CN209190105U - A kind of bridge girder steel assembly tooling - Google Patents

Abstract

The utility model provides a kind of bridge girder steel assembly tooling, including bottom plate, No. 1 tool mechanism is disposed on bottom plate from left to right, No. 2 tool mechanisms, No. 3 tool mechanisms, No. 4 tool mechanisms, No. 1 tool mechanism, No. 2 tool mechanisms, No. 3 tool mechanisms, No. 4 tool mechanisms include Y-axis sliding block, X axis sliding block, pillar, bracket, Y-axis sliding block is set on bottom plate and is slidably connected with bottom plate in front-rear direction, X axis sliding block is set on Y-axis sliding block and is slidably connected in the lateral direction with Y-axis sliding block, pillar is fixedly connected on X axis sliding block, bracket rotation is connected to post top portion.Its structure is simple, can be adjusted according to assembling shape to each tooling position, assembles bending girder steel of different shapes, and strong applicability reduces production cost.

Description

A kind of bridge girder steel assembly tooling

Technical field

The utility model relates to girder steel processing technique fields, specifically disclose a kind of bridge girder steel assembly tooling.

Background technique

With the development of steel industry, steel is widely used in bridge construction.It needs to use when bridge construction big Support construction of the girder steel of amount as bridge usually sets netted knot for whole picture girder steel to reinforce the structural strength of bridge Structure.The girder steel needs of reticular structure use many bending girder steels, by the way that several steel linkage sections are assembled into bending girder steel institute It needs bending shape and welds its head and the tail to become bending girder steel.In order to facilitate the assembly and welding of bending girder steel, usually It needs to be processed by assembly tooling, each linkage section, which is joined end to end, to be placed in tooling positions, existing girder steel dress It is fixed with tool structure, a tooling is only applicable to process a kind of bending girder steel, and assembling shape can not adjust, and it is poor for applicability, increase Production cost is added.

Utility model content

Based on this, it is necessary to be directed to prior art problem, provide a kind of bridge girder steel assembly tooling, unique knot is arranged Structure can be adjusted tooling according to assembling shape, strong applicability, reduce production cost.

To solve prior art problem, the utility model discloses a kind of bridge girder steel assembly tooling, including bottom plate, on bottom plate It is disposed with No. 1 tool mechanism, No. 2 tool mechanisms, No. 3 tool mechanisms, No. 4 tool mechanisms, No. 1 tooling machine from left to right Structure, No. 2 tool mechanisms, No. 3 tool mechanisms, No. 4 tool mechanisms include Y-axis sliding block, X axis sliding block, pillar, bracket, Y Axial slider is set on bottom plate and is slidably connected with bottom plate in front-rear direction, X axis sliding block be set on Y-axis sliding block and with Y-axis sliding block is slidably connected in the lateral direction, and pillar is fixedly connected on X axis sliding block, and bracket rotation is connected to supporting post top Portion.

Preferably, several Y-axis sliding rails are set side by side on bottom plate, Y-axis slider bottom is provided with and Y-axis sliding rail The Y-axis guide groove matched, Y-axis sliding rail are set on Y-axis guide groove and are slidably connected with Y-axis guide groove, and Y-axis slider top is passed through Wear the bolt A for being equipped with and being connected at the top of Y-axis sliding rail.

Preferably, Y-axis slider top is provided with X axis sliding rail, and X axis slider bottom is provided with and X axis sliding rail The X axis guide groove matched, X axis sliding rail are set on X axis guide groove and are slidably connected with X axis guide groove, and X axis slider top is passed through Wear the bolt B for being equipped with and being connected at the top of X axis sliding rail.

Preferably, pillar includes the column body set gradually from top to bottom and lower prop, and column body bottom is fixedly connected with Guide rod, lower prop top are provided with the guide groove with guide rod diameter matches, and guide rod is arranged on guide groove and is slidably connected with guide groove, under Cylinder side is provided through the bolt C being connected to guide groove, and bolt C is connected to guide rod side.

Preferably, guide rod includes the upper body of rod and lower body of rod being hinged, and upper body of rod top and lower body of rod bottom end are solid respectively Surely column body bottom end and lower prop top are connected to.

Preferably, upper body of rod bottom is provided with notch, is provided with and the matched arc cutting of notch, arc at the top of lower body of rod Cutting is set on notch, and upper body of rod side is provided through the bolt D being connected to notch, and bolt D is connected to arc cutting one Side.

The utility model has the following beneficial effects: the utility model discloses a kind of bridge girder steel assembly tooling, it is arranged unique Assembling structure adjusts separately No. 1 tool mechanism, No. 2 tool mechanisms, No. 3 tooling machines according to the shape of processing needed for bending girder steel The position of structure, No. 4 tool mechanisms on bottom plate pushes Y-axis sliding block to be slid back and forth along bottom plate to adjust the front and back of bracket Position pushes X axis sliding block to be moved left and right along Y-axis sliding block to adjust the left and right orientation of bracket, adjustable by rotation bracket Bracket angle props up each linkage section between the bracket on adjacent two tool mechanism respectively, each linkage section join end to end realize it is curved The assembly of girder steel is rolled over, each linkage section is welded form bending girder steel after the assembly is completed.Its structure is simple, can be according to assembly Shape is adjusted each tooling position, assembles bending girder steel of different shapes, and strong applicability reduces production cost.

Detailed description of the invention

Fig. 1 is the outline structural diagram of the utility model girder steel assembly tooling.

Fig. 2 is the partial enlargement structural representation in the portion A in the utility model Fig. 1.

Fig. 3 is the outline structural diagram of the utility model girder steel assembly.

Fig. 4 is the outline structural diagram of the upper body of rod of the utility model.

Fig. 5 is the outline structural diagram of the lower body of rod of the utility model.

Appended drawing reference are as follows: bottom plate 1,3, No. 3 tool mechanisms of tool mechanism of tool mechanism 2,2 of Y-axis sliding rail 100,1 4, No. 4 tool mechanisms 5, Y-axis sliding block 6, Y-axis guide groove 60, bolt A61, X axis sliding rail 62, X axis sliding block 7, X axis are led Slot 70, bolt B 71, pillar 8, column body 80, lower prop 81, guide rod 82, upper body of rod 820, lower body of rod 821, notch 822, arc Cutting 823, bolt D824, guide groove 83, bolt C84, bracket 9, bending girder steel 11, linkage section A110, linkage section B111, linkage section C112。

Specific embodiment

For the feature, technological means and specific purposes achieved, function that can further appreciate that the utility model, below The utility model is described in further detail in conjunction with attached drawing and specific embodiment.

Referring to figs. 1 to Fig. 5.

The utility model embodiment discloses a kind of bridge girder steel assembly tooling, including bottom plate 1, on bottom plate 1 from left to right according to It is secondary to be provided with the tool mechanism 5,1 tool mechanism 2,2 of tool mechanism 4,4 of tool mechanism 3,3 of No. 1 tool mechanism 2,2 The tool mechanism 4,4 of tool mechanism 3,3 tool mechanism 5 includes Y-axis sliding block 6, X axis sliding block 7, pillar 8, bracket 9, Y Axial slider 6 is set on bottom plate 1 and is slidably connected with bottom plate 1 in front-rear direction, and X axis sliding block 7 is set to Y-axis sliding block 6 It above and with Y-axis sliding block 6 is slidably connected in the lateral direction, pillar 8 is fixedly connected on X axis sliding block 7, and the rotation of bracket 9 connects It connects at 8 top of pillar.

When specifically used, 2, No. 2 tooling machines of No. 1 tool mechanism are adjusted separately according to the shape of processing needed for bending girder steel 11 The tool mechanism 4,4 of structure 3,3 position of the tool mechanism 5 on bottom plate 1 pushes Y-axis sliding block 6 to slide back and forth along bottom plate 1 To adjust the front and back position of bracket 9, X axis sliding block 7 is pushed to be moved left and right along Y-axis sliding block 6 to adjust the right and left of bracket 9 Position can adjust 9 angle of bracket by rotating bracket 9, linkage section A110 propped up in No. 1 tool mechanism 2 and No. 2 tool mechanism 3 On bracket 9 between, linkage section B111 is propped up between the bracket 9 on No. 2 tool mechanism 3 and No. 3 tool mechanisms 4, by linkage section C112 is propped up between the bracket 9 on No. 3 tool mechanism 4 and No. 4 tool mechanisms 5, and each linkage section joins end to end to form bending girder steel Each linkage section is welded form bending girder steel 11 after the assembly is completed by shape needed for 11.Its structure is simple, can be according to assembly Shape is adjusted each tooling position, assembles bending girder steel 11 of different shapes, and strong applicability reduces production cost.

Based on the above embodiment, several Y-axis sliding rails 100 are set side by side on bottom plate 1,6 bottom of Y-axis sliding block is provided with With the matched Y-axis guide groove 60 of Y-axis sliding rail 100, Y-axis sliding rail 100 be set on Y-axis guide groove 60 and with Y-axis guide groove 60 are slidably connected, and the bolt A61 for being connected to 100 top of Y-axis sliding rail is provided through at the top of Y-axis sliding block 6.When needing to Y When 6 front-rear position of axial slider is adjusted, when Y-axis sliding block 6 being pushed to slide back and forth along bottom plate 1, Y axial channel 60 will It is slided along Y-axis sliding rail 100, promotes 6 the moving stability of Y-axis sliding block, complete to be connected to Y-axis by bolt A61 after adjusting The positioning to Y-axis sliding block 6 is realized on sliding rail 100.

Based on the above embodiment, be provided with X axis sliding rail 62 at the top of Y-axis sliding block 6,7 bottom of X axis sliding block be provided with The matched X axis guide groove 70 of X axis sliding rail 62, X axis sliding rail 62 are set on X axis guide groove 70 and slide with X axis guide groove 70 It is dynamic to connect, the bolt B 71 for being connected to 62 top of X axis sliding rail is provided through at the top of X axis sliding block 7.It is sliding to X axis when needing When 7 left-right position of block is adjusted, push X axis sliding block 7 when horizontally slipping along Y-axis sliding block 6, X axis guide groove 70 is by edge X axis sliding rail 62 slide, promote 7 the moving stability of X axis sliding block, complete after adjustment to be connected to X axis by bolt B 71 sliding The positioning to X axis sliding block 7 is realized on rail 62.

Based on the above embodiment, pillar 8 includes the column body 80 set gradually from top to bottom and lower prop 81, column body 80 Bottom is fixedly connected with guide rod 82, and the guide groove 83 with 82 diameter matches of guide rod is provided at the top of lower prop 81, and the setting of guide rod 82 exists It is slidably connected on guide groove 83 and with guide groove 83,81 side of lower prop is provided through the bolt C84 being connected to guide groove 83, bolt C84 is connected to 82 side of guide rod.Column body 80 can be carried after release bolt C84 to move up and down to adjust 9 height and position of bracket, led Bar 82 will be slided along guide groove 83, be connected to 82 side of guide rod by bolt C84 after the completion of adjustment and realized and determine guide rod 82 Position promotes tooling applicability.

Based on the above embodiment, guide rod 82 includes the upper body of rod 820 and lower body of rod 821 being hinged, 820 top of upper body of rod It is respectively fixedly connected with 821 bottom end of lower body of rod on 81 top of 80 bottom end of column body and lower prop.Upper body of rod 820 can be along lower body of rod 821 swing to adjust 9 angle of bracket, promote tooling applicability.

Based on the above embodiment, 820 bottom of upper body of rod is provided with notch 822, is provided at the top of lower body of rod 821 and notch 822 matched arc cuttings 823, arc cutting 823 are set on notch 822, and 820 side of upper body of rod is provided through and slot The bolt D824 of 822 connection of mouth, bolt D824 are connected to 823 side of arc cutting.After unclamping bolt D824, upper body of rod 820 It can swing along lower body of rod 821 to adjust 9 angle of bracket, notch 822 will be swung along arc cutting 823, promote upper body of rod 820 swing stability, are connected to 823 side of arc cutting by bolt D824 after the completion of adjustment to realize to upper body of rod 820 Positioning.

Above embodiments only express a kind of embodiment of the utility model, and the description thereof is more specific and detailed, but not Therefore it can be interpreted as that a limitation on the scope of the patent of the present invention.It should be pointed out that for the ordinary skill people of this field For member, without departing from the concept of the premise utility, various modifications and improvements can be made, these belong to this reality With novel protection scope.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (6)

1. a kind of bridge girder steel assembly tooling, including bottom plate (1), which is characterized in that successively set from left to right on the bottom plate (1) It is equipped with No. 1 tool mechanism (2), No. 2 tool mechanisms (3), No. 3 tool mechanisms (4), No. 4 tool mechanisms (5), No. 1 tooling machine Structure (2), No. 2 tool mechanisms (3), No. 3 tool mechanisms (4), No. 4 tool mechanisms (5) are sliding including Y-axis sliding block (6), X axis Block (7), pillar (8), bracket (9), the Y-axis sliding block (6) are set on the bottom plate (1) and with the bottom plate (1) preceding Rear direction is slidably connected, and the X axis sliding block (7) is set on the Y-axis sliding block (6) and exists with the Y-axis sliding block (6) It is slidably connected on left and right directions, the pillar (8) is fixedly connected on the X axis sliding block (7), and bracket (9) rotation connects It connects at the top of the pillar (8).

2. a kind of bridge girder steel assembly tooling according to claim 1, which is characterized in that set side by side on the bottom plate (1) Several Y-axis sliding rails (100) are equipped with, Y-axis sliding block (6) bottom is provided with and the matched Y of the Y-axis sliding rail (100) Axial channel (60), the Y-axis sliding rail (100) be set on the Y-axis guide groove (60) and with the Y-axis guide groove (60) It is slidably connected, is provided through the bolt A being connected at the top of the Y-axis sliding rail (100) at the top of the Y-axis sliding block (6) (61)。

3. a kind of bridge girder steel assembly tooling according to claim 1, which is characterized in that at the top of the Y-axis sliding block (6) It is provided with X axis sliding rail (62), X axis sliding block (7) bottom is provided with and the matched X axis of the X axis sliding rail (62) Guide groove (70), the X axis sliding rail (62) are set on the X axis guide groove (70) and slide with the X axis guide groove (70) Connection, X axis sliding block (7) top are provided through the bolt B (71) being connected at the top of the X axis sliding rail (62).

4. a kind of bridge girder steel assembly tooling according to claim 1, which is characterized in that the pillar (8) includes from upper The column body (80) and lower prop (81) set gradually down, column body (80) bottom are fixedly connected with guide rod (82), institute The guide groove (83) being provided at the top of lower prop (81) with the guide rod (82) diameter matches is stated, the guide rod (82) is arranged described It is slidably connected on guide groove (83) and with the guide groove (83), lower prop (81) side is provided through and the guide groove (83) The bolt C (84) of connection, the bolt C (84) are connected to the guide rod (82) side.

5. a kind of bridge girder steel assembly tooling according to claim 4, which is characterized in that the guide rod (82) includes mutual Hinged upper body of rod (820) and lower body of rod (821), upper body of rod (820) top and the lower body of rod (821) bottom end are solid respectively Surely the column body (80) bottom end and the lower prop (81) top are connected to.

6. a kind of bridge girder steel assembly tooling according to claim 5, which is characterized in that upper body of rod (820) bottom Be provided with notch (822), be provided at the top of the lower body of rod (821) with the matched arc cutting (823) of the notch (822), The arc cutting (823) is set on the notch (822), and upper body of rod (820) side is provided through and the slot The bolt D (824) of mouth (822) connection, the bolt D (824) are connected to arc cutting (823) side.