CN220282676U - Auxiliary conveying device for connection table and connection table connecting structure - Google Patents

Abstract

The utility model discloses an auxiliary conveying device for a connection table and a connection structure of the connection table, wherein the auxiliary conveying device comprises: the supporting base body is adjustable in height and provided with a connecting part connected with the connection table; a carrying and conveying component connected with the supporting base body and provided with a conveying channel above; the guide limiting part is positioned at the side edge of the conveying channel and used for limiting and guiding the circuit board on the conveying channel; the angle adjusting structure is arranged on the bearing conveying component and the supporting base body and is used for adjusting the inclination angle of the bearing conveying component. The utility model provides an auxiliary conveying device for being matched with a connection table, which can be firmly connected with the connection table and matched with equipment or the connection table to realize conveying of a circuit board, has good conveying reliability and stability, and can be used without stopping the machine and the production when in use.

Description

Auxiliary conveying device for connection table and connection table connecting structure

Technical Field

The utility model belongs to the technical field of conveying equipment of jigs, and particularly relates to an auxiliary conveying device structure which is connected with a connection table and assists the connection table to convey a circuit board.

Background

PCBA manufacturing process: pcba= Printed Circuit Board Assembly, that is, the whole process of the empty PCB board passing through the SMT and the DIP card, abbreviated as PCBA process. The connection table plays a role in transitional connection among all devices in the whole PCBA manufacturing process, is used for connecting the devices on an automatic production line and conveying the PCBA plates, and is generally driven by a chain through a conveying track, and takes an aluminum profile as a fixed bracket;

if the front and back equipment that matches each other is changed, because equipment size changes after changing, the distance between two equipment changes, adopts the existing connection platform to have can't satisfy the transitional coupling needs between two equipment after changing, in order to guarantee that the circuit board can normally transport between the front and back equipment and carry, current processing method mainly has two kinds of methods:

a kind of is: the long-length connection table is replaced, and the machine is stopped when the long-length connection table is replaced, so that the equipment cost and the production stopping time are correspondingly increased;

still another way is to use CNC aluminum product pure friction transition, and it is for setting up to between product and the platform of plugging into, and the circuit board carries above it to produce the collision easily and drop, increases the damage circuit board risk, and CNC aluminum product's mode leads to conveying reliability and stability to descend.

The above information disclosed in this background section is only for enhancement of understanding of the background section of the application and therefore it may not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

Aiming at the technical problems in the prior art that the PCB circuit board is conveyed after equipment is replaced, the utility model provides an auxiliary conveying device for being matched with a connection table, which can be firmly connected with the connection table and matched with the equipment or the connection table to convey the circuit board, so that the conveying reliability and stability are good, and the conveying device does not need to be stopped when in use.

In order to achieve the above-mentioned utility model/design purpose, the utility model adopts the following technical scheme to realize:

auxiliary conveying device for docking station, auxiliary conveying device including:

the supporting base body is adjustable in height and provided with a connecting part connected with the connection table;

a carrying and conveying component connected with the supporting base body and provided with a conveying channel above;

the guide limiting part is positioned at the side edge of the conveying channel and used for limiting and guiding the circuit board on the conveying channel;

the angle adjusting structure is arranged on the bearing conveying component and the supporting base body and is used for adjusting the inclination angle of the bearing conveying component.

In some embodiments of the present application, the load-bearing conveying part includes:

a load bearing substrate attached to the support substrate;

the limiting guide piece is assembled on the bearing substrate, and a limiting guide part is formed on the limiting guide piece;

and the rolling assembly is rotatably arranged on the limiting guide piece, and the conveying channel is formed on the rolling assembly.

In some embodiments of the present application, the support substrate includes:

a first support leg;

and a second support leg juxtaposed thereto, the angle of the included angle between the second support leg and the first support leg being adjustable;

wherein the support base is capable of changing the height of the support base by adjusting the angle between the first support leg and the second support leg.

In some embodiments of the present application, the first support leg and the second support leg are connected by a locking assembly, the locking assembly comprising:

the rotating connecting piece sequentially penetrates through the second supporting leg part and the first supporting leg part;

the locking part is screwed at the end part of the rotary connecting piece;

when the locking assembly is in a unscrewed state, the second supporting part can rotate relative to the first supporting leg part so as to change the included angle between the second supporting part and the first supporting leg part;

the second support leg is locked and fixed with the first support leg when the locking member is in a screwed state.

In some embodiments of the present application, a connection portion is provided on both the second support leg portion and the first support leg portion, the connection portion being a bolt-and-nut member.

In some embodiments of the present application, the angle adjusting structure includes:

an arc-shaped guide part arranged on the bearing substrate;

the inserting bolts sequentially penetrate through the supporting base body and the arc-shaped guide parts;

the angle lock nut is screwed at the end part of the plug-in bolt, and can be used for tightly pressing and fixing the bearing base body and the supporting base body through screwing or unscrewing to enable the bearing base body to rotate for a certain angle relative to the supporting base body.

In some embodiments of the present application, the position of the limit guide in the width direction of the carrier substrate is adjustable.

In some embodiments of the present application, the limit guide includes:

the turnover part is connected with the limit guide part and is arranged in a manner of being attached to the bearing substrate;

and a position adjusting structure matched with each other is arranged between the turnover part and the bearing base body.

In some embodiments of the present application, the position adjustment structure includes:

a position adjusting long groove arranged on the bearing substrate;

the position adjusting bolt is slidably arranged in the position adjusting long groove through the connecting part;

the position locking nut is screwed on the end part of the position adjusting bolt, and the position of the position locking nut on the position adjusting bolt can be changed by rotating so as to lock the bearing base body and the limit guide piece.

The utility model provides a connection structure of platform, is including the platform body of plugging into, still including above-mentioned technical scheme the platform of plugging into with supplementary conveyer, supplementary conveyer is provided with two, every supplementary conveyer's first supporting leg and second supporting leg pass through the connecting portion of tip and connect simultaneously on one of its corresponding sides and plug into the platform body or connect respectively on two adjacent platforms bodies of its corresponding sides.

Compared with the prior art, the utility model has the advantages and positive effects that:

according to the auxiliary conveying device, when the length plug exists between the connection table and the front and rear butt joint equipment and the corresponding equipment cannot be in transitional connection, the auxiliary conveying device can be connected to the connection table to extend the whole length of the connection table so as to realize the conveying of the circuit board, so that the connection table with longer length does not need to be stopped and replaced, and the problem of low production efficiency caused by stopping production is effectively avoided;

and the auxiliary conveying device is fastened and connected to the connection table through the connecting part, and conveys the circuit board through the specific bearing conveying component, so that the problem of falling and sliding in the conveying process of the circuit board can be avoided, and the stability and the reliability in the conveying process of the circuit board are ensured.

Other features and advantages of the present utility model will become apparent upon review of the detailed description of the utility model in conjunction with the drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of an embodiment of an auxiliary conveyor for docking stations according to the present utility model;

FIG. 2 is a second perspective view of an embodiment of the auxiliary conveyor for docking stations according to the present utility model;

FIG. 3 is a front view of one embodiment of the auxiliary conveyor for docking stations according to the present utility model;

FIG. 4 is a rear view of one embodiment of the auxiliary conveyor for docking stations of the present utility model;

FIG. 5 is a left side view of one embodiment of the auxiliary conveyor for docking stations according to the present utility model;

FIG. 6 is a schematic view of the structure of a carrying and transporting member of an embodiment of the auxiliary conveyor for a docking station according to the present utility model;

FIG. 7 is a schematic view showing a structure in which rolling members of one embodiment of the auxiliary conveyor for a docking station according to the present utility model are mounted on a stopper guide;

fig. 8 is a schematic view of a supporting base of an embodiment of the auxiliary conveyor for a docking station according to the present utility model.

Wherein, 100, support the basal body; 110. a connection part; 120. a first support leg; 130. a second support leg; 200. A carrying and conveying part; 210. a carrier substrate; 211. a first load bearing support plate; 212. 220, a limit guide; 221. a limit guide part; 222. a turnover part; 230. a rolling assembly; 231. a conveying channel; 300. an angle adjusting structure; 310. an arc-shaped guide part; 320. inserting bolts; 330. an angle lock nut; 400. a locking assembly; 410. rotating the connecting piece; 420. a locking member; 500. a position adjustment structure; 510. a position adjustment elongated slot; 520. a position adjusting bolt; 530. and (5) positioning a locking nut.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, as well as, for example, fixedly coupled, detachably coupled, or integrally coupled, unless otherwise specifically indicated and defined. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. In the description of the embodiments, a particular feature, structure, material, or characteristic may be combined in any suitable manner in one or more embodiments or examples.

The terms "first," "second," and the like, 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 defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

The utility model provides an auxiliary conveying device for a docking station, which comprises:

a supporting base 100, the height of which is adjustable, having a connection portion 110 to which the docking station is connected;

a carrying and transporting member 200 connected to the supporting base 100 for carrying and transporting the circuit board;

a conveying passage 231, the conveying passage 231 for conveying the circuit board;

the limit guiding part 221 is used for limiting and guiding the circuit board in the process of conveying.

The angle adjusting structure 300 is disposed on the carrying and conveying member 200 and the supporting base 100, and is used for adjusting the inclination angle of the carrying and conveying member 200.

The supporting base 100 is mainly used for supporting the carrying and conveying component 200;

the connection part 110 for connecting the connection table is arranged on the supporting base body 100, and the connection and fixation between the connection part 110 and the connection table can be realized.

The auxiliary conveying device for the docking station in this embodiment can be used for being arranged between the docking device and the docking station, and when being connected, the auxiliary conveying device can be connected to the docking station, and the circuit board conveyed from the docking device can slide onto the auxiliary conveying device first, and is conveyed to the docking station through the obliquely arranged bearing conveying channel 231 on the bearing conveying component 200.

In some embodiments of the present application, the auxiliary conveying device may also be connected between two adjacent docking stations, which are respectively connected to the two docking stations, and the circuit board on one docking station is conveyed to the other docking station for transferring through the carrying and conveying component 200.

The height of the supporting base 100 in this embodiment is adjustable, and since the carrying and conveying component 200 is assembled on the supporting base 100, the height of the supporting base 100 can be adjusted, so that the height position of the carrying and conveying component 200 which drives and connects with the supporting base 100 can also be adjusted, and thus the supporting base can be matched with docking stations or docking equipment with different heights, and the universality is wider.

The inclination angle of the carrying and conveying member 200 can be adjusted by the angle adjusting mechanism.

The carrying and conveying component 200 is mainly used for conveying a circuit board, in this embodiment, the position of the carrying and conveying component 200 relative to the carrying substrate 210 is adjusted by the angle adjusting structure 300, so that the position of the carrying and conveying component 200 is changed and is set at a certain inclination angle, and thus when the circuit board is conveyed, the circuit board can automatically slide to the position of a docking station along the carrying and conveying component 200 under the action of gravity of the circuit board, and the circuit board can be conveyed by sliding along the carrying and conveying component 200 under the action of automatic gravity of the circuit board, thereby realizing unpowered conveying without additional power source and reducing cost;

the auxiliary conveying device in the embodiment is firmly connected to the connection table through the connecting part 110 when in use, and the auxiliary conveying device is firm in connection without falling off;

the carrying and conveying component 200 for specially conveying the circuit board is arranged, the conveying channel 231 and the limit guide part 221 are formed above the carrying and conveying component, the problems of falling and collision damage cannot occur in the conveying process of the circuit board, and the reliability and the stability in the conveying process of the circuit board are ensured.

When the length of the docking station which is in docking with the front and rear equipment is insufficient, the length of the whole docking station is correspondingly prolonged as long as the auxiliary conveying device is connected to the docking station, so that the transition connection between the front and rear equipment can be realized;

because the auxiliary conveying device is arranged, the length of the whole connection platform is prolonged, so that the length of the circuit board, which corresponds to the length for heat dissipation and cooling after the circuit board is transported out from equipment such as a wave soldering furnace, is greatly increased, and the heat dissipation and cooling effect is good.

In some embodiments of the present application, the carrying and conveying component 200 includes:

a carrier substrate 210 attached to the support substrate 100;

the carrier substrate 210 is a carrier support substrate 100, and includes:

a first load bearing support plate 140 and a second load bearing support plate 212 connected to said first load bearing support plate 211.

The second bearing support plate 212 is disposed perpendicular to the first bearing support plate 211.

When being arranged, the first bearing support plate 211 is horizontally arranged, and the second bearing support plate 212 is vertically arranged.

The limiting guide piece 220 is assembled on the bearing base 210 and used for guiding and limiting the circuit board during conveying;

in some embodiments of the present application, the spacing guide 220 is attached to the first load bearing support plate 211.

The limit guide 220 is disposed perpendicular to the first load bearing support plate 211.

In some embodiments of the present application, the limit guide 220 includes:

a limit guide 221 disposed perpendicular to the carrier 210;

the turnover part 222 is connected with the limit guide part 221 and is arranged to be attached to the bearing substrate 210;

the limiting guide part 221 is a limiting guide plate, the turnover part 222 is a turnover plate, and the turnover plate and the limiting guide plate are formed by bending a sheet metal part.

During molding, the bottom of the limit guide plate can be bent outwards to directly form the turnover part 222.

The first and second support plates 211 and 212 of the support base 210 are formed by bending sheet metal parts,

the sheet metal bending forming part is low in cost, short in processing period and convenient to process rapidly according to actual sizes of different production lines.

In use, two auxiliary conveying devices are respectively arranged at two sides of the docking station, the two auxiliary conveying devices are oppositely arranged, and the two limiting guide pieces 220 are oppositely arranged.

A rolling assembly 230 rotatably installed on the limit guide 220, and a transfer passage 231 is formed on the rolling assembly 230.

The two sets of rolling assemblies 230 of the two auxiliary conveyors are disposed opposite each other.

In some embodiments of the present application, the rolling assembly 230 includes a plurality of rolling members rotatably disposed on the stopper guide 220 and equally spaced along the length of the stopper guide 220.

A conveying passage 231 through which the circuit board can be conveyed by rolling friction is formed between the plurality of rolling members. The rolling members mainly function to convey the circuit board.

During transportation, the circuit board is placed on the two sets of rolling assemblies 230 of the two sets of auxiliary conveying devices, and is conveyed in a rolling way along the rolling parts, and meanwhile, the two sides of the circuit board are blocked and limited by the limiting guide piece 220, so that the circuit board is prevented from outwards shifting from the conveying channel 231 and falling off;

meanwhile, the circuit board can be conveyed downwards only along the length direction of the limiting guide piece 220 through the limiting action of the limiting guide piece 220, and meanwhile, the movement direction of the circuit board is guided.

In addition, the rolling parts are mounted on the limit guide 220, and the supporting effect of the rolling parts is also realized through the limit guide 220.

Through the collocation of two sets of symmetrical auxiliary conveying devices to adopt the spacing direction of direction spacing part, avoided the circuit board to take place the risk that drops in the conveying process, the reliability and the stability of messenger's conveying increase.

In some embodiments of the application, the rolling component is an existing external thread engineering plastic bearing, has the characteristics of wear resistance and high temperature resistance, has the advantages of high transmission efficiency, compact structure and no maintenance when being transmitted by the bearing, and can realize oil-free noise-free, environment-friendly and pollution-free performance and simultaneously has low cost and high reliability when being used for the engineering plastic bearing.

During connection, a threaded hole can be formed in the limit guide piece 220, and the external thread engineering plastic bearing can be directly screwed and fixed in the threaded hole of the limit guide piece 220 through external threads on the outer side of the external thread engineering plastic bearing, so that connection and fixation between the external thread engineering plastic bearing and the limit guide piece 220 are realized.

In some embodiments of the present application, the support base 100 includes:

a first support leg 120;

and a second support leg 130 juxtaposed thereto, the angle of the second support leg 130 being adjustable with respect to the first support leg 120;

wherein the support base 100 is capable of changing the height of the support base 100 by adjusting an angle between the first support leg 120 and the second support leg 130.

In some embodiments of the present application, the support substrate 100 includes: a support body portion;

the first support leg 120 is formed to extend from the bottom of the support body,

the second support leg 130 is disposed at one side of the support body portion and is connected with the first support leg 120.

In other embodiments of the present application, the support substrate 100 includes:

the support body portion, the first support leg portion 120 and the second support leg portion 130 are provided as first support legs and second support legs connected at end positions of the support body portion.

Support of the entire support body portion is achieved by the cooperation of the first support leg 120 and the second support leg 130; when the angle between the first supporting leg 120 and the second supporting leg 130 changes, the height of the supporting main body is correspondingly changed, so that the overall height of the supporting base 100 is adjusted.

The height of the carrier transport element 200 connected to the support base 100 can thus be adjusted by adjusting the height of the support base 100, so that it can be adapted to different docking station heights.

In some embodiments of the present application, the first support leg 120 and the second support leg 130 are connected by a locking assembly 400, and the locking assembly 400 includes:

the rotational connector 410 passes through the second support leg 130 and the first support leg 120 in sequence;

a locking part 420 screwed to an end of the rotation coupling 410;

the second support portion can rotate relative to the first support leg 120 to change the angle between the second support portion and the first support leg 120 when the locking assembly 400 is in the unscrewed state;

the second support leg 130 is locked and fixed with the first support leg 120 when the locking member 420 is in a screwed state.

The rotational coupling 410 is a rotational coupling bolt and the locking member 420 is a nut.

The first support leg 120 and the second support leg 130 are respectively provided with a first through hole and a second through hole, and the first through hole and the second through hole are penetrated by a rotary connecting bolt and then are locked and fixed by nuts.

When it is desired to adjust the angle between the first support leg 120 and the second support leg 130, the nut may be unscrewed, allowing relative rotation between the two support legs, and after adjustment in place, the nut may be tightened.

When the first through holes are provided, a plurality of first through holes are uniformly arranged along the length direction of the first support leg 120;

the second pass-through holes are also provided in plurality, uniformly arranged along the length direction of the second support leg 130.

When connected, the rotation connection bolt selectively passes through the first pass-through hole and the second pass-through hole at different positions of the first support leg 120 and the second support leg 130 to connect the first support leg 120 and the second support leg 130.

The support of the entire support base 100 and the load-carrying member 200 arranged on the support base 100 can be achieved by the cooperation of the first support leg 120 and the second support leg 130.

In some embodiments of the present application, the second support leg 130 and the first support leg 120 are provided with a connection portion 110, and the connection portion 110 on the first support leg 120 and the connection portion 110 on the second support leg 130 may be used to achieve connection and cooperation with the docking station.

When connected, the first support leg 120 and the second support leg 130 may both be connected to the same docking station by the connection 110 above them;

or connected to one of the docking stations by the first support leg 120 and connected to the other docking station adjacent to the above-mentioned docking station by the second support leg 130, to achieve a connection between the two adjacent docking stations.

In some embodiments of the present application, the connection portion 110 is a bolt-nut component, a long groove penetrating to the end of the connection platform is formed on the connection platform along the length direction of the connection platform, a long-strip opening is formed on the side surface of the long groove, and a body section of the connection bolt is formed along the length direction of the long groove, so that the body section of the connection bolt can extend out.

The head of the connecting bolt is embedded in the long groove of the docking station, and the body section passes through the first support leg 120/the second support leg 130 after penetrating out of the long-strip opening on the side surface of the long groove;

and the connecting nut is screwed at the tail part of the connecting bolt.

When in connection, the head part of the connecting bolt is inserted into the long groove of the connecting table from the end part of the connecting table, and is clamped and positioned in the long groove by clamping the head part, and the body section of the connecting bolt extends outwards from the long strip opening.

When connected with the first support leg 120, the body section extends out of the elongated slot opening and then passes through the first support leg 120 and is then locked and secured by a coupling nut threaded onto the tail of the coupling bolt.

The second support leg 130 and the docking station connection structure is the same as the first support leg 120, and will not be described here.

In some embodiments of the present application, the angle adjustment structure 300 includes:

an arc-shaped guide 310 provided on the carrier substrate 210;

a plug-in bolt 320, wherein the plug-in bolt 320 sequentially passes through the support base 100 and the arc-shaped guide part 310;

an angle lock nut 330, screwed on the end of the plug-in bolt 320, can tightly press the bearing base 210 and the supporting base 100 by screwing or unscrewing, so that the bearing base 210 rotates a certain angle relative to the supporting base 100.

The arc-shaped guiding part 310 is an arc-shaped guiding groove formed on the bearing substrate 210.

When the angle is adjusted, the force can be applied to the bearing substrate 210, the bearing substrate 210 drives the arc-shaped guide groove to slide relative to the plug-in bolt 320 plugged on the supporting substrate 100, and the arc-shaped guide groove and the plug-in bolt 320 are plugged and combined, so that the bearing substrate 210 can only slide along the direction of the arc-shaped guide groove, the sliding guide and the limiting of the bearing substrate 210 are realized through the arc-shaped guide groove, and after the inclination angle of the bearing substrate 210 is adjusted in place, the bearing substrate 100 and the bearing substrate 210 are tightly pressed and fixed through the angle screwing nuts.

In some embodiments of the present application, the position of the limit guide 220 in the width direction of the carrier base 210 is adjustable. Through the position adjustment of the limiting guide piece 220 relative to the bearing substrate 210, the distance between the two limiting guide pieces 220 which are oppositely arranged can be adjusted, so that the limiting guide piece can limit and guide circuit boards with different widths.

In some embodiments of the present application, the limit guide 220 includes:

a limit guide 221 disposed perpendicular to the carrier 210;

the turnover part 222 is connected with the limit guide part 221 and is arranged to be attached to the bearing substrate 210;

a cooperating position adjustment structure 500 is provided between the fold 222 and the carrier base 210.

In some embodiments of the present application, the position adjustment structure 500 includes:

a position adjusting long groove 510 formed on the bearing base 210;

a position adjusting bolt 520 slidably disposed in the position adjusting slot 510 through the connecting portion 110;

a position locking nut 530, which is screwed to an end of the position adjusting bolt 520, can change its position on the position adjusting bolt 520 by rotating to lock the bearing base 210 and the limit guide 220.

The position adjusting slot 510 is provided through the carrier substrate 210, the connecting portion 110 is provided with a through hole, and the position adjusting bolt 520 is inserted into the adjusting slot after passing through the through hole on the connecting portion 110.

When the position is not required to be adjusted, the end of the position adjusting bolt 520 is screwed through the position locking nut 530 to tightly fix the connecting part 110 and the bearing base 210 together;

when the position of the limit guide 220 needs to be adjusted, the position locking nut 530 is unscrewed, the position adjusting bolt 520 drives the limit guide 220 to slide along the position adjusting long groove 510, and after the position adjusting bolt slides to a proper position, the position locking nut 530 is locked and fixed.

The position adjusting bolt 520 drives the limit guide 220 to slide to different positions of the sliding long groove, so that the position of the limit guide 220 relative to the bearing substrate 210 is adjusted.

The utility model also provides an embodiment of a connection structure of the connection platform, which comprises the following steps:

the docking station body further comprises two auxiliary conveying devices for the docking station, wherein the two auxiliary conveying devices are arranged, and the first supporting leg 120 and the second supporting leg 130 of each auxiliary conveying device are simultaneously connected to one docking station body on the corresponding sides of the docking station body through the connecting parts 110 of the end parts;

or respectively connected to two adjacent docking station bodies on the corresponding sides thereof.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. The utility model provides a plugging table is with supplementary conveyer which characterized in that includes:

the supporting base body is adjustable in height and provided with a connecting part connected with the connection table;

a carrying and conveying component connected with the supporting base body and provided with a conveying channel above;

the guide limiting part is positioned at the side edge of the conveying channel and used for limiting and guiding the circuit board on the conveying channel;

the angle adjusting structure is arranged on the bearing conveying component and the supporting base body and is used for adjusting the inclination angle of the bearing conveying component.

2. The auxiliary conveyor apparatus for a docking station according to claim 1, wherein the carrying and transporting means includes:

a load bearing substrate attached to the support substrate;

the limiting guide piece is assembled on the bearing substrate, and a limiting guide part is formed on the limiting guide piece;

and the rolling assembly is rotatably arranged on the limiting guide piece, and the conveying channel is formed on the rolling assembly.

3. The auxiliary conveyor for a docking station according to claim 1, wherein,

the supporting matrix comprises:

a first support leg;

and a second support leg juxtaposed thereto, the angle of the included angle between the second support leg and the first support leg being adjustable;

wherein the support base is capable of changing the height of the support base by adjusting the angle between the first support leg and the second support leg.

4. A docking station auxiliary conveyor as in claim 3 wherein the first and second support legs are connected by a locking assembly comprising:

the rotating connecting piece sequentially penetrates through the second supporting leg part and the first supporting leg part;

the locking part is screwed at the end part of the rotary connecting piece;

the second support leg is rotatable relative to the first support leg to change an angle between the second support leg and the first support leg when the locking assembly is in the unscrewed state;

the second support leg is locked and fixed with the first support leg when the locking member is in a screwed state.

5. The auxiliary conveyor for a docking station according to claim 4, wherein,

and connecting parts are arranged on the second supporting leg part and the first supporting leg part, and the connecting parts are bolt and nut parts.

6. The auxiliary conveyor for a docking station according to claim 2, wherein,

the angle adjusting structure comprises:

an arc-shaped guide part arranged on the bearing substrate;

the inserting bolts sequentially penetrate through the supporting base body and the arc-shaped guide parts;

the angle lock nut is screwed at the end part of the plug-in bolt, and can be used for tightly pressing and fixing the bearing base body and the supporting base body through screwing or unscrewing to enable the bearing base body to rotate for a certain angle relative to the supporting base body.

7. The auxiliary conveyor for a docking station according to claim 2, wherein,

the position of the limit guide piece in the width direction of the bearing substrate is adjustable.

8. The auxiliary conveyor for a docking station according to claim 7, wherein,

the limit guide piece comprises:

the turnover part is connected with the limit guide part and is arranged in a manner of being attached to the bearing substrate;

and a position adjusting structure matched with each other is arranged between the turnover part and the bearing base body.

9. The auxiliary conveyor for a docking station according to claim 8, wherein,

the position adjustment structure comprises:

a position adjusting long groove arranged on the bearing substrate;

the position adjusting bolt is slidably arranged in the position adjusting long groove through the connecting part;

the position locking nut is screwed on the end part of the position adjusting bolt, and the position of the position locking nut on the position adjusting bolt can be changed by rotating so as to lock the bearing base body and the limit guide piece.

10. The connection structure of the connection platform comprises connection platform bodies, and is characterized by further comprising the auxiliary conveying device for the connection platform, which is set forth in any one of claims 1-9, wherein two auxiliary conveying devices are arranged, and each first supporting leg part and each second supporting leg part of the auxiliary conveying device are simultaneously connected to one connection platform body on the corresponding side of the auxiliary conveying device or respectively connected to two adjacent connection platform bodies on the corresponding side of the auxiliary conveying device through the connecting part of the end parts.