CN212370631U - Gauze package metal detector - Google Patents

Abstract

A gauze-wrapped metal detector relates to the technical field of novel dressings and comprises a metal detector, a weight detector, a sub-packaging device and a collecting device; the metal detector comprises a detection main body, a first conveyor belt and a baffle, the weight detector comprises a pressure sensing device, a second conveyor belt, a cover body and a printer, the pressure sensing device is arranged in the middle layer of the second conveyor belt and is connected with a pressure display screen through a control circuit bracket, the printer is connected with the pressure display screen, the pressure display screen and the printer are positioned at the top of the cover body, the cover body is of an n-shaped structure, and the cover body is arranged at the top of the second conveyor belt; the subpackaging device comprises a guide device and a third conveying belt, the guide device is arranged on two sides of the third conveying belt and comprises a guide shaft and a guide rod, the collecting device comprises a heavy object detection frame and a light object detection frame which are arranged on two sides of the subpackaging device, and an inclined plane is arranged in the subpackaging device for transition. The utility model provides high gauze package inspection efficiency and inspection precision.

Description

Gauze package metal detector

Technical Field

The utility model relates to a novel dressing technical field especially relates to a gauze package metal detector.

Background

The metal detection machine is used for detecting metal foreign bodies mixed in the production processes of food, medicine, cosmetics, textile and the like, the detection of the gauze bag also comprises weighing detection, at present, the finished products are respectively subjected to metal detection and weighing in two devices, the finished products need to be respectively moved into the two devices, and the detection efficiency of the finished products is reduced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem of low detection efficiency of gauze packages in the prior art, the gauze package metal detector comprises a metal detector, a weight detector, a sub-packaging device and a collecting device; the metal detector comprises a detection main body, a first conveyor belt and a baffle, the weight detector comprises a pressure sensing device, a second conveyor belt, a cover body and a printer, the pressure sensing device is arranged in the middle layer of the second conveyor belt, the pressure sensing device is connected with a pressure display screen through a control circuit support, the printer is connected with the pressure display screen, the pressure display screen and the printer are positioned at the top of the cover body, the cover body is of an n-shaped structure, and the cover body is arranged at the top of the second conveyor belt; the sub-packaging device comprises a guide device and a third conveying belt, the guide device is arranged on two sides of the third conveying belt and comprises a guide shaft and a guide rod, the collecting device comprises a partial heavy frame and a partial light frame which are arranged on two sides of the sub-packaging device, and the surface of the third conveying belt and the partial heavy frame and the partial light frame in the sub-packaging device are in inclined plane transition.

Preferably, a rectangular penetrating body is arranged in the middle of the detection main body, the first conveying belt passes through the rectangular penetrating body, baffles are arranged on two sides of the first conveying belt, and the baffles are symmetrically distributed and are close to the inner wall of the detection main body.

Through adopting above-mentioned technical scheme, first conveyer belt can carry out comprehensive metal to the gauze package on the first conveyer belt through the body that runs through in detecting the main part, and the effect of baffle prevents that the gauze package from breaking away from first conveyer belt to can help the gauze package accurate send into in the second conveyer belt.

Preferably, the length of the baffle is matched with the length of the upper surface of the first conveyor belt, the baffle is perpendicular to the surface of the first conveyor belt, and the end part of the baffle is provided with an outward inclined feeding plate.

Through adopting above-mentioned technical scheme, the baffle matches with first conveyer belt to it is perpendicular with it, the feed plate that leans out of port design makes things convenient for the entering of gauze package, prevents that the gauze package from appearing the card in the circumstances between first conveyer belt and baffle when getting into metal detector.

Preferably, the rear end face of the weight detector is provided with a control circuit support, and the control circuit is connected with an infrared sensor, a pressure sensing device, a pressure display screen and a printer.

Through adopting above-mentioned technical scheme, the control circuit support is arranged in feeding back the gauze package number that the infrared inductor detected in the weight detects to the pressure display screen, and the pressure-sensitive device also feeds back the data of surveying to the pressure display screen to data one-to-one can print out through the printer.

Preferably, the infrared inductor penetrates through the side wall of the cover body, and the infrared inductor is arranged at the inlet end of the cover body.

Through adopting above-mentioned technical scheme, infrared inductor passes through the lateral wall of the cover body, and is located the entry end of the cover body, can measure the number of the gauze package that gets into the cover body on the second conveyer belt.

Preferably, the guide device comprises two groups of guide shafts and guide rods, the guide shafts are provided with the tail ends of the third conveyor belt, the guide rods are symmetrically distributed on two sides of the third conveyor belt, and the tail ends of the guide rods are connected with the tops of the guide shafts.

Through adopting above-mentioned technical scheme, two sets of guiding axle and guide bar that are equipped with in the guider, a set of direction that is used for the weight-bias gauze package, another group is used for the direction of light-bias gauze package, the guide bar uses the guiding axle as the centre of a circle, rotates at third conveyer belt upper surface, realizes passing through guide bar and inclined plane transition transmission with the gauze package on the third conveyer belt to corresponding collection device in.

Preferably, the top of the slope transition is horizontal to the surface of the third conveyor belt, and the bottom of the slope transition is parallel to the top surfaces of the heavy frame to be inspected and the light frame to be inspected.

Through adopting above-mentioned technical scheme, the inclined plane transition can let the gauze package that is transmitted down on the third conveyer belt get into collection device through glossy inclined plane and go, and the effectual risk of having avoided the gauze package to be drawn into in the third conveyer belt at the in-process that drops.

Preferably, the first conveyor belt, the second conveyor belt and the third conveyor belt are arranged in sequence and driven by different motors, and the widths of the conveyor belts in the first conveyor belt, the second conveyor belt and the third conveyor belt are increased in sequence.

Through adopting above-mentioned technical scheme, the different conveyer belts of different motor drive can the independent control open of each motor to the width of the conveyer belt from first conveyer belt to third conveyer belt increases in proper order, can effectively stop the possibility that the gauze package dropped from the conveyer belt.

To sum up, the utility model combines the metal detector and the weight detector into a whole, and enters the weight detection procedure after the metal detection is finished, and the operation of the first conveyor belt in the metal detector can be stopped in time after the metal component is detected, and the gauze bag containing the metal component can be taken out in time; in the process of quality detection, whether the package of the gauze bag is qualified or not can be measured according to a preset numerical range, the gauze packages with insufficient or overlarge quality are automatically collected through a sub-packaging device, the slope transition arranged between the third conveyor belt and the collecting device can facilitate the gauze packages to slide into the collecting device, then manual inspection, unpacking and re-packaging are carried out in the frame to be detected with heavy weight and the frame to be detected with light weight, wherein the cover body arranged on the weight detector can effectively prevent impurities from entering the second conveyor belt, effectively reduce the influence on the quality measurement precision of the gauze bag, display the numerical value of the gauze bag quality passing through the weight detector on the pressure display screen in real time, and can print this data out through the printer, can the analysis reachs the relation of the number of piles and quality in the gauze package, for follow-up for the weight detects the machine provides more accurate settlement interval. This scheme can effectual improvement gauze package's inspection efficiency and inspection precision.

Drawings

FIG. 1 is a schematic diagram of a gauze clad metal detector;

fig. 2 is a top view of a gauze clad metal detector.

Reference numerals: 1. a metal detector; 11. detecting a subject; 12. a first conveyor belt; 13. a baffle plate; 14. a feeding plate; 2. a weight detector; 21. a pressure sensing device; 22. a second conveyor belt; 23. a cover body; 24. a printer; 25. a control circuit support; 26. an infrared sensor; 27. a pressure display screen; 3. a subpackaging device; 31. a guide device; 311. a guide shaft; 312. a guide bar; 32. a third conveyor belt; 4. a collection device; 41. a heavy frame to be detected; 42. a slightly light frame to be detected; 43. and (4) slope transition.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

As shown in fig. 1 and 2, a gauze-covered metal detector 1 includes a metal detector 1, a weight detector 2, a sub-packaging device 3, and a collecting device 4; the metal detector 1 comprises a detection main body 11, a first conveyor belt 12 and a baffle 13, the weight detector 2 comprises a pressure sensing device 21, a second conveyor belt 22, a cover body 23 and a printer 24, the pressure sensing device 21 is arranged in the middle layer of the second conveyor belt 22, the pressure sensing device 21 is connected with a pressure display screen 27 through a control circuit bracket 25, the printer 24 is connected with the pressure display screen 27, the pressure display screen 27 and the printer 24 are positioned at the top of the cover body 23, the cover body 23 is of an n-shaped structure, and the cover body 23 is arranged at the top of the second conveyor belt 22; the subpackaging device 3 comprises a guide device 31 and a third conveyor belt 32, the guide device 31 is arranged on two sides of the third conveyor belt 32, the guide device 31 is composed of a guide shaft 311 and a guide rod 312, the collecting device 4 comprises a heavy weight checking frame 41 and a light weight checking frame 42 which are arranged on two sides of the subpackaging device 3, and an inclined surface transition 43 is arranged between the surface of the third conveyor belt 32 in the subpackaging device 3 and the heavy weight checking frame 41 and the light weight checking frame 42.

As shown in fig. 1 and 2, a rectangular penetrating body is disposed in the middle of the detection main body 11, the first conveyor belt 12 passes through the rectangular penetrating body, the baffles 13 are disposed on two sides of the first conveyor belt 12, and the baffles 13 are symmetrically distributed and close to the inner wall of the detection main body 11. The first conveyor belt 12 passes through the penetrating body in the detection main body 11, so that the gauze bag on the first conveyor belt 12 can be comprehensively subjected to metal detection, and the baffle 13 has the functions of preventing the gauze bag from being separated from the first conveyor belt 12 and helping the gauze bag to be accurately fed into the second conveyor belt 22.

As shown in fig. 1 and 2, the length of the baffle 13 is matched with the length of the upper surface of the first conveyor belt 12, the baffle 13 is perpendicular to the surface of the first conveyor belt 12, and the end of the baffle 13 is provided with an outward-inclined feeding plate 14. Baffle 13 matches with first conveyer belt 12 to perpendicular to it, and the outward inclined feed plate 14 of port design facilitates the entering of gauze package, prevents that the gauze package from appearing the condition of card between first conveyer belt 12 and baffle 13 when getting into metal detector 1.

As shown in fig. 1 and 2, a control circuit bracket 25 is provided on the rear end surface of the weight detector 2, and an infrared sensor 26, a pressure sensing device 21, a pressure display screen 27, and a printer 24 are connected to the control circuit. The control circuit support 25 is used for feeding back the number of the gauze packages detected by the infrared sensor 26 in the weight detection to the pressure display screen 27, the pressure sensing device 21 feeds back the detected data to the pressure display screen 27, and the data correspond to each other one by one and can be printed out through the printer 24.

Example 2

As shown in fig. 1 and 2, a gauze-covered metal detector 1 includes a metal detector 1, a weight detector 2, a sub-packaging device 3, and a collecting device 4; the metal detector 1 comprises a detection main body 11, a first conveyor belt 12 and a baffle 13, the weight detector 2 comprises a pressure sensing device 21, a second conveyor belt 22, a cover body 23 and a printer 24, the pressure sensing device 21 is arranged in the middle layer of the second conveyor belt 22, the pressure sensing device 21 is connected with a pressure display screen 27 through a control circuit bracket 25, the printer 24 is connected with the pressure display screen 27, the pressure display screen 27 and the printer 24 are positioned at the top of the cover body 23, the cover body 23 is of an n-shaped structure, and the cover body 23 is arranged at the top of the second conveyor belt 22; the subpackaging device 3 comprises a guide device 31 and a third conveyor belt 32, the guide device 31 is arranged on two sides of the third conveyor belt 32, the guide device 31 is composed of a guide shaft 311 and a guide rod 312, the collecting device 4 comprises a heavy weight checking frame 41 and a light weight checking frame 42 which are arranged on two sides of the subpackaging device 3, and an inclined surface transition 43 is arranged between the surface of the third conveyor belt 32 in the subpackaging device 3 and the heavy weight checking frame 41 and the light weight checking frame 42.

As shown in fig. 1 and 2, the infrared sensor 26 penetrates through the side wall of the cover 23, and the infrared sensor 26 is disposed at the inlet end of the cover 23. The infrared sensor 26 is located at the entrance end of the cover 23 through the side wall of the cover 23, and can count the number of gauze packages entering the cover 23 on the second conveyor belt 22.

As shown in fig. 1 and fig. 2, the guiding device 31 includes two sets of guiding shafts 311 and guiding rods 312, the guiding shafts 311 are disposed at the ends of the third conveyor belt 32, the guiding rods 312 are symmetrically disposed at two sides of the third conveyor belt 32, and the ends of the guiding rods 312 are connected to the tops of the guiding shafts 311. Two groups of guide shafts 311 and guide rods 312 are arranged in the guide device 31, one group is used for guiding the heavy gauze packages, the other group is used for guiding the light gauze packages, and the guide rods 312 rotate on the upper surface of the third conveyor belt 32 by taking the guide shafts 311 as the circle center, so that the gauze packages on the third conveyor belt 32 are transmitted to the corresponding collecting device 4 through the guide rods 312 and the inclined plane transition 43.

As shown in fig. 1 and 2, the top of the ramp transition 43 is level with the surface of the third conveyor belt 32, and the bottom of the ramp transition 43 is parallel to the top surfaces of the heavy inspection frame 41 and the light inspection frame 42. The inclined transition 43 enables the gauze packages conveyed by the third conveyor belt 32 to enter the collecting device 4 through a smooth inclined surface, thereby effectively avoiding the risk that the gauze packages are involved in the falling process of the third conveyor belt 32.

As shown in fig. 1 and 2, the first conveyor belt 12, the second conveyor belt 22, and the third conveyor belt 32 are sequentially arranged, and the widths of the first conveyor belt 12, the second conveyor belt 22, and the third conveyor belt 32 are sequentially increased by driving different motors. Different motors drive different conveyor belts, the start and stop of each motor can be controlled independently, the width of the conveyor belts from the first conveyor belt 12 to the third conveyor belt 32 is increased in sequence, and the possibility that gauze packages fall off from the conveyor belts can be effectively avoided.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. A gauze package metal detector which characterized in that: comprises a metal detector (1), a weight detector (2), a subpackaging device (3) and a collecting device (4); the metal detector (1) comprises a detection main body (11), a first conveyor belt (12) and a baffle (13), the weight detector (2) comprises a pressure sensing device (21), a second conveyor belt (22), a cover body (23) and a printer (24), the pressure sensing device (21) is arranged in the middle layer of the second conveyor belt (22), the pressure sensing device (21) is connected with a pressure display screen (27) through a control circuit support (25), the printer (24) is connected with the pressure display screen (27), the pressure display screen (27) and the printer (24) are located at the top of the cover body (23), the cover body (23) is of an n-shaped structure, and the cover body (23) is arranged at the top of the second conveyor belt (22); subpackage device (3) including guider (31) and third conveyer belt (32), guider (31) set up the both sides in third conveyer belt (32), and guider (31) comprise guiding axle (311) and guide bar (312), collection device (4) examine frame (41) and examine frame (42) including setting up the weight bias that subpackages device (3) both sides, and subpackage third conveyer belt (32) surface in device (3) and weight bias examine frame (41) and examine and be equipped with inclined plane transition (43) between frame (42) with examining.

2. A gauze clad metal detector as claimed in claim 1, wherein: the middle of the detection main body (11) is provided with a rectangular penetrating body, the first conveying belt (12) penetrates through the rectangular penetrating body, the two sides of the first conveying belt (12) are provided with baffles (13), and the baffles (13) are symmetrically distributed and are close to the inner wall of the detection main body (11).

3. A gauze clad metal detector as claimed in claim 2, wherein: the length of baffle (13) and the upper surface length looks adaptation of first conveyer belt (12), baffle (13) and the surface of first conveyer belt (12) are perpendicular, and the tip of baffle (13) is equipped with charge-in board (14) that outwards inclines.

4. A gauze clad metal detector as claimed in claim 1, wherein: the rear end face of the weight detector (2) is provided with a control circuit support (25), and the control circuit is connected with an infrared sensor (26), a pressure sensing device (21), a pressure display screen (27) and a printer (24).

5. The gauze clad metal detector of claim 4, wherein: the infrared inductor (26) penetrates through the side wall of the cover body (23), and the infrared inductor (26) is arranged at the inlet end of the cover body (23).

6. A gauze clad metal detector as claimed in claim 1, wherein: including two sets of guiding axle (311) and guide bar (312) in guider (31), and guiding axle (311) all set up the end at third conveyer belt (32), guide bar (312) symmetric distribution is in the both sides of third conveyer belt (32), and the end of guide bar (312) is connected with the top of guiding axle (311).

7. A gauze clad metal detector as claimed in claim 1, wherein: the top of the inclined plane transition (43) is horizontal to the surface of the third conveyor belt (32), and the bottom of the inclined plane transition (43) is parallel to the top surfaces of the heavy inspection frame (41) and the light inspection frame (42).

8. A gauze clad metal detector as claimed in claim 1, wherein: the first conveyor belt (12), the second conveyor belt (22) and the third conveyor belt (32) are sequentially arranged and driven by different motors, and the widths of the conveyor belts in the first conveyor belt (12), the second conveyor belt (22) and the third conveyor belt (32) are sequentially increased.

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