CN215324983U - Prevent piling up glucose powder bag conveyor - Google Patents

Abstract

The utility model discloses a stacking-prevention glucose powder bag conveying device which comprises a conveying assembly, a mounting frame, a pressing cylinder sliding guide rail, a first stepping motor, a pressing cylinder sliding block, an electric rotary pressing cylinder, a food-grade conveying belt, a screw rod, a lifting assembly, a powder bag protection assembly, an adjusting assembly and an infrared detection assembly, wherein the pressing cylinder sliding guide rail is arranged on two sides of the mounting frame, the first stepping motor is connected to one side of the pressing cylinder sliding guide rail, the pressing cylinder sliding block is clamped into the pressing cylinder sliding guide rail, the electric rotary pressing cylinder is arranged on the inner side face of the pressing cylinder sliding block, the food-grade conveying belt is arranged in a frame of the mounting frame, and the screw rod is used for connecting and driving the food-grade conveying belt. According to the utility model, the traditional conveying structure of the glucose powder bag is optimized, the stacking condition of the glucose powder bag can be judged in time through the arranged infrared detection structure, and the glucose powder bag is highly limited by matching the powder bag protection structure and the adjustment structure, so that the stacking is avoided, and the smoothness of the use of the whole conveying device is ensured.

Description

Prevent piling up glucose powder bag conveyor

Technical Field

The utility model relates to the technical field of glucose powder bag production, in particular to an anti-stacking glucose powder bag conveying device.

Background

Glucose powder is compound preparation, and glucose powder need use the wrapping bag to pack at the in-process of production preparation, need advance the glucose bag and carry in packaging process, carry the glucose bag to should next station down and carry out corresponding processing, and the too high condition of glucose bag pile appears easily at the in-process that uses in traditional glucose bag conveyor, can influence normal transport work like this, for this, through setting up one kind and preventing piling up glucose bag conveyor and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to provide the anti-stacking glucose powder bag conveying device, which optimizes the traditional conveying structure of glucose powder bags, can timely judge the stacking condition of the glucose powder bags through the arranged infrared detection structure, and is matched with the mutual matching of the powder bag protection structure and the adjustment structure to highly limit the glucose powder bags, so that the stacking is avoided, and the smoothness of the use of the whole conveying device is ensured.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

an anti-stack glucose powder bag delivery device comprising:

the conveying assembly comprises an installation frame, pressing cylinder sliding guide rails arranged on two sides of the installation frame, a first stepping motor connected to one side of the pressing cylinder sliding guide rails, a pressing cylinder sliding block clamped into the pressing cylinder sliding guide rails, an electric rotary pressing cylinder arranged on the inner side face of the pressing cylinder sliding block, a food-grade conveying belt arranged in an installation frame and a screw rod for connecting and driving the food-grade conveying belt;

the lifting assembly comprises a bottom plate arranged on one side of the mounting frame, an electric folding frame arranged on the top surface of the bottom plate, and a glucose powder bag transferring and conveying device arranged on the top surface of the electric folding frame;

the powder bag protection assembly comprises mounting side plates mounted on two side surfaces of the glucose powder bag transfer conveying device and a powder bag safety maintenance frame connected to the top surfaces of the mounting side plates;

the adjusting assembly comprises a rack arranged on the side surface of the mounting side plate, a gear connected with the rack, a second stepping motor arranged on the side surface of the mounting side plate, a driving gear connected with the second stepping motor and a driven gear meshed with the driving gear;

the infrared detection assembly comprises a vertical plate fixed on one side wall of the glucose powder bag transferring and conveying device, and a high-position infrared sensor and a low-position infrared sensor which are installed on the inner side wall of the vertical plate.

As a preferable scheme of the anti-stacking glucose powder bag conveying device, the device further comprises a powder bag separating assembly, wherein the powder bag separating assembly comprises a first linear motor installed between two sides of the glucose powder bag transferring and conveying device, a sliding motor module connected with the first linear motor, and a powder bag separating plate installed at the tail end of the sliding motor module.

In a preferable aspect of the anti-stacking glucose powder bag conveying device according to the utility model, the powder bag protective assembly is located on the right side of the powder bag separating assembly.

As a preferable scheme of the anti-stacking glucose powder bag conveying device, a plurality of electric rotary pressing cylinders are arranged and distributed on two sides of the food-grade conveyor belt.

The anti-stacking glucose powder bag conveying device comprises a vertical plate, a sliding push rod module, a third stepping motor, an angle adjusting module and an air-jet powder removing module, wherein the sliding push rod module is connected with the second linear motor, the angle adjusting module is connected with the third stepping motor, and the air-jet powder removing module is arranged at the top end of the angle adjusting module.

Compared with the prior art, the utility model has the beneficial effects that: optimize the traditional conveying structure of the glucose powder bag, through the arranged infrared detection structure, the stacking condition of the glucose powder bag can be judged in time, and the powder bag protection structure and the adjustment structure are matched with each other to limit the height of the glucose powder bag, avoid stacking and ensure the smoothness of the use of the whole conveying device, when in specific use, a first step motor is connected with a screw rod, a pressing cylinder sliding block slides on the screw rod, the pressing cylinder sliding block slides in a pressing cylinder sliding guide rail, an electric rotary pressing cylinder is used for tightly pressing the bag filled with the glucose powder, a food-grade conveying belt is used for conveying the bag filled with the glucose powder, the first step motor controls the screw rod to rotate, the pressing cylinder sliding block slides towards the middle or outwards in the screw rod, the bag filled with the glucose powder is tightly pressed by the electric rotary pressing cylinder, the bag filled with the glucose powder is conveyed forwards by the food-grade conveying belt, the electric folding frame highly adjusts the whole glucose powder bag transfer conveying device, when the glucose powder bag is conveyed to the surface of the glucose powder bag transferring and conveying device, the glucose powder bag passes through the high-position infrared sensor and the low-position infrared sensor, when the high-position infrared sensor and the low-position infrared sensor detect that the glucose powder bag is stacked, the second stepping motor is started, the second stepping motor controls the driving gear to rotate to drive the driven gear to rotate, the gears on two sides are rotated, the rack is made to slide up and down, namely the powder bag safety maintenance frame is driven to lift up and down, the powder bag safety maintenance frame is used for preventing the glucose powder bag from being too high, and preventing the powder bag from jumping upwards due to extrusion when entering the next processing station, falling out of the glucose powder bag transferring and conveying device and reducing potential safety hazards.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a block diagram of a first perspective of the present invention;

FIG. 2 is an enlarged view of the adjustment assembly of FIG. 1 in accordance with the present invention;

FIG. 3 is a block diagram of a second perspective of the present invention;

FIG. 4 is an enlarged view of the infrared detection assembly of FIG. 1 in accordance with the present invention;

FIG. 5 is an enlarged view of the cleaning assembly of FIG. 1 in accordance with the present invention;

fig. 6 is an enlarged view of the powder bag separating assembly of fig. 1 according to the present invention.

In the figure: 100. a delivery assembly; 110. a mounting frame; 120. a pressing cylinder sliding guide rail; 130. a first stepper motor; 140. pressing a cylinder sliding block; 150. electrically rotating the pressing cylinder; 160. a food grade conveyor belt; 170. a screw rod; 200. a lifting assembly; 210. a base plate; 220. an electric folding frame; 230. a glucose powder bag transfer conveyor; 300. a powder bag protective component; 310. installing a side plate; 320. the powder bag safety maintenance frame; 400. an adjustment assembly; 410. a rack; 420. a gear; 430. a second stepping motor; 440. a driving gear; 450. a driven gear; 500. a powder bag separating assembly; 510. a first linear motor; 520. a slipping motor module; 530. a powder bag separating plate; 600. an infrared detection assembly; 610. a vertical plate; 620. a high-level infrared sensor; 630. a low-level infrared sensor; 700. a cleaning assembly; 710. a sliding push rod module; 720. a third step motor; 730. an angle adjustment module; 740. a gas-injection powder-removing module; 750. a second linear motor.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a stacking-prevention glucose powder bag conveying device, which optimizes a traditional conveying structure of a glucose powder bag, can timely judge the stacking condition of the glucose powder bag through an arranged infrared detection structure, and is matched with a powder bag protection structure and an adjustment structure to be mutually matched to limit the height of the glucose powder bag, avoid stacking and ensure the smooth use of the whole conveying device.

Referring to fig. 1 to 6, which are schematic views illustrating an overall structure of an embodiment of a stacking prevention glucose powder bag feeding apparatus according to the present invention, referring to fig. 1 to 6, a main body of the stacking prevention glucose powder bag feeding apparatus according to the present embodiment includes a feeding member 100, a lifting member 200, a powder bag protecting member 300, an adjusting member 400, and an infrared detecting member 600.

The conveying assembly 100 is used for conveying glucose powder bags, and specifically, the conveying assembly 100 includes a mounting frame 110, a cylinder pressing sliding guide rail 120 installed on two sides of the mounting frame 110, a first stepping motor 130 connected to one side of the cylinder pressing sliding guide rail 120, a cylinder pressing sliding block 140 clamped into the cylinder pressing sliding guide rail 120, an electric rotary cylinder pressing 150 installed on the inner side surface of the cylinder pressing sliding block 140, a food grade conveyor belt 160 installed in the frame of the mounting frame 110, and a screw 170 for connecting and driving the food grade conveyor belt 160, when in specific use, the first stepping motor 130 is connected with the screw 170, the cylinder pressing sliding block 140 slides on the screw 170, the cylinder pressing sliding block 140 slides in the cylinder pressing sliding guide rail 120, the electric rotary cylinder pressing 150 is used for pressing bags containing glucose powder, the food grade conveyor belt 160 is used for conveying bags containing glucose powder, the first stepping motor 130 controls the screw 170 to rotate, the pressing cylinder sliding block 140 slides towards the middle or outwards on the screw 170, so that the electric rotating pressing cylinder 150 compresses the bag filled with the glucose powder, and the food-grade conveyor belt 160 conveys the bag filled with the glucose powder forwards.

The lifting assembly 200 is used for lifting the height and carrying out glucose powder bag conveying, and specifically, the lifting assembly 200 comprises a bottom plate 210 arranged on one side of the mounting frame 110, an electric folding frame 220 arranged on the top surface of the bottom plate 210, and a glucose powder bag transfer conveying device 230 arranged on the top surface of the electric folding frame 220, wherein when the lifting assembly is specifically used, the electric folding frame 220 adjusts the height of the whole glucose powder bag transfer conveying device 230, and when the glucose powder bag is conveyed to the surface of the glucose powder bag transfer conveying device 230, the glucose powder bag transfer conveying device 230 conveys the glucose powder bag.

The powder bag protection assembly 300 is used for preventing a glucose powder bag from being stacked too high, so that potential safety hazards occur, and the conveying of the glucose powder bag is influenced, and particularly, the powder bag protection assembly 300 comprises mounting side plates 310 mounted on two side faces of the glucose powder bag transfer conveying device 230 and a powder bag safety maintenance frame 320 connected to the top faces of the mounting side plates 310, when the powder bag protection assembly is used specifically, the powder bag safety maintenance frame 320 is lifted up and down, the powder bag safety maintenance frame 320 is used for preventing the glucose powder bag from being stacked too high, and preventing the powder bag from jumping upwards due to extrusion when entering a next processing station, falling out of the glucose powder bag transfer conveying device 230, and reducing the potential safety hazards.

The adjusting assembly 400 is used for adjusting the height of the powder bag protecting assembly 300, and specifically, the adjusting assembly 400 comprises a rack 410 mounted on the side surface of the mounting side plate 310, a gear 420 connected with the rack 410, a second stepping motor 430 mounted on the side surface of the mounting side plate 310, a driving gear 440 connected with the second stepping motor 430 and a driven gear 450 meshed with the driving gear 440, when the adjusting assembly is specifically used, the second stepping motor 430 is started, the second stepping motor 430 controls the driving gear 440 to rotate, the driven gear 450 is driven to rotate, the gears 420 on two sides are driven to rotate, the rack 410 is made to slide up and down, and the powder bag safety maintenance frame 320 is driven to lift up and down.

Infrared detection subassembly 600 is used for piling up the detection, be convenient for drive adjustment subassembly 400 cooperation is used, and is concrete, infrared detection subassembly 600 is including fixing the riser 610 at glucose powder bag transfer conveyer 230 a lateral wall, install high-order infrared sensor 620 and the low level infrared sensor 630 at riser 610 inside wall, when specifically using, glucose powder bag can be through high-order infrared sensor 620 and low level infrared sensor 630, high-order infrared sensor 620 and low level infrared sensor 630 detect the height of glucose powder bag, judge and pile up the height.

Referring to fig. 1 to 6, in a specific use of the anti-stacking glucose bag conveying device of the present embodiment, the first stepping motor 130 is connected to the screw 170, the barrel pressing sliding block 140 slides on the screw 170, the barrel pressing sliding block 140 slides in the barrel pressing sliding guide 120, the electric rotary barrel 150 is used to press the bag filled with glucose, the food-grade conveyer belt 160 is used to convey the bag filled with glucose, the first stepping motor 130 controls the screw 170 to rotate, so that the barrel pressing sliding block 140 slides towards the middle or outwards of the screw 170, the electric rotary barrel 150 presses the bag filled with glucose, the food-grade conveyer belt 160 conveys the bag filled with glucose forwards, the electric folding frame 220 adjusts the height of the entire glucose bag transfer conveying device 230, and when the glucose bag is conveyed to the surface of the glucose bag transfer conveying device 230, the glucose bag passes through the high-level infrared sensor 620 and the low-level infrared sensor 630, when the high-level infrared sensor 620 and the low-level infrared sensor 630 detect that the grape powder bag is stacked, the second stepping motor 430 is started, the second stepping motor 430 controls the driving gear 440 to rotate, the driven gear 450 is driven to rotate, the gears 420 on the two sides rotate, the rack 410 slides up and down, namely the powder bag safety maintenance frame 320 is driven to lift up and down, the powder bag safety maintenance frame 320 is used for preventing the grape powder bag from being too high, and preventing the powder bag from jumping upwards and falling out of the glucose powder bag transfer conveying device 230 due to extrusion when entering the next processing station, so that potential safety hazards are reduced.

Further, when carrying and preventing piling up, can't reduce the height of glucose powder bag automatically to infrared detection subassembly 600 is sheltered from by the dust easily in the in-process of long-time use, influences the height and detects, solves above-mentioned problem through setting up powder bag separator assembly 500 and clean subassembly 700 for this reason.

The powder bag separating assembly 500 is used for rapidly separating stacked glucose powder bags, and specifically, the powder bag separating assembly 500 comprises a first linear motor 510 installed between two sides of the glucose powder bag transferring and conveying device 230, a sliding motor module 520 connected with the first linear motor 510, and a powder bag separating plate 530 installed at the tail end of the sliding motor module 520, when in specific use, the first linear motor 510 controls the sliding motor module 520 to adjust the high-low position to the corresponding position of the stacked and stacked glucose powder bags above, and the sliding motor module 520 drives the powder bag separating plate 530 to rotate, so that the stacked glucose powder bags are separated and are not stacked.

The cleaning assembly 700 is used for dust cleaning, specifically, the cleaning assembly 700 comprises a second linear motor 750 installed on the inner side wall of a vertical plate 610, a sliding push rod module 710 connected with the second linear motor 750, a third stepping motor 720 contacted with the sliding push rod module 710, an angle adjusting module 730 connected with the third stepping motor 720 and an air-jet powder removing module 740 installed at the top end of the angle adjusting module 730, when in specific use, the second linear motor 750 controls the sliding push rod module 710 to adjust the high-low position, the sliding push rod module 710 controls the third stepping motor 720 to push outwards or inwards, the third stepping motor 720 controls the rotation angle of the angle adjusting module 730, the angle adjusting module 730 controls the inclination angle of the air-jet powder removing module 740, so that the air-jet powder removing module 740 is aligned with the high-position infrared sensor 620 or the low-position infrared sensor 630 to remove dust attached to the high-position infrared sensor 620 or the low-position infrared sensor 630, and dust is prevented from influencing the detection of the infrared sensor.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. The utility model provides an anti-stacking glucose powder bag conveying device, which is characterized in that includes:

the conveying assembly (100) comprises a mounting frame (110), barrel pressing sliding guide rails (120) arranged on two sides of the mounting frame (110), a first stepping motor (130) connected to one side of the barrel pressing sliding guide rails (120), a barrel pressing sliding block (140) clamped into the barrel pressing sliding guide rails (120), an electric rotary pressing barrel (150) arranged on the inner side surface of the barrel pressing sliding block (140), a food-grade conveyor belt (160) arranged in a frame of the mounting frame (110) and a screw rod (170) for connecting and driving the food-grade conveyor belt (160);

the lifting assembly (200) comprises a bottom plate (210) arranged on one side of the mounting frame (110), an electric folding frame (220) arranged on the top surface of the bottom plate (210), and a glucose powder bag transferring and conveying device (230) arranged on the top surface of the electric folding frame (220);

a powder bag protection assembly (300) which comprises mounting side plates (310) arranged on two sides of the glucose powder bag transfer conveying device (230) and a powder bag safety maintenance frame (320) connected to the top surfaces of the mounting side plates (310);

an adjusting assembly (400) including a rack (410) installed at a side of the installation side plate (310), a gear (420) connected to the rack (410), a second stepping motor (430) installed at a side of the installation side plate (310), a driving gear (440) connected to the second stepping motor (430), and a driven gear (450) engaged with the driving gear (440);

the infrared detection assembly (600), infrared detection assembly (600) including fix the riser (610) of glucose powder bag transfer conveyer (230) a lateral wall, install high-order infrared sensor (620) and low level infrared sensor (630) at riser (610) inside wall.

2. The anti-stacking glucose powder bag conveying device according to claim 1, further comprising a powder bag separating assembly (500), wherein the powder bag separating assembly (500) comprises a first linear motor (510) installed between two sides of the glucose powder bag transferring and conveying device (230), a sliding motor module (520) connected with the first linear motor (510), and a powder bag separating plate (530) installed at the tail end of the sliding motor module (520).

3. The anti-stack glucose bag feeding device according to claim 2, wherein the powder bag guard assembly (300) is located at the right side of the powder bag separating assembly (500).

4. Anti-stacking glucose powder bag feeding device according to claim 3, characterized in that said electric rotary pressing drums (150) are provided in number and that a number of said electric rotary pressing drums (150) are distributed on both sides of a food grade conveyor belt (160).

5. The anti-stacking glucose powder bag conveying device according to claim 4, further comprising a cleaning assembly (700), wherein the cleaning assembly (700) comprises a second linear motor (750) installed on the inner side wall of the vertical plate (610), a sliding push rod module (710) connected with the second linear motor (750), a third stepping motor (720) contacted with the sliding push rod module (710), an angle adjusting module (730) connected with the third stepping motor (720), and an air-jet powder removing module (740) installed at the top end of the angle adjusting module (730).

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