CN110681443B - Grinding wheel gap adjusting device of pulping machine - Google Patents

Abstract

The invention belongs to the technical field of food processing devices, and particularly relates to a grinding wheel gap adjusting device of a pulping machine. In the process of rotating the adjusting nut, the adjusting nut can drive the static grinding wheel to move downwards, so that the gap between the static grinding wheel and the movable grinding wheel is reduced; when the static grinding wheel is attached to the movable grinding wheel, the static grinding wheel does not move downwards any more, and if the adjusting nut is continuously rotated, the adjusting nut moves upwards, so that a gap is formed between the adjusting nut and the cover. When the gap is generated, the prompting device can send a prompting signal to prompt an operator that the static grinding wheel is stuck to the dynamic grinding wheel; an operator can rotate the adjusting nut reversely to enable the adjusting nut to drive the static grinding wheel to move upwards, so that the static grinding wheel and the dynamic grinding wheel are prevented from being stuck, and the motor burning phenomenon is prevented.

Description

Grinding wheel gap adjusting device of pulping machine

Technical Field

The invention belongs to the technical field of food processing devices, and particularly relates to a grinding wheel gap adjusting device of a pulping machine.

Background

At present, in the food processing industry, a gap between an upper grinding wheel and a lower grinding wheel needs to be adjusted when the grinding wheel type pulping machine is used, but the gap is adjusted under the condition that people cannot visually observe and no marks exist, so that the hand feeling is mainly adjusted. When in adjustment, the method has no standard, is difficult, is time-consuming and labor-consuming, and is easy to influence the production quality. Meanwhile, the following problems may occur due to improper gap adjustment: when the gap is too large, the pulp yield is influenced in the pulp grinding production; when the gap is too small, the upper grinding wheel and the lower grinding wheel are excessively attached, so that the lower grinding wheel cannot rotate, and the motor is burnt.

Disclosure of Invention

Aiming at the technical problems, the invention provides a grinding wheel gap adjusting device of a pulping machine, which can send out a prompt signal to prevent the excessive lamination of upper and lower grinding wheels.

In order to solve the technical problems, the invention adopts the following technical scheme:

the grinding wheel gap adjusting device of the pulping machine comprises an adjusting nut and a machine cover, wherein a prompting device is arranged between the adjusting nut and the machine cover, and when a gap exists between the lower surface of the adjusting nut and the upper surface of the machine cover, the prompting device sends out a prompting signal.

The prompting device comprises a light-operated switch and a prompting element, a power supply is connected with the prompting element through the light-operated switch, the light-operated switch comprises a photosensitive sensor and a control circuit, the photosensitive sensor is connected with the prompting element through the control circuit, the photosensitive sensor is arranged on a cover, and a corresponding groove is formed in the cover.

The prompting device comprises a light-operated switch, a prompting element and a base, wherein a power supply is connected with the prompting element through the light-operated switch, the light-operated switch comprises a photosensitive sensor and a control circuit, the photosensitive sensor is connected with the prompting element through the control circuit, the photosensitive sensor is arranged on the base, a corresponding connecting groove is formed in the base, and the base is connected with the cover.

The photosensitive sensor adopts a photosensitive resistor.

The prompting device comprises a contact switch and a prompting element, a power supply is connected with the prompting element through the contact switch, the contact switch comprises a first conductive sheet and a second conductive sheet, the first conductive sheet is connected with the second conductive sheet through a conductive ring, the first conductive sheet and the second conductive sheet are both arranged on a cover, and the conductive ring is arranged on an adjusting nut.

The prompting device comprises a contact switch, a prompting element and a base, wherein a power supply is connected with the prompting element through the contact switch, the contact switch comprises a first conductive sheet and a second conductive sheet, the first conductive sheet is connected with the second conductive sheet through a conductive ring, the first conductive sheet and the second conductive sheet are both arranged on the base, the conductive ring is arranged on an adjusting nut, and the base is connected with a cover.

The prompting element adopts an indicator light and/or a buzzer.

The machine cover is provided with a dial, and the adjusting nut is provided with a scale pointer.

The digital display device comprises an angle sensor and a display, wherein the angle sensor is connected with the display, and the rotation angle of the adjusting nut is measured through the angle sensor.

The control circuit comprises a switch K, triodes Q1 and Q2, a photoresistor, a resistor R1, a resistor R2, a resistor R3 and a resistor R4; the prompting element 301 is an indicator light; the photoresistor is connected with the resistor R1 in series, the voltage at two ends of the R1 can not reach the starting voltage of the Q1 triode when no illumination exists, the resistance of the photoresistor rapidly decreases when the photoresistor encounters illumination, the voltage at two ends of the R1 increases, the triode Q1 is conducted, the rear-stage triode Q2 is triggered to be conducted, the switch K is opened, and the indicator lamp works.

Compared with the prior art, the invention has the following effective effects:

in the process of rotating the adjusting nut, the adjusting nut can drive the static grinding wheel to move downwards, so that the gap between the static grinding wheel and the movable grinding wheel is reduced; when the static grinding wheel is attached to the movable grinding wheel, the static grinding wheel does not move downwards any more, and if the adjusting nut is continuously rotated, the adjusting nut moves upwards, so that a gap is formed between the adjusting nut and the cover. When the gap is generated, the prompting device can send a prompting signal to prompt an operator that the static grinding wheel is stuck to the dynamic grinding wheel; an operator can rotate the adjusting nut reversely to enable the adjusting nut to drive the static grinding wheel to move upwards, so that the static grinding wheel and the dynamic grinding wheel are prevented from being stuck, and the motor burning phenomenon is prevented.

Simultaneously, be provided with calibrated scale and scale pointer, can intuitively adjust. And an angle sensor and a display are arranged, so that the gap parameters can be digitally displayed.

Drawings

FIG. 1 is a schematic view of a first embodiment of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of a split structure of a first embodiment of the present invention;

FIG. 5 is a schematic view showing an internal structure of a first embodiment of the present invention;

FIG. 6 is a schematic diagram of a circuit arrangement of the present invention;

FIG. 7 is a schematic diagram of a digital display device according to the present invention;

FIG. 8 is a circuit diagram of the prompting device of the present invention;

FIG. 9 is another circuit diagram of the prompting device of the present invention;

FIG. 10 is a schematic view of a third embodiment of the present invention;

FIG. 11 is a circuit diagram of a third embodiment of the present invention;

FIG. 12 is a schematic diagram of a second embodiment of the present invention;

FIG. 13 is a schematic view showing the internal structure of a second embodiment of the present invention;

FIG. 14 is a schematic view of a fourth embodiment of the present invention;

FIG. 15 is a schematic view of the dial of the present invention;

wherein: 1 is an adjusting nut, 2 is a machine cover, 200 is a groove, 3 is a prompting device, 300 is a photosensitive sensor, 301 is a prompting element, 302 is a base, 4 is a dial, 5 is a scale pointer, 6 is a digital display device, 600 is a magnetic grid ring, 601 is a display, 7 is a static grinding wheel, 8 is a dynamic grinding wheel, 9 is a grinding frame, 10 is a pressure spring, 11 is a first conducting sheet, 12 is a conducting ring, and 13 is a second conducting sheet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 6, the grinding wheel gap adjusting device of the pulping machine comprises an adjusting nut 1 and a machine cover 2, wherein a prompting device 3 is arranged between the adjusting nut 1 and the machine cover 2, and when a gap exists between the lower surface of the adjusting nut 1 and the upper surface of the machine cover 2, namely, the distance between the lower surface of the adjusting nut and the upper surface of the machine cover is larger than zero, the prompting device 3 sends out a prompting signal.

The pulping machine in the prior art mainly comprises a machine body provided with a machine cover 2, a static grinding wheel 7 and a movable grinding wheel 8, wherein the static grinding wheel 7 and the movable grinding wheel 8 are arranged in the machine body, the static grinding wheel 7 is connected with a grinding frame 9, one end of the grinding frame 9 extends out of the machine cover 2, an adjusting nut 1 is in threaded connection with the grinding frame 9, and a pressure spring 10 is sleeved on the grinding frame 9. By rotation of the adjusting nut 1, movement of the grinding frame 9 is achieved. Due to the arrangement of the structure, when the adjusting nut 1 rotates, the grinding frame 9 can axially move, namely the static grinding wheel 7 can be driven to move, and the gap adjusting function is achieved; when the static grinding wheel 7 and the movable grinding wheel 8 are stuck, the grinding frame 9 cannot continue to axially move, so that when the adjusting nut 1 is continuously rotated, the adjusting nut 1 moves upwards, the lower surface of the adjusting nut 1 is not contacted with the upper surface of the machine cover 2, a gap is formed, and when the gap is formed, the prompting device 3 sends a prompting signal to prompt an operator that the static grinding wheel 7 is stuck to the movable grinding wheel 8; an operator can rotate the adjusting nut 1 in the reverse direction, so that the adjusting nut 1 drives the static grinding wheel 7 to move upwards, and further the static grinding wheel 7 and the movable grinding wheel 8 are prevented from being stuck, and the motor burnout phenomenon is prevented.

When the adjusting nut 1 is reversely rotated, the adjusting nut 1 firstly moves downwards to contact and fit with the cover 2, and then the static grinding wheel 7 is driven to move upwards. After the adjusting nut 1 is attached to the cover 2, no gap exists between the adjusting nut and the cover, so that the prompting device 3 can not send out a prompting signal. But the following phenomena may occur during the adjustment process: that is, when the adjusting nut 1 is reversely rotated, the adjusting nut 1 and the cover 2 are in a fitting state (after the prompt signal disappears), but when the static grinding wheel 7 is not moved upwards, the static grinding wheel 7 and the movable grinding wheel 8 are likely to be in close fitting, so that an operator needs to continue to reversely rotate the adjusting nut 1 slightly after the prompt signal disappears.

Further, the prompting device 3 is mainly used for detecting whether a gap exists between the adjusting nut 1 and the cover 2, and if the gap exists, a prompting signal is sent out. Therefore, the prompting device 3 can be realized by adopting various structures, for example, a pressure alarm can be arranged between the adjusting nut 1 and the machine cover 2, when the adjusting nut 1 is attached to the machine cover 2, a certain pressure value exists between the adjusting nut 1 and the machine cover 2, and the pressure alarm does not send an alarm signal; on the contrary, when a gap is generated between the adjusting nut 1 and the cover 2, the pressure value between the adjusting nut and the cover is smaller or zero, and the pressure alarm sends out an alarm signal.

Example 1

The prompting device 3 preferably adopts the following structure: the light-sensitive display device comprises a light-operated switch and a prompt element 301, wherein a power supply is connected with the prompt element 301 through the light-operated switch, the light-operated switch comprises a light-sensitive sensor 300 and a control circuit, the light-sensitive sensor 300 is connected with the prompt element 301 through the control circuit, and the light-sensitive sensor 300 is arranged in a groove 200 of a cover 2. When a gap is generated between the adjusting nut 1 and the cover 2, light can be irradiated on the photosensitive sensor 300 through the gap, so that the prompting device 3 sends a prompting signal, and the prompting element 301 can be fixed on the cover 2 or other suitable positions.

Further, the photosensitive sensor 300 employs a photosensitive resistor, and the indication element 301 may employ an indication lamp and/or a buzzer.

The photosensor 300 is mainly applied to the fields of light-operated night lamps, cameras, monitors, light-operated toys, acousto-optic switches and the like, can sense the brightness change of light rays, output weak electric signals, and can control the automatic switching of devices such as LED lamps and the like through simple electronic circuit amplification processing. Is widely used in automatic control and household appliances, and therefore, the specific circuit of the prompting device 3 is well known to those skilled in the art, and can be adjusted according to the actual situation. The circuit diagrams provided in fig. 8 or 9 may be specifically referred to or employed.

In fig. 9, the indicator light (bulb) is only the indicator element 301: the photoresistor is connected with the resistor R1 in series, when no illumination exists, namely the voltage at the two ends of the R1 does not reach the starting voltage of the Q1 triode, once the photoresistor is subjected to illumination, the resistance value of the photoresistor is rapidly reduced, the voltage at the two ends of the R1 is increased, the triode is conducted, and therefore the rear-stage Q2 triode is conducted, the final switch K is opened, and the bulb works.

In the prompting element 301 in fig. 8, an indicator light and a buzzer are: the 555 time base integrated circuit in the circuit is connected into a typical unsteady state working mode, and the light-dependent resistor RL and the variable resistor RP form a light-dependent trigger loop. When the RL is not irradiated, the voltage division point of the RL and the RP is in a high resistance state, namely the 4-pin potential of the 555-type time-base integrated circuit is lower, (less time-base circuits are more than 1V), forced reset is released, the circuit immediately generates oscillation, U1 sounds an alarm, and meanwhile D1 emits light. The resistance value of the potentiometer RP is regulated, and the voltage division point, namely the voltage level of the pin 4 of the 555 time base integrated circuit can be changed, so that the sensitivity of the light-operated alarm can be regulated. As shown in fig. 5 and 6, the circuit may be disposed inside or outside, and the corresponding holes may be disposed inside or the corresponding grooves 200 may be disposed outside.

Example two

The prompting device 3 in the first embodiment is arranged on the cover 2, and the groove 200 needs to be processed on the cover 2 of the existing equipment, so that the strength of the equipment is possibly reduced, and the processing is inconvenient. As shown in fig. 12 and 13, a base 302 is added to the embodiment, and a light control switch and a prompting element are provided on the base 302. In this way, the base 302 is only required to be fixed to the cover 2 by bolts, glue or the like. When the base 302 is provided, the cover 2 does not need to be provided with the groove 200, but the base is provided with a connecting groove (3020)

Example III

The prompting device 3 can also be realized by adopting the following structure, the prompting device 3 comprises a contact switch and a prompting element 301, a power supply is connected with the prompting element 301 through the contact switch, and the on-off between the power supply and the prompting element is controlled through the switch.

As shown in fig. 10 and 11, the contact switch includes a first conductive sheet 11 and a second conductive sheet 13, the first conductive sheet 11 is electrically connected to the second conductive sheet 13 through a conductive ring 12, the first conductive sheet 11 and the second conductive sheet 13 are both disposed on the upper surface of the cover 2, and the conductive ring 12 is disposed on the lower surface or the lower side surface of the adjustment nut 1.

When no gap is generated between the adjusting nut 1 and the cover 2, the conducting ring 12 is contacted with the first conducting strip 11 and the second conducting strip 13, the first conducting strip 11 is conducted with the second conducting strip 13, and the power supply supplies power to the prompting element 301; on the contrary, when a gap is generated between the adjusting nut 1 and the cover 2, the conductive ring 12 is not in contact with the first conductive sheet 11 and the second conductive sheet 13, the first conductive sheet 11 is not conducted with the second conductive sheet 13, and the power supply does not supply power to the prompting element 301.

The prompting element 301 may also adopt a bulb, a buzzer, etc. Taking a bulb as an example, when the structure is adopted, the bulb is lightened when no gap is generated; otherwise, after the gap is generated, the bulb is extinguished, and the extinction of the bulb is the prompt signal.

Example IV

The prompting device 3 in the third embodiment is also arranged on the cover 2, and certain inconvenience exists in mounting and dismounting. As shown in fig. 14, the same means as those of the embodiment is adopted, and a base 302 is added on the basis of the third embodiment, namely, the first conductive sheet 11, the second conductive sheet 13 and the prompting element 301 are arranged on the base 302, so that the whole assembly and disassembly are convenient.

Further, as shown in fig. 15, the above technical solution can effectively avoid the motor burnout phenomenon, but has no reference when adjusting the gap. The cover 2 is therefore provided with a dial 4 and the adjusting nut 1 is provided with a scale pointer 5.

When the prompt signal disappears, the gap between the static grinding wheel 7 and the dynamic grinding wheel 8 is zero in theory, but due to manual operation, an error inevitably exists, that is, the gap between the static grinding wheel 7 and the dynamic grinding wheel is slightly smaller or slightly larger than zero, so that the speed is slower when the adjusting nut 1 is reversely rotated, and the error can be reduced as much as possible.

Because the adjusting nut 1 is in threaded connection with the grinding frame 9, the nut can axially move by one thread pitch after rotating for one circle, and the corresponding moving distance of the adjusting nut 1, namely the moving distance of the static grinding wheel 7, namely the gap between the static grinding wheel 7 and the movable grinding wheel 8 can be known after rotating for one angle. A plurality of scale marks are evenly distributed on the circumference of the dial 4; after the prompt signal disappears, recording which scale mark on the dial 4 is opposite to the pointer; then, according to the gap to be adjusted, the adjusting nut 1 is reversely rotated, so that the pointer is opposite to the needed scale mark.

Further, the reading mode is a manual identification mode, but can be set to be a digital display mode for reading according to the requirement. As shown in fig. 7, the digital display device 6 includes an angle sensor and a display 601, the angle sensor is coupled to the display 601, and the rotation angle of the adjustment nut 1 is measured by the angle sensor. The magnetic grating ring 600 in the angle sensor is arranged on the outer side surface of the adjusting nut 1, and the cover 2 is provided with a reading head (not shown in the figure). After the prompt signal disappears, the digital display device 6 can be started to measure the rotation angle of the adjusting nut 1, and the moving distance of the adjusting nut can be obtained after the rotation angle is measured.

The measurement of the rotation angle by the angle sensor is well known to those skilled in the art, and can be adjusted and designed according to the actual situation, so long as the digital display of the rotation angle can be realized. Specifically, the structures disclosed in the following documents can be referenced or adopted: an electro-optical encoder rotary pulse display device 601 as disclosed in patent application No. 201310064181. X; a rotation angle detection device, a rotary machine, and a rotation angle detection method disclosed in patent application No. 200980104613.7; measurement and calculation of rotation angle based on incremental rotary optical encoder disclosed in patent application number 201410719578.2; a rotary encoder of the type disclosed in patent application No. 201810522106.6, and the like.

The adjusting method mainly adopts inversion lifting after contact for adjustment: namely, after the clearance between the static grinding wheel 7 and the movable grinding wheel 8 is zeroed, the clearance is adjusted.

The preferred embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention, and the various changes are included in the scope of the present invention.

Claims (5)

1. Grinding wheel gap adjusting device of pulping machine, its characterized in that: the automatic adjusting device comprises an adjusting nut (1) and a machine cover (2), wherein a prompting device (3) is arranged between the adjusting nut (1) and the machine cover (2), and when a gap appears between the lower surface of the adjusting nut (1) and the upper surface of the machine cover (2), the prompting device (3) sends out a prompting signal; the prompting device (3) comprises a light-operated switch and a first prompting element (301), a power supply is connected with the first prompting element (301) through the light-operated switch, the light-operated switch comprises a photosensitive sensor (300) and a control circuit, and the photosensitive sensor (300) is connected with the first prompting element (301) through the control circuit; the photosensitive sensor (300) adopts a photosensitive resistor; the control circuit comprises a switch K, triodes Q1 and Q2, a photoresistor, a resistor R1, a resistor R2, a resistor R3 and a resistor R4; the first prompting element (301) is an indicator light; the photoresistor is connected with the resistor R1 in series, the voltage at two ends of the resistor R1 can not reach the starting voltage of the triode Q1 when no illumination exists, the resistance of the photoresistor can be rapidly reduced when the photoresistor encounters illumination, the voltage at two ends of the resistor R1 is increased, the triode Q1 is conducted, the triode Q2 is conducted after triggering, the switch K is opened, and the indicator lamp works; a dial (4) is arranged on the cover (2), and a scale pointer (5) is arranged on the adjusting nut (1); the photosensitive sensor (300) is arranged on the base (302), a corresponding connecting groove (3020) is formed in the base (302), and the base (302) is connected with the cover (2); or the photosensitive sensor (300) is arranged on the cover (2), and the cover (2) is provided with a corresponding groove (200).

2. The refiner wheel clearance adjustment apparatus of claim 1, wherein: the prompting device (3) comprises a contact switch and a second prompting element (301), a power supply is connected with the second prompting element (301) through the contact switch, the contact switch comprises a first conductive sheet (11) and a second conductive sheet (13), the first conductive sheet (11) is connected with the second conductive sheet (13) through a conductive ring (12), the first conductive sheet (11) and the second conductive sheet (13) are both arranged on the cover (2), and the conductive ring (12) is arranged on the adjusting nut (1).

3. The refiner wheel clearance adjustment apparatus of claim 1, wherein: the prompting device (3) comprises a contact switch, a second prompting element (301) and a base (302), a power supply is connected with the second prompting element (301) through the contact switch, the contact switch comprises a first conducting strip (11) and a second conducting strip (13), the first conducting strip (11) is connected with the second conducting strip (13) through a conducting ring (12), the first conducting strip (11) and the second conducting strip (13) are both arranged on the base (302), the conducting ring (12) is arranged on an adjusting nut (1), and the base (302) is connected with a machine cover (2).

4. A refiner grinding wheel gap adjustment device according to claim 2 or 3, characterized in that: the second prompting element (301) adopts an indicator light and/or a buzzer.

5. The refiner wheel clearance adjustment apparatus of claim 1, wherein: the digital display device (6) comprises an angle sensor and a display (601), the angle sensor is connected with the display (601), and the rotation angle of the adjusting nut (1) is measured through the angle sensor.