Dynamic oil squeezing system

Abstract

The invention discloses a dynamic oil squeezing system which comprises a rack. The rack is provided with a feeding device, a transmission mechanism and a squeezer. An annular protrusion is arranged at the head end of a squeezing rod and is installed in a groove of a connecting seat of an assembly seat, and the squeezing rod and the connecting seat can be linked in the horizontal axis direction. A dovetail groove is formed in the position, corresponding to the connecting seat, of the assembly seat. A sliding block is arranged on the connecting seat and is arranged in the dovetail groove. The sliding block is matched with the dovetail groove in shape. The connecting seat can axially move along the assembly seat. An elastic force device is arranged on the assembly seat, and an elastic rod of the elastic force device ejects the connecting seat to enable the connecting seat to be reset. The dynamic oil squeezing system further comprises an auxiliary cleaning device which comprises a base and a movable seat, and the movable seat is hinged to the base. The dynamic oil squeezing system is simple in structure, and fewer parts are needed. A modular manner is adopted, and the dynamic oil squeezing system can be installed on the rack like a module, and the dynamic oil squeezing system is convenient to clean.

Description

technical field [0001] The invention relates to a domestic dynamic oil press system, which can be used for pressing peanuts, beans, sesame and other large and small oil plants. Background technique [0002] In the prior art, the general press mechanism is composed of a press rod and a press chamber, and the rear end of the press chamber is detachably connected with a slag discharge sleeve; in order to solve the problem of oil production efficiency and slag discharge of different oil species, the press chamber can Select different slagging sleeves, for example, when pressing oil with large particles of peanuts, use the slagging sleeve with a large slagging tank; For granular oil, the oil will come out of the slag discharge tank without deep pressing, and it will not affect the pressing efficiency of the pressing mechanism. The disadvantage of this type of structure is: the operation of the pressing mechanism of this type of structure is cumbersome, and the user needs to repl...

AI Technical Summary

Problems solved by technology

The disadvantage of this type of structure is: the operation of the pressing mechanism of this type of structure is cumbersome, and the user needs to replace and connect the slag discharge sleeve according to different oil materials, and when the slag discharge sleeve is connected to the press chamber, since the user performs the connection operation, the tightening force varies depending on the weight. There is a difference, it is impossible to make the slag discharge sleeve in the best position to cooperate with the press chamber, which also affects the oil discharge efficiency of the press mechanism

In addition, in order to increase the oil output efficiency, it is mandatory to use a small slag discharge sleeve for large particle materials. The machine cannot discharge slag, and the machine may not work or directly cause the motor to burn out, which may damage the machine.

[0003] In addition, during the cleaning process of oil pressing and pressing chamber, the material residue will stick to the pressing rod (especially in the thread groove), making it difficult to clean the pressing rod and pressing chamber

Generally, the press rod and the press chamber are separated for cleaning, which is troublesome to operate.

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