CN110575967A - Automatic weight detecting and screening machine capable of weakening impact force - Google Patents

Abstract

The invention relates to the technical field of weight detection, in particular to an automatic weight detection screening machine capable of weakening impact force. It includes: frame, check heavy sieving mechanism, control instrument and direction subassembly. The control instrument is in data connection with the weight detecting and screening device and is provided with a screening range, and the control instrument is used for receiving the weight value sent by the weight detecting and screening device, comparing the weight value with the screening range and sending a control signal to the weight detecting and screening device according to a comparison result. The control instrument controls the check weighing and screening device to send the object to a qualified area or an unqualified area. Based on this, this embodiment has reduced the occupation of land space of sieve separator to the screening mode of pipelined through utilizing the control instrument control check heavy sieving mechanism to make two-way motion, thereby has enlarged its application scope. Simultaneously, owing to set up the direction subassembly, can slow down the object to examining heavy sieving mechanism's impact force to the too big sieving mechanism that leads to of impact force suffers destruction when can avoiding the object to fall into.

Description

Automatic weight detecting and screening machine capable of weakening impact force

Technical Field

the invention relates to the technical field of weight detection, in particular to an automatic weight detection screening machine capable of weakening impact force.

Background

In production, objects are often required to be screened according to different weights of products, and in order to reduce the burden of hands, a device capable of automatically detecting the weight is designed by people.

However, the automatic weight detecting device is a screening device since it is necessary to screen an object according to the weight of the object during use. Because traditional sieving mechanism designs for the structure of assembly line, area is great, and the structure is complicated, be not convenient for maintain. Meanwhile, the object is directly suspended and falls into the automatic weight checking device, and the automatic weight checking device is often damaged due to large impact force.

In conclusion, the existing automatic weight detecting device is improved.

Disclosure of Invention

the invention aims to provide an automatic weight detecting and screening machine for weakening impact force, aiming at the defects and shortcomings of the prior art, and having the advantages of small occupied area and simple structure.

In order to achieve the purpose, the invention adopts the technical scheme that:

an automatic checkweigher for attenuating impact forces, comprising:

The device comprises a rack, a weight detecting and screening device, a control instrument and a guide assembly;

The rack is used for bearing and installing the check weight screening device, the control instrument and the guide assembly;

the weight detecting and screening device is arranged on the rack and is used for detecting the weight of an object and sending the weight value of the object to the control instrument, after weight detection, the weight detecting and screening device is also used for receiving a control signal of the control instrument and screening the object according to the control signal, and qualified areas and unqualified areas are arranged at two ends of the weight detecting and screening device;

The control instrument is arranged in the rack, is in data connection with the weight detecting and screening device and is provided with a screening range, and is used for receiving the weight value sent by the weight detecting and screening device, comparing the weight value with the screening range and sending a control signal to the weight detecting and screening device according to a comparison result;

When the weight value is larger than the maximum value in the screening range or the weight value is smaller than the minimum value in the screening range, the control instrument sends a control signal to the check weight screening device to control the check weight screening device to send the object to a non-qualified area;

When the weight value is within the screening range, the control instrument sends a control signal to the check weight screening device to control the check weight screening device to send the object to a qualified area;

the direction subassembly set up in the frame and with examine heavy sieving mechanism and be linked together, the direction subassembly is used for weakening the object and falls into examine heavy sieving mechanism when going up right examine heavy sieving mechanism's impact force.

preferably, the rack includes:

The body is used for accommodating the control instrument and the guide assembly; and the number of the first and second groups,

And the bearing plate is fixedly arranged on the machine body and is used for accommodating the weight detecting and screening device.

Preferably, the rack further comprises: and the shell is arranged on the bearing plate and used for protecting the weight checking and screening device.

Preferably, the control instrument includes:

and the weight checking instrument is embedded in the machine body and is used for receiving the object weight value sent by the weight checking and screening device and displaying the weight value.

preferably, the control meter further includes:

and the button is embedded in the machine body and is used for adjusting the screening range.

preferably, the checkweigher screening device includes:

The pressure sensor is arranged on the bearing disc and used for detecting the weight of the object and sending the weight value to the control instrument; and the number of the first and second groups,

and the transmission device is erected on the pressure sensor and is used for receiving a control signal sent by the control instrument so as to drive the object to be conveyed to the designated area.

Preferably, the guide assembly comprises: the sliding plate is arranged on the machine body, is obliquely arranged relative to the conveying device and is communicated with the conveying device at one end close to the bearing disc.

preferably, the guide assembly further comprises: one end is fixed on the slide and the other end is fixed at the articulated subassembly on the fuselage, articulated subassembly includes:

A bearing plate detachably assembled on the machine body; and the number of the first and second groups,

One end is hinged on the bearing plate and the other end is fixed on the connecting piece on the sliding plate.

Preferably, it further comprises: the alarm device is internally provided with a plurality of indicator lights with different colors, and the plurality of indicator lights with different colors are all controlled by the control instrument.

preferably, it further comprises: the shock-absorbing foot is fixedly arranged on the frame and is close to one side of the ground.

after the technical scheme is adopted, the invention has the beneficial effects that:

The embodiment utilizes the control instrument to control the checkweigher screening device to do bidirectional movement, and compared with a production line type screening mode, the method reduces the occupied space of the screening machine, thereby enlarging the application range of the screening machine. Meanwhile, the screening machine has fewer components, and the damaged part is convenient to find when damaged, so that the maintenance speed is accelerated; the weight is reduced due to the fewer parts, thereby facilitating the handling and use thereof. In addition, owing to set up the direction subassembly, can slow down the object to examine heavy sieving mechanism's impact force to the too big sieving mechanism that leads to of impact force suffers destruction when can avoiding the object to fall into.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of an exploded structure of the present invention;

FIG. 3 is a schematic view of an exploded structure of the present invention;

FIG. 4 is an enlarged view of area A of FIG. 1;

FIG. 5 is a schematic view of an exploded structure of the checkweigher screening apparatus of the present invention;

FIG. 6 is an exploded view of the transfer device of the present invention;

FIG. 7 is a schematic structural view of the present invention;

Description of reference numerals: 10. a frame; 11. a body; 12. a carrier tray; 13. a housing; 20. a check weighing and screening device; 21. a pressure sensor; 22. a transmission device; 221. a support; 2211. a pressure fixing plate; 2212. a side plate; 2213. a weighing platform parallel support plate; 222. a driving shaft core; 223. a driven shaft core; 224. a belt; 225. a motor; 30. a control instrument; 31. a check weighing instrument; 32. a button; 40. a guide assembly; 41. a slide plate; 42. a hinge assembly; 421. a bearing plate; 422. a connecting member; 50. an alarm device; 60. a shock absorbing foot; a. a limiting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

As shown in fig. 1-7, the present embodiment relates to an automatic checkweigher for attenuating impact force, which includes: a frame 10, a checkweigher screening device 20 and a control instrument 30. The housing 10 is used to carry and mount the checkweigher screen apparatus 20 and the control instruments 30. The check weight screening device 20 is arranged on the rack 10, the check weight screening device 20 is used for performing check weight detection on the object and sending the detected weight value to the control instrument 30, after the check weight detection, the check weight screening device 20 is also used for receiving a control signal of the control instrument 30 and performing screening operation on the object according to the control signal, and qualified areas and unqualified areas are arranged at two ends of the check weight screening device 20. The control instrument 30 is arranged in the rack 10, the control instrument 30 is in data connection with the weight detecting and screening device 20 and is provided with a screening range, and the control instrument 30 is used for receiving the weight value sent by the weight detecting and screening device 20, comparing the weight value with the value in the screening range, and sending a control signal to the weight detecting and screening device 20 according to the comparison result. When the weight value is greater than the maximum value in the screening range or the weight value is smaller than the minimum value in the screening range, the control instrument 30 sends a control signal to the checkweigher screening apparatus 20 to control the checkweigher screening apparatus 20 to send the object to the non-qualified zone. When the weight value is within the screening range, the control instrument 30 sends a control signal to the checkweigher screening apparatus 20 to control the checkweigher screening apparatus 20 to send the object to the qualified zone. The guide assembly 40 is disposed on the frame 10 and is communicated with the checkweigher screening device 20, and the guide assembly 40 is used for weakening the impact force to the checkweigher screening device 20 when an object falls onto the checkweigher screening device 20.

Based on the above mechanism, the object is thrown onto the guide unit 40, and the guide unit 40 communicates with the checkweigher sifting apparatus 20, so that the object falls onto the checkweigher sifter 20 from the guide unit 40. When there is no object on the checkweigher sifting apparatus 20, the checkweigher sifter 20 is in a stationary state. When an object falls into the check weight screening device 20, the check weight screening device 20 can sense the object and check the weight of the object, and then send the weight value of the object to the control instrument 30. The control instrument 30 receives the weight value of the object and compares the weight value with a value in the screening range, and when the weight value is found to be in the screening range, the control instrument 30 controls the checkweigher screening device 20 to drive the object to enter the qualified area; when the weight value is found to be outside the screening range, the control instrument 30 controls the checkweigher screening device 20 to drive the object into the non-qualified zone. Based on this, the present embodiment controls the checkweigher screening apparatus 20 to perform the bidirectional movement by using the control instrument 30 to distinguish the non-defective products from the defective products, thereby reducing the occupied space of the screening machine compared to the pipelined screening method and thus expanding the range of use thereof. Meanwhile, the screening machine has fewer components, and the damaged part is convenient to find when damaged, so that the maintenance speed is accelerated; the weight is reduced due to the fewer parts, thereby facilitating the handling and use thereof. In addition, owing to set up direction subassembly 40, can slow down the object to examine heavy sieving mechanism 20's impact force to too big result in examining heavy sieving mechanism 20 to suffer destruction when can avoiding the object to fall into.

to facilitate the storage of the control instrument 30 and the checkweigher screening device 20 separately, the rack 10 of the present embodiment preferably includes: for receiving the body 11 of the control instrument 30. And a bearing plate 12 fixedly arranged on the machine body 11 and used for accommodating the check weighing and screening device 20.

in order to prevent the checkweigher screening apparatus 20 from being damaged by external force, as a preferable solution, the frame 10 of the present embodiment further includes: a housing 13 disposed on the carrier tray 12 and protecting the checkweigher screening device 20.

To confirm whether the automatic checkweigher sifter for attenuating impact force is normally operated, the control instrument 30 of the present embodiment includes: and a check weighing instrument 31 embedded in the body 11 and used for receiving the object weight value sent by the check weighing screening device 20 and displaying the weight value. Based on above structure, through setting up check weighing instrument 31, can show the specific weight value of object, can compare the specific weight value of object with the qualified weight value of object from this to can help people to confirm whether this automatic check weighing sieve separator that weakens the impact force can normally work.

in order to regulate and control the screening range, the control instrument 30 of the present embodiment further includes: a button 32 embedded in the body 11 and used for adjusting the screening range. Based on above structure, because in the in-service use, there is different requirement to the weight partition of object, consequently can adjust the screening scope through setting up button 32 to can set up different screening scopes according to the different demands of staff.

In order to ensure the use effect of the checkweigher screening apparatus 20, as a preferable solution, the checkweigher screening apparatus 20 of the present embodiment includes: a pressure sensor 21 arranged on the carrier tray 12 for detecting the weight of the object and sending the weight value to the weight detecting instrument 31 tray. And a transmission device 22 mounted on the pressure sensor 21, wherein the transmission device 22 is used for receiving a control signal sent by the control instrument 30 to drive the object to be transmitted to the designated area.

To ensure the function and effect of the transmission device 22, the transmission device 22 of the present embodiment includes: the bracket 221, the bracket 221 is mounted on the pressure sensor 21. A driving shaft core 222 pivotally connected to one end of the bracket 221. A passive shaft core 223 pivotally connected to the bracket 221 and at the other end. A belt 224 sleeved on the driving shaft core 222 and the driven shaft core 223. And a motor 225 which is arranged on the bracket 221 and is in transmission connection with the driving shaft core 222, wherein the motor 225 is used for receiving a control signal sent by the control instrument 30 and driving the driving shaft core 222 to rotate according to the control signal. Based on the above structure, during the use process, an object is placed on the belt 224, and the motor 225 is controlled by the control instrument 30 to operate after data transmission. (taking the side close to the motor 225 as a non-qualified area and the side far from the motor 225 as a qualified area for example), when the weight value of the object is within the screening range, the control instrument 30 controls the motor 225 to rotate forward, so as to drive the driving shaft core 222 to rotate clockwise, thereby driving the belt 224 to move and driving the object to move toward the side close to the control motor 225; when the weight value of the object is outside the screening range, the control instrument 30 controls the motor 225 to be reversely installed, so as to drive the driving shaft core 222 to rotate counterclockwise, thereby driving the belt 224 to move and driving the object to move toward the side away from the control motor 225.

To ensure that the object is dropped onto the belt 224 for check weighing, the support 221 of this embodiment preferably includes: a pressure fixing plate 2211 erected on the pressure sensor 21, a limit groove a is formed in one side surface, close to the pressure sensor 21, of the pressure fixing plate 2211, and the pressure sensor 21 is clamped in the limit groove a; and side plates 2212 fixedly arranged at both sides of the pressure fixing plate 2211, and the driving shaft core 222 and the driven shaft core 223 are both connected to the side plates in a shaft rotating manner. Based on above structure, through seting up spacing groove a, can fix pressure fixing plate 2211 on pressure sensor 21 to can avoid transmission device 22 whole to break away from pressure sensor 21, and then can guarantee that the object falls into and can be examined heavily on transmission device 22.

To ensure the stability of the object during the conveying process, the support 221 of this embodiment further includes: a platform parallel support plate 2213, the platform parallel support plate 2213 is arranged between the belts 224, and two ends of the platform parallel support plate 2213 are respectively fixed on one of the side plates 2212. Based on the above structure, the object falls on the belt 224 and returns under the influence of the gravity of the object to cause the object to drive the belt 224 to sink, thereby influencing the transmission of the belt 224; through setting up the parallel backup pad 2213 of weighing platform, can play the supporting role to the object to can prevent that belt 224 from sinking, thereby guarantee object transfer process's stability.

To ensure the function and effect of the guiding assembly 40, the guiding assembly 40 of the present embodiment includes: a sliding plate 41 arranged on the body 11, wherein the sliding plate 41 is arranged obliquely relative to the transmission device 22 and one end of the sliding plate 41 close to the bearing disc 12 is communicated with the transmission device 22. Based on the above structure, by arranging the sliding plate 41 and inclining the sliding plate 41, when an object is thrown onto the sliding plate 41, the object can fall onto the belt 224 at a slower speed, so that the impact of the object on the belt 224 is weakened, and the whole transmission device 22 can be prevented from being damaged.

to ensure that different kinds of objects can slide down the slide plate onto the belt 224, the guide assembly 40 of this embodiment further includes: a hinge assembly 42 having one end fixed to the slide plate 41 and the other end fixed to the body 11, the hinge assembly 42 comprising: a bearing plate 421 detachably fitted to the body 11. And a connecting member 422 having one end hinged to the bearing plate 421 and the other end fixed to the slide plate 41. Based on the above structure, since the weight of different objects and the frictional force generated between the sliding plate 41 are different, it cannot be ensured that each object can slide down the sliding plate 41 onto the belt 224. For example, when an object is standing on the sliding plate 41, the inclination angle of the sliding plate 41 relative to the belt 224 can be adjusted to increase the inclination angle of the sliding plate 41 by the hinge relationship between the connecting member 422 and the bearing plate 421, so that the object can be more easily slid onto the belt 224.

In order to screen unqualified and overweight individuals in the object, the automatic impact force weakening checkweigher of the embodiment further comprises: the alarm device 50 is provided with a plurality of signal lamps with different colors in the alarm device 50, and the signal lamps with different colors are controlled by the control instrument 30. Based on the above structure, as an embodiment, the signal lamps may be set as a green lamp, a red lamp and a yellow lamp, and when an object falls on the belt 224 and the control instrument 30 controls the green lamp to be on, it indicates that the object is qualified; when the object falls on the belt 224, the control instrument 30 controls the red light to be on, which indicates that the object is overweight; when the object falls onto the belt 224, the control instrument 30 controls the yellow light to be on, which indicates that the object is not qualified.

in order to ensure the stability of the impact force attenuating automatic checkweigher, as a preferable solution, the impact force attenuating automatic checkweigher of the present embodiment further includes: a shock absorbing foot 60 fixedly arranged on the frame 10 and close to the ground. Meanwhile, in order to further ensure the stability of the automatic check weighing screening machine for weakening the impact force, four shock absorbing feet 60 can be arranged, two of the shock absorbing feet are distributed on the machine body 11 in an aligned mode, and the other two shock absorbing feet are distributed on the bearing plate 12 in an aligned mode.

the above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. an automatic checkweigher for attenuating impact forces, comprising:

The device comprises a rack (10), a check weighing and screening device (20), a control instrument (30) and a guide assembly (40);

The frame (10) is used for bearing and mounting the check weight screening device (20), the control instrument (30) and a guide assembly;

the weight detecting and screening device (20) is arranged on the rack (10), the weight detecting and screening device (20) is used for detecting the weight of an object and sending the weight value of the object to the control instrument (30), after weight detection, the weight detecting and screening device (20) is also used for receiving a control signal sent by the control instrument (30) and carrying out screening operation according to the control instrument, and qualified areas and unqualified areas are arranged at two ends of the weight detecting and screening device (20);

The control instrument (30) is embedded in the rack (10), a screening range is arranged in the control instrument (30) and is in data connection with the weight detecting and screening device (20), and the control instrument (30) is used for receiving the weight value sent by the weight detecting and screening device (20), comparing the weight value with the value in the screening range, and sending a control signal to the weight detecting and screening device (20) according to the comparison result;

When the weight value is larger than the maximum value in the screening range or the weight value is smaller than the minimum value in the screening range, the control instrument (30) sends a control signal to the checkweigher screening device (20) to control the checkweigher screening device (20) to send the object to a non-qualified area;

When the weight value is within the screening range, the control instrument (30) sends a control signal to the check weighing and screening device (20) to control the check weighing and screening device (20) to send the object to a qualified area;

The guide assembly (40) is arranged on the rack (10) and communicated with the weight detecting and screening device (20), and the guide assembly (40) is used for weakening the impact force of the weight detecting and screening device (20) when an object falls into the weight detecting and screening device (20).

2. an impact force attenuating automated checkweigher screening machine according to claim 1 in which the frame (10) comprises:

A body (11) for accommodating the control instrument (30) and the guide assembly (40); and the number of the first and second groups,

and the bearing disc (12) is fixedly arranged on the machine body (11) and is used for accommodating the weight detecting and screening device (20).

3. the automated impact force attenuating checkweigher screen of claim 2, wherein the frame (10) further comprises: a housing (13) detachably mounted on the carrier plate (12) and protecting the checkweigher sifting device (20).

4. the automated checkweigher screening machine for attenuating impact forces according to claim 1, where the control instrument (30) comprises:

And a check weighing instrument (31) which is embedded on the machine body (11) and is used for receiving the object weight value sent by the check weighing screening device (20) and displaying the weight value.

5. The automated checkweigher screening machine for attenuating impact forces according to claim 4, where the control instrument (30) further comprises: a button (32) embedded in the body (11) and used for adjusting the screening range.

6. An impact force attenuating automated checkweigher screen according to claim 1, characterised in that the checkweigher screen apparatus (20) comprises:

a pressure sensor (21) arranged on the bearing plate (12) and used for detecting the weight of the object and sending the weight value to the control instrument (30); and the number of the first and second groups,

And the transmission device (22) is erected on the pressure sensor (21), and the transmission device (22) is used for receiving a control signal sent by the control instrument (30) to drive the object to be conveyed to a specified area.

7. the automated impact force attenuating checkweigher screen of claim 2 wherein the guide assembly (40) comprises: a sliding plate (41) arranged on the machine body (11), wherein the sliding plate (41) is obliquely arranged relative to the transmission device (22) and one end of the sliding plate (41) close to the bearing disc (12) is communicated with the transmission device (22).

8. the automated impact force attenuating checkweigher screen of claim 7 wherein the guide assembly (40) further comprises: a hinge assembly (42) with one end fixed on the sliding plate (41) and the other end fixed on the machine body (11);

the hinge assembly (42) includes:

a bearing plate (421) detachably fitted to the body (11); and the number of the first and second groups,

one end of the connecting piece is hinged on the bearing plate (421) and the other end is fixed on the connecting piece (422) of the sliding plate (41).

9. an impact force attenuating automated checkweigher screening machine according to claim 1 further comprising: the alarm device (50) is internally provided with a plurality of indicator lights with different colors, and the indicator lights with different colors are controlled by the control instrument (30).

10. an impact force attenuating automated checkweigher screening machine according to claim 1 further comprising: and the shock absorption foot (60) is arranged on the frame (10) and is close to one side of the ground.