CN214539320U - Conveying monitoring system - Google Patents

Abstract

The utility model belongs to the technical field of the machine is examined to lamp and specifically relates to a carry monitoring system is related to, its technical scheme main points are: the device comprises a packing auger, a first conveyor belt, a first motor, a second conveyor belt, a second rack and a second motor; the second rack is provided with a proximity sensor and an elastic deformation sheet, and the deformation sheet is arranged on one side of the proximity sensor close to the second conveyor belt and above the second conveyor belt; the proximity sensor is used for receiving a deformation signal generated by the deformation sheet and approaching to the direction of the proximity sensor, the proximity sensor is coupled with the control piece, and the control piece is simultaneously coupled with the first motor and the second motor; the purpose that the conveying system can be automatically closed when the auger breaks down and the bottles are prevented from falling off from the second conveying belt is achieved.

Description

Conveying monitoring system

Technical Field

The application relates to the field of light inspection machines, in particular to a conveying monitoring system.

Background

The lamp inspection machine is an automatic device for carrying out image acquisition on transparent bottle products and detecting whether the bottle products have quality defects or not; is widely used in the food production or pharmaceutical field.

A conveying system of a light inspection machine described in the related art, referring to fig. 1, includes a first conveyor belt 2 for feeding the bottle bodies into the light inspection machine, the first conveyor belt 2 being disposed at one side of the machine body; the conveying tail end of the first conveying belt 2 is provided with an auger 1 for conveying the bottles into the machine body, the conveying direction of the auger 1 is vertical to the conveying direction of the first conveying belt 2, and the auger 1 extends towards the interior of the machine body; one end of the first conveyor belt 2, which is far away from the packing auger 1, is provided with a second conveyor belt 3, and the first conveyor belt 2 is mutually connected with the second conveyor belt 3; two sides of the first conveyor belt 2 are provided with first racks 21, and the first racks 21 are provided with first motors 22 for driving the first conveyor belt 2; second racks 31 are disposed on both sides of the second conveyor belt 3, and a second motor 32 for driving the second conveyor belt 3 is disposed on the second racks 31.

When need carry out the lamp to large batch bottle and examine, start auger 1, first motor 22 and second motor 32, second conveyer belt 3 delivers to first conveyer belt 2 with the bottle on, in first conveyer belt 2 delivers to auger 1 with the bottle next, auger 1 delivers to the inside lamp of organism with the bottle and examines.

In view of the above-mentioned related art solutions, the inventors found that: if auger 1 when the trouble stall because of, the bottle can not be carried to the inside of lamp inspection machine, and still add subsequent bottle on first conveyer belt 2 and the second conveyer belt 3 and will fill up first conveyer belt 2 and second conveyer belt 3 until the bottle, and can't realize first conveyer belt 2 and the automatic shutdown of second conveyer belt 3, if the bottle is constantly piled up on second conveyer belt 3, then can cause a large amount of accumulations the bottle to follow the one end "overflow" that first conveyer belt 2 was kept away from to second conveyer belt 3 and go out and drop.

SUMMERY OF THE UTILITY MODEL

Can self-closing conveying system when the auger breaks down in order to realize, and then prevent that the bottle from dropping on the second conveyer belt, this application provides a transport monitoring system.

The application provides a transport monitoring system adopts following technical scheme:

a conveying monitoring system comprises a packing auger, a first conveyor belt, a first motor, a second conveyor belt, a second rack and a second motor; the second rack is provided with a proximity sensor and an elastic deformation sheet, and the deformation sheet is arranged on one side of the proximity sensor close to the second conveyor belt and above the second conveyor belt; the proximity sensor is used for receiving a deformation signal generated by the deformation sheet and approaching to the direction of the proximity sensor, the proximity sensor is coupled with the control piece, and the control piece is simultaneously coupled with the first motor and the second motor.

Through adopting above-mentioned technical scheme, when the auger damaged, a large amount of bottles are piled up on first conveyer belt and second conveyer belt, pile up one side and the extrusion deformation piece at the deformation piece until a large amount of bottles, the deformation piece produces elastic deformation to the direction that is close to proximity sensor, proximity sensor receives this signal and transmits for the control, the first motor of control and second motor are closed, and then make first conveyer belt and second conveyer belt stall, realized when the auger breaks down, first conveyer belt of self-closing and second conveyer belt, prevent that the bottle from dropping from the second conveyer belt.

Preferably, one end of the deformation sheet close to the first conveyor belt inclines in a direction from far away to close to the first conveyor belt to a direction close to the second rack where the proximity sensor is located.

By adopting the technical scheme, when a large number of bottles are accumulated on the second conveyor belt due to damage of the auger, the accumulated boundary line of the bottles continuously moves towards the direction far away from the auger until the accumulated boundary of the bottles moves to the position of the deformation sheet, at the moment, an acting force exists on the surface of the deformation sheet along the direction opposite to the transmission direction of the second conveyor belt on the bottles, and the deformation sheet is obliquely arranged, so that the acting force of the bottles on the deformation sheet generates a component force vertical to the deformation sheet, and the component force enables the deformation sheet to generate elastic deformation towards the direction close to the proximity sensor; if the extending direction of the deformable piece is parallel to the conveying direction of the second conveyor belt, it is difficult to achieve the above-mentioned effects.

Preferably, one end of the deformation sheet far away from the first conveyor belt is fixedly connected with the second rack

Through adopting above-mentioned technical scheme, the one end that first conveyer belt was kept away from to the deformation piece is fixed, and then forms the cantilever beam structure between deformation piece and the second frame, and the one end that first conveyer belt was kept away from to the deformation piece can produce bigger deformation displacement when receiving the effort of accumulational bottle, and then makes proximity sensor can respond more fast accurately.

Preferably, one end of the deformation sheet far away from the first conveyor belt inclines in a direction from far away to close to the first conveyor belt to a direction far away from the second rack where the proximity sensor is located.

By adopting the technical scheme, the fixed position of the deformation sheet is also at one end of the deformation sheet far away from the first conveyor belt, so that the end is not easy to elastically deform under the action of the bottle body; the distance between one end of the deformation sheet close to the first conveyor belt and the fixed distance between the deformation sheet and the second rack is longer, so that elastic deformation is easier to occur; and when the bottle was placed on the second conveyer belt was kept away from one end of first conveyer belt, the direction that the bottle that touches deformation piece and keep away from first conveyer belt one end moved to keeping away from the second frame that proximity sensor belonged to under the guide effect of deformation piece, and then prevented that the bottle from touching the one end that deformation piece is close to first conveyer belt and then triggering proximity sensor to the in-process mistake that first conveyer belt was carried.

Preferably, a gap exists between one end of the deformation sheet close to the first conveyor belt and the second frame.

Through adopting above-mentioned technical scheme, can make the one end that the deformation piece is close to first conveyer belt be changeed and take place elasticity phase transition, change promptly because the pressurized and remove to the direction that is close to the second frame.

Preferably, the deformable sheet is spaced from the upper surface of the second conveyor.

Through adopting above-mentioned technical scheme, prevent that deformation piece from rubbing each other and influencing the transport with second conveyer belt surface at second conveyer belt moving in-process.

Preferably, the deformation sheet is fixedly connected with the second frame through a screw; the deformation piece is provided with a fixing hole for a screw to pass through and penetrate through the side edge of the deformation piece.

Through adopting above-mentioned technical scheme, fix the screw in the second frame and make and have between the head of screw and the second frame and supply the male clearance of deformation piece, make the deformation piece insert this clearance along the radial of screw in after that, this moment the screw enter into the fixed orifices inside, after that with the screw tighten can, like this when needs will install or dismantle the deformation piece, need not unscrew the screw from the second frame completely, made things convenient for the installation and the dismantlement of deformation piece.

In summary, the present application has the following technical effects: through having set up proximity sensor and deformation piece, realize can self-closing conveying system when the auger breaks down, first conveyer belt and second conveyer belt stall promptly, and then prevent that the bottle from dropping from the second conveyer belt.

Drawings

Fig. 1 is an overall structural view of a conveying system of a light inspection machine in the related art;

fig. 2 is an overall structural view of a conveyance monitoring system in an embodiment of the present application;

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

FIG. 4 is a partial block diagram of a conveyance monitoring system on a side of a shape-changing sheet away from a proximity sensor in an embodiment of the present application;

fig. 5 is a partially enlarged view at B in fig. 4.

In the figure, 1, an auger; 2. a first conveyor belt; 21. a first frame; 22. a first motor; 3. a second conveyor belt; 31. a second frame; 32. a second motor; 4. a proximity sensor; 5. deformation sheets; 51. and (7) fixing holes.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 2, the present application provides a conveyance monitoring system, including a first conveyor belt 2 for feeding vials into the interior of the candling machine, the first conveyor belt 2 being disposed at one side of the machine body; the conveying tail end of the first conveying belt 2 is provided with an auger 1 for conveying the bottles into the machine body, the conveying direction of the auger 1 is vertical to the conveying direction of the first conveying belt 2, and the auger 1 extends towards the interior of the machine body; a second conveyor belt 3 is arranged at one end of the first conveyor belt 2, which is far away from the packing auger 1, the first conveyor belt 2 is mutually connected with the second conveyor belt 3, and the conveying direction of the second conveyor belt 3 is the same as that of the first conveyor belt 2; vertical first racks 21 are fixed on two sides of the first conveyor belt 2, and a first motor 22 for driving the first conveyor belt 2 is fixed on the first racks 21; vertical second racks 31 are fixed on two sides of the second conveyor belt 3, and a second motor 32 for driving the second conveyor belt 3 is fixed on the second racks 31.

When needing to deliver to the lamp and examine the built-in with the bottle, start first motor 22, second motor 32 and auger 1, first conveyer belt 2 and second conveyer belt 3 and then operate, put a large amount of bottles to the one end that first conveyer belt 2 was kept away from to second conveyer belt 3, second conveyer belt 3 carries the bottle to the direction that is close to first conveyer belt 2 until moving to first conveyer belt 2, first conveyer belt 2 carries the bottle to the direction that is close to auger 1 until moving to auger 1 in, auger 1 carries the bottle to the lamp and examines the built-in portion and carry out the lamp and examine.

Referring to fig. 2 and 3, further, a proximity sensor 4 is fixed on the second frame 31 on one side of the second conveyor belt 3, the proximity sensor 4 is located above the second frame 31 and extends horizontally in a direction close to the second conveyor belt 3, and the proximity sensor 4 faces the second conveyor belt 3 and faces perpendicular to the conveying direction of the second conveyor belt 3; an elastic deformation sheet 5 is fixed on the second frame 31, the deformation sheet 5 is arranged on one side, close to the second conveyor belt 3, of the proximity sensor 4, and a gap exists between the deformation sheet 5 and the upper surface of the second conveyor belt 3; the proximity sensor 4 can receive a deformation signal generated by the deformation sheet 5 and directed to the direction close to the proximity sensor 4; a control element is coupled to the proximity sensor 4, wherein the control element can be a PLC or a single chip microcomputer, and the control element is coupled to the first motor 22 and the second motor 32 simultaneously; a tangent plane at each point on the surface of the deformation sheet 5 is perpendicular to the second conveyor belt 3, and one end, close to the first conveyor belt 2, of the deformation sheet 5 inclines in a direction from far away to close to the first conveyor belt 2 to be close to the second rack 31 where the proximity sensor 4 is located; furthermore, one end, far away from the first conveyor belt 2, of the deformation sheet 5 is fixedly connected with the second rack, a gap exists between one end, close to the first conveyor belt 2, of the deformation sheet 5 and the surface, close to the second conveyor belt 3, of the second rack 31, and one end, far away from the first conveyor belt 2, of the deformation sheet inclines along the direction from far away to near the first conveyor belt 2 to the direction from far away from the second rack 31 where the proximity sensor 4 is located.

When the auger 1 stops rotating due to damage, the bottles are continuously conveyed to the auger 1 by the first conveyor belt 2 and the second conveyor belt 3, the bottles are firstly accumulated on the first conveyor belt 2, the bottles subsequently reach the first conveyor belt 2 and are mutually abutted and stop moving, a boundary line formed by accumulation of the bottles continuously translates towards the direction close to the second conveyor belt 3 until the bottles are filled in the first conveyor belt 2, and at the moment, the bottles start to be accumulated at one end, close to the first conveyor belt 2, of the second conveyor belt 3; when the accumulated boundary line of the bottle bodies moves to the deformation sheet 5, the accumulated bottle bodies exert an acting force on the deformation sheet 5 in the opposite conveying direction of the second conveying belt 3, and the acting force further has a component force perpendicular to the deformation sheet 5 on the deformation sheet 5 due to the inclined arrangement of the deformation sheet 5, so that the deformation sheet 5 further generates deformation in the direction close to the proximity sensor 4; if the extending direction of the deformation sheet 5 is parallel to the conveying direction of the second conveyor belt 3, only when the bottle body is completely filled with the deformation sheet 5 at one side far away from the proximity sensor 4, the bottle body can apply an acting force perpendicular to the deformation sheet 5 on the deformation sheet 5, and under certain conditions, the accumulation of the bottle body even cannot push the deformation sheet 5; the deformation piece 5 that the slope set up makes piling up of bottle reflect through the deformation of deformation piece 5 more timely and easily.

When the deformation sheet 5 deforms in a direction close to the proximity sensor 4, the proximity sensor 4 receives the proximity signal, the proximity sensor 4 transmits the signal to the control piece, the control piece transmits the control signal to the first motor 22 and the second motor 32 and controls the first motor 22 and the second motor 32 to stop rotating, the first conveyor belt and the second conveyor belt 3 stop rotating, the conveying system can be automatically closed when the packing auger 1 breaks down, and the bottle bodies are prevented from falling off the second conveyor belt 3.

One end, far away from the first conveyor belt 2, of the deformation sheet 5 is fixed, so that a cantilever beam structure is formed between the deformation sheet 5 and the second rack 31, and when the end, far away from the first conveyor belt 2, of the deformation sheet 5 receives the acting force of the accumulated bottles, larger deformation displacement can be generated, so that the proximity sensor 4 can respond more quickly and accurately; because the fixed position of the deformation sheet 5 is also at one end of the deformation sheet 5 far away from the first conveyor belt 2, the end is not easy to generate elastic deformation under the action of the bottle body; since the distance between one end of the deformation sheet 5 close to the first conveyor belt 2 and the second rack 31 is longer, elastic deformation is easier to occur; and when the bottle was placed on the second conveyer belt 3 kept away from one end of first conveyer belt 2, the bottle that touches deformation piece 5 and keeps away from one end of first conveyer belt 2 moved to the direction of keeping away from second frame 31 at proximity sensor 4 place under the guide effect of deformation piece 5, and then prevented that the bottle from touching the one end that deformation piece 5 is close to first conveyer belt 2 and triggering proximity sensor 4 to the in-process mistake that first conveyer belt 2 carried.

Referring to fig. 2, 4 and 5, one end of the shape-changing plate 5 away from the first conveyor belt 2 is fixedly connected with the second frame 31 through screws; the one end that first conveyer belt 2 was kept away from to shape change piece 5 is seted up the fixed orifices 51 that supplies the screw to pass, and fixed orifices 51 runs through the higher authority of shape change piece 5, and fixed orifices 51 extends and the vertical direction length of fixed orifices 51 is greater than the diameter of screw along vertical direction.

When deformation piece 5 needs to be fixed, fix the screw on second frame 31 and make the head of screw and second frame 31 between have and supply deformation piece 5 male clearance, make deformation piece 5 insert this clearance along the radial of screw in after, the screw enters into fixed orifices 51 inside this moment, then make deformation piece 5 reciprocate along the radial of screw, until deformation piece 5 moves to suitable height, it can to screw up the screw after that, like this when needs will install or dismantle deformation piece 5, need not completely unscrew the screw from second frame 31, the installation and the dismantlement of deformation piece 5 have been made things convenient for.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (7)

1. A conveying monitoring system comprises a packing auger (1), a first conveyor belt (2), a first motor (22), a second conveyor belt (3), a second rack (31) and a second motor (32); the method is characterized in that: the second rack (31) is provided with a proximity sensor (4) and an elastic deformation sheet (5), and the deformation sheet (5) is arranged on one side, close to the second conveyor belt (3), of the proximity sensor (4) and is positioned above the second conveyor belt (3); the proximity sensor (4) is used for receiving a deformation signal generated by the deformation sheet (5) in a direction approaching the proximity sensor (4), and a control element is coupled to the proximity sensor (4) and is simultaneously coupled with the first motor (22) and the second motor (32).

2. A delivery monitoring system according to claim 1, wherein: one end of the deformation sheet (5) close to the first conveyor belt (2) inclines towards the direction close to the second rack (31) where the proximity sensor (4) is located from far away to close to the first conveyor belt (2).

3. A delivery monitoring system according to claim 2, wherein: one end of the deformation sheet (5) far away from the first conveyor belt (2) is fixedly connected with the second rack (31).

4. A delivery monitoring system according to claim 3, wherein: one end of the deformation sheet (5) far away from the first conveyor belt (2) inclines in a direction from far away to close to the first conveyor belt (2) to a direction far away from a second rack (31) where the proximity sensor (4) is located.

5. A delivery monitoring system according to claim 4, wherein: a gap exists between one end, close to the first conveyor belt (2), of the deformation sheet (5) and the second rack (31).

6. A delivery monitoring system according to claim 5, wherein: a gap is formed between the deformation sheet (5) and the upper surface of the second conveyor belt (3).

7. A delivery monitoring system according to claim 3, wherein: the deformation sheet (5) is fixedly connected with the second rack (31) through a screw; the deformation sheet (5) is provided with a fixing hole (51) for a screw to pass through and penetrate through the side edge of the deformation sheet (5).

Images