CN214452421U - Double-layer belt double-sensor extrusion detection equipment - Google Patents

Abstract

The utility model discloses a double-deck belt dual sensor extrusion check out test set, including the control box, be connected and be used for responding to whether there is the light eye of flexible bagged products on the production transfer chain with the control box electricity, the first belt mechanism of one side of setting at the production transfer chain, the second belt mechanism of setting at the opposite side of production transfer chain and be used for rejecting the remover of unqualified flexible bagged products on the production transfer chain, first belt mechanism is including first motor, first belt and the first pressure sensor of setting in first belt, second belt mechanism is including the second motor, second belt and the second pressure sensor of setting in the second belt, form the seam of acceping that is used for pressing flexible bagged products between first belt and the second belt. In this way, the utility model discloses can realize that the bad flexible bagged products of leakproofness appear in the on-line measuring, make the product that dispatches from the factory all qualified, improve the qualification rate that the product dispatched from the factory, reduce the subsequent packing of defective products and spout processes such as sign indicating number, effective reduction in production cost.

Description

Double-layer belt double-sensor extrusion detection equipment

Technical Field

The utility model relates to a production facility technical field specifically is double-deck belt dual sensor extrusion check out test set.

Background

The packaging of the existing liquid food, beverage, dairy products and the like pursues various flowers, the flexible bagged product is a relatively novel packaging form, the biggest advantage of the packaging form is portability, the flexible bagged product can be conveniently placed into a backpack or even a pocket, and the volume can be reduced along with the reduction of the content, so that the flexible bagged product is more convenient to carry. The shelf has the advantages of improving the product grade, strengthening the visual effect of the shelf, being portable and convenient to carry, convenient to use, fresh-keeping, sealing performance and the like.

At present, a solution in a flexible bagged product is filled in a production line, the phenomena of leakage filling, less filling, poor sealing and the like easily occur in the production process, and the quality of the product is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a double-deck belt dual sensor extrusion check out test set to the solution of the flexible bagged products inside that proposes in solving above-mentioned background art all adopts the mode of pouring at the production line, appears leaking very easily in process of production and irritates, irritates less and phenomenon such as leakproofness is bad, influences the problem of the quality of product.

In order to achieve the above object, the utility model provides a following technical scheme: double-deck belt dual sensor extrusion check out test set, including the control box, with the control box electricity is connected and is used for responding to whether there is the light eye of flexible bagged product on the production transfer chain, set up in the one side of production transfer chain and with first belt mechanism that the control box electricity is connected, set up at the opposite side of production transfer chain and with second belt mechanism that the control box electricity is connected and is used for rejecting the stripper of the flexible bagged product that is unqualified on the production transfer chain and with the control box electricity is connected and is used for rejecting, wherein first belt mechanism with second belt mechanism forms the seam of acceping that is used for the flexible bagged product of clamp pressure, first belt mechanism with second belt mechanism symmetry sets up, first belt mechanism is including first motor, first belt and setting up first pressure sensor in the first belt, second belt mechanism is including second motor, Second belt and setting are in the second pressure sensor in the second belt, form between first belt and the second belt and be used for the contained gap of the flexible bagged product of cramping, its characterized in that: the first belt mechanism further comprises a first supporting frame arranged on one side of the production conveying line, a first driving wheel arranged at one end of the first supporting frame and a first driven wheel arranged at the other end of the first supporting frame, wherein the first belt is arranged outside the first driving wheel and the first driven wheel in a surrounding mode; the second belt mechanism further comprises a second supporting frame arranged on the other side of the production conveying line, a second driving wheel arranged at one end of the second supporting frame and a second driven wheel arranged at the other end of the second supporting frame, wherein the second belt is arranged outside the second driving wheel and the second driven wheel in a surrounding manner; the first motor is arranged on the first supporting frame and connected with the first driving wheel, and the second motor is arranged on the second supporting frame and connected with the second driving wheel.

Preferably, the first support frame comprises a first bottom plate arranged on one side of the production conveying line and a first top plate arranged above the first bottom plate, wherein the first driving wheel is rotatably arranged between one end of the first top plate and one end of the first bottom plate, and the first driven wheel is rotatably arranged between the other end of the first top plate and the other end of the first bottom plate.

Preferably, first belt mechanism still sets up including rotating a plurality of first bulge pulleys between first roof and the first bottom plate, a plurality of first bulge pulleys are close to second belt mechanism sets up, first action wheel with first follow driving wheel is in same straight line setting, first action wheel first follow driving wheel with a plurality of first bulge pulleys are not in same straight line setting, first follow driving wheel with a plurality of first action wheels are kept away from second belt mechanism sets up, just first belt encircles the setting and is in first follow driving wheel a plurality of first bulge pulleys with a plurality of first bulge pulleys are outer.

Preferably, the second support frame comprises a second bottom plate arranged on the other side of the production conveying line and a second top plate arranged above the second bottom plate, wherein the second driving wheel is rotatably arranged between one end of the second top plate and one end of the second bottom plate, and the second driven wheel is rotatably arranged between the other end of the second top plate and the other end of the second bottom plate.

Preferably, the second belt mechanism is still including rotating the setting and being in a plurality of second salient wheels between second roof and the second bottom plate, a plurality of second salient wheels are close to first belt mechanism sets up, the second action wheel with the second is followed the driving wheel and is in same straight line setting, the second action wheel the second follow the driving wheel with a plurality of second salient wheels are not in same straight line setting, the second follow the driving wheel with the second action wheel is kept away from first belt mechanism sets up, just the second belt encircles the setting and is in the second follow the driving wheel a plurality of second salient wheels with outside a plurality of second salient wheels.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the device can realize online detection of the flexible bagged product with sealing leakage, adopts a symmetrical design as a whole, can clamp and move an object through the double belt layers, can protect a container to be detected, is accurate, quick and intelligent in detection precision, and improves production benefits;

2. the equipment can realize a contact type detection mode by utilizing the pressure sensor, has higher precision and accuracy than manual detection equipment, is easy to learn, understand and operate, does not need professional technicians, and effectively reduces the labor cost of the operators;

3. the equipment can accurately eliminate all defective products by analyzing data through the control box body, so that the delivered products are qualified, the delivery qualification rate of the products is improved, the subsequent packaging code spraying and other procedures of the defective products are reduced, and the production cost is effectively reduced.

Drawings

FIG. 1 is a schematic structural view of the double-layer belt double-sensor extrusion detection device of the present invention;

fig. 2 is a schematic structural diagram of a belt mechanism of the double-layer belt double-sensor extrusion detection device in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the utility model provides a double-deck belt dual sensor extrusion check out test set includes control box 10, be connected with control box 10 electricity and be used for responding to whether there is the light eye 11 of flexible bagged products on the production transfer chain, set up in one side of production transfer chain and the first belt mechanism of being connected with control box 10 electricity, set up at the opposite side of production transfer chain and the second belt mechanism of being connected with control box 10 electricity and the rejector 14 that is connected with control box 10 electricity and is used for rejecting the flexible bagged products of unqualified on the production transfer chain.

In this embodiment, the photo eye 11 (i.e. the sensor) is used for sensing whether the flexible bagged product exists in the production conveying line, and if the flexible bagged product exists, a sensing signal is generated and fed back to the control box 10. The first belt mechanism and the second belt mechanism sense the pressure of the flexible bagged product by means of the pressure sensor and feed back sensed pressure signals to the control box 10. The control box 10 is used for analyzing and feeding back various data according to the photo eye and the pressure sensor, and feeding back a statistical result signal to the rejector 14. The rejector 14 judges whether to reject the flexible bagged product according to the result signal.

In this embodiment, the first and second belt mechanisms form a housing slit for pinching the flexible bagged product. Preferably, the first belt mechanism and the second belt mechanism are symmetrically arranged.

First belt mechanism is including setting up the first braced frame in one side of production transfer chain, set up the first action wheel 123 in first braced frame's one end, set up the first follow driving wheel 124 of the other end at first braced frame, first motor 125, first belt 126 and the first pressure sensor who sets up in first belt 126, wherein first belt 126 encircles and sets up outside first action wheel 123 and the first follow driving wheel 124, first motor 125 sets up on first braced frame and is connected with first action wheel 123, in order to drive first action wheel 123 through first motor 125 and rotate, in order to drive first belt 126 and rotate.

Further, the first support frame includes a first bottom plate 121 disposed at one side of the production line and a first top plate 122 disposed above the first bottom plate 121, wherein a first driving wheel 123 is rotatably disposed between one end of the first top plate 122 and one end of the first bottom plate 121, and a first driven wheel 124 is rotatably disposed between the other end of the first top plate 122 and the other end of the first bottom plate 121. Preferably, the first motor 125 is provided on the first top plate part 122.

The second belt mechanism is including setting up the second braced frame at the opposite side of production transfer chain, set up the second action wheel 133 in the one end of second braced frame, the second that sets up at the other end of second braced frame is followed driving wheel 134, second motor 135, second belt 136 and the second pressure sensor who sets up in second belt 136, wherein, second belt 136 encircles and sets up outside second action wheel 133 and second driven wheel 134, second motor 135 sets up on second braced frame and is connected with second action wheel 133, in order to drive second action wheel 133 through second motor 135 and rotate, in order to drive second belt 136 and rotate.

Further, the second support frame includes a second bottom plate 131 disposed at the other side of the production line and a second top plate 132 disposed above the second bottom plate 131, wherein a second driving wheel 133 is rotatably disposed between one end of the second top plate 132 and one end of the second bottom plate 131, and a second driven wheel 134 is rotatably disposed between the other end of the second top plate 132 and the other end of the second bottom plate 131. Preferably, the second motor 135 is provided on the second upper board 132.

In this embodiment, the first bottom plate 121 and the second bottom plate 131 are symmetrically disposed, the first top plate 122 and the second top plate 132 are symmetrically disposed, the first driving wheel 123 and the second driving wheel 133 are symmetrically disposed, the first driven wheel 124 and the second driven wheel 134 are symmetrically disposed, and the first belt 126 and the second belt 136 are symmetrically disposed.

Preferably, the first driving pulley 123 and the first driven pulley 124 are disposed in the same straight line, and the second driving pulley 133 and the second driven pulley 134 are disposed in the same straight line.

In this embodiment, the first belt mechanism further includes a plurality of first protrusion wheels 127 rotatably disposed between the first top plate 121 and the first bottom plate 122.

Preferably, the plurality of first salient wheels 127 are arranged along the same straight line, and the first driving wheel 123, the first driven wheel 124 and the plurality of first salient wheels 127 are not arranged in the same straight line.

Further, a plurality of first protruding wheels 127 are disposed near the second belt mechanism, and the first driven wheel 124 and the first driving wheel 123 are disposed far from the second belt mechanism.

Preferably, the first belt 126 is disposed around the first driven pulley 124, the plurality of first spur wheels 127, and the first driving pulley 123. It will be appreciated that the number of first straps 126 is two, which provides more stable contact with the flexible pouch product.

In this embodiment, the second belt mechanism further includes a plurality of second protruding wheels 137 rotatably disposed between the second top plate 132 and the second bottom plate 131.

Preferably, a plurality of second projecting wheels 137 are provided near the first belt mechanism, and the second driven wheel 134 and the second driving wheel 133 are provided far from the first belt mechanism.

Further, the plurality of second protruding wheels 137 are disposed along the same straight line, and the second driving wheel 133, the second driven wheel 134 and the plurality of second protruding wheels 137 are not disposed in the same straight line.

Preferably, a second belt 136 is disposed around the second driven pulley 134, the plurality of second projecting pulleys 137 and the second driving pulley 133.

It will be appreciated that the number of second straps 136 is two, which provides more stable contact with the flexible pouch product. That is to say, the flexible bagged product of production transfer chain passes through in the middle of the accommodate gap that 4 belt pulleys constitute, and when the flexible bagged product passed through from accommodating the gap, pressure sensor can detect the pressure of flexible bagged product and feed back to the control box, and the belt pulley adopts the mode contact flexible bagged product, and the motor can control the rotational speed of belt pulley and the speed of the conveyer belt of production transfer chain and keep unanimous.

It should be understood that the control box 10, the photo eye 11, the remover 14, the first pressure sensor and the second pressure sensor of the present embodiment can be implemented by using products in the prior art, and the principle and the structure thereof are not described herein in detail. Further, the connection mode between the first pressure sensor and the first belt 126 and the connection mode between the second pressure sensor and the second belt 136 may also be implemented by using a connection mode in the prior art, which is not described herein again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Double-deck belt dual sensor extrusion check out test set, including the control box, with the control box electricity is connected and is used for responding to whether there is the light eye of flexible bagged product on the production transfer chain, set up in the one side of production transfer chain and with first belt mechanism that the control box electricity is connected, set up at the opposite side of production transfer chain and with second belt mechanism that the control box electricity is connected and is used for rejecting the stripper of the flexible bagged product that is unqualified on the production transfer chain and with the control box electricity is connected and is used for rejecting, wherein first belt mechanism with second belt mechanism forms the seam of acceping that is used for the flexible bagged product of clamp pressure, first belt mechanism with second belt mechanism symmetry sets up, first belt mechanism is including first motor, first belt and setting up first pressure sensor in the first belt, second belt mechanism is including second motor, Second belt and setting are in the second pressure sensor in the second belt, form between first belt and the second belt and be used for the contained gap of the flexible bagged product of cramping, its characterized in that:

the first belt mechanism further comprises a first supporting frame arranged on one side of the production conveying line, a first driving wheel arranged at one end of the first supporting frame and a first driven wheel arranged at the other end of the first supporting frame, wherein the first belt is arranged outside the first driving wheel and the first driven wheel in a surrounding mode;

the second belt mechanism further comprises a second supporting frame arranged on the other side of the production conveying line, a second driving wheel arranged at one end of the second supporting frame and a second driven wheel arranged at the other end of the second supporting frame, wherein the second belt is arranged outside the second driving wheel and the second driven wheel in a surrounding manner;

the first motor is arranged on the first supporting frame and connected with the first driving wheel, and the second motor is arranged on the second supporting frame and connected with the second driving wheel.

2. The double-layer belt double-sensor extrusion detection device as claimed in claim 1, wherein the first support frame comprises a first bottom plate disposed at one side of the production conveying line and a first top plate disposed above the first bottom plate, wherein the first driving wheel is rotatably disposed between one end of the first top plate and one end of the first bottom plate, and the first driven wheel is rotatably disposed between the other end of the first top plate and the other end of the first bottom plate.

3. The double-layer belt double-sensor extrusion detection device of claim 2, wherein the first belt mechanism further comprises a plurality of first protruding wheels rotatably arranged between the first top plate and the first bottom plate, the plurality of first protruding wheels are arranged close to the second belt mechanism, the first driving wheel and the first driven wheel are arranged in the same straight line, the first driving wheel, the first driven wheel and the plurality of first protruding wheels are not arranged in the same straight line, the first driven wheel and the first driving wheel are far away from the second belt mechanism, and the first belt is arranged around the first driven wheel, the plurality of first protruding wheels and the first driving wheel.

4. The double-layer belt double-sensor extrusion detection device as claimed in claim 3, wherein the second support frame comprises a second bottom plate disposed at the other side of the production conveying line and a second top plate disposed above the second bottom plate, wherein the second driving wheel is rotatably disposed between one end of the second top plate and one end of the second bottom plate, and the second driven wheel is rotatably disposed between the other end of the second top plate and the other end of the second bottom plate.

5. The double-layer belt double-sensor extrusion detection device of claim 4, wherein the second belt mechanism further comprises a plurality of second protruding wheels rotatably arranged between the second top plate and the second bottom plate, the plurality of second protruding wheels are arranged close to the first belt mechanism, the second driving wheel and the second driven wheel are arranged in the same straight line, the second driving wheel, the second driven wheel and the plurality of second protruding wheels are not arranged in the same straight line, the second driven wheel and the second driving wheel are arranged far away from the first belt mechanism, and the second belt is arranged around the second driven wheel, the plurality of second protruding wheels and the second driving wheel.

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