CN216233128U - A unloader for bull packing scale - Google Patents

Abstract

The utility model provides a blanking device for a multi-head packing scale, which comprises a device main body connected between the multi-head packing scale and a packing machine; the device main body comprises a material distributing mechanism connected with the packing scale and a material collecting mechanism connected with the packing machine; the material collecting mechanism comprises four blanking chutes connected with the material distributing mechanism. In the actual implementation process, firstly, a multi-head packing scale is used for weighing the measured object, secondly, the weighed measured object is divided into four parts by a material dividing mechanism, and finally, the four parts of the measured object are respectively dropped into a packing machine through four blanking chutes, and then are packed by the packing machine; compared with the prior art, the blanking device has the advantages of saving manpower, improving the working efficiency and improving the operation safety performance.

Description

A unloader for bull packing scale

Technical Field

The utility model relates to the field of weighing and packaging, in particular to a blanking device for a multi-head packaging scale.

Background

In the field of weighing and packaging, a computerized multi-head packaging scale is generally used to put together objects to be weighed (for example, food such as candies and dried fruits) having different weights to a target weight.

Computerized multi-head packaging scales typically feed the objects to a centrally located dispensing pan. A plurality of radiation chutes are disposed at equal intervals around the dispersion board, and the plurality of radiation chutes supply the objects to be weighed to the pre-storage buckets disposed correspondingly.

The pre-storage hopper supplies the received objects to the corresponding weighing hoppers according to the instruction of the calculating unit. The weighing hopper is connected with the weighing sensor. Each weighing sensor detects the weight of the measured object in the corresponding weighing hopper, and data are processed and transmitted to the calculating unit. The calculating unit is used for carrying out permutation and combination based on the weight value of the objects to be measured in each measuring hopper; and adding more than two weight values to select the most approximate optimal group of combination values corresponding to the target weight. Based on the optimal combination value, the calculation unit sends an instruction to the selected weighing hopper, the weighed materials are discharged to a collecting tank below the weighing hopper, and the materials are collected to a collecting hopper. And (4) feeding the materials passing through the collecting hopper into a packaging machine below the collecting hopper for quantitative packaging.

The common computer multi-head packing scale is mostly single-station blanking, the single-station blanking can only meet small-scale production, and in order to meet the requirement of large-scale production, the four-station blanking mechanism can improve the production efficiency to a great extent.

In view of this, the inventors of the present invention conducted extensive studies on the above-mentioned problems, and developed a new practical model.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a blanking device for a multi-head packing scale; to solve the problems of the background art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

according to an aspect of the present invention, there is provided a discharging device for a multi-head packing scale, including a device body connected between the multi-head packing scale and a packing machine; the device main body comprises a material distributing mechanism connected with the packing scale and a material collecting mechanism connected with the packing machine; the material collecting mechanism comprises four blanking chutes connected with the material distributing mechanism.

The material distribution mechanism comprises a first material distributor, a second material distributor and a third material distributor which are sequentially connected from top to bottom; the first distributor comprises a first timing bucket; the second distributor comprises two second timing buckets positioned on two sides of the first timing bucket; the third material distributor comprises two groups of material distributing components which are respectively connected with the two second timing buckets; the material distributing assembly comprises two third timing buckets.

The first timing hopper comprises a first storage bin for bearing a measured object and a first opening and closing assembly located at the lower end of the first storage bin and movably closing the first storage bin.

The first opening and closing assembly comprises a first movable sliding plate, a second movable sliding plate, a first driving device and a second driving device, wherein the first movable sliding plate and the second movable sliding plate are rotatably connected with the first storage bin, the first driving device drives the first movable sliding plate to swing, and the second driving device drives the second movable sliding plate to swing.

The second timing hopper comprises a second storage bin for bearing the objects to be metered and a second opening and closing component which is positioned at the lower end of the second storage bin and movably seals the second storage bin.

The second timing hopper also comprises a first material blocking frame positioned at the edge of the upper end of the second storage bin.

The first material blocking frame is provided with a first material passing opening facing to the other second timing hopper; two the first material blocking frame is connected to form a first movable channel for the first opening and closing assembly to move.

The material distributing assembly comprises two third timing buckets which are respectively arranged at two sides of the second timing bucket.

The third timing hopper comprises a third storage bin for bearing the objects to be metered and a third opening and closing component which is positioned at the lower end of the third storage bin and movably closes the third storage bin.

The third timing hopper also comprises a second material blocking frame positioned at the edge of the upper end of the third storage bin; and the four second material blocking frames are connected to form a second movable channel for the second opening and closing assembly to move.

After the technical scheme is adopted, the blanking device for the multi-head packaging scale at least has the following beneficial effects:

in the actual implementation process, firstly, a multi-head packing scale is used for weighing the measured object, secondly, the weighed measured object is divided into four parts by a material dividing mechanism, and finally, the four parts of the measured object are respectively dropped into a packing machine through four blanking chutes, and then are packed by the packing machine; compared with the prior art, the blanking device has the advantages of saving manpower, improving the working efficiency and improving the operation safety performance.

Drawings

Fig. 1 is a schematic view of a blanking device according to an embodiment of the present invention in a first view (e.g., a perspective view);

fig. 2 is a schematic structural view of a blanking device according to an embodiment of the present invention from a second perspective (e.g., from a front view);

fig. 3 is a schematic structural diagram of a third view (e.g., a left view) of a blanking device according to an embodiment of the utility model;

FIG. 4 is a schematic view of a first perspective (e.g., front view) configuration of a blanking device and a multi-head packaging scale according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second view (e.g., a right view) of the assembly of the blanking device and the multi-head packaging scale according to the embodiment of the utility model.

Description of reference numerals:

a material distributing mechanism 1; a material collecting mechanism 2; an electric cabinet 3; a blanking chute 21; a first timing bucket 11; a second timing bucket 12; a third timing bucket 13; a first storage bin a 1; a first movable slide a 2; a second movable slide a 3; a first driving device a 4; a second driving device a 5; a second storage bin b 1; a first striker frame b 11; a first movable passage b 12; a third movable slide b 2; a fourth movable slide b 3; the third driving device b 4; the fourth drive means b 5; a third storage bin c 1; a second material blocking frame c 2; a third opening and closing component c 3; a fifth driving means c 4.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

[ Blanking device for a Multi-head packing Scale according to an embodiment of the present invention ]

Referring to fig. 1 and 2, a blanking device for a multi-head packing scale according to an embodiment of the present invention includes a device body connected between the multi-head packing scale and a packing machine; the device main body comprises a material distributing mechanism 1 connected with the packing scale and a material collecting mechanism 2 connected with the packing machine; the material collecting mechanism 2 comprises four blanking chutes 21 connected with the material distributing mechanism 1. In the actual implementation process, firstly, the objects to be weighed are weighed by a multi-head packing scale, secondly, the weighed objects are equally divided into four parts by the material distribution mechanism 1, and finally, the four equally divided objects are respectively dropped into a packing machine through four blanking chutes 21 and are packed by the packing machine; compared with the prior art, the blanking device has the advantages of saving manpower, improving the working efficiency and improving the operation safety performance.

[ feed mechanism for a blanking device of a multi-head packaging scale according to an embodiment of the present invention ]

Referring to fig. 1 and 3, a material distribution mechanism 1 according to an embodiment of the present invention includes a first material distributor, a second material distributor, and a third material distributor connected in this order from top to bottom; the first distributor comprises a first timing bucket 11; the second distributor comprises two second timing buckets 12 positioned at two sides of the first timing bucket 11; the third distributor comprises two groups of distributing components which are respectively connected with the two second timing buckets 12; each of the dispensing assemblies includes two third timing buckets 13. In the practical implementation process, the objects to be weighed are weighed by a multi-head packing scale, the materials are distributed for the first time through the first timing hopper 11, and the objects to be weighed are uniformly distributed into the two second timing hoppers 12 by the first timing hopper 11; distributing materials for the second time through the second timing buckets 12, wherein each second timing bucket 12 equally distributes the measured materials in the second timing buckets 12 into two third timing buckets 13 again; thereby realizing that the measured objects weighed by the multi-head packing scale are equally divided into four parts for packing; thereby can effectual improvement packing efficiency, use manpower sparingly.

[ timing bucket of blanking device for multi-head packaging scale according to an embodiment of the present invention ]

Referring to fig. 1 and 3, the first timing hopper 11 according to the embodiment of the present invention includes a first storage bin a1 for carrying the objects to be weighed and a first opening and closing assembly movably closing the first storage bin a1 at a lower end of the first storage bin a 1. In the practical implementation process, the first storage bin a1 is opened and closed through the opening and closing of the first opening and closing assembly; specifically, through setting up in the outside controller control of unloader open duration of first subassembly that opens and shuts, and then control by measurement object whereabouts quantity and weight in the first storage silo a1 to it is more accurate to make to be equallyd divide by the measurement thing, thereby improves the quality of product. Alternatively, the controller may be disposed in the electric cabinet 3 (fig. 3) of the blanking device. The controller and the blanking device can be in wireless connection or electric connection, so that the blanking device is controlled.

Preferably, as shown in fig. 3, the first opening and closing assembly includes a first movable sliding plate a2 and a second movable sliding plate a3 rotatably connected to the first storage bin a1, a first driving device a4 for driving the first movable sliding plate a2 to swing, and a second driving device a5 for driving the second movable sliding plate a3 to swing. In practical implementation, the first driving device a4 comprises a first driving cylinder, and the second driving device a5 comprises a second driving cylinder; specifically, the controller controls the first driving cylinder and the second driving cylinder to rotate the first movable sliding plate a2 and the second movable sliding plate a3 which are combined together, so that the objects in the first storage bin a1 fall along the first movable sliding plate a2 and/or the second movable sliding plate a3 and are flatly laid in the second timing hopper 12.

Preferably, the second timing hopper 12 comprises a second storage bin b1 for loading the objects to be metered and a second opening and closing assembly at the lower end of the second storage bin b1 for movably closing the second storage bin b 1. In the practical implementation process, the second storage bin b1 is opened and closed through the opening and closing of the second opening and closing assembly; specifically, through the controller control second open and shut the subassembly open long time, and then control in the second storage silo b1 by measurement object whereabouts quantity and weight to make more accurate by the equalling divide of measurement object, thereby improve the quality of product.

Preferably, as shown in fig. 3, the second timing hopper 12 further comprises a first striker frame b11 at the upper end edge of the second storage bin b 1. In the practical implementation process, the first material blocking frame b11 blocks the measured object splashed after falling, so that the measured object is prevented from being sputtered and separated from the second storage bin b 1.

Preferably, the first striker frame b11 has a first material passing opening facing the other second timing bucket 12; the two first material blocking frames b11 are connected to form a first movable channel b12 for the first opening and closing assembly to move. In practical implementation, when the first opening and closing assembly moves along the first movable channel b12, the first opening and closing assembly can push the objects to be measured stacked on the second storage bin b1, so as to prevent the objects to be measured from being stacked on the second storage bin b1, and the objects to be measured are spread on the second storage bin b1, and then the objects to be measured are equally divided into two second storage bins b1, thereby achieving the equal division of the objects to be measured.

Preferably, as shown in fig. 3, the second opening and closing assembly comprises a third movable sliding plate b2 and a fourth movable sliding plate b3 rotatably connected to the second storage bin b1, a third driving device b4 for driving the third movable sliding plate b2 to swing, and a fourth driving device b5 for driving the fourth movable sliding plate b3 to swing. In practical implementation, the third driving device b4 comprises a third driving cylinder, and the fourth driving device b5 comprises a fourth driving cylinder; specifically, the third driving cylinder and the fourth driving cylinder are controlled by the controller to rotate the third movable sliding plate b2 and the fourth movable sliding plate b3, respectively, so that the objects in the second storage bin b1 fall along the third movable sliding plate b2 and/or the fourth movable sliding plate b3 and are flatly laid in the third timing hopper 13.

Preferably, the material separating assembly includes two third timing buckets 13 respectively disposed at both sides of the second timing bucket 12. In the practical implementation process, the objects to be measured in one second timing bucket 12 are equally divided into two third timing buckets 13, and the two third timing buckets 13 are respectively arranged at two sides of the second timing bucket 12, so that the objects to be measured are conveniently distributed, and the distribution efficiency can be effectively improved.

Preferably, as shown in fig. 2, the third timing hopper 13 includes a third storage bin c1 for carrying the objects to be measured and a third opening and closing assembly c3 at the lower end of the third storage bin c1 for movably closing the third storage bin c 1. In the practical implementation process, the third storage bin c1 is opened and closed through the opening and closing of the third opening and closing assembly c 3; specifically, the controller controls the third opening and closing assembly c3 to open, so that the measured objects in the third storage bin c1 are controlled to completely fall into the discharging chute 21, and the measured objects enter the packaging machine to be packaged through the discharging chute 21, so that the packaging efficiency can be effectively improved.

Preferably, the third timing hopper 13 further comprises a second material blocking frame c2 at the upper end edge of the third storage bin c 1; the four second material blocking frames c2 are connected to form a second movable channel for the second opening and closing assembly to move. In practical implementation, when the second opening and closing assembly moves along the second movable channel, the second opening and closing assembly can push the objects to be measured stacked on the third storage bin c1, so as to prevent the objects to be measured from being stacked on the third storage bin c1, and enable the objects to be measured to be spread on the third storage bin c1, and further enable the objects to be measured to be equally distributed in the four third storage bins c1, thereby achieving the equal distribution of the objects to be measured.

Preferably, the third opening and closing assembly c3 comprises a fifth movable sliding plate and a sixth movable sliding plate which are rotatably connected with the third storage bin c1, and a fifth driving device c4 for driving the fifth movable sliding plate to swing, similar to the structure of the second opening and closing assembly. In practical implementation, the fifth driving device c4 includes a fifth driving cylinder, and specifically, the fifth driving cylinder is controlled by the controller to make the combined fifth movable sliding plate and sixth movable sliding plate rotate respectively, so that the objects in the third storage bin c1 fall down along the fifth movable sliding plate and/or sixth movable sliding plate, and all fall into the discharging chute 21. In the present embodiment, only the fifth driving means c4 is provided to drive the fifth movable slide plate, and no driving means is provided to the sixth movable slide plate. In specific implementation, the measured object is located in the third storage bin after being equally divided into four equal parts, and at the moment, the measured object can fall into the discharging chute only by driving the fifth movable sliding plate to open the third opening and closing assembly through the fifth driving device c 4.

Of course, in other embodiments, a sixth driving device may be provided to drive the sixth movable sliding plate to achieve the same function, so that the adjustment is more accurate and efficient when the sixth driving device is provided.

FIG. 4 is a schematic view of an assembly structure of the feeding device and the multi-head packing scale in a front view; FIG. 5 is a schematic diagram of an assembly structure of the blanking device and the multi-head packing scale from a right view; in the in-service use process, the user places a large amount of by the measurement on bull packing scale, weighs the ration through bull packing scale, and bull packing scale can be with quantitative by the measurement in carry to unloader, later through unloader with quantitative by the measurement equalling divide into four to realize by the quick subcontracting of measurement, thereby improve packing efficiency.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

While the present disclosure has been described with reference to exemplary embodiments, it is to be understood that the disclosure is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (10)

1. The utility model provides a unloader for bull packing scale which characterized in that: comprises a device main body connected between a multi-head packing scale and a packing machine; the device main body comprises a material distributing mechanism (1) connected with the packing scale and a material collecting mechanism (2) connected with the packing machine; the material collecting mechanism comprises a blanking chute (21) connected with the material distributing mechanism.

2. The blanking device for the multi-head packaging scale as claimed in claim 1, wherein: the material distribution mechanism comprises a first material distributor, a second material distributor and a third material distributor which are sequentially connected from top to bottom; the first distributor comprises a first timing bucket (11); the second distributor comprises two second timing buckets (12) positioned at two sides of the first timing bucket; the third material distributor comprises two groups of material distributing components which are respectively connected with the two second timing buckets; the material distributing assembly comprises two third timing buckets (13).

3. The blanking device for multi-head packaging scale of claim 2, wherein: the first timing hopper comprises a first storage bin (a1) for loading the objects to be metered and a first opening and closing component arranged at the lower end of the first storage bin and used for movably closing the first storage bin.

4. The blanking device for the multi-head packaging scale as claimed in claim 3, wherein: the first opening and closing assembly comprises a first movable sliding plate (a2) and a second movable sliding plate (a3) which are rotatably connected with the first storage bin, a first driving device (a4) for driving the first movable sliding plate to swing, and a second driving device (a5) for driving the second movable sliding plate to swing.

5. The blanking device for multi-head packaging scale of claim 2, wherein: the second timing hopper comprises a second storage bin (b1) for bearing the objects to be metered and a second opening and closing component arranged at the lower end of the second storage bin and used for movably closing the second storage bin.

6. The blanking device for the multi-head packaging scale as claimed in claim 5, wherein: the second timing hopper also comprises a first material blocking frame (b11) positioned at the upper end edge of the second storage bin.

7. The blanking device for the multi-head packaging scale as claimed in claim 6, wherein: the first material blocking frame is provided with a first material passing opening facing to the other second timing hopper; the two first material blocking frames are connected to form a first movable channel (b12) for the first opening and closing assembly to move.

8. The blanking device for multi-head packaging scale of claim 2, wherein: the material distributing assembly comprises two third timing buckets which are respectively arranged at two sides of the second timing bucket.

9. The blanking device for the multi-head packaging scale as claimed in claim 8, wherein: the third timing hopper comprises a third storage bin (c1) for loading the objects to be metered and a third opening and closing assembly (c3) arranged at the lower end of the third storage bin and used for movably closing the third storage bin.

10. The blanking device for the multi-head packaging scale as claimed in claim 9, wherein: the third timing hopper also comprises a second material blocking frame (c2) positioned at the upper end edge of the third storage bin; and the four second material blocking frames are connected to form a second movable channel for the second opening and closing assembly to move.

Images