CN204867271U - Whole structure of fast speed adjusting of numerical control hammer die positioning - Google Patents

Abstract

The utility model discloses a whole structure of the fast speed adjusting of numerical control mould hammer die positioning belongs to numerical control mould hammer mould technical field. This structure includes fixed connection on card child, fixed connection lower calorie of child on the die holder on the tup, goes up mould and lower mould and sets up respectively in last calorie of child blocks the child under, fixed the setting in last card child of last mould, go up and be provided with the die crushion piece between mould one side and the last calorie child, pass through last drift between opposite side and the last calorie child and fix, lower mould one side and lower calorie child between be provided with the lower mould cushion, pass through the hyposphene ferropexy between opposite side and the lower calorie child, the chucking is provided with eccentric key between the lower mould of fore -and -aft direction and lower calorie child, the position that the lower mould blocks the child fore -and -aft direction under is through eccentric key adjustment. This mechanism has made things convenient for quick installation and adjustment to the mould, and maneuverability is strong.

Description

Numerical control hammer mould location structure for quick adjusting

Technical field

The utility model relates to a kind of die adjustment structure, and particularly a kind of numerical control mould hammer mould location structure for quick adjusting, belongs to numerical control mould hammer technical field of mold.

Background technology

In recent years along with the develop rapidly of automobile, aerospace, agricultural, operating theater instruments and hand-held tool industry, digital complete hydraulic die forging hammer with it at a high speed, efficient and economic dispatch advantage is progressively widely used in forging industry.But in the replacing adjustment process of numerical control hammer mould, because of the reason of traditional locate mode, in its die adjustment position fixing process, operability is poor, and job step is loaded down with trivial details, has had a strong impact on the production efficiency of equipment.Fig. 1 is the schematic diagram of traditional moulds locate mode, and in figure, each mark is depicted as: 11: former upper drift; 12: former patrix; 13: former positioning key; 21: former lower drift; 22: former counterdie; 23: former lower positioning key; In the original mould location structure shown in Fig. 1, traditional mould positioning mechanism is that single drift is fixed, in this die positioning structure, mould positioning key belongs to sunk key, the left and right adjustment of mould needs at mould without drift side plug stainless steel gasket, front and back adjustment need install stainless steel gasket additional before and after positioning key, and need mould to be taken out completely and could adjust positioning key in the process of taking out in the adjustment of positioning key, complex operation cuts inconvenience.Therefore how under the antecedent basis ensureing mould accurate positioning, accelerating mould and install and become problem anxious to be resolved with the speed of adjustment, is the key point improving numerical control hammer production efficiency.

Summary of the invention

The purpose of this utility model is to overcome the problems referred to above existed in current numerical control die hammer mould positioning regulating structure, provides a kind of numerical control mould to hammer mould location structure for quick adjusting into shape.

For realizing the purpose of this utility model, the technical scheme that the utility model adopts is: numerical control hammer mould location structure for quick adjusting, comprise the upper card tire be fixedly connected on tup, be fixedly connected on the lower card tire on die holder, upper die and lower die are separately positioned on card tire, in lower card tire, described patrix is fixedly installed in card tire, patrix cushion block is provided with between patrix side and upper card tire, fixed by upper drift between opposite side and upper card tire, counterdie cushion block is provided with between described counterdie side and lower card tire, by hyposphene ferropexy between opposite side and lower card tire, clamp between the counterdie and lower card tire of fore-and-aft direction and be provided with eccentric key, counterdie is adjusted by eccentric key in the position of lower card tire fore-and-aft direction, further, described upper drift and lower drift are positioned at the same side of mould, further, two pin of described eccentric key are separately positioned in the groove of lower card tire and die side.

Positive Advantageous Effects of the present utility model is: the Design of Dies of this device is insert die version, mold adopts fixing non-adjustable structure, bed die adopts eccentric key to adjust precision before and after mould, the mode of cushion block adjustment mould left and right, side precision, quick position and the adjustment of mould are come, this mechanism facilitates Fast Installation to mould and adjustment, workable.

Accompanying drawing explanation

Fig. 1 is original die adjustment structural representation.

Fig. 2 is schematic front view of the present utility model.

Fig. 3 is schematic top plan view of the present utility model.

Fig. 4 is eccentric key schematic diagram of the present utility model.

Detailed description of the invention

In order to explain enforcement of the present utility model more fully, provide embodiment of the present utility model.These embodiments are only to elaboration of the present utility model, do not limit scope of the present utility model.

2-4 does explanation detailed further to the utility model by reference to the accompanying drawings, is respectively labeled as in accompanying drawing: 31: now go up drift, 32: existing patrix, 33: upper card tire, 34: patrix cushion block, 41: now drift, 42: now mould, 43: lower card tire, 44: counterdie cushion block, 45: eccentric key, 451: eccentric key pin one, 452: eccentric key pin two, as shown in drawings, by upper card tire 33, lower card tire 43, patrix cushion block 34, counterdie cushion block 34, now go up drift 31, now drift 41, eccentric key composition, eccentric key has two key pin, be respectively 451, 452, two key pin are separately positioned in the groove of lower card tire and die side, wherein go up card tire, lower card tire is connected with die holder with tup respectively, and it is fixing irremovable, existing mold is by now going up drift and upper card tire is fixedly linked irremovable, when adjusting mould, if front and back mismatch, by changing eccentric key to adjust, and only need unclamp now drift when changing, without the need to module of slinging, if left and right mismatch, adjust by changing counterdie cushion block.This mechanism facilitates Fast Installation to mould and adjustment, workable.

After detailed description embodiment of the present utility model, the personage being familiar with this technology can be well understood to, do not departing under above-mentioned claim and spirit and can carry out various change and amendment, all above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all belong to the scope of technical solutions of the utility model, and the utility model is not also limited to the embodiment of example in description.

Claims (3)

1. numerical control hammer mould location structure for quick adjusting, comprise the upper card tire be fixedly connected on tup, be fixedly connected on the lower card tire on die holder, upper die and lower die are separately positioned on card tire, in lower card tire, it is characterized in that: described patrix is fixedly installed in card tire, patrix cushion block is provided with between patrix side and upper card tire, fixed by upper drift between opposite side and upper card tire, counterdie cushion block is provided with between described counterdie side and lower card tire, by hyposphene ferropexy between opposite side and lower card tire, clamp between the counterdie and lower card tire of fore-and-aft direction and be provided with eccentric key, counterdie is adjusted by eccentric key in the position of lower card tire fore-and-aft direction.

2. numerical control hammer mould location according to claim 1 structure for quick adjusting, is characterized in that: described upper drift and lower drift are positioned at the same side of mould.

3. numerical control hammer mould location according to claim 1 structure for quick adjusting, is characterized in that: two pin of described eccentric key are separately positioned in the groove of lower card tire and die side.