WO2021196534A1 - Automatic adjusting weighing machine - Google Patents

Abstract

An automatic adjusting weighing machine, comprising a rack (1); a storage bin (3), a weighing mechanism (4) and a conveying device are provided at a front end of the rack (1) in sequence from top to bottom; an inverted L-shaped feeding channel is provided at a rear end of the rack (1), and the feeding channel conveys a powder material to the storage bin (3) by means of a feeding device, the feeding device comprises a feeding bin (6), a feeding box (61) is provided on an upper part of the feeding bin (6), a stirring tank (62) is provided below the storage bin (3), and four unloading ports (63) are provided at the end of the stirring tank (62) away from the storage bin (3); a funnel device (64) is provided at each unloading port (63), a measuring cup device is provided at the other end of the funnel device (64), and the measuring cup device comprises a hollow measuring cup body (7) and an opening and closing block (71) provided at the end of the measuring cup body (7) away from the funnel device (64); and the rack (1) is provided with a transverse plate (8) and is further provided with a measuring cup distance adjustment device.

Description

Automatic adjustment type weighing machine Technical field

The invention relates to the field of automatic weighing of brake pad friction materials, in particular to an automatic adjustment type weighing machine.

Background technique

At present, in the field of brake pad processing, the weighing of the friction substrate on the brake pads is generally manually weighed and then molded by pressing. The friction substrate of automobile brake pads is made of powdered raw materials such as fibers, ceramics, and metal powder. It is pressed and manually weighed according to the amount of each piece of friction substrate. However, this method not only makes the friction substrate error larger, but also causes dust in the workshop during weighing, which causes serious pollution in the workshop, which not only affects the workers' mind and body. Health also has a great labor intensity, which greatly affects the production quality control of the friction substrate of the brake pad.

There are also automatic weighing machines for weighing on the market, but due to the brake pad friction base material, several different materials are produced at the same time according to customization, and the automatic weighing machines on the market can only weigh one material at the same time. Different materials require multiple equipment for weighing, resulting in high costs for purchasing weighing equipment, and because the weighing equipment on the market needs to lift the powder into the lower hopper and then weigh it through the unloading, workers are often required to weigh The powder material is lifted up, which not only causes high labor intensity, but also has the possibility of tipping when it is lifted up, which will inevitably cause damage to the operator, not to mention the pollution of the workshop.

Furthermore, since the powder of the brake pad friction material is easily reduced in performance after being squeezed, and the weighing mechanism of the weighing machine on the market is easy to squeeze the powder, it is not suitable for automatic weighing of the brake pad friction material.

For this reason, the applicant has proposed an automatic weighing machine for brake pad friction materials since March 6, 2018. Its authorization announcement number is: CN208217937U, and the authorization announcement date is December 11, 2018. It uses the following technology Solution: Including a rack. The front end of the rack is provided with a storage bin, a weighing mechanism and a conveying device in sequence from top to bottom. A feeding channel is provided at the rear of the rack. The material is connected to the storage bin, and the powder in the storage bin is conveyed to the weighing mechanism through the feeding channel and the feeding device. In the production of small brake pads, the powder required for small brake pads is often less. The material cup is directly replaced with a number of equally spaced brake pad molds. The powder is directly transported into the mold and then the mold is transported into the pressing machine for compression. However, due to the fact that there are many brake pad models in the actual production process, the brake pad molds are also It is necessary to open the molds according to the actual situation. When the brake pad mold is replaced, the feeder and metering hopper positions of the weighing mechanism must be redesigned according to the mold position. This will undoubtedly directly increase the production cost, and each model of brake pads Need to design a set of weighing mechanism or repurchase a suitable weighing machine, versatility is poor.

technical problem

The technical problem to be solved by the present invention is to provide an automatic adjustment type weighing machine in view of the above-mentioned shortcomings of the prior art.

Technical solutions

In order to achieve the above objectives, the present invention provides the following technical solutions: an automatic adjustment type weighing machine includes a frame with a closed cover around the frame, and a storage bin, a weighing mechanism and a conveying device are arranged in sequence from top to bottom at the front of the frame , The rear end of the frame is provided with an inverted L-shaped feeding channel. The feeding channel conveys the powder to the storage bin through the feeding device. The feeding device includes a feeding bin. The mixing tank is provided with at least four discharging openings at one end away from the storage bin. Each discharging opening is provided with a hopper device. The other end of the hopper device is provided with a measuring cup device. The conveying device includes a material tray and The cup mold is arranged on the material tray. The material tray is connected to the frame through relatively set up linear rails and can be reciprocated and slidably arranged laterally along the frame. The feature is that the measuring cup device includes a hollow measuring cup body and The metering cup body is away from the opening and closing block provided at one end of the funnel device. The frame is provided with a horizontal plate. One side of the metering cup body can prompt the metering cup body to move radially along the horizontal plate to reduce the adjacent metering cup body. A device for adjusting the distance between measuring cups or increasing the distance between adjacent measuring cup bodies.

Beneficial effect

With the above technical solution, for small brake pads with a small amount of powder, brake pad molds are generally directly set on the conveyor, and the powder is directly poured into the brake pad molds, but there are still many types of small brake pads with different sizes. In view of this situation, it is necessary to adjust the spacing between the metering cup devices to match the arrangement spacing of the brake pad mold on the conveyor to prevent the powder from falling outside the brake pad mold and cause waste of resources. However, the existing The automatic weighing machine does not have the function of adjusting the distance between the measuring cup devices. It is often adopted to purchase another customized weighing machine to weigh another model, which not only causes an additional increase in production costs and excessive occupation Workshop area, and the utility model adopts a horizontal plate arranged inside the frame, and the horizontal plate is connected to one side of the measuring cup body through a measuring cup spacing adjustment device. The working principle of the utility model is as follows: the powder is placed in the feeding bin The feeding bin rises along the L-shaped feeding channel and then is poured into the storage bin. The powder enters the mixing tank through the storage bin and is stirred and then enters the funnel device through the discharge port, and then leaks into the measuring cup body from the funnel device. The metering cup body is provided with an opening and closing block at one end away from the funnel device. Under the blocking action of the opening and closing block, the powder will be confined in the metering cup body. The metering cup spacing adjustment device adjusts the spacing of each metering cup body before opening. Opening and closing the block, the powder enters the brake pad mold (cup mold). Due to the presence of the opening and closing block, the powder is not synchronously poured into the brake pad mold (cup mold) after the funnel device enters the metering cup body. Instead, the metering cup spacing adjustment device adjusts the spacing of each metering cup body and then pours it into the brake pad mold (cup mold), which not only enables a weighing machine to correctly pour powder for different batches of different types of brake pad molds And the versatility of the weighing machine is greatly improved, the production cost of the brake pad manufacturer is saved, and the floor space of the weighing machine in the workshop is reduced.

The above-mentioned automatic adjustment type weighing machine may be further configured as follows: the measuring cup spacing adjustment device includes a transverse linear track set up opposite to each other along the length of the transverse plate; Spaced movable plates, one end of the movable plate is connected with the metering cup body, and the horizontal plate is provided with a synchronous driving device that can simultaneously drive the movable plate to move along the horizontal linear track.

With the above technical solution, since there are multiple measuring cup bodies, and the spacing between the measuring cup bodies needs to be adjusted synchronously during adjustment, a synchronous driving device needs to be provided to drive each movable plate while driving the measuring cup body to move along the horizontal plate.

The above-mentioned automatic adjustment type weighing machine may be further configured as follows: the synchronous driving device includes a longitudinal linear track provided on both sides of the transverse linear track on a horizontal plate, and a linkage guide plate is arranged between the movable plate and the measuring cup body , The linkage guide plate is connected to the longitudinal linear track through the second sliding block, one side of the linkage guide plate is provided with a guide screw, the screw nut of the guide screw is arranged in linkage with the linkage guide plate, and the horizontal plates are arranged oppositely The other end of the horizontal linear track is provided with a driving motor, the driving motor is provided with a first synchronization wheel, and the guide screw is provided with a second synchronization wheel at a position corresponding to the first synchronization wheel. The synchronous wheels are connected by a synchronous belt, and a guiding structure is arranged between each movable plate and the linkage guide plate.

With the above technical solution, longitudinal linear tracks are provided on both sides of the horizontal linear track, the linkage guide plate is connected through the second sliding block, and the screw nut pair is fixed on the linkage guide plate, and the guide screw is driven by the driving motor to make the screw nut pair Linked with the linkage guide plate, when the drive motor is driven, the first synchronization wheel, the synchronization belt, and the second synchronization wheel drive the guide screw to rotate. Because the guide screw is fixed, the screw nut pair will move up and down along the guide screw, and then The linkage guide plate is driven to move up and down along the longitudinal linear track, so that the movable plates are moved synchronously through the guide structure provided between each movable plate and the linkage guide plate.

The above-mentioned automatic adjustment type weighing machine may be further configured as follows: the guide structure includes at least four guide chutes spaced apart on the linkage guide plate, the movable plate is provided with guide rods, and the guide rods are arranged in the guide chutes. There are guide wheels that can move along the guide chute.

By adopting the above technical solution, the interlocking guide plates are provided with guide chutes distributed at intervals, and each movable plate is provided with a guide rod at the corresponding guide chute position. The groove moves to link the movable plate to move laterally. The inclination angle of the guide chute can be designed according to the actual situation. It is only necessary to ensure that the distance between the movable plates is equal after the guide wheels in each guide chute move horizontally within a unit time.

The above-mentioned automatic adjustment type weighing machine may be further configured as follows: a first fixing block is fixedly installed on the guide linkage plate, a connecting block is provided on the outer casing of the screw nut, and the connecting block is installed on the first fixing block, so The guide linkage plate is provided with a second fixed block at both ends of the guide screw, and both ends of the guide screw are mounted on the second fixed block through a bearing.

By adopting the above technical solution, a first fixed block is arranged in the middle of the guide linkage plate, and a connecting block is provided on the screw nut, which is connected to the connecting block through the first fixed block, so that when the screw nut moves along the screw nut, the linkage guide linkage plate moves up and down. , The two ends of the guide screw rod are fixedly connected by setting the second fixing block on the guide linkage plate to fix the position of the guide screw rod.

The beneficial effects of the invention are: improving the versatility of the weighing machine, saving the production cost and labor cost of the enterprise, and reducing the workshop space occupied by purchasing multiple weighing machines or making multiple sets of brake pad molds (cup molds).

The present invention will be further described in detail below with reference to the drawings and embodiments.

Description of the drawings

FIG. 1 is a schematic diagram of a three-dimensional structure of an embodiment of the present invention.

2 is a schematic diagram 1 of the three-dimensional structure of the embodiment of the present invention with one side closed cover removed.

Fig. 3 is a schematic diagram 2 of the three-dimensional structure of the embodiment of the present invention with one side closed cover removed.

4 is a schematic diagram 3 of the three-dimensional structure of the embodiment of the present invention with one side closed cover removed.

Fig. 5 is a schematic diagram of the connection structure of the horizontal plate, the measuring cup device, and the measuring cup spacing adjusting device according to the embodiment of the present invention.

Fig. 6 is a top view of the connecting structure of the horizontal plate, the measuring cup device, and the measuring cup spacing adjusting device according to the embodiment of the present invention.

The best mode of the present invention

Type here a paragraph describing the best mode of the present invention.

Detailed ways

Refer to Figure 1 to Figure 6: The automatic adjustment type weighing machine includes a frame 2 surrounded by a closed cover 1. The front end of the frame 2 is sequentially provided with a storage bin 3, a weighing mechanism 4, and a conveyor from top to bottom. Device, the back end of the frame is provided with an inverted L-shaped feeding channel. The feeding channel conveys powder to the storage bin 3 through the feeding device. The feeding device includes a feeding bin 6, and the upper part of the feeding bin 6 is provided with a feeding box 61, and the storage bin 3 is provided with an agitating tank 62 below. The end of the agitating tank 62 away from the storage bin 3 is provided with four discharging openings 63 distributed at intervals. Each discharging port 63 is provided with a hopper device 64, and the other end of the hopper device 64 is provided with Measuring cup device. The conveying device includes a material tray 5 and a cup mold 51 arranged on the material tray 5. The material tray 5 is connected to the frame 2 through a relatively set up linear track 52 and can be reciprocated and slid horizontally along the frame 2. The cup device includes a hollow measuring cup body 7 and an opening and closing block 71 arranged at one end of the measuring cup body 7 away from the funnel device 64. A horizontal plate 8 is provided in the frame 2, and one side of the measuring cup body 7 can promote the measuring cup body. 7 A measuring cup spacing adjusting device that moves radially along the horizontal plate 8. The measuring cup spacing adjusting device includes a horizontal linear rail 81 set up opposite to each other along the length of the horizontal plate 8. The horizontal linear rail 81 is connected with four One end of the movable plate 9 is connected with the measuring cup body 7. The horizontal plate 8 is provided with a synchronous driving device that can simultaneously drive the movable plate 9 to move along the horizontal linear track 81. The synchronous driving device includes a horizontal plate 8 The vertical linear rails 83 are arranged on both sides of the horizontal linear rail 81. A linkage guide plate 91 is provided between the movable plate 9 and the measuring cup body 7. The linkage guide plate 91 is connected to the longitudinal linear track 83 through a second sliding block 92. One side of the guide plate 91 is provided with a guide screw 911, the screw nut 912 of the guide screw 911 is arranged in linkage with the linkage guide plate 91, and the other end of the horizontal plate 8 opposite to the horizontal linear rail 81 is provided with a drive motor 84, a drive motor 84 The output shaft is provided with a first synchronization wheel 841, the guide screw 911 is provided with a second synchronization wheel 913 at a position corresponding to the first synchronization wheel 841, and the first synchronization wheel 841 and the second synchronization wheel 913 are connected by a timing belt, A guide structure is provided between each movable plate 9 and the linkage guide plate 91. The guide structure includes four guide chutes 93 spaced apart on the linkage guide plate 91. The movable plate 9 is provided with guide rods 94 and guide rods 94. A guide wheel 95 that can move along the guide chute 93 is provided in the guide chute 93, a first fixing block 96 is fixedly installed on the guide linkage plate 91, a connecting block 914 is provided on the screw nut 912, and the connecting block 914 is installed at The first fixed block 96 and the guide linkage plate 91 are provided with second fixed blocks 97 at both ends of the guide screw rod 911, and both ends of the guide screw rod 911 are mounted on the second fixed block 97 through bearings.

Claims (5)

The automatic adjustment type weighing machine includes a frame with a closed cover around it. The front end of the frame is provided with a storage bin, a weighing mechanism and a conveying device from top to bottom. The back of the frame is provided with an inverted L-shaped feeding channel , The feeding channel conveys the powder material to the storage bin through the feeding device, the feeding device includes a feeding bin, the upper part of the feeding bin is provided with a feeding box, a stirring tank is provided under the storage bin, and the end of the stirring tank away from the storage bin is provided with At least four discharging openings are distributed at intervals. Each discharging opening is provided with a hopper device. The other end of the hopper device is provided with a measuring cup device. The conveying device includes a material tray and a cup mold arranged on the material tray. The established linear track is connected to the frame and can be reciprocated and slidably arranged horizontally along the frame. The feature is that the measuring cup device includes a hollow measuring cup body and an opening and closing block arranged at one end of the measuring cup body away from the funnel device, The frame is provided with a horizontal plate, and one side of the measuring cup body can cause the measuring cup body to move radially along the horizontal plate, thereby reducing the distance between adjacent measuring cup bodies or increasing the distance between adjacent measuring cup bodies. Spacing adjustment device for measuring cups. The automatic adjustment type weighing machine according to claim 1, characterized in that: the measuring cup spacing adjustment device comprises a horizontal linear track set up opposite to each other along the length direction of the horizontal plate, and the first sliding block passes on the horizontal linear track. At least four movable plates distributed at intervals are connected, one end of the movable plate is connected with the measuring cup body, and the horizontal plate is provided with a synchronous driving device that can simultaneously drive the movable plate to move along the horizontal linear track. The automatic adjustment type weighing machine according to claim 2, characterized in that: the synchronous drive device includes a longitudinal linear track arranged on both sides of the transverse linear track on a horizontal plate, and the movable plate is between the measuring cup body A linkage guide plate is provided, the linkage guide plate is connected to the longitudinal linear track through a second sliding block, a guide screw is provided on one side of the linkage guide plate, and the screw nut of the guide screw is arranged in linkage with the linkage guide plate, so The other end of the horizontal plate opposite to the horizontal linear track is provided with a drive motor, the drive motor is provided with a first synchronization wheel, and the guide screw is provided with a second synchronization wheel at a position corresponding to the first synchronization wheel. The synchronous wheel and the second synchronous wheel are connected by a synchronous belt, and a guiding structure is arranged between each movable plate and the linkage guide plate. The automatic adjustment type weighing machine according to claim 3, characterized in that: the guide structure includes at least four guide chutes spaced apart on the linkage guide plate, the movable plate is provided with guide rods, and the guide rods are arranged on the movable plate. The guide chute is provided with a guide wheel that can move along the guide chute. The automatic adjustment type weighing machine according to claim 4, characterized in that: a first fixing block is fixedly installed on the guide linkage plate, a connecting block is provided outside the screw nut, and the connecting block is installed on the first fixing block. A fixed block, the guide linkage plate is provided with a second fixed block at both ends of the guide screw, and both ends of the guide screw are mounted on the second fixed block through a bearing.