CN210347190U - Sheet material sampling device - Google Patents

Abstract

The utility model discloses a flaky material sampling device, including transmission device, sampling passageway and sampling mechanism, the sampling passageway includes the space on the transmission device, sampling mechanism includes the sampling execution device, the sampling execution device includes and pushes down module and/or direction module, the sampling execution device is located sampling passageway top, the sampling execution device can reciprocate; when the sampling execution device extends downwards, the guide module is used for guiding the sheet materials to the sampling channel, and the pressing module is used for pressing the sheet materials downwards towards the sampling channel. The utility model discloses can automatic sampling, need not to open the outer casing, labour saving and time saving more to need not the hand and stretch into the inside sample of machine, can ensure safety.

Description

Sheet material sampling device

Technical Field

The utility model relates to a production technical field of slice materials such as plane printed matter, wrapping bag, paper, concretely relates to slice material sampling device.

Background

After sheet materials such as plane presswork, packaging bags, paper and the like are produced, the subsequent processes such as stacking, finishing, packaging, bundling and the like are required, the production process is ended, and the product can be delivered from a factory at any time.

If the sheet materials are automatically and mechanically stacked, arranged and packaged and bound, sampling detection becomes more troublesome. If manual sampling, the outer casing needs to be opened, and a hand is possibly required to extend into the machine for sampling, so that time and labor are wasted, and the safety cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a slice material sampling device can extract the slice material automatically, for artifical sampling labour saving and time saving more to can ensure safety.

In order to realize the above purpose, the utility model discloses a technical scheme:

the utility model discloses a flaky material sampling device, including transmission device, sampling passageway and sampling mechanism, the sampling passageway includes the space on the transmission device, sampling mechanism includes the sampling execution device, the sampling execution device includes and pushes down module and/or direction module, the sampling execution device is located sampling passageway top, the sampling execution device can reciprocate; when the sampling execution device extends downwards, the guide module is used for guiding the sheet materials to the sampling channel, and the pressing module is used for pressing the sheet materials downwards towards the sampling channel.

Preferably, the surface of the guide module facing the transmission mechanism is an arc surface or an inclined surface, and when the sampling execution device extends downwards, the arc surface or the inclined surface of the guide module extends to the sampling channel from the rear upper part of the sampling channel.

Preferably, when the sampling execution device extends downwards, the pressing module extends into the sampling channel from above the sampling channel.

Preferably, the sampling execution device comprises a pressing module and a guide module, wherein the guide module is positioned behind the pressing module and is integrally arranged with the pressing module.

Preferably, the sampling mechanism further comprises a sampling driving device, and the sampling driving device is used for driving the sampling execution device to move up and down.

Preferably, the sampling driving device is an air cylinder, a hydraulic cylinder, an electric cylinder, a linear motor, a gear-rack transmission mechanism, a nut-screw mechanism or a motor-belt transmission mechanism, and a moving part of the sampling driving device is connected with the sampling execution device.

As a preferred technical scheme, the transmission mechanism comprises a first-stage transmission mechanism and a second-stage transmission mechanism, the discharge end of the first-stage transmission mechanism is connected with the feed end of the second-stage transmission mechanism, and a sampling channel is formed in a gap between the discharge end of the first-stage transmission mechanism and the feed end of the second-stage transmission mechanism.

As a preferable technical scheme, the device further comprises a shunting baffle which is vertically arranged above the transmission mechanism and parallel to the transmission direction of the transmission mechanism, and a shunting transmission channel is oppositely arranged between the shunting baffles for separating.

Preferably, the sampling mechanism is mounted on the shunt baffle.

As a preferable technical scheme, sampling mechanisms are mounted on the branch baffles on two sides of the branch transmission channel.

As a preferred technical scheme, a pinch roller assembly is mounted on the shunt baffle and is positioned in the shunt transmission channel and used for pressing the flaky materials downwards to the transmission surface of the transmission mechanism.

The sampling mechanism is connected with the sampling controller through signals.

Preferably, the sampling controller further comprises a sampling counting module and/or a sampling timing module.

The utility model has the advantages that:

the utility model is provided with the pressing module and/or the guiding module as a sampling execution device, which guides and/or presses the flaky material passing through the sampling channel, so that the flaky material falls off from the sampling channel, and then collects the fallen flaky material for detection, thereby realizing automatic sampling; for artifical sampling, automatic sampling need not to open outer casing, labour saving and time saving more to need not the hand and stretch into the inside sample of machine, can ensure safety.

Drawings

Fig. 1 is a schematic structural view (perspective view) of a sheet material sampling device of embodiment 1;

fig. 2 is a schematic structural view (a perspective view from another angle) of the sheet material sampling device of embodiment 1;

FIG. 3 is a schematic structural diagram of a single shunt baffle, and a sampling mechanism, a pinch roller assembly and a transmission mechanism mounted thereon in embodiment 1;

FIG. 4 is a schematic diagram showing the structure before the sampling operation in embodiment 1;

FIG. 5 is a schematic view showing the structure of the sampling operation in embodiment 1;

FIG. 6 is an enlarged view of example 5 at A.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further explained with reference to the accompanying drawings.

The slice material can be the slice material of various forms such as plane printed matter, wrapping bag, paper, right the utility model discloses it is all suitable for.

The linking means that the two mechanisms are contacted or close to each other, so that the sheet material of the upstream mechanism can be smoothly conveyed to the downstream mechanism.

The place ahead is the downstream direction that transport mechanism carried the slice material to advance, and the rear is the upstream direction that transport mechanism carried the slice material to advance. The back upper place is that the arcwall face or the inclined plane of direction module partly lie in the top of sampling passageway on vertical direction, lie in the rear of sampling passageway on the horizontal direction.

And/or indicate and with or the optional relation, the sampling execution device both can only include and push down the module, also can only include the direction module, can also include simultaneously and push down module and direction module.

Example 1

The sheet material sampling device of embodiment 1 is shown in fig. 1 to 6, and comprises a conveying mechanism 1, a sampling channel 2 and a sampling mechanism, wherein the sampling channel 2 comprises a gap on the conveying mechanism 1, the sampling mechanism comprises a sampling execution device, the sampling execution device comprises a pressing module 4 and/or a guide module 5, the sampling execution device is positioned above the sampling channel 2, and the sampling execution device can move up and down; when the sampling execution device is extended downwards, the guiding module 5 is used for guiding the sheet material to the sampling channel 2, and the pressing module 4 is used for pressing the sheet material downwards towards the sampling channel 2.

When the sampling device normally operates, the sampling execution device is withdrawn upwards, and the sheet materials smoothly pass through the sampling channel 2 and cannot fall off from the sampling channel 2; when sampling is needed, the sampling execution device extends downwards, the sheet materials fall off from the sampling channel 2 (a gap on the conveying mechanism) and leave the conveying mechanism 1 by utilizing the guiding function of the guiding module 5 and/or the pressing function of the pressing module 4, and the falling sheet materials are collected for detection, so that automatic sampling is completed.

As one of the structural forms of the guide module 5, the surface of the guide module 5 facing the transmission mechanism 1 is an arc surface or an inclined surface, and when the sampling execution device extends downwards, the arc surface or the inclined surface of the guide module 5 extends from the rear upper part of the sampling channel 2 to the sampling channel 2. The arc-shaped surface or slope of the guiding module 5 guides the sheet material to the sampling channel 2, so that the sheet material is discharged from the sampling channel 2, as indicated by the arrow in fig. 6. When the guide module 5 performs the sampling action, the sheet material needs to be extended before reaching the sampling channel 2.

As one of the structural forms of the push-down module 4, when the sampling execution device is extended downward, the push-down module 4 is extended into the sampling channel 2 from above the sampling channel 2. The pressing module 4 presses the sheet material down towards the sampling channel 2, so that the sheet material is discharged from the sampling channel 2. When the pressing module 4 performs the sampling action, the sheet material needs to be extended when reaching the sampling channel 2. In this embodiment, the push-down module 4 is in the shape of a bar block. Of course, the pressing module can also be designed into other shapes such as a rod shape, a strip shape and the like, as long as the purpose of pressing the sheet-shaped materials downwards towards the sampling channel can be achieved.

The sampling execution device can only comprise the pressing module 4 and can also only comprise the guiding module 5, and the purpose of sampling can be achieved by the utility model. When the sampling execution device comprises the push-down module 4 and the guide module 5 at the same time, it is preferable that the guide module 5 is located behind the push-down module 4 and the guide module 5 and the push-down module 4 are integrally arranged in this embodiment. As shown in fig. 6, the left side of the dotted line is the guide module 5, and the right side of the dotted line is the push-down module 4, which are integrally disposed. The sampling execution device simultaneously comprises a pressing module 4 and a guiding module 5, the time precision requirement of the sampling action can be properly relaxed, and the sampling execution device stretches out before the sheet material reaches the sampling channel or when the sheet material reaches the sampling channel, so that the sampling can be finished.

The sampling mechanism also comprises a sampling driving device 3 as one of the modes of moving the sampling execution device up and down, and the sampling driving device 3 is used for driving the sampling execution device to move up and down.

The sampling driving device 3 can be various devices capable of executing vertical reciprocating actions, such as an air cylinder, a hydraulic cylinder, an electric cylinder, a linear motor, a gear-rack transmission mechanism, a nut-screw mechanism, a motor-belt transmission mechanism and the like, and a moving part of the sampling driving device 3 is connected with a sampling execution device. In the present embodiment, a cylinder is used.

The sheet material sampling device further comprises a sampling controller, and the sampling mechanism is in signal connection with the sampling controller. The sampling controller also includes a sample count module and/or a sample timing module. The sampling controller sets a sampling control program for controlling the sampling action, the sampling control program set by the sampling controller is a conventional program, and the sampling action can be set to be counting sampling, timing sampling or manual sampling according to the actual production situation.

In this embodiment, the transmission mechanism 1 includes a first-stage transmission mechanism 1a and a second-stage transmission mechanism 1b, the discharge end of the first-stage transmission mechanism 1a is connected with the feed end of the second-stage transmission mechanism 1b, and a sampling channel 2 is formed in a gap between the discharge end of the first-stage transmission mechanism 1a and the feed end of the second-stage transmission mechanism 1 b. Of course, the sampling channel may also adopt other design ideas, such as opening a slit gap in the middle of the transmission mechanism, so that the slit forms the sampling channel.

The sampling device further comprises a shunting baffle 6, the shunting baffle 6 is vertically arranged above the transmission mechanism 1, the shunting baffle 6 is parallel to the transmission direction of the transmission mechanism 1, and a shunting transmission channel is relatively arranged between the shunting baffles 6. Because probably cut several rows of slice materials simultaneously in the anterior segment process, several when arranging the feeding simultaneously of slice material, along separate routes baffle 6 can play the spacing effect of direction along separate routes, ensures that the slice material keeps straight line transmission.

The sampling mechanism is installed on the baffle 6 along separate routes, and the sampling mechanism can be adjusted in a follow-up mode when the position of the baffle 6 along separate routes is adjusted, so that the position of the sampling mechanism does not need to be adjusted when the size and specification of the flaky materials are switched, and time and labor are saved. In this embodiment, the sampling mechanism is mounted in such a manner that the sampling driving device 3 is mounted on the side surface of the branching shutter 6.

And sampling mechanisms are arranged on the shunt baffle 6 at two sides of the shunt transmission channel. The sampling mechanism is arranged on two sides of the shunt transmission channel, and can always cover two ends of the flaky material no matter how the width of the shunt transmission channel is adjusted, so that the function on the flaky material is uniform and stable.

The utility model discloses a based on sampling among the slice material transportation process, fold, the problem of skidding that appear can disturb the sampling operation among the slice material transportation process. Therefore, the utility model discloses install pinch roller subassembly 7 on the baffle 6 shut, pinch roller subassembly 7 is located and is used for pressing down the slice material to the transmission face of transmission device 1 in the transmission passage shut. The slice material is compressed tightly the exhibition by pinch roller assembly 7 when carrying to pinch roller assembly 7 and is flattened, plays the effect of supplementary transport, has solved fold, the problem of skidding in the slice material transportation process, and pinch roller assembly 7 can the follow-up adjustment when adjusting 6 positions of baffle along separate routes, need not the position of adjustment pinch roller assembly 7 equally when switching the big small dimension of slice material.

As one of the structural forms of the pinch roller assembly 7, the pinch roller assembly 7 comprises a roller 8 and a roller mounting bracket 9, the roller 8 is mounted on the shunt baffle 6 through the roller mounting bracket 9, and the roller 8 is close to or contacts the transmission surface of the transmission mechanism 1.

As one of the structural forms of the roller 8, the roller 8 is a cylindrical roller, the roller 8 is horizontally arranged, the axial direction of the roller 8 is perpendicular to the transmission direction of the transmission mechanism 1, at least two rollers 8 are arranged in one of the branch transmission channels, and the rollers 8 are crosswise installed on the branch baffles 6 at two sides of the branch transmission channel along the transmission direction of the transmission mechanism 1. The rollers 8 are arranged on the two sides of the shunting transmission channel in a crossed manner, so that the rollers 8 can always cover the two ends of the flaky materials no matter how the width of the shunting transmission channel is adjusted, and the flaky materials are uniformly and stably acted.

The shunting baffle 6 can move perpendicular to the conveying direction of the conveying mechanism 1, and when the size specification of the flaky materials is switched, the shunting baffle 6 is moved so as to adjust the width of the shunting conveying channel.

As one of the ways of moving the shunt baffle 6, a shunt baffle mounting beam 10 crossing above the transport mechanism 1 and perpendicular to the transport direction of the transport mechanism 1 is further included, and the shunt baffle 6 is mounted on the shunt baffle mounting beam 10 so as to be movable in the axial direction of the shunt baffle mounting beam 10. Movement of the shunt damper 6 on the shunt damper mounting beam 10 may be accomplished by a manual or automatic pitch mechanism 11 (e.g., a rack and pinion mechanism, etc.).

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (13)

1. A sheet material sampling device is characterized in that: the sampling device comprises a transmission mechanism, a sampling channel and a sampling mechanism, wherein the sampling channel comprises a gap on the transmission mechanism, the sampling mechanism comprises a sampling execution device, the sampling execution device comprises a pressing module and/or a guiding module, the sampling execution device is positioned above the sampling channel, and the sampling execution device can move up and down; when the sampling execution device extends downwards, the guide module is used for guiding the sheet materials to the sampling channel, and the pressing module is used for pressing the sheet materials downwards towards the sampling channel.

2. The sheet material sampling device of claim 1, wherein: the surface of the guide module facing the transmission mechanism is an arc surface or an inclined surface, and when the sampling execution device extends downwards, the arc surface or the inclined surface of the guide module extends to the sampling channel from the rear upper part of the sampling channel.

3. The sheet material sampling device of claim 1, wherein: when the sampling execution device extends downwards, the pressing module extends into the sampling channel from the upper part of the sampling channel.

4. The sheet material sampling device of claim 1, wherein: the sampling execution device comprises a pressing module and a guide module, wherein the guide module is positioned behind the pressing module and is integrally arranged with the pressing module.

5. The sheet material sampling device of claim 1, wherein: the sampling mechanism further comprises a sampling driving device, and the sampling driving device is used for driving the sampling execution device to move up and down.

6. The sheet material sampling device of claim 5, wherein: the sampling driving device is a cylinder, a hydraulic cylinder, an electric cylinder, a linear motor, a gear-rack transmission mechanism, a nut-screw mechanism or a motor belt transmission mechanism, and a moving part of the sampling driving device is connected with a sampling execution device.

7. The sheet material sampling device of claim 1, wherein: the conveying mechanism comprises a first-stage conveying mechanism and a second-stage conveying mechanism, the discharge end of the first-stage conveying mechanism is connected with the feed end of the second-stage conveying mechanism, and a sampling channel is formed in a gap between the discharge end of the first-stage conveying mechanism and the feed end of the second-stage conveying mechanism.

8. The sheet material sampling device of claim 1, wherein: the device is characterized by further comprising shunt baffles, wherein the shunt baffles are vertically arranged above the transmission mechanism and are parallel to the transmission direction of the transmission mechanism, and shunt transmission channels are oppositely arranged between the shunt baffles and separated.

9. The sheet material sampling device of claim 8, wherein: the sampling mechanism is mounted on the shunt baffle.

10. The sheet material sampling device of claim 9, wherein: and sampling mechanisms are arranged on the shunting baffles on two sides of the shunting transmission channel.

11. The sheet material sampling device of claim 8, wherein: and the shunt baffle is provided with a pinch roller assembly, and the pinch roller assembly is positioned in the shunt transmission channel and is used for pressing the flaky materials downwards to the transmission surface of the transmission mechanism.

12. The sheet material sampling device according to any one of claims 1 to 11, wherein: the sampling mechanism is connected with the sampling controller through signals.

13. The sheet material sampling device of claim 12, wherein: the sampling controller also includes a sample count module and/or a sample timing module.

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