KR101804803B1 - Adsorption, extrusion system for fruit rind remover - Google Patents

Abstract

The present invention relates to a fruit pulverizer for avoiding a crust of persimmon and is provided with a piston type suction pump (10) and a compression pump (20) in the lower part of a main body (2) of a fruit pulp (A) The hose 10a of the pump 10 is connected to the solenoid valve 12 connected to the suction pipe 6 and the hose 20a of the compression pump 20 is connected via the pressure regulator 22 and the air reservoir 24 The suction pump 10 and the compression pump 20 are operated to connect the suction pump 10 and the solenoid valve 12 connected to the suction pump 10 so that suction and extrusion air are alternately supplied to the suction pipe 6 under the control of the solenoid valve 12 The freezing of the compression pump 20 is prevented while simplifying the construction of the fruit repellent by zooming and the compressed air that has always been evenly supplied through the compression pump 20 is reliably transferred not only to the suction pipe 6 but also to the cutting cylinder 30 ) And the reduction cylinder (40) to supply the fruit It relates to the adsorption of fruit and extrusion system structure of the bloom that further enhance the capabilities of the group.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adsorption and extrusion system for fruit pulverization,

More particularly, the present invention relates to an adsorption and extrusion system structure of a fruit pulp which absorbs sensation through a suction pad on a suction pipe to remove a skin and then discharges a feeling of being squeezed by extrusion.

Currently, farmers use fruit pulp as a machine to avoid persimmon shells to produce dried persimmons. When fruit pulp is adsorbed by the worker on the suction pad of the suction pipe, the pulp rotates along the outer surface of the pulp, And automatically zooms in and zooms out the image.

The development of techniques for improving the function of the fruit pulp which automatically avoids the bark of persimmon has been continuously pursued. Applicants of the present invention have also found that the applicants of the present invention have also found that the applicants of the present invention have also found that, No. 1090236 have been registered with the prior art by developing various technologies relating to fruit-pulp.

In this case, the blade of the fruit dispenser to which the present invention is registered is connected to a motor, which rotates, and the suction pipe is rotated by a motor under the control of a rotating knife and a synchronous motor so that the suction pipe is connected to the suction pump and the compressor The suction pipe is shut off from the suction pump and the suction air is sucked to the adsorption pad by the supply of the extrusion air of the compressor when the suction is performed by the operation of the suction pump So that the discharge is performed.

Therefore, in order to detach the sensation, the compressor was supplied with the extruded air to the inside of the suction pipe so as to separate the feeling from the suction pad. However, in order to separate the sensation, a compressor was installed on the outer side of the suction pipe Due to the connection configuration, it is difficult to install the fruit remover and the compreser together in a small space, and the efficiency of the work space is reduced, and since expensive expensive comperser must be purchased separately, it becomes a factor to increase the economic burden on the user side .

Also, when a separate hose is connected to the suction pipe of the fruit purifier, the compressor and the hose are frozen in cold weather, or the condensation phenomenon causes the extruded air to not be supplied to the suction pipe. And the compreser is operated by using electric power separate from the fruit jeeping machine. Therefore, unnecessary energy is consumed and noise is heavy during operation, which is a factor that affects the working environment and reduces workability.

In addition, since the compressor must be connected to the suction pipe of the fruit making machine separately from the outside by a hose, it is not only troublesome but also the hose is exposed from the outside of the fruit making machine, so that it may be caught during work or injured to the operator in the compressor. .

Domestic Utility Model Registration No. 354732 "Fruit Piggy" Korean Utility Model Registration No. 376382 "Fruit Piggy" Domestic Utility Model Registration No. 429961 "Fruit Piggy" Korean Patent Registration No. 996642 " Cutting device of fruit pulp " Korean Patent Registration No. 1090236 " Fruit Prepared with Cleaning Device and Cleaning Method Thereof "

Accordingly, it is an object of the present invention to provide a piston-type compression pump connected to a suction pipe to supply extruded air to a main body, thereby simplifying the structure of the fruit pulp and preventing freezing of the compression pump, Which is connected to a cylinder cylinder and a reduction cylinder, as well as a suction pipe, thereby improving the function of the fruit fryer.

It is a further object of the present invention to provide a method and a device for controlling the operation of a compressor in which a piston type compression pump is installed in a main body of a fruit pulverizer and is operated by a single power source together with a suction pump and a motor to prevent waste of unnecessary energy, And to minimize the noise and improve the working environment by improving the working efficiency.

According to the above object, the present invention provides a fruit making machine for extruding fruits after they have been adsorbed and adsorbed on a suction pad through a suction pipe, wherein a piston type suction pump (10) is installed in the lower part of the main body (2) The hose 10a of the suction pump 10 is connected to the solenoid valve 12 connected to the suction pipe 6 and the hose 20a of the compression pump 20 is connected to the solenoid valve 12, The suction pump 10 and the compression pump 20 are connected to the solenoid valve 12 connected to the suction pump 10 via the pressure regulator 22 and the air reservoir 24 so that the solenoid valve 12 And suction and extrusion air are alternately supplied to the suction pipe (6) under the control of the control unit.

The hose 22a branched from the pressure regulator 22 connected to the compression pump 20 is connected to a solenoid valve 50 for controlling the operation of the calibrating cylinder 30 and the reduction cylinder 40 .

The present invention relates to a fruit pulverizer for a fruit pulverizer, which is connected to a suction pipe to provide a piston-type pump for supplying extruded air to the pulverizer, thereby simplifying the structure of the fruit pulverizer while preventing freezing of the pump, Which is connected to the cylinder cylinder and the reduction cylinder, as well as the suction pipe, thereby improving the function of the fruit repellent.

Further, according to the present invention, the piston compression pump is installed in the main body of the fruit pulverizer and is operated by a single power source together with the suction pump and the motor, thereby minimizing unnecessary energy waste while minimizing safety, work efficiency and noise It is advantageous to improve work efficiency by improving working environment.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a structural view showing the internal structure of a fruit expander according to an embodiment of the present invention; Fig.
2 is a flow diagram showing an operating state of the present invention;
Fig. 3 is a block diagram of the fruit pulp of the present invention. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view showing an internal structure of a fruit manufacturing machine according to an embodiment of the present invention, and FIG. 2 is a flow diagram showing an operating state of the present invention.

1, a motor 4a for controlling the rotation of a blade 30a provided on a rotary plate 4 is mounted on an upper portion of the main body 2, as in the prior art, A suction pipe 6 having a suction pad 6a is connected to the motor 6b to control the rotation of the suction pump 6a so that the suction pipe 6a is attracted to the suction pad 6a, The blade of the blade 30a provided on the blade 30a contacts and rotates with the outer surface of the blade to remove the husk.

At this time, the suction pipe 6 having the suction pad 6a is placed on the upper part of the fruit pulverizer main body 2 in the fruit pulverizer A of the present invention, and the suction pipe 6 is connected to the lower part of the main body 2, The suction pump 10 and the compression pump 20 are connected to the solenoid valve 12 so that the suction pump 10 and the compression pump 20 are operated under the control of the solenoid valve 12, The pump 20 is configured to be sucked into the suction pipe 6 and alternately supplied with the extruded air and the compression pump 20 is also connected to the cutting cylinder 30 and the reduction cylinder 40, And the curled elastic member 30a and the susceptor 40a are operated to cover the skin of the persimmon, and then the sensed skin is discharged to the outside.

More specifically, as shown in Figs. 1 and 2, the fruit pulp A of the present invention has a suction pipe 6 having a suction pad 6a to be held by suction-fixing a sensation on the upper portion of the main body 2 And the suction pipe 6 is connected to the piston type suction pump 10 and the compression pump 20 provided in the lower portion of the main body 2 via the filter 8 and the solenoid valve 12 and sucked into the suction pipe 6 Air and extruded air are alternately supplied and supplied.

A piston type suction pump 10 installed at a lower portion of the main body 2 and supplying suction air to the suction pipe 6 is connected to a solenoid valve 12 connected to the filter 8 via a hose 10a connected to the suction port. So that suction air is supplied to and blocked by the suction pipe 6 under the control of the solenoid valve 12 when the suction pump 10 is operated and the foreign matter is introduced into the suction pipe 6 through the filter 8 So that the suction pump 10 adsorbs and fixes the sensation on the suction pad 6a with a constant suction force at all times.

The piston type compression pump 20 installed in the main body 2 together with the suction pump 10 is connected to the solenoid valve 12 connected to the suction pump 10, The hose 20a connected to the solenoid valve 12 is supplied to the suction pipe 6 through the pressure regulator 22 and the filter 8 connected to the solenoid valve 12 via the air reservoir 24, And shut off.

The safety pin 28 is connected to the pressure regulator 22 connected to the compression pump 20 through a check valve 27. The safety pin 28 is connected to the hose 20a of the compression pump 20 through a check valve 27 So that the extruded air is supplied to the pressure regulator (22) through the check valve (27) so as to be prevented from flowing backward.

The pressure regulator 22 to which the safety pin 28 is coupled adjusts the injection pressure in accordance with the pressure output capacity of the compression pump 20 so that an appropriate amount of extruded air is always supplied to the suction pipe 6, The air reservoir 24 connected to the air reservoir 24 stores the compressed air supplied from the compression pump 20 when the supply of the compressed air is stopped to the suction pipe 6 and then stores the compressed air in the air reservoir 24 when the compressed air is supplied again to the suction pipe 6. [ The air is directly supplied by the operation of the compression pump 20 so that the extruded air is rapidly supplied to the suction pipe 6 at all times and the feeling is released from the suction pad 6a.

The piston type compression pump 20 installed in the main body 2 regulates the pressure of the extruded air through the pressure regulator 22 and is supplied to the suction pipe 6 under the control of the solenoid valve 12 connected to the air reservoir 24 And the suction pump 10 also supplies and cuts the suction air to the suction pipe 6 under the control of the solenoid valve 12 so that the suction air is sucked into the suction pipe 6 through the suction air And the extruded air of the compression pump 20 are alternately supplied under the control operation of the solenoid valve 12 so as to be adsorbed and fixed to the adsorption pad 6a and released by extrusion.

At this time, the operation of the solenoid valve 12 is operated under the control of the control unit P in conjunction with the detection signal of the detection sensor 4b sensing the rotation of the knob 30a, so that the suction air and the extrusion air Are supplied alternately.

On the other hand, the extruded air is supplied to the suction pipe 6 through the piston type compression pump 20 so as to be separated from the suction pad 6a by being pushed out to be connected to the pressure regulator 22 at one side of the extrusion port of the compression pump 20 A hose 20a for supplying the extruded air to the suction pipe 6 is provided and a pressure discharge valve (not shown) is provided in the other extruding port so as to prevent damage due to the overload of the compression pump 20 when the supply of the extruded air to the suction pipe 6 is interrupted 26 are installed.

That is, the pressure discharge valve 26 provided in the extrusion port of the compression pump 20 is constituted by an electronic type of on / off valve and receives a signal of the detection sensor 4b which senses the rotation of the collar 30a through the control part P The pressure discharge valve 26 is opened and closed in accordance with the signal of the relay 29 so that the air in the compression pump 20 is supplied to the suction pipe 6 when the supply of the extrusion air is interrupted So as to function as a safety valve for stopping the operation due to overload of the compression pump 20 or for preventing damage in advance.

The safety pin 28 provided in the pressure regulator 22 with the pressure discharge valve 26 in the compression pump 20 is set at the same time when the air pressure of the compression pump 20 is higher than the reference value The discharge port formed in the safety pin 28 connected to the check valve 27 is opened to rapidly discharge the air of the compression pump 20 to the outside so as to prevent the compression pump 20 from being damaged in advance.

The piston type compression pump 20 is connected to a solenoid valve 30 for operating the caliper cylinder 30 and the reduction cylinder 40 through the hose 22a distributed from the pressure regulator 22 connected to the hose 20a connected to the outlet, And the cylinder 30 and the reduction cylinder 40 are sequentially operated by using the extruded air supplied from the compression pump 20 under the control of the solenoid valve 50. [

The blade cylinder 30 controls the blade of the blade 30a to be in contact with the blade due to the supply of the compressed air through the solenoid valve 50 connected to the compression pump 20, The sensed feeling 40a is moved forward to the absorption pad 6a and discharged to the outside.

Therefore, in the present invention, the extruded air supplied from the compression pump 20 is guided by the pressure regulator 22 under the control of the solenoid valve 50 connected through the divided hose 22a, Receiving cylinder 40 for operating a caliper receiving cylinder 40a which is moved to the lower side of the collating cylinder 30 and the adsorption pad 6a and discharges the sensed feeling to the outside, The extrusion air is supplied to the cutting cylinder 30 and the reduction cylinder 40 under the control of the solenoid valve 50 so as to maximize the utilization of the compression pump 20, .

The operation of the thus-configured fruit pulp (A) according to the present invention will be described.

When the operator operates the power switch provided on the control panel of the main body 2, the power is applied through the control unit P and the piston suction pump 10 and the compression pump 20 mounted in the main body 2 are operated together . At this time, the opening of the solenoid valve 12 of the suction pump 10 causes the suction air to be supplied to the suction pipe 6 through the filter 8 while the extrusion air of the compression pump 20 is supplied to the solenoid valve 12, The suction air of the suction pump 10 is supplied to the suction pipe 6 in a state of being blocked by the suction pad 6a so that the worker can suction and fix the suction on the suction pad 6a.

When the worker sucks the sensation on the suction pad 6a, the worker rotates in one direction by the suction pipe 6 coupled with the motor 6b wound on the suction pad 6a, and at the same time, The driving of the motor 4a for rotating rotates under the detection of the detection sensor 4b until reaching the center of the sensation, and the blade is brought into contact with the outer surface of the persimmon to remove the skin.

At this time, while the collet 30a is rotating and avoiding the sensation, the compression pump 20 is connected to a relay (not shown) that receives a signal from the detection sensor 4b that detects the collet 30a in a state in which supply of the extrusion air is blocked by the suction pipe 6 29 are actuated to open the pressure discharge valve 26 connected through the control unit P to rapidly discharge the air in the compression pump 20 to the outside so that the compression pump 20 is stopped due to overload Thereby preventing damage.

At the same time that the pressure discharge valve 26 is not opened due to a malfunction, the safety pin 28 installed in the pressure regulator 22 is not discharged when the compression pressure of the compression pump 20 is higher than the reference value, The air is operated to be opened so that the air is discharged to the outside, so that the safety function is performed so that the compression pump 20 is not damaged.

The rotation of the suction tube 6 is stopped and the contact of the blade of the blade 30a is stopped by the detection sensor 30a The operation of the relay 29 is stopped by the detection of the solenoid valve 12b and the pressure discharge valve 26 for discharging the air of the compression pump 20 to the outside, The compressed air is supplied to the suction pipe 6 via the pressure regulator 22 and the air reservoir 24 by the opening of the suction pipe 6a.

At this time, before the extruded air of the compression pump 20 is supplied to the suction pipe 6 and is released from the suction, the suction pump 10 stops supplying the suction air to the suction pipe 6 due to the blockage of the solenoid valve 12, The knife cylinder 30 connected to the knife cylinder 20 is operated so that the knife 30a is lifted from the feel of the knife 30a by the supply of the extrusion air due to the opening of the solenoid valve 50,

The compression pump 20 supplies the compressed air to the suction pipe 6 through the opening of the solenoid valve 12 and adjusts the pressure suitable for the capacity of the compression pump 20 through the pressure regulator 22, The compressed air is supplied again to the suction pipe 6 because the compressed air is supplied from the compression pump 20 to the air reservoir 24 connected to the pressure regulator 22 while the compressed air is supplied to the suction pipe 6 The air stored in the air reservoir 24 is directly supplied by the operation of the compression pump 20 so that the suction air can be quickly extruded from the suction pad 6a by the suction pipe 6 to be released.

The suction chamber 40a located below the suction pad 6a is supplied with the extruded air from the solenoid valve 50 connected to the compression pump 20 to the reciprocating cylinder 40, The receptacle 40a is moved to the suction pad 6a, and the sensed feeling is discharged to the outside.

At this time, the collet 30a is rotated and positioned in a fixed position of the take-off point and is connected to the relay 29 under the detection of the detection sensor 4b. The pressure discharge valve 26 mounted on the compression pump 20 is opened to discharge the air to the outside and the supply of the extruded air to the suction pipe 6 is stopped by the shutoff control of the solenoid valve 12 On the other hand, since the suction air of the suction pump 10 is supplied to the suction pipe 6 again by opening of the solenoid valve 12, the suction is carried out by suctioning the suction pad 6a.

At this time, when the air is discharged to the outside by the opening of the pressure discharge valve 26 by the compression pump 20, the curled cylinder 30 and the reduction cylinder 40 are compressed by the blockage of the solenoid valve 50 The supply of the compressed air from the pump 20 is stopped and the blade 30a is brought into contact with the outer surface of the feel by the elastic force of the spring and the susceptor 40a is moved away from the lower portion of the suction pad 6a And the preparation is made in a standby state while the feel is being suppressed, so that the series of the skin care work is automatically performed under the continuous repetition.

Accordingly, the fruit pulp A of the present invention automatically supplies the suction air and the extruded air to the suction pipe 6 by alternately supplying the suction air and the extruded air, and the suction pump 10 and the piston- There is an advantage in that the suction pump 10 and the compression pump 20 can smoothly supply the suction and extruded air to the suction pipe 6 without freezing or condensation phenomenon even in cold weather while simplifying the structure by providing the compression pump 20 .

Also, since the piston type compression pump 20 is mounted in the main body 2, the conventional compressor can be installed separately from the outside, and the air reservoir 24 connected to the pressure regulator 22 can be easily connected The air always stored in the air reservoir 24 is supplied to the suction pipe 6 to be extruded while appropriately adjusting the pressure in accordance with the capacity of the compression pump 20 so that the sensed feeling can be quickly released from the absorption pad 6a have.

The pressure discharge valve 26 is provided in the compression pump 20 so that the pressure discharge valve 26 is automatically opened by the operation of the relay 29 when the supply of the extruded air to the suction pipe 6 is interrupted, The safety pin 28 provided in the pressure regulator 22 is actuated at the same time as the pressure release valve 26 is operated to discharge the extruded air to the outside while controlling the pressure pump 20 to prevent the overload from occurring, So that the compression pump 20 is prevented from being damaged and used stably.

In addition, according to the present invention, the meridian cylinder 30 and the reduction cylinder 40 are connected to each other through a solenoid valve 50 so as to be operated under control through a piston compression pump 20, .

Finally, by installing the suction pump 10 and the compression pump 20 in the fruit pulverizer A, the efficiency of the work space is increased and the power is supplied through one power switch provided on the operation panel, It is effective to prevent the energy waste due to the use of electricity by installing the puree outside.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments but should be determined by the equivalents of the claims and the claims.

(A) - Fruit Pigment (P) - Control
(2) - main body (4) - spindle
(4a) - motor (4b) - detection sensor
(6) - suction pipe (6a) - adsorption pad
(6b) - motor (8) - filter
(10) - Piston type suction pump (10a) - Hose
(12) - Solenoid valve (20) - Piston type compression pump
(20a) - hose (22) - pressure regulator
(22a) - hose (24) - air reservoir
(26) - Pressure relief valve (27) - Check valve
(28) - safety pin (29) - relay
(30) - the collet cylinder (30a) - the collet
(40) -gripping cylinder (40a) -cancer
(50) - Solenoid valve

Claims (4)

Claims [1] A fruit making method for extracting fruits after adsorbing and adsorbing fruit on an adsorption pad through a suction pipe,
A suction pump 10 and a hose 10a of the suction pump 10 are connected to the suction pipe 6 in the lower portion of the main body 2 of the fruit pulp A, The solenoid valve 12 is connected and configured
The hose 20a of the compression pump 20 is connected to the solenoid valve 12 connected to the suction pump 10 via the pressure regulator 22 and the air reservoir 24,
The air stored in the air reservoir 24 is supplied to the air reservoir 24 when the air is supplied to the air reservoir 24 while the air is being supplied by the compression pump 20, Is directly supplied to the suction pipe (6)
The suction pump 10 and the compression pump 20 are alternately operated under the control of the solenoid valve 12 to suck and extrude the air into the suction pipe 6,
Wherein a filter (8) is provided at one side of the suction pipe (6) so as to filter the inflow of foreign matter into the suction pipe (6) when the air is sucked so that the suction pump (10) Adsorption and Extrusion System Structure of.
The method according to claim 1,
The hose 22a branched from the pressure regulator 22 connected to the compression pump 20 is connected to the solenoid valve 50 which controls the operation of the calibrating cylinder 30 and the reduction cylinder 40 Structure of Adsorption and Extrusion System of Fruit Pulp.
The method according to claim 1,
The compression pump 20 is provided with a pressure discharge valve 26 which is connected to the relay 29 so as to open and close under electrical control so that the pressure discharge valve 26 is opened by the signal of the relay 29, 20) is discharged to the outside. The structure of the adsorption and extrusion system of the fruit pulverizer.
The method according to claim 1,
The pressure regulator 22 is provided with a safety pin 28 connected to the hose 20a of the compression pump 20 through a check valve 27. When the pressure in the compression pump 20 rises above a reference value, And the air is discharged to the outside. The structure of the adsorption and extrusion system of the fruit pulverizer.

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