personnel effect.

Further, the guide block is also provided with a second guide inclined surface which is parallel to or coincidently arranged with the first guide inclined surface, and the second guide inclined surface is used for contacting with the bearing jig loaded with the parts so as to assist the first guide inclined surface to guide the bearing jig and the parts to the downstream of the incoming material conveying line.

The beneficial effects of the above technical scheme are that: because the second guide inclined plane on the guide block is used for contacting with the bearing jig loaded with the parts, and because the second guide inclined plane is parallel to or coincided with the first guide inclined plane, the guide effect on the bearing jig loaded with the parts can be further enhanced through the assistance of the second guide inclined plane to the first guide inclined plane, and then the conveying direction and the shunting effect of the bearing jig loaded with the parts can be further ensured.

Further, the top surface of the bump is flush with the top surface of the fixing plate.

The beneficial effects of the above technical scheme are that: thus, the manufacturing of the emptying guide block is facilitated.

Further, the end of the first guide slope is connected to the side of the fixing plate.

The beneficial effects of the above technical scheme are that: therefore, no other transition structure is arranged between the first guide inclined surface and the side surface of the fixing plate, the interference of other transition structures on the guide effect of the first guide inclined surface is reduced, and the guide effect of the first guide inclined surface on the bearing jig loaded with parts can be further enhanced.

Further, the evacuation guide still includes the cooperation piece that uses with the cooperation of evacuation guide block, cooperation piece and evacuation guide block interval arrangement, be provided with on the cooperation piece with first guide inclined plane parallel arrangement's cooperation inclined plane, form the second passageway that supplies to load the bearing jig that has spare part to pass through between first guide inclined plane and the cooperation inclined plane.

The beneficial effects of the above technical scheme are that: through the second passageway that cooperation inclined plane formed on first guide inclined plane and the cooperation piece formed, not only can further strengthen the guide effect to the bearing jig who loads spare part, also can guarantee to a certain extent to load the orderliness that the bearing jig who loads spare part carried moreover, made things convenient for further processing production and detection to spare part.

Further, the transfer chain bears tool evacuation recovery unit still including being used for setting up the come material transfer chain and retrieving the gyration guide between the transfer chain, the gyration guide has the central angle and is 180 degrees arc rotary groove, the one end of arc rotary groove is located the rear side of limit for height bottom surface for receive the vacant tool that bears through the limit for height bottom surface, the other end of arc rotary groove is used for extending to retrieving the transfer chain, in order to bear the tool guide to retrieving the transfer chain with vacant.

The beneficial effects of the above technical scheme are that: the empty bearing jig is guided by the arc-shaped rotary groove, so that the conveying path of the empty bearing jig during recovery can be ensured, and the recovery effect is ensured; set the central angle of arc revolving chute to 180 degrees, can realize the 180 degrees transformation of the empty bearing jig direction of delivery that bear like this, guaranteed the unanimity of the direction of delivery of the empty bearing jig of bearing behind the arc revolving chute and retrieving the transfer chain direction of delivery.

Furthermore, the rotary guide part comprises a rotary guide block and a rotary guide plate, the rotary guide block is provided with a semi-arc-shaped outer surface, the rotary guide plate is provided with a semi-arc-shaped inner surface, and the semi-arc-shaped inner surface and the semi-arc-shaped outer surface are arranged at intervals and jointly enclose an arc rotary groove; the rotary guide part further comprises a transition rotary table arranged below the arc-shaped rotary groove, and the transition rotary table is used for supporting and conveying the vacant bearing jig to the recycling conveying line.

The beneficial effects of the above technical scheme are that: the arc-shaped rotary groove formed by the rotary guide block and the rotary guide plate in a surrounding mode can not only guarantee the guiding effect of the empty bearing jig, but also facilitate the formation of the arc-shaped rotary groove, in addition, the conveying effect of the empty bearing jig during conveying in the arc-shaped rotary groove can be enhanced through the transition rotary table, and the conveying smoothness is guaranteed.

Drawings

Fig. 1 is a perspective view of the conveyor line of the present invention;

fig. 2 is a top view of the conveyor line of the present invention;

fig. 3 is a perspective view of an evacuation guide block in the evacuation recovery device for the conveying line carrying jig of the present invention;

fig. 4 is the utility model discloses the reposition of redundant personnel schematic diagram of evacuation guide block among transfer chain bears tool evacuation recovery unit.

In the figure: 10. an incoming material conveying line; 20. a recovery conveying line; 30. carrying a jig; 40. a component part; 50. emptying the guide block; 51. a fixing plate; 52. a bump; 53. a first guide ramp; 54. a height-limiting bottom surface; 55. a guide block; 56. a second guide ramp; 60. a matching block; 61. a mating bevel; 70. a first channel; 80. a second channel; 90. a rotary guide block; 100. a rotating guide plate; 110. an arc-shaped rotary groove; 120. a transition turntable; 130. a middle interval; 140. a first edge rail; 150. a second edge rail.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear, the present invention is further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

It is noted that, in the embodiments of the present invention, relational terms such as "first" and "second", and the like, which may be present in the embodiments, are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any actual relationship or order between the entities or operations. Also, terms such as "comprises," "comprising," or any other variation thereof, which may be present, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the possible occurrence of the phrases "comprising a limited element of '8230', \8230;" 8230; "etc. does not exclude the presence of additional identical elements in the process, method, article, or apparatus that comprises the element.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "connected" as may be used herein are to be construed broadly, e.g., as being fixed or releasably connected or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art through specific situations.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "provided" should be understood broadly, for example, the object provided may be a part of the body, or may be arranged separately from the body and connected to the body, and the connection may be detachable or non-detachable. The specific meaning of the above terms in the present invention can be understood by those skilled in the art through specific situations.

The present invention will be described in further detail with reference to examples.

The utility model discloses embodiment 1 of well transfer chain:

as shown in fig. 1 and fig. 2, the conveying line includes an incoming conveying line 10 and a recovery conveying line 20 which are arranged in parallel from left to right, the incoming conveying line 10 is located on the left side of the recovery conveying line 20, and the conveying directions of the incoming conveying line 10 and the recovery conveying line are opposite, specifically, the incoming conveying line 10 is used for conveying the carrier jig 30 loaded with the parts 40 from front to back, and the recovery conveying line 20 is used for conveying the empty carrier jig 30 from back to front, so as to achieve the recovery of the empty carrier jig 30. Come and expect that 10 and retrieve and separate the setting each other through intermediate space 130 between the transfer chain 20, and the left and right sides edge of coming and expecting transfer chain 10 all is equipped with first edge railing 140, retrieves the left and right sides edge of transfer chain 20 section and all is equipped with second edge railing 150 to avoid bearing jig 30 on the transfer chain to deviate from the transfer chain through first edge railing 140 and second edge railing 150.

The transfer chain still includes transfer chain and carries tool evacuation recovery unit, transfer chain carries tool evacuation recovery unit is including setting up the evacuation guide on supplied materials transfer chain 10, specifically, as shown in fig. 1, fig. 2 and fig. 3, the evacuation guide includes evacuation guide block 50, evacuation guide block 50 includes the fixed plate 51 of vertical setting and protruding lug 52 of establishing on fixed plate 51 side, the top surface of lug 52 flushes with the top surface of fixed plate 51, the bottom surface of fixed plate 51 is less than the bottom surface of lug 52, and fixed plate 51 supports to be fixed on the first edge railing 140 on supplied materials transfer chain 10 right side.

As shown in fig. 3, the emptying guide block 50 further includes a guide block 55 fixed on the bottom surface of the bump 52, the guide block 55 has a guide side surface parallel to and opposite to the left side surface of the fixing plate 51, the guide side surface, the left side surface of the fixing plate 51 and the bottom surface of the bump 52 together enclose a first channel 70, and the first channel 70 corresponds to the feeding direction of the loading jig 30 on the feeding line 10. As shown in fig. 4, the height of the bottom surface of the bump 52 is greater than the height of the carrier 30 and less than the overall height of the carrier 30 loaded with the component 40, so that the first channel 70 can only allow the empty carrier 30 to pass through, and the carrier 30 loaded with the component 40 cannot enter the first channel 70 due to the limitation of the bump 52, and the bottom surface of the bump 52 forms the height-limiting bottom surface 54 disposed above the incoming conveying line 10 and used for limiting the carrier 30 loaded with the component 40 to enter the first channel 70.

As shown in fig. 3 and 4, the left side portion of the bump 52 has a first guiding inclined surface 53 connected to the height-limiting bottom surface 54 and arranged to form a predetermined included angle with the incoming material direction of the loading fixture 30, specifically, the first guiding inclined surface 53 is formed by the left side surface of the bump 52, the first guiding inclined surface 53 is disposed to be inclined to the left from front to back gradually, the front end portion of the first guiding inclined surface 53 is connected to the left side surface of the fixing plate 51, and the first guiding inclined surface 53 is used to contact the component 40 and guide the component 40 and the loading fixture 30 to the downstream of the incoming material conveying line 10. As shown in fig. 1 and fig. 2, the evacuation guide further includes a fitting block 60 used in cooperation with the evacuation guide block 50, the fitting block 60 is fixedly mounted on the first edge rail 140, the fitting block 60 and the evacuation guide block 50 are arranged at a left-right interval, a fitting inclined surface 61 arranged in parallel with the first guiding inclined surface 53 is provided on the fitting block 60, a second channel 80 for passing the carrying jig 30 carrying the parts 40 is formed between the first guiding inclined surface 53 and the fitting inclined surface 61, and the second channel 80 communicates with the upstream and the downstream of the incoming material conveying line 10, and is used for conveying the carrying jig 30 carrying the parts 40 from the upstream of the incoming material conveying line 10 to the downstream of the incoming material conveying line 10. As shown in fig. 3 and 4, the guide block 55 further has a second guide inclined surface 56 arranged in parallel with the first guide inclined surface 53, and the second guide inclined surface 56 is used for contacting the loading jig 30 loaded with the component 40 to assist the first guide inclined surface 53 in guiding the loading jig 30 and the component 40 to the downstream of the incoming conveying line 10.

As shown in fig. 1 and 2, the conveyor line loading jig emptying and recycling device further includes a rotary guide member disposed between the incoming conveyor line 10 and the recycling conveyor line 20, and the rotary guide member includes a rotary guide block 90 and a rotary guide plate 100 fixed to a first edge rail 140 on the right side of the incoming conveyor line 10 and a second edge rail 150 on the left side of the recycling conveyor line 20. Wherein, the gyration guide block 90 has the semi-circular arc surface, the gyration deflector 100 has the semi-circular arc internal surface, and the semi-circular arc internal surface sets up with the semi-circular arc surface interval and encloses into jointly has the arc gyration groove 110, the central angle of arc gyration groove 110 is 180 degrees, and the left end of arc gyration groove 110 is located the rear side of limit for height bottom surface 54 and communicates with first passageway 70, a vacant tool 30 that bears for receiving through limit for height bottom surface 54, the right-hand member of arc gyration groove 110 extends to retrieving the transfer chain 20, a tool 30 that bears for with vacant guides to on retrieving the transfer chain 20.

As shown in fig. 1 and fig. 2, the rotary guide further includes a transition turntable 120 disposed below the arc-shaped rotary groove 110, the transition turntable 120 is mounted on an output end of the rotary motor and is driven to rotate by the rotary motor, and the transition turntable 120 is used for supporting and conveying the empty carrying jig 30 to the recycling conveying line 20.

The utility model provides a transfer chain compares with prior art, limit for height bottom surface and first guide inclined plane through setting up, can realize bearing the tool to the vacant and loading the automatic reposition of redundant personnel that bears the tool that has spare part, not only can avoid carrying the low reaches to the supplied materials transfer chain because of the vacant tool that bears to a certain extent like this, and lead to the raw materials for production to fall to cause the dead phenomenon of transfer chain card on the transfer chain, can further improve the efficiency of production and processing and detection, and can reduce the waste of raw materials for production, and also need not to set up the sensor, need not the artifical tool that bears that shifts out the vacant, artificial intervention has been avoided to a certain extent, be favorable to improving the efficiency of production and processing and detection.

In other embodiments of the conveyor line, the arc-shaped rotary trough may not be enclosed by the semi-arc-shaped inner surface of the rotary guide plate and the semi-arc-shaped outer surface of the rotary guide block, but may be formed by machining directly on the plate or on the block, in which case the arc-shaped rotary trough has a trough bottom and may be provided without a transition turntable.

In other embodiments of transfer chain, can not set up the arc on the gyration guide and revolve the groove, but be provided with the transition chute that is certain contained angle and arranges with the supplied materials direction that bears the weight of tool, and the one end of transition chute is located the rear side of limit for height bottom surface and communicates with first passageway, and the other end of transition chute extends to and retrieves the transfer chain.

In other embodiments of the conveying line, the rotary guide member may not be included, in this case, a recycling bin may be disposed below the rear side of the height-limited bottom surface, and the empty carrying jig passing through the height-limited bottom surface directly falls into the recycling bin for recycling.

In other embodiments of the conveyor line, the emptying guide does not comprise a mating block, in which case the carrier tool loaded with the component is guided only by the first guide ramp.

In other embodiments of the conveyor line, the end of the first guiding bevel is not connected to the side of the fixed plate, in which case a transitional connecting surface is provided between the end of the first guiding bevel and the side of the fixed plate.

In other embodiments of the conveyor line, the top surface of the bump may not be flush with the top surface of the fixing plate, but may be lower than the top surface of the fixing plate, or may be higher than the top surface of the fixing plate in other embodiments.

In other embodiments of the conveyor line, the first guide ramp may not be arranged parallel to the second guide ramp, but in coincidence with the second guide ramp.

In other embodiments of the conveying line, the second guide inclined plane is not arranged on the guide block, and the guide block does not assist the first guide inclined plane in guiding the bearing jig and the parts.

In other embodiments of the conveying line, no guide block is provided, in which case, the flow separation between the vacant carrying jig and the carrying jig loaded with the parts is realized only by the height-limiting bottom surface and the first guide inclined surface.

In other embodiments of the conveyor line, the evacuation guide block comprises only a projection, which is fixedly mounted on the conveyor line.

In other embodiments of the conveyor line, the evacuation guide does not include the evacuation guide block, but includes a long rod having a rectangular cross section, the long rod being disposed to be gradually inclined to the left from the front to the rear, a bottom surface of the long rod being used to constitute a height-limiting bottom surface, and a left side surface of the long rod being used to constitute the first guide slope.

In other embodiments of the conveying line, the emptying guide part does not comprise the emptying guide block, but comprises an emptying guide rod, the emptying guide rod is arranged to be gradually inclined towards the left from front to back, the bottom part of the circumferential surface of the emptying guide rod is used for forming a height limiting bottom surface, the left part of the circumferential surface of the emptying guide rod is used for forming a first guide inclined surface, and the height limiting bottom surface and the first guide inclined surface are both arc surfaces.

The utility model discloses well transfer chain bears tool evacuation recovery unit's embodiment: the specific structure of the conveyor line loading jig emptying and recycling device is the same as that of the conveyor line loading jig emptying and recycling device in the above-mentioned conveyor line embodiment, and will not be repeated here.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, the scope of the present invention is defined by the appended claims, and all the structural changes equivalent to the content of the description and the attached drawings should be included in the same way.

Claims (10)

1. The emptying and recycling device for the bearing jig of the conveying line is characterized by comprising an emptying guide piece arranged on the incoming conveying line (10), wherein the emptying guide piece is provided with a height limiting bottom surface (54) arranged above the incoming conveying line (10), and the height of the height limiting bottom surface (54) is used for being larger than the height of the bearing jig (30) and smaller than the integral height of the bearing jig (30) loaded with parts (40) so that the empty bearing jig (30) can be recycled; the side part of the emptying guide part is provided with a first guide inclined surface (53) which is connected with the height-limiting bottom surface (54) and arranged at a set included angle with the feeding direction of the bearing jig (30), and the first guide inclined surface (53) is used for contacting the part (40) and guiding the part (40) and the bearing jig (30) to the downstream of the feeding conveying line (10).

2. The emptying and recycling device for the conveying line bearing jig as claimed in claim 1, wherein the emptying guide comprises an emptying guide block (50), the emptying guide block (50) comprises a vertically arranged fixing plate (51) and a convex block (52) convexly arranged on the side surface of the fixing plate (51), the bottom surface of the fixing plate (51) is lower than the bottom surface of the convex block (52), the height-limiting bottom surface (54) is formed by the bottom surface of the convex block (52), and the first guide inclined surface (53) is formed by the side surface of the convex block (52).

3. The conveyor line carrying jig emptying and recycling device according to claim 2, wherein the emptying guide block (50) further comprises a guide block (55) fixed on the height-limiting bottom surface (54), the guide block (55) has a guide side surface parallel to and oppositely arranged with the side surface of the fixing plate (51), and the guide side surface, the side surface of the fixing plate (51) and the height-limiting bottom surface (54) together enclose a first channel (70) for the empty carrying jig (30) to pass through.

4. The conveyor line carrier tool emptying and recycling device according to claim 3, wherein the guide block (55) further has a second guide inclined surface (56) arranged parallel to or coincident with the first guide inclined surface (53), and the second guide inclined surface (56) is used for contacting the carrier tool (30) loaded with the parts (40) to assist the first guide inclined surface (53) in guiding the carrier tool (30) and the parts (40) to the downstream of the incoming conveyor line (10).

5. The conveyor line carrying jig emptying and recycling device according to any one of claims 2 to 4, wherein the top surface of the projection (52) is flush with the top surface of the fixing plate (51).

6. The emptying and recycling device for the conveying line carrying jig according to any one of claims 2 to 4, wherein the end of the first guide slope (53) is connected with the side surface of the fixed plate (51).

7. The conveyor line carrying jig emptying and recycling device according to any one of claims 1 to 4, characterized in that the emptying guide further comprises a fitting block (60) used in cooperation with the emptying guide block (50), the fitting block (60) and the emptying guide block (50) are arranged at intervals, a fitting inclined surface (61) arranged in parallel with the first guiding inclined surface (53) is arranged on the fitting block (60), and a second channel (80) for the carrying jig (30) loaded with the parts (40) to pass through is formed between the first guiding inclined surface (53) and the fitting inclined surface (61).

8. The emptying and recycling device for the conveying line bearing jig according to any one of claims 1 to 4, characterized in that the emptying and recycling device for the conveying line bearing jig further comprises a rotary guide member arranged between the incoming conveying line (10) and the recycling conveying line (20), the rotary guide member is provided with an arc-shaped rotary groove (110) with a central angle of 180 degrees, one end of the arc-shaped rotary groove (110) is located at the rear side of the height-limiting bottom surface (54) and used for receiving the empty bearing jig (30) passing through the height-limiting bottom surface (54), and the other end of the arc-shaped rotary groove (110) is used for extending to the recycling conveying line (20) so as to guide the empty bearing jig (30) to the recycling conveying line (20).

9. The emptying and recycling device for the conveying line bearing jig according to claim 8, characterized in that the rotary guide member comprises a rotary guide block (90) and a rotary guide plate (100), the rotary guide block (90) has a semi-circular arc-shaped outer surface, the rotary guide plate (100) has a semi-circular arc-shaped inner surface, and the semi-circular arc-shaped inner surface and the semi-circular arc-shaped outer surface are arranged at an interval and jointly enclose the arc-shaped rotary groove (110); the rotary guide piece further comprises a transition rotary table (120) arranged below the arc-shaped rotary groove (110), and the transition rotary table (120) is used for supporting and conveying the vacant bearing jig (30) to the recycling conveying line (20).

10. The conveying line is characterized by comprising an incoming conveying line (10), a recovery conveying line (20) and a conveying line bearing jig emptying and recovery device, wherein the conveying line bearing jig emptying and recovery device is the same as the conveying line bearing jig emptying and recovery device in any one of claims 1 to 9.

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