CN105151842A - Feeding device of hydraulic torque converter worm gear blade profiling mechanism - Google Patents

Abstract

The invention provides a feeding device of a hydraulic torque converter worm gear blade profiling mechanism. The feeding device comprises a base, a feeding assembly and a stock bin. A feeding groove is formed in the upper end face of the base. The height of the feeding groove is matched with that of blade raw materials. A discharge port is formed in the front portion of the feeding groove. The discharge port penetrates the lower end face of the base. The stock bin is fixed to the base. A feeding channel is formed in the stock bin. The feeding channel is communicated with the feeding groove of the base. The feeding assembly at least comprises a feeding push plate. The height of the feeding push plate is matched with that of the blade raw materials. The feeding push plate stretches into the feeding groove from the rear end face of the base. A chamfer is formed between the front end face and the upper end face of the feeding push plate. The feeding push plate is made to move towards the front portion of the feeding groove. The blade raw materials in the feeding groove are pushed forwards gradually till the raw materials are pushed by the feeding push plate to the discharge port. The blade raw materials enter the hydraulic torque converter worm gear blade profiling mechanism through the discharge port. In this way, the blade raw materials can be continuously fed into the hydraulic torque converter worm gear blade profiling mechanism.

Description

The feed arrangement of transformer turbine blade tamping mechanism

Technical field

The present invention relates to a kind of feed arrangement, particularly a kind of feed arrangement of transformer turbine blade tamping mechanism.

Background technology

The turbine blade of turbine transformer utilizes transformer turbine blade tamping mechanism to carry out die mould operation to leaf material usually, make turbine blade, but transformer turbine blade tamping mechanism adopts artificial loading, its operation mainly utilizes workman leaf material manually to be put into transformer turbine blade tamping mechanism, after completing die mould operation, manual feeding again, there is following shortcoming in aforesaid operations: one, labour intensity is large; Two, efficiency is low; Three, safety is lower.

Summary of the invention

Technical matters to be solved by this invention is to provide the feed arrangement of a kind of structure transformer turbine blade tamping mechanism simple, easy to use.

For solving the problems of the technologies described above, the invention provides a kind of feed arrangement of transformer turbine blade tamping mechanism, comprise base, feeding material component and feed bin, base upper surface has chute feeder, the height of the high fit leaf material of chute feeder, chute feeder front portion has discharge port, discharge port runs through the lower surface of base, feed bin is fixed on base, the feeding-passage had in feed bin, feeding-passage communicates with the chute feeder of base, and discharge port is in the front side of feed bin at horizontal surface projected position at horizontal surface projected position;

Feeding material component at least comprises feeding push pedal, the height of the high fit leaf material of feeding push pedal, and feeding push pedal is stretched into chute feeder from base rear end face, has chamfering between the front end face of feeding push pedal and upper surface.

After adopting such structure, make feeding push pedal mobile to chute feeder front portion, and progressively the leaf material in chute feeder is carried out forward, until leaf material pushes in discharge port by feeding push pedal, leaf material enters in transformer turbine blade tamping mechanism through discharge port, and so forth, can continuously leaf material be sent in transformer turbine blade tamping mechanism;

And between the front end face of feeding push pedal and upper surface, have chamfering can prevent in propelling movement process, avoid leaf material and bin bottom to block, and deform, affect the following process of leaf material.

Technology contents for a better understanding of the present invention, below by the feed arrangement of this transformer turbine blade tamping mechanism referred to as this feed arrangement.

The feeding material component of this feed arrangement also comprises cylinder, and cylinder is fixed on the rear side of feeding push pedal, and the piston rod of cylinder is fixedly connected with feeding push pedal, piston rod move away to consistent with the length direction of chute feeder; After adopting such structure, the reciprocating feature of cylinder can be utilized, improve the efficiency of processing.

The feeding push pedal upper surface of this feed arrangement has lightening grooves.

Accompanying drawing explanation

Fig. 1 is the block diagram of this feed arrangement embodiment.

Fig. 2 is the birds-eye view of this feed arrangement embodiment.

Fig. 3 is that Fig. 2 is along A-A direction view.

Detailed description of the invention

(in Fig. 2, eliminate cylinder and leaf material) as shown in Figures 1 to 3

This feed arrangement comprises base 1, feeding material component and feed bin 2.

Base 1 upper surface has the chute feeder 11 agreeing with leaf material 5 size, the height of the high fit leaf material 5 of chute feeder 11, and described chute feeder 11 is forward and backward trend, and chute feeder 11 front portion has discharge port 12, and discharge port 12 runs through the lower surface of base 1.

Feed bin 2 is vertically fixed on base 1, the feeding-passage 21 agreeing with leaf material 5 size is had in feed bin 2, feeding-passage 21 runs through the upper and lower end face of feed bin 2, feeding-passage 21 communicates with the chute feeder 11 of base 1, and discharge port 12 is in the front side of feed bin 2 at horizontal surface projected position at horizontal surface projected position;

Feeding material component comprises feeding push pedal 3 and cylinder 4, the height of the high fit leaf material 5 of feeding push pedal 3, feeding push pedal 3 is stretched into chute feeder 11 from base 1 aft end face, chamfering is had between the front end face of feeding push pedal 3 and upper surface, feeding push pedal 3 upper surface has lightening grooves 31, cylinder 4 is fixed on the rear side of feeding push pedal 3, and the piston rod 41 of cylinder 4 is fixedly connected with feeding push pedal 3, moving away to consistent with the length direction of chute feeder 11 of piston rod 41.

During use, the stacked feeding-passage 21 putting into feed bin 2 of multiple leaf material 5, under gravity, the leaf material 5 of bottom falls in chute feeder 11 through feeding-passage 21, because the limitation in height of chute feeder 11, a leaf material 5 is only had to fall in chute feeder 11;

When piston rod 41 is in the minimum stroke of cylinder 4, feeding push pedal 3 be in the rear side of feed bin 2 at horizontal surface projected position at horizontal surface projected position, it is now the initial position of feeding push pedal 3, start cylinder 4, the piston rod 41 of cylinder 4 drives feeding push pedal 3 mobile to chute feeder 11 front portion, and progressively the leaf material 5 in chute feeder 11 is carried out forward, until piston rod 41 arrives the range of cylinder 4, simultaneously, leaf material 5 pushes in discharge port 12 by feeding push pedal 3, and leaf material 5 enters in transformer turbine blade tamping mechanism through discharge port 12;

Start cylinder 4, when piston rod 41 drives feeding push pedal 3 to move to initial position, new leaf material 5 falls in chute feeder 11 in self gravitation effect, and so forth, can be successively delivered in transformer turbine blade tamping mechanism by leaf material 5.

Above-described is only one embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, under the premise without departing from the principles of the invention, can also make some modification and improvement, and these also should be considered as belonging to protection scope of the present invention.

Claims (3)

1. the feed arrangement of a transformer turbine blade tamping mechanism, it is characterized by: comprise base, feeding material component and feed bin, base upper surface has chute feeder, the height of the high fit leaf material of chute feeder, chute feeder front portion has discharge port, and discharge port runs through the lower surface of base, feed bin is fixed on base, the feeding-passage had in feed bin, feeding-passage communicates with the chute feeder of base, and discharge port is in the front side of feed bin at horizontal surface projected position at horizontal surface projected position;

Feeding material component at least comprises feeding push pedal, the height of the high fit leaf material of feeding push pedal, and feeding push pedal is stretched into chute feeder from base rear end face, has chamfering between the front end face of feeding push pedal and upper surface.

2. the feed arrangement of transformer turbine blade tamping mechanism according to claim 1, is characterized in that:

Described feeding material component also comprises cylinder, and cylinder is fixed on the rear side of feeding push pedal, and the piston rod of cylinder is fixedly connected with feeding push pedal, moving away to consistent with the length direction of chute feeder of piston rod.

3. the feed arrangement of transformer turbine blade tamping mechanism according to claim 1, is characterized in that:

Feeding push pedal upper surface has lightening grooves.