CN211517266U - Bicycle vertical pipe gluing jig - Google Patents

Abstract

The utility model relates to a bicycle riser gluing jig, which comprises a bottom plate and a fixing component, wherein a first positioning component and a second positioning component are respectively arranged at two ends of the upper surface of the bottom plate, the first positioning component comprises a first fixed plate fixedly connected with the bottom plate, a first positioning block is arranged on the first fixed plate, an inserting groove which runs through the first positioning block and the first fixed plate is arranged on the first positioning block, the upper end of the inserting groove is communicated with a limiting groove, a limiting rod is inserted and connected in the inserting groove, the second positioning component comprises a slide bead fixedly connected with the bottom plate, a movable plate is connected with the slide bead in a sliding way, a second positioning block is arranged on the movable plate, the parts of the connecting riser are limited in position and angle through the first positioning component, the second positioning component and the fixing component, when an operator glues the parts, the gluing processing precision between the parts is improved, thereby improving the processing quality of the stand pipe.

Description

Bicycle vertical pipe gluing jig

Technical Field

The utility model belongs to the technical field of the technique of bicycle and specifically relates to a bicycle riser veneer tool is related to.

Background

The bicycle is a green and environment-friendly vehicle, and is provided with a bicycle special lane in many cities so as to encourage people to select the bicycle as a travel tool. With the health emphasis of people, the types of bicycles are increasing day by day, such as spinning in gymnasiums and visible sharing bicycles, and the bicycles are not far away from the daily life of people all the time.

The stand pipe is an important structural part in the bicycle and plays a role in connecting a handlebar with a bicycle body. The vertical pipe is formed by splicing a plurality of parts, and the splicing precision is particularly important when the vertical pipe is spliced, so that the precision of the vertical pipe is determined, and the quality of the use performance of the bicycle is further determined.

Usually, the splicing processing of the riser is manually completed by an operator, as shown in fig. 1, the operator firstly places the third part at a designated position in the second part, then glues the second part and the third part, then inserts the first part in the second part, determines the position relationship of the first part and the second part through multi-directional observation, and after the operator considers that the position relationship of the first part and the second part meets the processing requirement, gluing the first part and the second part to fixedly connect the first part and the second part, that is, the splicing of the riser is completed.

However, in the process that an operator observes the relative positions of the first part, the second part and the third part, the operator reduces the machining requirements due to visual fatigue or for improving efficiency, so that a large error exists between the position relationship after the first part, the second part and the third part are glued and the machining requirements, and the machining quality of the riser is reduced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a bicycle riser veneer tool for improving riser processingquality.

The above object of the present invention is achieved by the following technical solutions: the utility model provides a bicycle riser veneer tool, includes the bottom plate and links solid subassembly, the first locating component of one end fixedly connected with of bottom plate upper surface, the one end that first locating component was kept away from to the bottom plate upper surface is equipped with second locating component, first locating component includes the first fixed plate with bottom plate fixed connection, the first locating piece of fixedly connected with on the terminal surface that first fixed plate is close to second locating component, be equipped with the inserting groove that runs through first locating piece and first fixed plate on the first locating piece, inserting groove upper end intercommunication has the spacing groove that runs through first locating piece and first fixed plate, inserting groove and spacing groove have the gag lever post in the inserting connection.

Through adopting above-mentioned technical scheme, first locating component is used for fixed first part, and second locating component is used for fixed second part, and first locating component and second locating component have also played limiting displacement when playing fixedly. When using the tool, operating personnel pegs graft the gag lever post in spacing groove and inserting groove, then inside pegging graft first locating piece with first part, because the reason of spacing groove, the upper end of gag lever post is equipped with a bar bead, and bar bead is inserted and is connect the bar recess of first part to confirm the grafting angle of first part. And then an operator fixes the third part inside the second part through the connecting and fixing component, determines the gluing position of the third part and the second part, and then carries out gluing processing on the third part and the second part. After the second part and the third part are spliced, the second part is inserted into the second positioning assembly, the mounting angle and the mounting position of the second part are limited by the second positioning assembly, the first part and the second part are connected through gluing, and the connecting and fixing assembly is taken out to complete the processing of the vertical pipe.

The position of the splicing part of the vertical pipe is fixed and the installation angle of the splicing part of the vertical pipe is fixed through a specific jig, so that the connection precision between the parts is improved, and the quality of the processed vertical pipe is improved. After being familiar with the use flow of the jig, the operator can quickly complete the installation and fixation of each part, and compare with the relative position between the parts determined by the operator through multi-directional observation, the efficiency of processing the vertical pipe by using the jig is higher, so that the working efficiency of the operator is improved, and the processing efficiency of the vertical pipe is further improved. Meanwhile, the jig reduces the working strength of operators, enables the operators to complete work more easily, and guarantees the quality more easily.

The present invention may be further configured in a preferred embodiment as: the second positioning assembly comprises a slide bead fixedly connected with the bottom plate, a movable plate is connected to the slide bead in a sliding mode, and a second positioning block is fixedly connected to the end face, close to the limiting rod, of the movable plate.

Through adopting above-mentioned technical scheme, the second locating piece is used for connecting the second part and fixes the installation angle of second part. An operator pushes the movable plate to enable the movable plate to drive the second part to move along the length direction of the ledge of the slideway, namely the movable plate is driven to be close to or far away from the first positioning assembly. The first positioning assembly determines the position and the angle of the first part, the second positioning assembly determines the position and the angle of the second part, the first part is inserted into the second part through the sliding fit of the moving plate and the rib of the slide way, and then an operator performs gluing processing on the two parts. When the slide bead guarantees that second part and first part plug-in connection, the difficult emergence of angle of second part changes, improves the connection precision between first part and the second part to improve the processingquality of riser.

The present invention may be further configured in a preferred embodiment as: one side that first locating component was kept away from to second locating component is equipped with the power component who is connected with the bottom plate, power component includes the platform of being connected with bottom plate fixed connection, it has the mounting panel to connect platform upper surface threaded connection, sliding connection has the connecting rod on the mounting panel, the one end of connecting rod articulates there is the power spare, the one end of power spare articulates there is power push rod, power push rod's one end is articulated with the mounting panel, the one end and the second locating component of connecting rod are connected.

By adopting the technical scheme, when an operator clamps the power push rod to rotate the power push rod in the direction close to the movable plate, the connecting rod drives the movable plate to slide in the direction close to the first positioning component, and when the power push rod is rotated in the reverse direction, the connecting rod drives the movable plate to slide in the direction away from the first positioning component. The power assembly is convenient for an operator to move the second positioning assembly, so that the inserting and connecting process of the second part and the first part is convenient and quick, the working efficiency of the operator is improved, and the working efficiency of vertical pipe machining is improved. In addition, the power assembly has a locking function, when the power push rod drives the moving plate to slide towards the direction close to the first positioning assembly, the power push rod locks the position of the moving plate, and when the moving plate is pushed away from the direction of the first positioning assembly, the power assembly limits the moving plate, so that the moving plate cannot move. If the power assembly is not used, after the operator connects the second part with the first part, the second part is easy to be driven by external force to move in the gluing process, so that the gluing quality of the second part and the first part is reduced. Through power component's limiting displacement, operating personnel is carrying out the in-process of veneer to first part and second part, and the difficult emergence of second part is removed, makes the position between second part and the first part keep always in the processing requires the within range, guarantees the machining precision between first part and the second part to the processingquality of riser has been improved.

The present invention may be further configured in a preferred embodiment as: the even solid subassembly includes the butt piece, be equipped with the centre gripping handle on the butt piece, the centre gripping handle is connected with a dwang, the dwang rotates with the butt piece to be connected, the lower extreme fixedly connected with fastening block of dwang, the upper end fixedly connected with of dwang is used for reflecting the mapping piece of fastening block position state, be equipped with connecting screw on the butt piece.

Through adopting above-mentioned technical scheme, when gluing second part and third part, the fastening block plays the fastening effect, and operating personnel makes the fastening block support the third part tightly on the internal perisporium of second part through pulling centre gripping handle, makes the third part when carrying out the veneer man-hour, and the position is difficult for changing, improves the machining precision between second part and the third part to improve the processingquality of riser. The state that maps the piece is the same with the fastening block, and the difference lies in that the fastening block is located the inside of second part, and operating personnel is difficult for observing the position state of fastening block to whether difficult judgement fastening block supports the third part tightly. And the mapping block is located the upper end of dwang, is located the outside of second part, and when operating personnel rotated the dwang, according to the position and the angle of mapping the block, learn the position and the angle of fastening block to be convenient for operating personnel learn the information of fastening block, the position and the angle modulation of fastening block are accurate, have guaranteed the veneer precision between third part and the second part.

After the second part and the third part are glued, the connecting component is connected to the second part and moves synchronously with the second part, and after the second part is connected with the first part in an inserting mode, an operator rotates the connecting screw rod on the abutting block and screws the connecting screw rod into the thread groove of the first part. In the process of rotating the connecting screw rod, whether the position relation between the first part and the second part is accurate or not is judged by an operator according to the connecting fluency of the thread groove in the connecting screw rod and the first part, so that the operator can conveniently judge the position accuracy of the first part or the second part, the problem finding by the operator is facilitated, and the gluing precision of the first part and the second part is improved. In addition, the connecting screw rod is connected with the first part, the positional relation precision between the second part and the first part is further improved, the gluing precision between the first part and the second part is improved, and therefore the processing quality of the vertical pipe is improved.

The present invention may be further configured in a preferred embodiment as: and the two connecting screw rods are arranged on the butt joint block and are respectively positioned at two sides of the rotating rod.

Through adopting above-mentioned technical scheme, two connecting screw compare in a connecting screw be changeed and discover the position relation that exists between first part and the second part, the range that the position relation precision between second part and the first part improves is bigger, make the veneer processing between first part and the second part more press close to the processing requirement, improve the processingquality of riser.

The present invention may be further configured in a preferred embodiment as: the end of the slideway convex rib close to the first positioning component is connected with a limiting convex rib.

By adopting the technical scheme, the distance between the second part and the first part is controlled by the limiting convex ribs, so that the second part is prevented from excessively abutting against the first part, the second part or the first part is prevented from deforming, and the quality of the vertical pipe is reduced. Spacing bead has strictly controlled the distance between second part and the first part, and when making second part and first part plug connection, the position relation between two parts is more accurate, improves the veneer machining precision of first part and second part to the processingquality of riser has been improved.

The present invention may be further configured in a preferred embodiment as: and a plurality of elevation convex ribs are fixedly connected on the bottom plate between the first positioning assembly and the second positioning assembly.

Through adopting above-mentioned technical scheme, the elevation bead plays the detection effect, if the height inaccuracy that the second part is located or second part thickness itself is not up to standard, is close to the in-process of first part at the second part, second part and elevation bead butt, unable and first part butt. The elevation ledge facilitates the operator to find problems, thereby improving the quality of the riser.

The present invention may be further configured in a preferred embodiment as: the bottom plate is provided with a plurality of fixing grooves.

Through adopting above-mentioned technical scheme, the fixed slot PMKD of being convenient for even in fixed tool, tool stability is high, and operating personnel adds man-hour in the veneer, and the machining precision just guarantees to some extent, further guarantees the processingquality of riser.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the first positioning assembly limits the position and the angle of the first part, the second positioning assembly limits the position and the angle of the second part, the connecting and fixing assembly limits the position and the angle of the third part, the jig improves the position relation among the three parts, the gluing processing precision among the three parts is improved, and the processing quality of the stand pipe is improved;

2. in the process that the power assembly enables the second part and the first part to be glued, the second part is not easy to move, the gluing precision between the first part and the second part is improved, and the machining quality of the vertical pipe is further improved.

Drawings

FIG. 1 is a schematic structural view of a riser split component of the prior art;

FIG. 2 is a schematic view of the overall structure of the gluing jig for the bicycle stem for fixing various parts;

FIG. 3 is a schematic view of the relative structure of the second positioning assembly and the power assembly;

fig. 4 is a related structural schematic diagram of the first positioning assembly and the fastening assembly.

In the figure, 1, a bottom plate, 11, an elevation rib, 12, a fixing groove, 2, a first positioning component, 21, a first fixing plate, 22, a first positioning block, 23, a limiting rod, 3, a second positioning component, 31, a slide rib, 32, a moving plate, 33, a second positioning block, 34, a limiting rib, 4, a connecting component, 41, an abutting block, 42, a clamping handle, 43, a rotating rod, 44, a fastening block, 45, a mapping block, 46, a connecting screw rod, 5, a power component, 51, a connecting table, 52, a mounting plate, 53, a connecting rod, 54, a power component, 55, a power push rod, 101, a first part, 1011, a thread groove, 1012, a strip-shaped groove, 102, a second part, 1021, an end surface groove, 1022, an end head groove, 103, a third part, 1031 and a central groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Refer to fig. 2, do the utility model discloses a bicycle riser veneer tool, including bottom plate 1, bottom plate 1 wholly is the cuboid structure. The upper surface of the bottom plate 1 is provided with a plurality of fixing grooves 12 which penetrate through the upper surface and the lower surface of the bottom plate 1, and the fixing grooves 12 are convenient for installation or fixture fixation, so that the stability of the fixture is improved. The upper surface of the bottom plate 1 is fixedly connected with a plurality of elevation convex edges 11, the upper surfaces of the elevation convex edges 11 are arranged in an arc shape, and the elevation convex edges 11 are of a structure with two high ends and a middle low end. Elevation bead 11 plays limiting displacement, and after operating personnel will be used for the part of concatenation riser to install on the tool, operating personnel passes through the interference condition of part and elevation bead 11, judges the position precision of part or the structure of part itself and whether accords with the processing demand.

Referring to fig. 3, a power assembly 5 is arranged on the upper surface of one end of the bottom plate 1, the power assembly 5 comprises a connecting table 51 fixedly connected with the bottom plate 1, the connecting table 51 is in a block shape, an installing plate 52 is connected to the upper surface of the connecting table 51 in a threaded manner, a connecting rod 53 is connected to the upper end of the installing plate 52, and the connecting rod 53 is slidably connected with the installing plate 52. One end of the connecting rod 53 is hinged with a power part 54, the power part 54 comprises two connecting plates in a shape like a Chinese character 'ji', one end of the power part 54, which is far away from the connecting rod 53, is hinged with a power push rod 55, the power push rod 55 is composed of a section of inclined rod arranged in an inclined way and a section of horizontal rod arranged horizontally, and the hinged position of the power part 54 and the power push rod 55 is positioned at the connecting position of the inclined rod and the horizontal rod. The end of the power push rod 55 remote from the power member 54 is hinged to the mounting plate 52. By rotating the power push rod 55, the power push rod 55 drives the power member 54 to move, and the power member 54 pushes or pulls the connecting rod 53, so that the connecting rod 53 moves along the horizontal direction.

Referring to fig. 3, one end of the connecting rod 53, which is far away from the power part 54, is connected to the second positioning assembly 3, the second positioning assembly 3 includes two slide rail protruding ridges 31 fixedly connected to the base plate 1, specifically, the two slide rail protruding ridges 31 are arranged in parallel. The slideway protruding edge 31 is connected with a moving plate 32 in a sliding mode, and the moving plate 32 is a rectangular block. The end surface of the moving plate 32 close to the power module 5 is connected with a connecting rod 53. When the operator rotates the power push rod 55 in a direction to approach the moving plate 32, the moving plate 32 slides along the longitudinal direction of the rail rib 31.

Referring to fig. 3, the end of the slideway rib 31 far away from the power assembly 5 is fixedly connected with a limiting rib 34, the limiting rib 34 has a limiting effect on the moving plate 32, and after the moving plate 32 slides for a distance in a direction far away from the power assembly 5, the moving plate 32 abuts against the limiting rib 34 and cannot slide continuously.

Referring to fig. 3, a second positioning block 33 is fixedly connected to an end surface of the moving plate 32 away from the power assembly 5, and the second positioning block 33 is a semi-cylindrical structure. An end slot 1022 is formed in the end of the second part 102 in the splicing part of the riser, and an operator moves the second part 102 to insert the second positioning block 33 into the end slot 1022, so that the angle of the second part 102 in the jig is determined.

Referring to fig. 4, a first positioning component 2 is disposed on an upper surface of one end of the bottom plate 1, the first positioning component 2 includes a first fixing plate 21 fixedly connected to the bottom plate 1, the first fixing plate 21 is block-shaped, and an end surface of the first fixing plate 21 close to the second positioning component 3 (see fig. 1) is disposed in an inclined manner, that is, when viewed from a side surface of the first fixing plate 21, a thickness of an upper end of the first fixing plate 21 is greater than a thickness of a lower end of the first fixing plate 21. The uneven thickness of the first fixing plate 21 facilitates the definition of the position and angle of the splicing part of the riser in the jig.

Referring to fig. 4, the first fixing plate 21 is fixedly connected to the end surface close to the second positioning component 3 (shown in fig. 1), a circular insertion groove is formed in the center of the first positioning block 22, a strip-shaped limiting groove is communicated with the upper end of the insertion groove, and the insertion groove and the limiting groove penetrate through the first positioning block 22 and the first fixing plate 21. The radius of the inserting groove is larger than the width of the limiting groove. Inserting connection has the gag lever post 23 in inserting groove and the spacing groove, and the outer peripheral face of gag lever post 23 all with the periphery wall butt of inserting groove and spacing groove, and after the gag lever post 23 pegged graft in inserting groove and the spacing groove, there was certain frictional force between gag lever post 23 and the first fixed block, makes gag lever post 23 can not the self-sliding. The first part 101 of the jointing parts of the riser is a hollow structure, and the upper end of the first part 101 is provided with a strip-shaped groove 1012 communicated with the inside of the first part 101. An operator moves the first part 101 to connect the first part 101 to the first positioning block 22 in an inserting mode, the limiting rod 23 limits the inserting angle of the first part 101 in the inserting mode, only after the upper end of the limiting rod 23 is inserted into the strip-shaped groove 1012 of the first part 101, the first part 101 can be smoothly inserted and fixed onto the first positioning block 22, and the first positioning assembly 2 limits the position and the angle of the first part 101 in the jig.

Referring to fig. 4, the upper end of the first part 101 is provided with a plurality of thread grooves 1011, the bicycle vertical tube gluing jig comprises a fastening assembly 4, the fastening assembly 4 comprises a butting block 41, the butting block 41 is block-shaped, the butting block 41 is provided with a clamping handle 42, the clamping handle 42 is hinged to a rotating rod 43, and the rotating rod 43 penetrates through the butting block 41 and is rotatably connected with the butting block 41. An operator pulls the clamping handle 42, then rotates the clamping handle 42 to drive the rotating rod 43 to rotate, and meanwhile, when the operator pulls the clamping handle 42 upwards, the rotating rod 43 moves along with the clamping handle 42. Both sides of the rotating rod 43 are provided with connecting screw rods 46 rotatably connected with the abutting blocks 41, an operator can make the lower ends of the connecting screw rods 46 penetrate through the abutting blocks 41 to be connected into thread grooves 1011 of the first part 101 by rotating the connecting screw rods 46, on one hand, the connecting component 4 is convenient for the operator to detect the position of the first part 101 again, on the other hand, the connecting component 4 limits the position of the first part 101 again, and the processing precision between the first part 101 and other parts is improved.

Referring to fig. 3 and 4, an end surface groove 1021 is formed on the end surface of the second part 102, a third part 103 is included in the joint part of the riser, and a center groove 1031 is formed in the center of the third part 103. When machining, the operator needs to place the third component 103 inside the second component 102 and set the end surface groove 1021 of the second component 102 coaxially with the center groove 1031 of the third component 103.

Referring to fig. 4, a portion of the rotation lever 43 above the abutment block 41 is fixedly connected with a mapping block 45, and a portion of the rotation lever 43 below the abutment block 41 is fixedly connected with a fastening block 44. Both the mapping block 45 and the fastening block 44 are rectangular blocks. The mapping block 45 is used to reflect the position state of the fastening block 44, that is, when the operator rotates the rotating lever 43, the rotating angle of the fastening block 44 can be known by the rotating angle of the mapping block 45.

The implementation principle of the embodiment is as follows: the operator inserts the third member 103 into the second member 102 so that the center groove 1031 of the third member 103 is substantially concentric with the end surface groove 1021 of the second member 102. Then, the operator uses the fastening assembly 4, first rotates the rotating rod 43 through the clamping handle 42, so that the rotating rod 43 drives the mapping block 45 and the fastening block 44 to rotate, and when the length direction of the mapping block 45 is parallel to the length direction of the abutting block 41, the operator inserts the fastening assembly 4 into the end surface groove 1021. At this time, since the longitudinal direction of the mapping block 45 is the same as the longitudinal direction of the fastening block 44, the fastening block 44 smoothly enters the inside of the second member 102, and then the operator turns the turning lever 43 again to make the longitudinal direction of the mapping block 45 perpendicular to the longitudinal direction of the abutment block 41, whereby the operator can know that the longitudinal direction of the fastening block 44 is perpendicular to the longitudinal direction of the abutment block 41. Then, the operator inserts the two connecting screws 46 into the abutting block 41, inserts the lower ends of the connecting screws 46 into the second part 102, passes through the central slot 1031 of the third part 103, abuts against the third part 103, and finely adjusts the position of the third part 103 so that the angle of the third part 103 in the second part 102 is adjusted.

Since the length of the fastening block 44 is greater than the width of the end surface groove 1021, the operator pulls the grip handle 42, moves the grip handle 42 in a direction away from the second component 102, and brings the fastening block 44 into contact with the third component 103 to hold the third component 103 tightly. The operator then performs a gluing process of the third part 103 and the second part 102, so that the third part 103 is attached inside the second part 102.

After the gluing process of the second part 102 and the third part 103 is completed, the operator inserts the first part 101 into the first positioning block 22, and in the process of inserting the first part 101 onto the first positioning block 22, the angle of the first part 101 in the jig is limited due to the action of the limiting rod 23. The operator then inserts the second part 102 into the second positioning block 33, so that the angle of the second part 102 in the jig is limited. The operator rotates the power push rod 55, so that the power push rod 55 drives the connecting rod 53, the connecting rod 53 drives the moving plate 32 to move towards the direction close to the first part 101 until the moving plate 32 abuts against the limiting rib 34, the operator releases the power push rod 55, and the power push rod 55 limits the position of the moving plate 32, so that the moving plate 32 cannot move. At this time, the first part 101 is inserted into the second part 102, the operator observes the position relationship between the lower end of the second part 102 and the elevation rib 11, determines the position accuracy of the second part 102, rotates the connecting screw 46, connects the connecting screw 46 with the thread groove 1011 of the first part 101, and then, the operator performs gluing processing on the first part 101 and the second part 102.

After the gluing process is completed, the operator rotates the connecting screw rod 46 to make the connecting screw rod 46 separate from the threaded groove 1011, the operator pulls the connecting screw rod 46 away from the abutting block 41, rotates the rotating rod 43 to make the length direction of the mapping block 45 parallel to the length direction of the abutting block 41, and then moves the fastening assembly 4 away from the second part 102, and because the width of the fastening block 44 is smaller than the length of the central groove 1031 of the third part 103, the fastening block 44 separates from the second part 102 and follows the fastening assembly 4 away from the second part 102. The operator pulls the power push rod 55 to make the moving plate 32 far away from the limit rib 34, and the operator takes the second part 102 out of the second positioning block 33, thereby completing a gluing process of the riser.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a bicycle riser veneer tool which characterized in that: the fixing device comprises a base plate (1) and a fixing component (4), wherein a first positioning component (2) is fixedly connected to one end of the upper surface of the base plate (1), a second positioning component (3) is arranged at one end, far away from the first positioning component (2), of the upper surface of the base plate (1), the first positioning component (2) comprises a first fixing plate (21) fixedly connected with the base plate (1), a first positioning block (22) is fixedly connected to the end face, close to the second positioning component (3), of the first fixing plate (21), an insertion groove penetrating through the first positioning block (22) and the first fixing plate (21) is formed in the first positioning block (22), a limiting groove penetrating through the first positioning block (22) and the first fixing plate (21) is communicated with the upper end of the insertion groove, and a limiting rod (23) is inserted in the insertion groove and the limiting groove.

2. The bicycle riser gluing jig of claim 1, wherein: second locating component (3) include with bottom plate (1) fixed connection's slide bead (31), sliding connection has movable plate (32) on slide bead (31), fixedly connected with second locating piece (33) on the terminal surface that movable plate (32) are close to gag lever post (23).

3. The bicycle riser gluing jig of claim 1, wherein: one side that first locating component (2) was kept away from in second locating component (3) is equipped with power component (5) be connected with bottom plate (1), power component (5) include with bottom plate (1) fixed connection's connection platform (51), connection platform (51) upper surface threaded connection has mounting panel (52), sliding connection has connecting rod (53) on mounting panel (52), the one end of connecting rod (53) articulates there is power spare (54), the one end of power spare (54) articulates there is power push rod (55), the one end and the mounting panel (52) of power push rod (55) are articulated, the one end and the second locating component (3) of connecting rod (53) are connected.

4. The bicycle riser gluing jig of claim 1, wherein: link solid subassembly (4) including butt joint piece (41), be equipped with centre gripping handle (42) on butt joint piece (41), centre gripping handle (42) are connected with a dwang (43), dwang (43) are rotated with butt joint piece (41) and are connected, the lower extreme fixedly connected with fastening block (44) of dwang (43), the upper end fixedly connected with of dwang (43) is used for reflecting mapping piece (45) of fastening block (44) position state, be equipped with connecting screw (46) on butt joint piece (41).

5. The bicycle riser gluing jig of claim 4, wherein: the connecting screw rods (46) on the abutting block (41) are arranged in two, and the two connecting screw rods (46) are respectively positioned on two sides of the rotating rod (43).

6. The bicycle riser gluing jig of claim 2, wherein: the end of the slideway convex rib (31) close to the first positioning component (2) is connected with a limiting convex rib (34).

7. The bicycle riser gluing jig of claim 1, wherein: and a plurality of elevation convex ribs (11) are fixedly connected to the bottom plate (1) between the first positioning component (2) and the second positioning component (3).

8. The bicycle riser gluing jig of claim 1, wherein: the bottom plate (1) is provided with a plurality of fixing grooves (12).

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