Pepper pounding processing device
Technical Field
The invention relates to a pepper pounding processing device.
Background
The processing of the paste peppers is generally to be pounded into powder after being dried in the sun or dried, manual operation is generally adopted in the prior art, and a large device is generally adopted for pounding uniformly for large-batch processing, but in practice, the mode is difficult to coordinate contradictions between large-batch processing and small-batch processing.
Disclosure of Invention
In order to solve the technical problems, the invention provides a pepper pounding processing device which is arranged through a cross translation block and other structures, so that pounding processing can be performed on a large scale or a small scale, adjustment is convenient, energy is saved, and consumption is reduced.
The invention is realized by the following technical scheme.
The invention provides a pepper pounding processing device which comprises a pounding hammer; the hammer of pounding is the hemispheroid hammer, the hammer of pounding is fixed in the movable block bottom, the movable block passes through the telescopic link liftable to be fixed in flexible control box bottom, flexible control box is fixed in cross translation piece bottom, the crisscross sideslip of passing of cross in the cross translation piece is moved the pole and is moved the pole with indulging the pole, the sideslip is moved the pole both ends and is fixed with the sideslip and moves the piece from north to south, the sideslip is moved the piece and is portable to be fixed on horizontal frame, it is portable to be fixed on indulging the frame to indulge the piece, horizontal frame constructs the square frame with indulging the frame, just be fixed with the board of pounding to horizontal frame and the square frame below of indulging the frame.
The pounding grooves are distributed on the pounding plate in a matrix mode.
And a plurality of springs are fixed at the bottom of the moving block, and pounding hammers are fixed at the lower ends of the springs.
The telescopic rod penetrates into the telescopic control box from the bottom of the telescopic control box, and the telescopic control box is internally sleeved with a wire ring.
The top in the telescopic control box is fixed with a limiting block, and the limiting block completely covers the telescopic rod in vertical projection.
The telescopic rod is a permanent magnet.
The number of the telescopic rods is four.
The six springs are distributed in a matrix of two rows and three columns.
The invention has the beneficial effects that: through the arrangement of the cross translation block and other structures, pounding processing can be performed in a large batch mode, can also be performed in a small batch mode, is convenient to adjust, and saves energy and reduces consumption.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the internal structure of the telescopic control box of FIG. 1;
fig. 3 is a side view of fig. 1.
In the figure: 11-horizontal frame, 12-vertical frame, 13-horizontal moving block, 14-horizontal moving rod, 15-vertical moving block, 16-vertical moving rod, 21-cross moving block, 22-telescopic control box, 23-moving block, 24-spring, 25-pounding hammer, 31-telescopic rod, 32-coil, 33-limiting block, 41-pounding plate and 42-pounding groove.
Detailed Description
The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.
A pepper pounding processing apparatus as shown in fig. 1 to 3 includes a pounding hammer 25; pounding hammer 25 is a hemispherical hammer, pounding hammer 25 is fixed at the bottom of movable block 23, movable block 23 can be fixed at the bottom of telescopic control box 22 through telescopic rod 31 in a lifting manner, telescopic control box 22 is fixed at the bottom of cross translation block 21, cross translation block 21 is provided with cross translation rod 14 and longitudinal translation rod 16 in a staggered manner, two ends of cross translation rod 14 are fixed with transverse translation blocks 13, two ends of longitudinal translation rod 16 are fixed with longitudinal translation blocks 15, transverse translation blocks 13 are movably fixed on transverse frame 11, longitudinal translation blocks 15 are movably fixed on longitudinal frame 12, transverse frame 11 and longitudinal frame 12 form a square frame, pounding plate 41 is fixed below the square frame formed by transverse frame 11 and longitudinal frame 12, and pounding plate 41 is provided with a plurality of hemispherical recessed pounding grooves 42.
The pounding troughs 42 are distributed in a matrix on the pounding plate 41.
A plurality of springs 24 are fixed at the bottom of the moving block 23, and a pounding hammer 25 is fixed at the lower end of each spring 24.
The telescopic rod 31 penetrates into the telescopic control box 22 from the bottom of the telescopic control box 22, and a coil 32 is sleeved on the telescopic rod 31 in the telescopic control box 22.
The top in the telescopic control box 22 is fixed with a limiting block 33, and the limiting block 33 completely covers the telescopic rod 31 in vertical projection.
The telescopic rod 31 is a permanent magnet.
The number of the telescopic rods 31 is four.
The springs 24 are six and are distributed in a matrix of two rows and three columns.
From this, to the processing of pounding of arbitrary volume, control cross translation piece 21 moves each one by one and is equipped with the groove 42 top of pounding of hot pepper, then reciprocates through coil 32 circular telegram control movable block 23 and realizes pounding garrulously, and the setting up of spring 24 ensures on the one hand that the processing of pounding is in-process protects the board 41 of pounding, and on the other hand also makes pounding hammer 25 have appropriate rocking to the complete pounding of hot pepper in the groove 42 of pounding is garrulous.