CN205733802U - Boring, chamfering, tapping all-in-one - Google Patents

Abstract

This utility model open a kind of boring, chamfering, tapping all-in-one, this all-in-one includes: rotation dish, loading assemblies, boring assemblies, chamfer angle component, tapping assembly and blanking assembly, rotation dish is provided with multiple locating slot, locating slot is used for placing part, and turn disc drives part to change at different station；Loading assemblies is for being transported to part in the locating slot on rotation dish from a upper station；Boring assemblies is for realizing boring to the part in locating slot；Chamfer angle component is for realizing chamfering to the part in locating slot；Tapping assembly is for realizing tapping to the part in locating slot；Blanking assembly is for being transported to next station by the part in locating slot from locating slot.A kind of boring of this utility model, chamfering, tapping all-in-one can be effectively improved production efficiency and the quality of production of part, it is ensured that the degree of accuracy of part.

Description

Boring, chamfering, tapping all-in-one

Technical field

This utility model relates to a kind of boring, chamfering, tapping all-in-one.

Background technology

In the manufacturing process of part, need part is holed, chamfering, tapping etc. A series of operation.Existing process equipment can only carry out the process operation of unification to part, As boring machine is only capable of holing part.The most many processing, then need all Part is after this operation is fully completed, then is processed in later operation, such as: first to entirely After portion's part is holed, then part is carried out chamfer machining.This kind of mode of production inefficiency, Cycle is long, and needs to position this, error easily occurs, and quality of production precision is the best.

Therefore one framework is simple, production efficiency and the boring of the quality of production can be effectively improved, fall Angle, tapping all-in-one urgently propose.

Utility model content

In order to solve above-mentioned technical problem, the utility model proposes a kind of boring, chamfering, Tapping all-in-one, this all-in-one can be effectively improved production efficiency and the quality of production of part, protects The degree of accuracy of card part.

In order to achieve the above object, the technical solution of the utility model is as follows:

Boring, chamfering, tapping all-in-one include: rotation dish, with device of rotation driving transmission even Connecing, be provided with multiple locating slot on rotation dish, locating slot is used for placing part, rotates and drives dress Putting driving turn disc drives part to change at different station；Loading assemblies, for by part It is transported in the locating slot on rotation dish from a upper station；Boring assemblies, for locating slot Interior part realizes boring；Chamfer angle component, for realizing chamfering to the part in locating slot；Attack Dental assembly, for realizing tapping to the part in locating slot；Blanking assembly, for by locating slot Interior part is transported to next station from locating slot；Loading assemblies, boring assemblies, chamfer angle component, Tapping assembly and blanking assembly are uniformly arranged on the outside of rotation dish.

The boring of this utility model one, chamfering, tapping all-in-one machine structure simply utilize rotation dribbling Dynamic part is changed at different station, and loading assemblies is for being transported to rotate from a upper station by part In locating slot on dish；Boring assemblies is for realizing boring to the part in locating slot；Chamfering group Part is for realizing chamfering to the part in locating slot；Tapping assembly is for the part in locating slot Realize tapping；Blanking assembly is in from locating slot, the part in locating slot is transported to next station.

The boring of this utility model one, chamfering, tapping all-in-one are carried out between different operations Handover operation, its part is arranged in locating slot, accurate positioning, it is not necessary to the weight when changing operation Newly position, production efficiency and the quality of production of part can be effectively improved, it is ensured that part Degree of accuracy.

On the basis of technique scheme, also can do and improve as follows:

As preferred scheme, tapping assembly includes: single shaft tapping assembly and Multiaxial tapping assembly, Single shaft tapping assembly for realizing single tapping to the part in locating slot, and Multiaxial tapping assembly is used for Part in locating slot is realized many tappings；

Loading assemblies, boring assemblies, chamfer angle component, single shaft tapping assembly, Multiaxial tapping assembly And blanking assembly is uniformly arranged on the outside of rotation dish.

Use above-mentioned preferred scheme, simple in construction, single shaft tapping assembly and Multiaxial tapping assembly For meeting different part process requirements.

As preferred scheme, being uniformly provided with multiple fixed block on rotation dish, locating slot is arranged On fixed block.

Using above-mentioned preferred scheme, simple in construction, it is convenient to install, if there is abrasion in locating slot, Location is not accurate, directly changes fixed block, cost-effective.

As preferred scheme, loading assemblies includes: vibrating disk and conveyer belt, conveyer belt One end is connected with vibrating disk, and the opposite sides of the other end of conveyer belt is respectively provided with one piece of guiding respectively Plate, the bore of the targeting port that the two pieces of guide plates being oppositely arranged are formed is along conveyer belt transport part Direction is gradually reduced.

Use above-mentioned preferred scheme, it is ensured that what part can be stable is sent to location from conveyer belt In groove.

As preferred scheme, fixed block also has gathering sill, gathering sill and guide plate phase Join.

Use above-mentioned preferred scheme, it is ensured that what part can be stable is sent to location from conveyer belt In groove.

As preferred scheme, guide plate includes location division and the conveyer belt being connected with gathering sill The fixed part connected and the guide part connecting location division and fixed part, the cross section of guide part is arc Shape.

Using above-mentioned preferred scheme, part will not be caused damage by curved guide part.

As preferred scheme, blanking assembly includes: adsorbing mechanism and with adsorbing mechanism transmission The transfer device connected, adsorbing mechanism is for adsorbing the part in locating slot, and transfer device drives Adsorbing mechanism lifts and/or moves horizontally.

Use above-mentioned preferred scheme, simple in construction, effectively part can be carried out blanking.

As preferred scheme, adsorbing mechanism includes: adsorption plate and vaccum-pumping equipment, is inhaling The adsorption plane of attached plate is provided with multiple equally distributed adsorption hole, and adsorption hole passes through aspiration channel and takes out Vacuum equipment connects.

Using above-mentioned preferred scheme, simple in construction, absorption affinity is uniform.

As preferred scheme, inside adsorption plate, it is communicated with the adsorbent chamber of all adsorption holes Body, absorption cavity is connected with vaccum-pumping equipment by aspiration channel.

Above-mentioned preferred scheme, 1 adsorption plate is used only to need 1 aspiration channel just can meet suction The effect of attached part, more cost-effective, it is easily controlled.

As preferred scheme, being provided with attraction grooves on the adsorption plane of adsorption plate, adsorption hole is equal Even it is distributed in inside attraction grooves.

Using above-mentioned preferred scheme, the absorption of part is more stable.

Accompanying drawing explanation

Boring that Fig. 1 provides for this utility model embodiment, chamfering, the structure of tapping all-in-one Schematic diagram.

Fig. 2 is A portion partial enlarged drawing in Fig. 1.

Boring that Fig. 3 provides for this utility model embodiment, chamfering, the vertical view of tapping all-in-one Figure.

The structural representation of the loading assemblies that Fig. 4 provides for this utility model embodiment.

Fig. 5 is B portion partial enlarged drawing in Fig. 4.

The structural representation of the boring assemblies that Fig. 6 provides for this utility model embodiment.

The structural representation of the chamfer angle component that Fig. 7 provides for this utility model embodiment.

The structural representation of the single shaft tapping assembly that Fig. 8 provides for this utility model embodiment.

The structural representation of the Multiaxial tapping assembly that Fig. 9 provides for this utility model embodiment.

The structural representation of the guide plate that Figure 10 provides for this utility model embodiment.

Wherein: 1 rotation dish, 2 loading assemblies, 21 vibrating disks, 22 conveyer belts, 23 guide plates, 231 location divisions, 232 fixed parts, 233 guide parts, 3 boring assemblies, 4 chamfer angle components, 51 Single shaft tapping assembly, 52 Multiaxial tapping assemblies, 6 blanking assemblies, 61 adsorption plates, 62 take out true Null device, 63 adsorption holes, 7 fixed blocks, 71 locating slots, 72 gathering sills.

Detailed description of the invention

Describe preferred implementation of the present utility model below in conjunction with the accompanying drawings in detail.

In order to reach the purpose of this utility model, boring, chamfering, wherein the one of tapping all-in-one In a little embodiments,

As shown in figs 1-9, boring, chamfering, tapping all-in-one include: rotation dish 1, feeding Assembly 2, boring assemblies 3, chamfer angle component 4, single shaft tapping assembly 51, Multiaxial tapping assembly 52 and blanking assembly 6.Loading assemblies 2, boring assemblies 3, chamfer angle component 4, single shaft tapping Assembly 51, Multiaxial tapping assembly 52 and blanking assembly 6 are uniformly arranged on outside rotation dish 1 Side.

Rotation dish 1 is in transmission connection with device of rotation driving (not shown), at rotation dish 1 On be uniformly provided with six fixed blocks 7, fixed block 7 is provided with locating slot 71.Locating slot 71 For placing part, device of rotation driving drives rotation dish 1 to rotate drive part at different station Conversion.

Loading assemblies 2 is for the locating slot 71 being transported on rotation dish 1 from a upper station by part In.Loading assemblies 2 includes: vibrating disk 21 and conveyer belt 22, one end of conveyer belt 22 with Vibrating disk 21 connects, and the opposite sides of the other end of conveyer belt 22 is respectively provided with one piece of guiding respectively Plate 23, the bore of the targeting port that the two pieces of guide plates 23 being oppositely arranged are formed is along conveyer belt 22 The direction of transport part is gradually reduced.

Boring assemblies 3 is for realizing boring to the part in locating slot 71；Chamfer angle component 4 is used In the part in locating slot 71 is realized chamfering；Single shaft tapping assembly 51 is for locating slot 71 Interior part realizes single tapping, and Multiaxial tapping assembly 52 is for real to the part in locating slot 71 The most tappings.

Blanking assembly 6 is for being transported to next work by the part in locating slot 71 from locating slot 71 Position, blanking assembly 6 includes: adsorbing mechanism and the transfer device being in transmission connection with adsorbing mechanism (not shown), adsorbing mechanism is for adsorbing the part in locating slot 71, transfer device Drive adsorbing mechanism lifting and move horizontally.Adsorbing mechanism includes: adsorption plate 61 and take out true Null device 62 (not shown), is provided with multiple uniform point on the adsorption plane of adsorption plate 61 The adsorption hole 63 of cloth, adsorption hole is by aspiration channel (not shown) and vaccum-pumping equipment 62 Connect.

The boring of this utility model one, chamfering, tapping all-in-one machine structure simply utilize rotation dish 1 Driving part to change at different station, loading assemblies is for being transported to turn from a upper station by part In locating slot 71 on Moving plate 1；Boring assemblies 3 is for realizing boring to the part in locating slot Hole；Chamfer angle component 4 is for realizing chamfering to the part in locating slot 71；Tapping assembly is used for Part in locating slot is realized tapping；Blanking assembly 6 in by the part in locating slot 71 from Locating slot 71 is transported to next station.

A kind of boring of this utility model, chamfering, the having the beneficial effect that of tapping all-in-one:

First, utilize rotation dish 1 to drive part to switch over operation between different operations, zero Part is arranged in locating slot 71, accurate positioning, it is not necessary to re-start location when changing operation, Production efficiency and the quality of production of part can be effectively improved, it is ensured that the degree of accuracy of part.

Second, locating slot 71 is arranged on fixed block 7, simple in construction, and it is convenient to install, if There is abrasion in locating slot 71, and location is not accurate, directly changes fixed block 7, saves into This.

3rd, the bore of the targeting port that the two pieces of guide plates 23 being oppositely arranged are formed is along conveyer belt The direction of 22 transport parts is gradually reduced, it is ensured that what part can be stable transmits from conveyer belt 22 In locating slot 71, guide effect is good.

In order to optimize implementation result of the present utility model further, at other embodiment In, remaining feature technology is identical, and difference is, also has gathering sill 72 on fixed block 7, Gathering sill 72 matches with guide plate 23.

Use the scheme of above preferred embodiment, it is ensured that part can be stable from conveyer belt 22 It is sent in locating slot 71.

As shown in Figure 10, further, guide plate 23 includes the location being connected with gathering sill 72 Fixed part 232 that portion 231 is connected with conveyer belt 22 and connect location division 231 and fixed part The guide part 233 of 232, the cross section of guide part 233 is curved.

Using the scheme of above preferred embodiment, part will not be made by curved guide part 233 Become damage.

In order to optimize implementation result of the present utility model further, at other embodiment In, remaining feature technology is identical, and difference is, is communicated with inside adsorption plate 61 The absorption cavity (not shown) of all adsorption holes 63, adsorbs cavity (not shown) It is connected with vaccum-pumping equipment 62 by aspiration channel (not shown).

Using the scheme of above preferred embodiment, 1 adsorption plate only needs 1 aspiration channel the most permissible Meet the effect of adsorbent parts, more cost-effective, it is easily controlled.

Further, the adsorption plane of adsorption plate 61 is provided with attraction grooves (not shown), Adsorption hole 63 is uniformly distributed in inside attraction grooves.

Using the scheme of above preferred embodiment, the absorption of part is more stable.

Above is only preferred implementation of the present utility model, it is noted that for ability For the those of ordinary skill in territory, on the premise of creating design without departing from this utility model, Can also make some deformation and improvement, these broadly fall into protection domain of the present utility model.

Claims (10)

1. boring, chamfering, tapping all-in-one, it is characterised in that including:

Rotation dish, is in transmission connection with device of rotation driving, is provided with multiple location on described rotation dish Groove, described locating slot is used for placing part, and described device of rotation driving drives described turn disc Part is driven to change at different station；

Loading assemblies, for being transported to part in the locating slot on described rotation dish from a upper station；

Boring assemblies, for realizing boring to the part in described locating slot；

Chamfer angle component, for realizing chamfering to the part in described locating slot；

Tapping assembly, for realizing tapping to the part in described locating slot；

Blanking assembly, for being transported to next work by the part in described locating slot from described locating slot Position；

Described loading assemblies, described boring assemblies, described chamfer angle component, described tapping assembly and Blanking assembly is uniformly arranged on the outside of described rotation dish.

Boring the most according to claim 1, chamfering, tapping all-in-one, it is characterised in that institute Stating tapping assembly to include: single shaft tapping assembly and Multiaxial tapping assembly, described single shaft tapping assembly is used In the part in described locating slot realizes single tapping, described Multiaxial tapping assembly is for described fixed Part in the groove of position realizes many tappings；

Described loading assemblies, described boring assemblies, described chamfer angle component, described single shaft tapping assembly, Described Multiaxial tapping assembly and blanking assembly are uniformly arranged on the outside of described rotation dish.

Boring the most according to claim 1 and 2, chamfering, tapping all-in-one, it is characterised in that Being uniformly provided with multiple fixed block on described rotation dish, described locating slot is arranged on described fixed block.

Boring the most according to claim 3, chamfering, tapping all-in-one, it is characterised in that institute State loading assemblies to include: vibrating disk and conveyer belt, one end of described conveyer belt and described vibrating disk Connecting, the opposite sides of the other end of described conveyer belt is respectively provided with one piece of guide plate respectively, relatively sets The bore of the targeting port that the two pieces of guide plates put are formed transports the direction of part gradually along described conveyer belt Reduce.

Boring the most according to claim 4, chamfering, tapping all-in-one, it is characterised in that Also having gathering sill on described fixed block, described gathering sill matches with described guide plate.

Boring the most according to claim 5, chamfering, tapping all-in-one, it is characterised in that institute State the fixed part that guide plate includes that the location division being connected with described gathering sill is connected with described conveyer belt And connecting the guide part of described location division and described fixed part, the cross section of described guide part is curved.

Boring the most according to claim 1 and 2, chamfering, tapping all-in-one, it is characterised in that Described blanking assembly includes: adsorbing mechanism and the transfer device being in transmission connection with described adsorbing mechanism, Described adsorbing mechanism is for adsorbing the part in described locating slot, and described transfer device drives described suction Random structure lifts and/or moves horizontally.

Boring the most according to claim 7, chamfering, tapping all-in-one, it is characterised in that institute State adsorbing mechanism to include: adsorption plate and vaccum-pumping equipment, the adsorption plane of described adsorption plate sets Having multiple equally distributed adsorption hole, described adsorption hole is by aspiration channel with described vaccum-pumping equipment even Connect.

Boring the most according to claim 8, chamfering, tapping all-in-one, it is characterised in that Being communicated with the absorption cavity of all described adsorption holes inside described adsorption plate, described absorption cavity leads to Cross aspiration channel to be connected with vaccum-pumping equipment.

Boring the most according to claim 9, chamfering, tapping all-in-one, it is characterised in that Being provided with attraction grooves on the adsorption plane of described adsorption plate, described adsorption hole is uniformly distributed in described suction Attached inside grooves.