CN114012829A

CN114012829A - Automatic trompil device of fungus bag

Info

Publication number: CN114012829A
Application number: CN202111349522.9A
Authority: CN
Inventors: 徐庆平; 关恒军; 刘帅; 崔修华; 王朝峰
Original assignee: Shandong Yuntai Machinery Co ltd
Current assignee: Shandong Yuntai Machinery Co ltd
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-08
Anticipated expiration: 2041-11-15
Also published as: CN114012829B

Abstract

The automatic fungus bag perforating device comprises a base mechanism, a horizontal conveying mechanism, a rotary driving mechanism, a perforating mechanism and a negative pressure material pumping mechanism, wherein a horizontal conveying belt is arranged on the horizontal conveying mechanism, and a vertical conveying belt is arranged on the rotary driving mechanism; the perforating mechanism consists of a perforating motor, a front baffle, a rear baffle and a plurality of cylindrical perforating cutters, and the distance between the vertical conveying belt and the front baffle is equal to or less than the diameter of the fungus bag to be perforated; the outer end of trompil sword is outstanding in the outer facade of preceding baffle, and the inner fixedly connected with sleeve of trompil sword, trompil motor order about sleeve and trompil sword synchronous revolution through drive mechanism, and the trompil of fungus bag is realized to pivoted trompil sword. The automatic fungus bag perforating device disclosed by the invention realizes automatic perforating operation on fungus bags, has high working efficiency and low labor intensity compared with the existing manual fungus bag perforating operation, can ensure that the perforating positions and the perforating quantity of the fungus bags are completely consistent, and is beneficial to later-stage placement of the fungus bags and growth of hyphae.

Description

Automatic trompil device of fungus bag

Technical Field

The invention relates to an automatic fungus bag perforating device, in particular to an automatic fungus bag perforating device capable of achieving perforating at different parts of fungus bags.

Background

The edible fungi contain rich protein and amino acid, have higher nutritive value for human bodies, and most of the edible fungi sold in the market at present are obtained by artificial cultivation. In the process of artificial cultivation, the culture material is filled into the fungus bag, and a plurality of holes are punched on the fungus bag, so that hyphae can grow out of the holes. At present, the tool or the device for automatically opening the fungus bags is not available, the fungus bags are opened by adopting a manual hand-held drilling needle, the labor intensity is high, the operation efficiency is low, the consistency of the opening positions cannot be guaranteed, and the normalization of the fungus bags in the later period is not facilitated, so that the fungus bags are placed and the growth of edible fungi is not facilitated.

Disclosure of Invention

The invention provides an automatic fungus bag opening device for overcoming the defects of the technical problems.

The automatic fungus bag opening device is characterized in that: the automatic fungus bag opening and closing device comprises a base mechanism, a horizontal conveying mechanism, a rotary driving mechanism, a hole opening mechanism and a negative pressure material pumping mechanism, wherein the base mechanism plays a role in fixing and supporting, a horizontal conveying belt for conveying vertically placed fungus bags is arranged on the horizontal conveying mechanism, the rotary driving mechanism and the hole opening mechanism are respectively positioned on two sides of the horizontal conveying belt, and a vertical conveying belt positioned on one side above the horizontal conveying belt is arranged on the rotary driving mechanism; the perforating mechanism consists of a perforating motor, a front baffle, a rear baffle and a plurality of cylindrical perforating cutters, the front baffle and the rear baffle are vertically arranged, the front baffle and the vertical conveying belt are respectively positioned at two sides of the horizontal conveying belt, and the distance between the vertical conveying belt and the front baffle is equal to or less than the diameter of a fungus bag to be perforated;

through holes through which the perforating knives penetrate are formed in different positions of the front baffle, the outer ends of the perforating knives protrude out of the outer vertical surface of the front baffle, the inner ends of the perforating knives are fixedly connected with a sleeve, the sleeve is fixed on the rear baffle through a bearing and a bearing seat, the perforating motor is fixed on the rear baffle, the perforating motor drives the sleeve and the perforating knives to synchronously rotate through a transmission mechanism, and the rotating perforating knives realize perforation of the fungus bags; the negative pressure material pumping mechanism pumps out the cut fungus bag part through the inner cavities of the sleeve and the hole opening knife.

According to the automatic fungus bag opening device, the horizontal conveying mechanism is composed of two vertical plates, a horizontal driving motor, a horizontal conveying belt and two horizontal belt wheels, the two vertical plates are arranged in parallel, the vertical plate on the inner side of the two vertical plates is fixed on the base mechanism, the two horizontal belt wheels are rotatably arranged at two ends of the two vertical plates through rotating shafts, the two horizontal belt wheels are in transmission connection through the horizontal conveying belt, and an output shaft of the horizontal driving motor is connected with the rotating shaft of one horizontal belt wheel.

According to the automatic fungus bag hole forming device, the rotary driving mechanism is composed of a rotary driving motor, two horizontal plates, a vertical transmission belt and two vertical belt wheels, the two horizontal plates are arranged in parallel, the horizontal plate below the two horizontal plates is fixed on the vertical plate on the outer side, the two vertical belt wheels are rotatably arranged at two ends of the two horizontal plates through a rotating shaft, the two vertical belt wheels are in transmission connection through the vertical transmission belt, and an output shaft of the rotary driving motor is connected with the rotating shaft of one vertical belt wheel; the horizontal driving motor and the rotary driving motor respectively drive the horizontal conveying belt and the vertical conveying belt to move at the same speed in the same direction.

According to the automatic fungus bag hole forming device, the negative pressure material pumping mechanism is composed of the negative pressure suction device, the blanking storage box and the negative pressure suction pipe, a negative pressure suction port of the negative pressure suction device is communicated with the blanking storage box, one end of the negative pressure suction pipe is communicated with the blanking storage box, and the other end of the negative pressure suction pipe is communicated with the sleeve.

According to the automatic fungus bag hole forming device, the transmission mechanism is composed of a driving belt wheel, a driven belt wheel and a belt, the driving belt wheel is fixed on an output shaft of the hole forming motor, the driven belt wheel is fixed on the sleeve, and the driving belt wheel is in transmission connection with the driven belt wheel through the belt.

The automatic fungus bag perforating device comprises a base mechanism, a base and a beam, wherein the base mechanism comprises a lower base, an upper base and the beam, the upper base and the beam are both positioned above the lower base, the beam is connected with the lower base through two vertical connecting rods penetrating through the lower base, and the upper base is connected with the beam through two horizontal connecting rods penetrating through the beam.

The invention has the beneficial effects that: the automatic fungus bag perforating device is provided with a horizontal conveying mechanism and a rotary driving mechanism which respectively comprise a horizontal conveying belt and a vertical conveying belt, and a perforating mechanism which is composed of a perforating motor, a front baffle, a perforating cutter and a sleeve, wherein the distance between the vertical conveying belt and the front baffle is smaller than or equal to the diameter of a fungus bag, so that the fungus bag conveyed between the vertical conveying belt and the front baffle can be attached to the front baffle to rotate forwards in the process that the horizontal conveying belt and the vertical conveying belt are respectively driven by the horizontal driving motor and the rotary driving motor to convey the fungus bag in the same direction at the same speed, at the moment, the perforating cutter is driven by the perforating motor to rotate at any time, the fungus bag can be attached to the position of the perforating cutter to be cut, the automatic perforating operation of the fungus bag is realized, and the cut blanking is drawn out by a negative pressure material drawing mechanism. Compare with current artifical fungus bag trompil operation, not only work efficiency is high, reduced workman's intensity of labour, can guarantee moreover that the trompil position of fungus bag, quantity are identical completely, are favorable to putting and the growth of hypha in the fungus bag later stage.

Drawings

FIG. 1 is a front view of an automatic opening device for fungus bags according to the present invention;

FIG. 2 is a rear view of the automatic opening device for fungus bags according to the present invention;

FIG. 3 is a left side view of the automatic opening device for fungus bags of the present invention;

FIG. 4 is a right side view of the automatic opening device for fungus bags according to the present invention;

FIG. 5 is a top view of the automatic opening device for bags according to the present invention;

FIG. 6 is a bottom view of the automatic opening device for fungus bags of the present invention;

fig. 7 and 8 are perspective views of the automatic fungus bag opening device of the present invention;

FIG. 9 is a perspective view of the horizontal transfer mechanism and the rotary drive mechanism of the present invention;

FIG. 10 is a perspective view of the portion of the opening mechanism of the present invention;

FIG. 11 is a sectional view showing a connection portion of the boring cutter, the sleeve and the suction pipe in accordance with the present invention;

fig. 12 is a perspective view of a base mechanism of the present invention.

In the figure: 1 base mechanism, 2 horizontal transport mechanism, 3 rotary driving mechanism, 4 trompil mechanisms, 5 negative pressure take out material mechanism, 6 riser, 7 horizontal driving motor, 8 horizontal transmission band, 9 horizontal band pulley, 10 rotary driving motor, 11 vertical transmission band, 12 horizontal board, 13 vertical band pulley, 14 trompil motor, 15 preceding baffle, 16 backplate, 17 trompil sword, 18 sleeves, 19 driving pulley, 20 driven pulley, 21 belt, 22 bearing and bearing frame, 23 inhale the negative pressure pipe, 24 blanking storage boxes, 25 inhale the negative pressure device, 26 lower base, 27 upper base, 28 crossbeam, 29 horizontal connecting rod, 30 vertical connecting rod.

Detailed Description

The invention is further described with reference to the following figures and examples.

As shown in fig. 1 to 6, a front view, a rear view, a left view, a right view, a top view and a bottom view of the automatic fungus bag opening device of the present invention are respectively shown, and fig. 7 and 8 are respectively shown in a perspective view, the automatic fungus bag opening device shown is composed of a base mechanism 1, a horizontal conveying mechanism 2, a rotary driving mechanism 3, an opening mechanism 4 and a negative pressure material pumping mechanism 5, wherein the base mechanism 1 plays a role in fixing and supporting, the horizontal conveying mechanism 2 realizes output of vertically placed fungus bags, and is used for conveying the fungus bags to be opened between the rotary driving mechanism 3 and the opening mechanism 4, so that the opening mechanism 4 realizes opening of the fungus bags. After the fungus bags are perforated, the fallen perforated parts are extracted by the negative pressure material extracting mechanism 5, so that the fallen materials are collected and processed in a centralized manner.

The horizontal conveying mechanism 2 is composed of two vertical plates 6, a horizontal driving motor 7, a horizontal conveying belt 8 and two horizontal belt wheels 9, as shown in fig. 9, a three-dimensional view of the horizontal conveying mechanism and the rotary driving mechanism is provided, the two vertical plates 6 are arranged in parallel, the vertical plate on the inner side of the two vertical plates 6 is fixed on the base mechanism 1, the two horizontal belt wheels 9 are rotatably arranged at the two ends of the two vertical plates 6 through a rotating shaft, the two vertical plates 6 are in transmission connection through the horizontal conveying belt 8, and the horizontal driving motor 7 is fixed on the vertical plate on the outer side of the two vertical plates 6. Thus, in the process that the horizontal driving motor 7 drives the horizontal belt wheel 9 to rotate, the horizontal conveying belt 8 can be driven to rotate, so that the fungus bags vertically placed on the horizontal conveying belt 8 can be conveyed.

The rotary driving mechanism 3 and the hole opening mechanism 4 are respectively arranged at two sides above the horizontal conveying belt 8, and the rotary driving mechanism 3 is composed of a rotary driving motor 10, a vertical conveying belt 11, two horizontal plates 12 and two vertical belt wheels 13. The horizontal plate below in two horizontal plates 12 in the rotary driving mechanism 3 is fixed on the vertical plate 6 on the outside, two horizontal plates 12 are parallel to each other with the horizontal direction, two vertical belt pulleys 13 are set up between two horizontal plates 12 both ends with vertical direction to rotate through the pivot and set up on two horizontal plates 12, two horizontal plates 12 are connected through the transmission of vertical transmission band 11. The output shaft of the rotary driving motor 10 is connected with the rotating shaft of one vertical belt wheel 13, so that the vertical transmission belt 11 can be driven to rotate in the process that the rotary driving motor 10 drives the vertical belt wheel 13 to rotate.

As shown in fig. 10, which shows a perspective view of a portion of the boring mechanism of the present invention, fig. 11 shows a sectional view of a portion where the boring cutter, the sleeve, and the suction pipe are connected in the present invention, the boring mechanism 4 is composed of a boring motor 14, a front barrier 15, a rear barrier 16, and a plurality of boring cutters 17, the front barrier 15 and the rear barrier 16 are arranged in parallel with each other in a vertical state, the front barrier 15 and the vertical transfer belt 11 are respectively positioned at both sides above the horizontal transfer belt 8, and the front barrier 15 and the vertical transfer belt 11 are parallel with each other. The distance between the front baffle 15 and the vertical transmission belt 11 is smaller than or equal to the diameter of the fungus bags to be perforated, so that when the horizontal driving motor 7 drives the horizontal transmission belt 8 to move the vertically placed fungus bags to the position between the vertical transmission belt 11 and the front baffle 15, the rotary driving motor 10 drives the vertical transmission belt 11 and the horizontal transmission belt 8 to move along the same direction at the same speed, the fungus bags at the moment can be attached to the vertical transmission belt 11 and the front baffle 15 to rotate, and the rotary fungus bags can be opened at corresponding positions by the perforating cutters 17 protruding from the front baffle 15.

A plurality of perforating knives 17 (4 in the figure) are arranged protruding out of the front baffle 15, the perforating knives 17 are cylindrical, through holes through which the perforating knives 17 penetrate are arranged on the front baffle 15, and the perforating knives 17 are arranged at different height positions and different horizontal positions of the front baffle 15 so as to perforate different parts of the fungus bag. When the fungus bag rotates and moves forwards along the front baffle 15, the part of the fungus bag attached to the rotating hole opening knife 17 is cut off, and the fungus bag is opened.

The rear end of the tapping knife 17 is shown fixedly connected to the front end of the sleeve 18, and the rear end of the sleeve 18 is fixed to the tailgate 16 via bearings and bearing blocks 22, so that the tapping knife 17 and the sleeve 18 can rotate synchronously. The hole opening motor 14 is fixed on the rear baffle 16, an output shaft of the hole opening motor 14 extends out of the rear baffle 16, a driving belt wheel 19 is fixed on the output shaft of the hole opening motor 14, a driven belt wheel 20 is fixed on the sleeve 18, and the driving belt wheel 19 is in transmission connection with the driven belt wheel 20 through a belt 21.

The negative pressure material pumping mechanism 5 is composed of a negative pressure suction device 25, a blanking storage box 24 and negative pressure suction pipes 23, the number of the negative pressure suction pipes 23 is equal to that of the perforating knives 17, and the front ends of the negative pressure suction pipes 23 are connected with the rear ends of the sleeves 18 but are not fixed, so that the inner cavities of the negative pressure suction pipes 23 are communicated with the inner cavities of the sleeves 18 and the inner cavities of the perforating knives 17. The rear end of the negative pressure suction pipe 23 is communicated with the blanking storage box 24, the air suction port of the negative pressure suction device 25 is communicated with the blanking storage box 24, and a blocking net is arranged in the blanking storage box 24 so as to block the blanking of the sucked fungus bags in the blanking storage box 24 and take out the fungus bags in a centralized manner.

Referring to fig. 12, which shows a perspective view of the base mechanism of the present invention, the base mechanism 1 is composed of a lower base 26, an upper base 27, a cross beam 28, two horizontal connecting rods 29 and two vertical connecting rods 30, wherein the upper base 27 and the cross beam 28 are both located above the lower base 26, the cross beam 28 is connected to the lower base 26 through the two vertical connecting rods 30 penetrating through the lower base 26, and the upper base 27 is connected to the cross beam 28 through the two horizontal connecting rods 29 penetrating through the cross beam 28. The vertical plate at the rear side in the two vertical plates 6 in the horizontal conveying mechanism 2 is fixed on the lower base 26, and the front baffle 15 and the rear baffle 16 in the hole opening mechanism 4 are fixed on the upper base 27, so that the position of the upper base 27 can be adjusted by changing the position of the horizontal connecting rod 29 on the cross beam 28, and the distance between the front baffle 15 and the vertical conveying belt 11 is further changed to adapt to hole opening of fungus bags with different diameters and sizes. By changing the position of the vertical connecting rod 30 on the lower base 26, the position of the horizontal conveying mechanism 2 relative to the hole opening mechanism 4 in the height direction can be adjusted, so that the hole opening operation of fungus bags with different heights can be realized.

The working process of the automatic fungus bag opening device comprises the following steps: at first will treat the fungus bag of trompil and place on horizontal transmission band 8, the fungus bag moves under horizontal driving motor 7's drive effect, when the fungus bag moves to between vertical transmission band 11 and preceding baffle 15, under the drive effect of rotary driving motor 10, order about the fungus bag and paste preceding baffle 15 and the rotatory forward motion of vertical transmission band 11, when the fungus bag moves the trompil sword 17 position of outstanding on preceding baffle 15, trompil sword 17 can be with the fungus bag on correspond the position cutting with trompil sword 17. The cut fungus bag part enters the blanking storage box 24 through the inner cavity of the perforating knife 17, the inner cavity of the sleeve 18 and the inner cavity of the negative pressure suction pipe 23 under the action of the negative pressure suction device 25.

Claims

1. The utility model provides an automatic trompil device of fungus bag which characterized in that: the automatic fungus bag punching machine comprises a base mechanism (1), a horizontal conveying mechanism (2), a rotary driving mechanism (3), a hole opening mechanism (4) and a negative pressure material pumping mechanism (5), wherein the base mechanism plays a role in fixing and supporting, a horizontal conveying belt (8) for conveying vertically placed fungus bags is arranged on the horizontal conveying mechanism, the rotary driving mechanism and the hole opening mechanism are respectively positioned on two sides of the horizontal conveying belt, and a vertical conveying belt (11) positioned on one side above the horizontal conveying belt is arranged on the rotary driving mechanism; the punching mechanism consists of a punching motor (14), a front baffle (15), a rear baffle (16) and a plurality of cylindrical punching cutters (17), the front baffle and the rear baffle are vertically arranged, the front baffle and a vertical conveying belt are respectively positioned at two sides of a horizontal conveying belt, and the distance between the vertical conveying belt and the front baffle is equal to or less than the diameter of a fungus bag to be punched;

through holes through which the perforating knives penetrate are formed in different positions of the front baffle, the outer ends of the perforating knives protrude out of the outer vertical surface of the front baffle, the inner ends of the perforating knives are fixedly connected with a sleeve (18), the sleeve is fixed on the rear baffle (16) through a bearing and a bearing seat (22), the perforating motor is fixed on the rear baffle, the perforating motor drives the sleeve and the perforating knives to synchronously rotate through a transmission mechanism, and the rotating perforating knives realize perforating on the fungus bags; the negative pressure material pumping mechanism pumps out the cut fungus bag part through the inner cavities of the sleeve and the hole opening knife.

2. The automatic fungus sack opening device of claim 1, wherein: horizontal transport mechanism (2) comprise coexistence board (6), horizontal driving motor (7), horizontal transmission band (8) and two horizontal band pulley (9), and coexistence board parallel arrangement each other, inboard riser is fixed in on base mechanism (1) in two risers, and two horizontal band pulley rotate through the pivot and set up in the both ends of two risers, and two horizontal band pulley are connected through horizontal transmission band transmission, and horizontal driving motor's output shaft is connected with a horizontal band pulley's pivot.

3. The automatic fungus sack opening device of claim 2, wherein: the rotary driving mechanism (3) consists of a rotary driving motor (10), two horizontal plates (12), a vertical transmission belt (11) and two vertical belt wheels (13), wherein the two horizontal plates are arranged in parallel, the horizontal plate below the two horizontal plates is fixed on the vertical plate (6) at the outer side, the two vertical belt wheels are rotationally arranged at the two ends of the two horizontal plates through a rotating shaft, the two vertical belt wheels are in transmission connection through the vertical transmission belt, and the output shaft of the rotary driving motor is connected with the rotating shaft of one vertical belt wheel; the horizontal driving motor and the rotary driving motor respectively drive the horizontal conveying belt and the vertical conveying belt to move at the same speed in the same direction.

4. The automatic fungus sack opening device as claimed in claim 1 or 2, wherein: the negative pressure material pumping mechanism (5) is composed of a negative pressure suction device (25), a blanking storage box (24) and a negative pressure suction pipe (23), wherein a negative pressure suction port of the negative pressure suction device is communicated with the blanking storage box, one end of the negative pressure suction pipe is communicated with the blanking storage box, and the other end of the negative pressure suction pipe is communicated with the sleeve (18).

5. The automatic fungus sack opening device as claimed in claim 1 or 2, wherein: the transmission mechanism consists of a driving belt wheel (19), a driven belt wheel (20) and a belt (21), the driving belt wheel is fixed on an output shaft of the perforated motor (14), the driven belt wheel is fixed on the sleeve (18), and the driving belt wheel is in transmission connection with the driven belt wheel through the belt.

6. The automatic fungus sack opening device of claim 3, wherein: the base mechanism (1) is composed of a lower base (26), an upper base (27) and a cross beam (28), wherein the upper base and the cross beam are both positioned above the lower base, the cross beam is connected with the lower base through two vertical connecting rods (30) penetrating through the lower base, and the upper base is connected with the cross beam through two horizontal connecting rods (29) penetrating through the cross beam.