CN111099307A

CN111099307A - Glass bottle arrangement detection alarm and automatic processing device

Info

Publication number: CN111099307A
Application number: CN201911412704.9A
Authority: CN
Inventors: 上官石林; 蒋明友
Original assignee: Chongqing Huabinwei Glass Co Ltd
Current assignee: Chongqing Huabinwei Glass Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-05-05

Abstract

The invention belongs to the technical field of glass bottle conveying, and particularly discloses a glass bottle arrangement detection alarm and automatic processing device which comprises a rack, wherein an arrangement mechanism, a detection mechanism and a processing mechanism are sequentially fixed on the rack, the arrangement mechanism comprises an input conveyor belt and a plurality of transverse conveyor belts, the transverse conveyor belts are abutted against the output end of the input conveyor belt in parallel, and the conveying directions of the transverse conveyor belts and the input conveyor belts are mutually vertical; the conveying direction of the transverse belt positioned at the outermost side is opposite to that of the other transverse belts, and a guide mechanism which can only enable one glass bottle to pass through is fixed above the output end of the outermost transverse belt; and a steering strip is fixed at the starting end of the outermost transverse conveyor belt and right above the other transverse conveyor belts and guides the glass bottles to the outermost transverse conveyor belt. The invention aims to provide a glass bottle arrangement detection alarm and automatic processing device to solve the problem of low arrangement efficiency of an arrangement mechanism.

Description

Glass bottle arrangement detection alarm and automatic processing device

Technical Field

The invention belongs to the technical field of glass bottle conveying, and particularly discloses a glass bottle arrangement detection alarm and automatic processing device.

Background

Glass bottles are common articles for daily use in life. In the production and manufacturing process of the glass bottles, finished products of the glass bottles need to be detected so as to ensure the ex-factory qualification rate. Because the production workshop is the batch production glass bottle, and the detection mechanism that detects the glass bottle only can detect one by one, consequently need arrange the glass bottle of batch production in proper order earlier, carry it to detection device again.

The glass bottle arranging mechanism commonly seen in the prior art is usually of a disc type, for example, chinese utility model patent CN208278911U discloses an automatic arranging and conveying system for glass bottle cans, which comprises an automatic arranging device, a pneumatic bottle pushing machine and a control device, wherein the automatic arranging device is located between an output conveying belt and a transition conveying belt of a bottle making and forming machine, one end of the transition conveying belt is located at an annealing kiln net belt, the pneumatic bottle pushing machine is located at one side of the transition conveying belt and corresponds to the annealing kiln net belt, and the automatic arranging device comprises a supporting seat, a rotary disc arranged on the supporting seat in a rotating manner and a semicircular annular baffle disc fixedly connected to the supporting seat. Guarantee every glass bottle jar when carrying carousel department, can correspond in proper order with the swing arm that rotates for the glass bottle jar can be orderly by output conveyer belt propelling movement to the transition conveyer belt on.

Above-mentioned scheme can play the permutation effect to the glass bottle, but the swing arm that all needs the carousel of arranging at every turn corresponds, has the longer efficiency of interval time lower, arranges the slow problem of time.

Disclosure of Invention

The invention aims to provide a glass bottle arrangement detection alarm and automatic processing device to solve the problem of low arrangement efficiency of an arrangement mechanism.

In order to achieve the purpose, the basic scheme of the invention is as follows: the glass bottle arrangement detection alarm and automatic processing device comprises a rack, wherein an arrangement mechanism, a detection mechanism and a processing mechanism are sequentially fixed on the rack, the arrangement mechanism comprises an input conveyor belt and a plurality of transverse conveyor belts, the transverse conveyor belts are abutted against the output end of the input conveyor belt in parallel, and the conveying directions of the transverse conveyor belts and the input conveyor belt are mutually vertical; the conveying direction of the transverse belt positioned at the outermost side is opposite to that of the other transverse belts, and a guide mechanism which can only enable one glass bottle to pass through is fixed above the output end of the outermost transverse belt; and a steering strip is fixed at the starting end of the outermost transverse conveyor belt and right above the other transverse conveyor belts and guides the glass bottles to the outermost transverse conveyor belt.

The working principle and the beneficial effects of the basic scheme are as follows: 1. this technical scheme utilizes horizontal band-pass to realize the batch arrangement function of glass bottle. Specifically, a batch of glass bottles enter the transverse conveyor belt from the input conveyor belt, are conveyed to the transverse conveyor belt positioned on the outermost side in batches under the action of the transverse conveyor belt and the turning strips, and are finally arranged singly through the turning strips. Compared with the prior art, the glass bottle arranging device has the advantages that continuous conveying is realized, gaps cannot exist between adjacent glass bottles, the beneficial effect of tight and continuous arrangement of the glass bottles is realized, and the arrangement efficiency is effectively improved.

2. In addition, as a large number of glass bottles enter the guide mechanism, the overflow of partial glass bottles can occur, and the glass bottles overflowing in the scheme are squeezed into the adjacent transverse conveying belts and enter the outermost transverse conveying belts again through the steering strips under the conveying action of the adjacent transverse conveying belts, so that the continuous conveying is realized. Compared with the prior art, the glass bottle conveying device has the advantages that the glass bottles can be automatically conveyed repeatedly until the glass bottles enter the guide mechanism, the glass bottles are prevented from being manually arranged, and the continuous and automatic conveying operation is realized.

Further, guiding mechanism includes main deflector and the vice deflector that is parallel to each other, the main deflector lateral wall coincides with the adjacent side of two closest horizontal conveying belts, main deflector and vice deflector be fixed connection respectively on the frame.

Has the advantages that: this technical scheme adopts two fixed and the range function of deflector that is parallel to each other in order to realize the glass bottle, because the clearance constraint between main deflector and the vice deflector, consequently only can make single glass bottle get into among the clearance, has realized the function of automatic arrangement.

Furthermore, a fixed rod is horizontally and rotatably connected to the rack, and the free end of the fixed rod is fixedly connected with the auxiliary guide plate.

Has the advantages that: this technical scheme adopts the mode that the fixed rod rotates to be connected in the frame to under the prerequisite of guaranteeing vice deflector is perpendicular, realize horizontal position's arbitrary regulatory function.

Furthermore, the edges of the main guide plate and the auxiliary guide plate are curved surfaces.

Has the advantages that: this technical scheme utilizes the curved surface characteristics of main deflector and vice deflector to avoid the glass bottle to pile up at the entrance of main deflector and vice deflector, make the glass bottle can slide to adjacent violently send the area under the effect of curved surface direction on, realize carrying once more.

Further, the frame is improved level and is rotated and be connected with the range support frame, and the horizontal rotation of range support frame free end is connected with a plurality of regulation seats, and it has the slide to open along the level on the regulation seat, and sliding connection has the support column on the slide, support column axial perpendicular to horizontal plane, support column bottom fixedly connected with main deflector.

Has the advantages that: this technical scheme is connected, the mutual slip of slide and support column through adopting the rotation of adjusting seat and support frame, realizes carrying the arbitrary regulation of top position at the violently, under the prerequisite of guaranteeing main deflector vertically, realizes horizontal position's arbitrary regulatory function.

Furthermore, the outer wall of the steering strip is provided with a sliding groove along the extending direction, the rack is rotatably connected with a steering support, the outer wall of the steering support is provided with a through hole along the radial direction, the through hole is internally and slidably connected with a regulating rod, and the free end of the regulating rod is slidably connected in the sliding groove.

Has the advantages that: this technical scheme utilizes the rotation of turning to the support, adjusts the slip of pole in the through-hole and spout and adjust the slip between the pole, realizes freely adjusting to the turn to the strip position to operating personnel changes the crookedness and the position of turn to the strip in a flexible way according to actual production needs, improves overall structure's flexibility.

Further, the steering strips are made of flexible rubber materials.

Has the advantages that: according to the technical scheme, the flexible rubber material is adopted, so that on one hand, the deformable property of the steering strip is ensured, and the flexibility of the steering function is improved; on the other hand, the steering strip made of flexible rubber can also play a role in buffering and protecting the glass bottle, so that the glass bottle is prevented from being scratched and damaged.

Furthermore, a temporary stop conveyor belt is arranged on one side, away from the input conveyor belt, of the transverse conveyor belt, and one side, close to the temporary stop conveyor belt, of the steering strip extends to the outer side of the temporary stop conveyor belt.

Has the advantages that: this technical scheme is through addding and facing stopping the conveyer belt to the realization is to the function of parking temporarily of glass bottle. When glass bottles flow into the guide mechanism in a large quantity or the guide mechanism is closed due to special conditions, the glass bottles can be extruded into the temporary stop conveyor belt under the combined action of the steering strips and the outer wall of the guide mechanism, and the temporary stop function of the glass bottles is realized.

Drawings

FIG. 1 is a schematic top view of a glass bottle arrangement detection alarm and automatic processing device according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a frame 1, an input conveyor belt 2, a transverse conveyor belt 3, an adjacent stop conveyor belt 4, an arrangement support frame 5, an adjusting plate 6, a conveyor belt 7, a main guide plate 8, a fixed rod 9, an auxiliary guide plate 10, a steering support 11, an adjusting column 12, a steering strip 13, an adjusting rod 14, a light-emitting panel 15, a photosensitive sensor 16, a turntable 17 and a collecting channel 18.

The embodiment is basically as shown in the attached figure 1: glass bottle arranges detection alarm and automatic processing device, includes frame 1, and fixedly connected with arrangement mechanism, detection mechanism and processing mechanism respectively on frame 1.

Wherein the arrangement mechanism comprises an input conveyor belt 2, and thirty glass bottles can be simultaneously conveyed side by side on the input conveyor belt 2. The outlet section of the input conveyor belt 2 is provided with three rows of independent transverse conveyor belts 3 with mutually parallel conveying directions, the adjacent edges of the three rows of transverse conveyor belts 3 are closely adjacent, and the conveying direction of the transverse conveyor belts 3 is vertical to the conveying direction of the input conveyor belt 2. A temporary stopping conveyor belt 4 is arranged on one side, far away from the input conveyor belt 2, of the transverse conveyor belt 3, and the width of the temporary stopping conveyor belt 4 is equal to that of the input conveyor belt 2. The conveying surfaces of the input conveyor belt 2, the cross conveyor belt 3 and the temporary stopping conveyor belt 4 are coplanar.

The feed conveyor 2 is conveyed to the left, the two transverse conveyor belts 3 located closer to the right are conveyed upwards, and the other transverse conveyor belt 3 located on the right is conveyed downwards. Two arrangement support frames 5 are fixed on the side wall of the frame 1 close to the output end of the leftmost transverse conveyor belt 3 through bolts. One of the arrangement support frames 5 is horizontally and rotatably connected with a fixed rod 9, and the free end of the fixed rod 9 is fixedly inserted with an auxiliary guide plate 10. Another top extension of arranging support frame 5 is in the top of violently sending area 3, it has two regulating plates 6 to articulate along the horizontal direction on 5 tops of arrangement support frame, it has the slide to open on regulating plate 6, sliding connection has the support column in the slide, the axial direction perpendicular to horizontal plane of support column, the common thread tightening in bottom of two support columns has main deflector 8, main deflector 8 is located and violently sends area 3 directly over the leftmost, lateral wall all is on a parallel with the direction of transfer that violently sent area 3 about main deflector 8, and the lateral wall on main deflector 8 right side is with the gap coplane that violently sent area 3 leftmost two. The spacing between the primary guide plate 8 and the secondary guide plate 10 is always guaranteed to be only the width of one glass bottle. The edges of the main guide plate 8 and the auxiliary guide plate 10 are smooth curved surfaces.

The frame 1 is fixedly connected with three steering supports 11 on the initial end of the leftmost transverse conveyor belt 3 and the side walls of the tail ends of the other two transverse conveyor belts 3, the horizontal rotation at the top ends of the steering supports 11 is connected with an adjusting column 12, the side walls of the adjusting column 12 are provided with through holes along the radial direction, an adjusting rod 14 is connected in the through holes in a sliding mode, and the outer wall of the adjusting rod 14 is further connected with a fastening screw for fixing the adjusting rod 14 in a threaded mode. The starting end of the leftmost transverse belt 3 and the tail ends of the other two transverse belts 3 are provided with a steering strip 13 directly above, the steering strip 13 is made of rubber flexible materials, the outer wall of the steering strip 13 is provided with a sliding groove along the extending direction of the steering strip, and the free end of the adjusting rod 14 is connected in the sliding groove in a sliding mode. The three adjustment rods 14 are formed by completely forming the steering bar 13 into a half-opened circular ring structure bent outward by their own angles and extending lengths. Wherein the left end of the turning strip 13 coincides with the outer edge of the leftmost transverse belt 3. One side of the turning strip 13 close to the adjacent stop conveyor belt 4 extends to the outer side of the adjacent stop conveyor belt 4, and the turning positions are all arc-shaped curved surfaces.

The detection mechanism comprises a conveying belt 7, the input end of the conveying belt 7 is butted and overlapped with the output end of the leftmost transverse conveying belt 3, a light-emitting panel 15 is fixedly connected to one side, adjacent to the conveying belt 7, of the conveying belt 7, the light-emitting panel 15 is equal to the conveying belt 7 in height, and the light-emitting surface of the light-emitting panel 15 faces to one side close to the conveying belt 7. A light-sensitive sensor 16 is fixedly connected to the conveyor belt 7 on the side opposite to the light-emitting panel 15, and the light-sensitive sensor 16 is used for sensing a light signal of the glass bottle in the process of passing through the light-emitting panel 15. The processing mechanism comprises a turntable 17, a driving motor is coaxially connected to the turntable 17, and the driving motor is internally provided with an electric signal for receiving the photosensitive sensor 16. The top surface of the rotary table 17 is provided with a guide groove, two ends of the guide groove are communicated with the outside, and two collecting channels 18 are fixed on the left side and the right side of the rotary table 17. The outlet of the guide channel can coincide with the inlet of the collecting channel 18 and the outlet of the conveyor belt 7.

The specific implementation process is as follows: firstly, an operator rotates the arrangement support frame 5, and rotates the adjusting plate 6, the fixed rod 9 and the support column to adjust the positions of the main guide plate 8 and the auxiliary guide plate 10. The adjustment post 12 is then rotated and the adjustment rod 14 and the position of the opposing slide slot are slid to effect adjustment of the spatial position of the steering bar 13. Then, the input conveyor 2 and the transverse conveyor 3 are started, and the glass bottles enter the adjacent transverse conveyor 3 under the conveying action of the input conveyor 2. The transverse conveyor belt 3 conveys the batch of glass bottles to a direction close to the steering strip 13, and the batch of glass bottles slides along the inner wall of the steering strip 13 to the leftmost transverse conveyor belt 3 under the guiding action of the steering strip 13. Since the leftmost one of the conveyor belts 3 is conveyed in the opposite direction to the other conveyor belts 3, the glass bottles can be conveyed in a batch manner in a direction away from the turn bar 13. Next, the glass bottle is transported by the leftmost horizontal belt 3 and enters the gap between the main guide plate 8 and the sub-guide plate 10. Since the gap between the main guide plate 8 and the sub guide plate 10 allows only one glass bottle to pass through, the glass bottles entering the gap between the main guide plate 8 and the sub guide plate 10 are automatically aligned singly. Because a large amount of glass bottles enter the guide mechanism, the condition that partial glass bottles overflow can occur, and the glass bottles overflowing in the scheme are squeezed into the adjacent transverse conveying belts 3 and enter the outermost transverse conveying belts 3 again through the steering strips 13 under the conveying action of the adjacent transverse conveying belts 3, so that the continuous conveying function is realized. When the condition that a large number of glass bottles flow into the guide mechanism or the condition that the guide mechanism is closed due to special conditions occurs, the glass bottles can be extruded onto the temporary stop conveyor belt 4 under the combined action of the steering strips 13 and the outer wall of the main guide plate 8, and the temporary stop function of the glass bottles is realized.

Finally, the glass bottle passing through the gap between the main guide plate 8 and the auxiliary guide plate 10 enters the detection mechanism, the light-emitting panel 15 conducts strong light irradiation on the glass bottle, and the photosensitive sensor 16 realizes detection on the body of the glass bottle. So as to detect defective glass bottles having defects or foreign matters in the bottles. Finally, the glass bottles pass through the processing device, and the controller of the driving motor controls and drives the rotary disc 17 to rotate in different directions until the guide grooves are overlapped after receiving electric signals of different photosensitive sensors 16, so that qualified products and defective products are separately conveyed into different collecting channels 18 on the left side and the right side.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the present invention.

Claims

1. Glass bottle arranges detection alarm and automatic processing device, including the frame, fixed arrangement mechanism, detection mechanism and processing mechanism in proper order in the frame, its characterized in that: the arrangement mechanism comprises an input conveyor belt and a plurality of transverse conveyor belts, the transverse conveyor belts are abutted against the output end of the input conveyor belt in parallel, and the conveying directions of the transverse conveyor belts and the input conveyor belts are mutually vertical; the conveying direction of the transverse belt positioned at the outermost side is opposite to that of the other transverse belts, and a guide mechanism which can only enable one glass bottle to pass through is fixed above the output end of the outermost transverse belt; and a steering strip is fixed at the starting end of the outermost transverse conveyor belt and right above the other transverse conveyor belts and guides the glass bottles to the outermost transverse conveyor belt.

2. A vial alignment detection alarm and automatic processing device according to claim 1, characterized in that: the guide mechanism comprises a main guide plate and an auxiliary guide plate which are parallel to each other, the side wall of the main guide plate is overlapped with the adjacent edges of the two nearest transverse conveying belts, and the main guide plate and the auxiliary guide plate are respectively and fixedly connected to the rack.

3. A vial alignment detection alarm and automatic processing device according to claim 2, characterized in that: the rack is horizontally and rotatably connected with a fixed rod, and the free end of the fixed rod is fixedly connected with the auxiliary guide plate.

4. A vial alignment detection alarm and automatic processing device according to claim 2, characterized in that: the edges of the main guide plate and the auxiliary guide plate are curved surfaces.

5. A vial alignment detection alarm and automatic processing device according to claim 2, characterized in that: the frame is improved level and is rotated and be connected with the range support frame, and the horizontal rotation of range support frame free end is connected with a plurality of regulation seats, and it has the slide to open along the level on the regulation seat, and sliding connection has the support column on the slide, support column axial perpendicular to horizontal plane, support column bottom fixedly connected with main deflector.

6. A vial alignment detection alarm and automatic processing device according to claim 1, characterized in that: the outer wall of the steering strip is provided with a sliding groove along the extending direction of the outer wall, the rack is rotatably connected with a steering support, the outer wall of the steering support is provided with a through hole along the radial direction, the through hole is internally and slidably connected with a regulating rod, and the free end of the regulating rod is slidably connected in the sliding groove.

7. The arrangement of glass bottles detecting alarm and automatic processing device according to claim 6, characterized in that: the steering strips are made of flexible rubber materials.

8. The arrangement of glass bottles detecting alarm and automatic processing device according to claim 6, characterized in that: and one side of the transverse conveyor belt, which is far away from the input conveyor belt, is provided with an adjacent stop conveyor belt, and one side of the steering strip, which is close to the adjacent stop conveyor belt, extends to the outer side of the adjacent stop conveyor belt.