CN204235107U - The numerical control formation equipment of non-standard stripe shape steel-wire isolator - Google Patents

Abstract

The utility model relates to the numerical control formation equipment of non-standard stripe shape steel-wire isolator.The top, both sides in base width direction is respectively provided with a linear guides arranged along base length direction, and every bar linear guides is furnished with two pieces slide block; First guide plate is fixedly connected with the slide block of two linear guides one end, and the second guide plate is fixedly connected with the slide block of the other end, and the first guide plate and the second guide plate are driven by drive unit, can locking phase near or oppositely away from; Bracket setting is at the middle part in base length direction, and core is arranged on above support, and core is fastenedly connected on support by dog screw; Core is provided with the locating slot for placing lower plate, and the first finishing die is fixedly mounted on the first guide plate, and the second finishing die is fixedly mounted on the second guide plate, and the opposite flank of the first finishing die, the second finishing die is respectively equipped with gathering sill.The utility model is retreated steadily, is shaped freely, and labour intensity is low, can replace manpower and be shaped, realize Automated assembly.

Description

The numerical control formation equipment of non-standard stripe shape steel-wire isolator

Technical field

The utility model relates to the former of steel-wire isolator, specifically one can replace manpower assembled product, realizes the numerical control formation equipment of the non-standard stripe shape steel-wire isolator of automation for being shaped in non-standard stripe shape steel-wire isolator assembling process.

Background technology

Steel-wire isolator is normally made up of steel wire rope, train wheel bridge and lower plate, and standard bar shaped steel wire rope vibration isolator to be fixedly clamped postforming with train wheel bridge and lower plate after being wound into helical form by steel cable.Current domestic production standard bar shaped steel wire rope vibration isolator, the assembly method generally taked is: the upper special frock of process equipment (curling machine) drives steel wire rope to make directed uniform circular motion, the irregular translation in left and right done by Bo Sheng mechanism (rope dialled by point machinery and manpower dials two kinds, rope) haulage cable, plays the effect of shaping.

But not standard bar shaped steel wire rope vibration isolator and standard bar shaped steel wire rope vibration isolator structure different, therefore in Product Assembly process, the plant equipment of production standard stripe shape steel-wire isolator cannot use.Shown in Fig. 3, Fig. 4 is a certain non-standard stripe shape steel-wire isolator, and first it adopt a slice train wheel bridge 14 and a slice lower plate 16 to clamp the middle part of eight independently steel wire ropes, forms steel wire rope sub-assembly 12; Then the two ends of steel wire rope each in steel wire rope sub-assembly 12 are docked, to be fixedly clamped postforming with another sheet train wheel bridge 14 and another sheet lower plate 16, during assembling, can only pass through the assembling that manpower (three people operate) completes a product.

Summary of the invention

The purpose of this utility model is to overcome the backward process means that in prior art, non-standard stripe shape steel-wire isolator relies on manpower to form in assembling process, one is provided to retreat steadily, be shaped freely, the numerical control formation equipment of the non-standard stripe shape steel-wire isolator that labour intensity is low, carrying out in vibration isolator assembling process, this numerical control formation equipment can replace manpower and be shaped, realize the object of the non-standard stripe shape steel-wire isolator of Automated assembly, be particularly suitable for the batch production of non-standard stripe shape steel-wire isolator.

Technical scheme according to the utility model provides: the numerical control formation equipment of non-standard stripe shape steel-wire isolator, it is characterized in that: comprise pedestal, linear guides, the first guide plate, the first finishing die, the second finishing die, core, dog screw, support and the second guide plate, the top, both sides in described base width direction is respectively provided with a linear guides arranged along base length direction, and every bar linear guides is furnished with two pieces slide block; Described first guide plate is fixedly connected with the slide block of two linear guides one end, and the second guide plate is fixedly connected with the slide block of two linear guides other ends, and the first guide plate and the second guide plate are driven by drive unit, can locking phase near or oppositely away from; Described Bracket setting is at the middle part in base length direction, and support to be fixed in the middle part of pedestal on installed surface; Described core is arranged on above support, and for clamping the steel wire rope sub-assembly of non-standard stripe shape steel-wire isolator between core and support, core and steel wire rope sub-assembly are fastenedly connected on support by dog screw; Described core is provided with locating slot, for placing the lower plate of non-standard stripe shape steel-wire isolator in described locating slot; Described first finishing die is fixedly mounted on the first guide plate, second finishing die is fixedly mounted on the second guide plate, the opposite flank of the first finishing die, the second finishing die is respectively equipped with gathering sill, first guide plate and the second guide plate locking phase near time drive the first finishing die and the second finishing die close in opposite directions, steel wire rope in steel wire rope sub-assembly in the gathering sill flex under action distortion of the first finishing die and the second finishing die, steel wire rope two ends gradually near and dock above core locating slot.

As further improvement of the utility model, described drive unit comprises two independently ball-screws, and two ball-screws are coaxially arranged, between two linear guides along the length direction of pedestal; The inner of two ball-screws is close to each other and on being arranged in the middle part of pedestal support respectively by the supporting of clutch shaft bearing assembly, the outer end of two ball-screws is arranged on bearing block respectively by the second bearing assembly supporting, and bearing block is arranged in the installed surface of pedestal; Described two independently each equipped nut seats of ball-screw, described first guide plate, the second guide plate are fastenedly connected on the nut seat on two ball-screws respectively; Two ball-screws are respectively furnished with a set of driving mechanism, when driving mechanism drives two ball screw turns, the nut seat on two ball-screws drive the first guide plate, the second guide plate in opposite directions near or oppositely away from.

As further improvement of the utility model, described driving mechanism comprises driven synchronous pulley, Timing Belt, stepper motor, active synchronization belt wheel and connecting plate for electric motor, connecting plate for electric motor is arranged on base ends, stepper motor is arranged on stepper motor connecting plate, the output shaft end of stepper motor installs active synchronization belt wheel, described driven synchronous pulley is arranged on ball-screw outer end, by Timing Belt connection for transmission between driven synchronous pulley and active synchronization belt wheel.

As further improvement of the utility model, described clutch shaft bearing assembly comprises support end cap, the first rolling bearing and shaft retaining ring, it is inner and spacing with shaft retaining ring that first rolling bearing is arranged on ball screw, and the first rolling bearing is contained in the installing hole on support also with bracket end cap seal dress.

As further improvement of the utility model, described second bearing assembly comprises bearing cover, locking nut and the second rolling bearing, second rolling bearing is arranged on ball screw outer end and with locking nut locking, and the second rolling bearing to be contained in bearing block and to encapsulate with bearing cover.

the utility model compared with prior art, has the following advantages:the utility model is shaped with mechanical force and replaces manpower to be shaped, significantly reduce the labour intensity of operator, the assembling solving non-standard stripe shape steel-wire isolator in the past needs the crew-served backward process means of three people, has both saved artificial, and has significantly improved again output.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is a kind of structural representation of non-standard stripe shape steel-wire isolator.

Fig. 4 is the left view of Fig. 3.

Detailed description of the invention

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

As shown in the figure: the numerical control formation equipment of the non-standard stripe shape steel-wire isolator in embodiment is primarily of pedestal 1, linear guides 2, first guide plate 3, ball screw nut seat 4, driven synchronous pulley 5, Timing Belt 6, stepper motor 7, active synchronization belt wheel 8, connecting plate for electric motor 9, ball screw 10, first finishing die 11, core 13, dog screw 15, second finishing die 17, bearing block 18, bearing cover 19, locking nut 20, rolling bearing 21, support 22, support end cap 23, rolling bearing 24, the compositions such as shaft retaining ring 25 and the second guide plate 26.

As shown in Figure 1 and Figure 2, the top, both sides of described pedestal 1 width is respectively bolted and is provided with a linear guides 2 arranged along pedestal 1 length direction, and every bar linear guides 2 is furnished with two pieces slide block; Described first guide plate 3 is fixedly connected with the slide block bolt of two linear guides 2 one end, second guide plate 26 is fixedly connected with the slide block bolt of two linear guides 2 other ends, first guide plate 3 and the second guide plate 26 are driven by drive unit, can locking phase near or oppositely away from; Described support 22 is arranged on the middle part of pedestal 1 length direction, and support 22 to be fixed by screws in the middle part of pedestal 1 on installed surface; Described core 13 is arranged on above support 22, and for clamping the steel wire rope sub-assembly 12 of non-standard stripe shape steel-wire isolator between core 13 and support 22, core 13 and steel wire rope sub-assembly 12 are fastenedly connected on support 22 by dog screw 15; Described core 13 is provided with locating slot, for placing the lower plate 16 of non-standard stripe shape steel-wire isolator in described locating slot; Described first finishing die 11 is fixedly mounted on the first guide plate 3 by screw, second finishing die 17 is fixedly mounted on the second guide plate 26 by screw, the opposite flank of the first finishing die 11, second finishing die 17 is respectively equipped with gathering sill, first guide plate 3 and the second guide plate 26 locking phase near time drive the first finishing die 11 and the second finishing die 17 close in opposite directions, steel wire rope in steel wire rope sub-assembly 12 in the gathering sill flex under action distortion of the first finishing die 11 and the second finishing die 17, steel wire rope two ends gradually near and dock above core 13 locating slot.

As shown in Figure 1 and Figure 2, in the utility model embodiment, described drive unit comprise two independently ball-screw 10, two ball-screws 10 coaxially arrange, between two linear guides 2 along the length direction of pedestal 1; The inner of two ball-screws 10 is close to each other and on being arranged in the middle part of pedestal 1 support 22 respectively by the supporting of clutch shaft bearing assembly, the outer end of two ball-screws 10 is arranged on bearing block 18 respectively by the second bearing assembly supporting, and bearing block 18 is arranged in the installed surface of pedestal 1; Described two independently each equipped nut seats 4 of ball-screw 10, described first guide plate 3, second guide plate 26 is connected on the nut seat 4 on two ball-screws 10 respectively by screw fastening; Two ball-screws 10 are respectively furnished with a set of driving mechanism, when driving mechanism drives two ball-screws 10 to rotate, the nut seat 4 on two ball-screws 10 drive the first guide plate 3, second guide plate 26 in opposite directions near or oppositely away from.

As shown in Figure 1 and Figure 2, described driving mechanism forms primarily of driven synchronous pulley 5, Timing Belt 6, stepper motor 7, active synchronization belt wheel 8 and connecting plate for electric motor 9, connecting plate for electric motor 9 is arranged on pedestal 1 end, stepper motor 7 is arranged on stepper motor 7 connecting plate, the output shaft end of stepper motor 7 installs active synchronization belt wheel 8, described driven synchronous pulley 5 is arranged on ball-screw 10 outer end, by Timing Belt 6 connection for transmission between driven synchronous pulley 5 and active synchronization belt wheel 8.

As shown in Figure 2, described clutch shaft bearing assembly forms primarily of support end cap 23, first rolling bearing 24 and shaft retaining ring 25, it is inner and spacing with shaft retaining ring 25 that first rolling bearing 24 is arranged on ball screw, and the first rolling bearing 24 is contained in the installing hole on support 22 and also encapsulates with support end cap 23.Described second bearing assembly comprises bearing cover 19, locking nut 20 and the second rolling bearing 21, second rolling bearing 21 is arranged on ball screw outer end and locks with locking nut 20, and the second rolling bearing 21 is contained in bearing block 18 and also encapsulates with bearing cover 19.

Specific works process of the present utility model and operation principle as follows:

During concrete installation application, two bottom surface bolts of pedestal 1 symmetry are installed on special Working gantry.In support 22 locating slot, put into the steel wire rope sub-assembly 12 assembled in advance, then core 13 is positioned on steel wire rope sub-assembly 12, by dog screw 15 is fastening, core 13, steel wire rope sub-assembly 12 are connected on support 22.Then lower plate 16 is put into dog screw 15 head and core 13 locating slot.

Stepper motor 7, by the different parameters of setting, gives driven synchronous pulley 5 by Timing Belt 6 power transmission by active synchronization belt wheel 8, drives ball screw to do the rotation of different directions.Nut seat 4 rectilinear motion is driven when screw mandrel rotates.Like this, after device start, two cover driving mechanisms drive the first finishing die 11, second finishing die 17 move to centre simultaneously and compress respectively, eight in steel wire rope sub-assembly 12 independently steel wire rope two ends under the guiding of the first finishing die 11, second finishing die 17 gathering sill, do flexural deformation, constantly move to centre along with the first finishing die 11, second finishing die 17 and compress, the profile of steel wire rope two ends and core 13 gathering sill is also fitted thereupon, when after the docking of steel wire rope two ends, cover train wheel bridge 14, tighten screw, namely complete the assembling of product.

Claims (5)

1. the numerical control formation equipment of non-standard stripe shape steel-wire isolator, it is characterized in that: comprise pedestal (1), linear guides (2), the first guide plate (3), the first finishing die (11), the second finishing die (17), core (13), dog screw (15), support (22) and the second guide plate (26), the top, both sides of described pedestal (1) width is respectively provided with a linear guides (2) arranged along pedestal (1) length direction, and every bar linear guides (2) is furnished with two pieces slide block, described first guide plate (3) is fixedly connected with the slide block of two linear guides (2) one end, second guide plate (26) is fixedly connected with the slide block of two linear guides (2) other ends, first guide plate (3) and the second guide plate (26) are driven by drive unit, can locking phase near or oppositely away from, described support (22) is arranged on the middle part of pedestal (1) length direction, and support (22) is fixed on the installed surface of pedestal (1) middle part, described core (13) is arranged on support (22) top, for clamping the steel wire rope sub-assembly (12) of non-standard stripe shape steel-wire isolator between core (13) and support (22), core (13) and steel wire rope sub-assembly (12) are fastenedly connected on support (22) by dog screw (15), described core (13) is provided with locating slot, for placing the lower plate (16) of non-standard stripe shape steel-wire isolator in described locating slot, described first finishing die (11) is fixedly mounted on the first guide plate (3), second finishing die (17) is fixedly mounted on the second guide plate (26), first finishing die (11), the opposite flank of the second finishing die (17) is respectively equipped with gathering sill, first guide plate (3) and the second guide plate (26) locking phase near time drive the first finishing die (11) and the second finishing die (17) close in opposite directions, steel wire rope in steel wire rope sub-assembly (12) is out of shape at the gathering sill flex under action of the first finishing die (11) and the second finishing die (17), steel wire rope two ends gradually near and dock above core (13) locating slot.

2. the numerical control formation equipment of non-standard stripe shape steel-wire isolator as claimed in claim 1, it is characterized in that: described drive unit comprises two independently ball-screws (10), two ball-screws (10) are coaxially arranged along the length direction of pedestal (1), are positioned between two linear guides (2); The inner of two ball-screws (10) close to each other and respectively by clutch shaft bearing assembly supporting be arranged on pedestal (1) middle part support (22) on, the outer end of two ball-screws (10) is arranged on bearing block (18) respectively by the second bearing assembly supporting, and bearing block (18) is arranged in the installed surface of pedestal (1); Described two independently each equipped nut seats (4) of ball-screw (10), described first guide plate (3), the second guide plate (26) are fastenedly connected on the nut seat (4) on two ball-screws (10) respectively; Two ball-screws (10) are respectively furnished with a set of driving mechanism, when driving mechanism drives two ball-screws (10) to rotate, the nut seat (4) on two ball-screws (10) drive the first guide plate (3), the second guide plate (26) in opposite directions near or oppositely away from.

3. the numerical control formation equipment of non-standard stripe shape steel-wire isolator as claimed in claim 2, it is characterized in that: described driving mechanism comprises driven synchronous pulley (5), Timing Belt (6), stepper motor (7), active synchronization belt wheel (8) and connecting plate for electric motor (9), connecting plate for electric motor (9) is arranged on pedestal (1) end, stepper motor (7) is arranged on stepper motor (7) connecting plate, the output shaft end of stepper motor (7) installs active synchronization belt wheel (8), described driven synchronous pulley (5) is arranged on ball-screw (10) outer end, by Timing Belt (6) connection for transmission between driven synchronous pulley (5) and active synchronization belt wheel (8).

4. the numerical control formation equipment of non-standard stripe shape steel-wire isolator as claimed in claim 2, it is characterized in that: described clutch shaft bearing assembly comprises support end cap (23), the first rolling bearing (24) and shaft retaining ring (25), it is inner and spacing with shaft retaining ring (25) that first rolling bearing (24) is arranged on ball screw, and the first rolling bearing (24) is contained in the installing hole on support (22) also with support end cap (23) encapsulation.

5. the numerical control formation equipment of non-standard stripe shape steel-wire isolator as claimed in claim 2, it is characterized in that: described second bearing assembly comprises bearing cover (19), locking nut (20) and the second rolling bearing (21), second rolling bearing (21) is arranged on ball screw outer end and locks with locking nut (20), and the second rolling bearing (21) is contained in bearing block (18) also with bearing cover (19) encapsulation.