CN218996082U - Multi-station coin scattered lifting device - Google Patents

Abstract

The utility model relates to a multi-station coin scattered lifting device which comprises a coin storage hopper, a lifting mechanism, a transverse conveying belt and a transmission control mechanism, wherein the coin storage hopper is used for storing coins; the lifting mechanism comprises a lifting channel and a lifting assembly, the lifting channel is provided with a coin inlet and a coin outlet, the coin inlet corresponds to the coin storage hopper inlet, and the lifting assembly is used for lifting coins in the coin inlet to the coin outlet; the transverse conveyor belt extends along the horizontal direction and is used for receiving coins falling from the upper part and conveying the coins to any one end of the transverse conveyor belt; the transmission control mechanism is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate positively or reversely. According to the multi-station scattered coin lifting device provided by the utility model, one scattered coin lifting mechanism can simultaneously convey coins to a plurality of coin packaging machines, the number of the scattered coin lifting mechanisms is reduced, the cost is low, and the occupied area is small.

Description

Multi-station coin scattered lifting device

Technical Field

The utility model relates to a multi-station coin scattered lifting device.

Background

The coin elevator is used for conveying coins from a lower position to a higher position, so that the working strength of operators is reduced. The coin-dispensing elevator is composed of three parts, namely a coin storage hopper 9', a vertical conveying belt 2' and a transmission control mechanism 13', and is shown in fig. 5 and 6. In the normal use process, a coin scattering elevator is matched with a coin packaging machine (or a coin sorting machine). When a plurality of coin wrapping machines (coin sorting machines) are used at the same time, a plurality of coin lifting machines are correspondingly provided according to a common use mode, namely the number of the coin wrapping machines is equal to the number of the coin lifting machines. The disadvantages of this arrangement are: high cost and large occupied area.

Disclosure of Invention

The utility model aims to provide an improved multi-station coin scattered lifting device.

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

a multi-station coin dispensing lifting device, comprising:

the coin storage hopper is used for storing coins;

the lifting mechanism comprises a lifting channel and a lifting assembly, the lifting channel is provided with a coin inlet and a coin outlet, the coin inlet corresponds to the coin storage hopper inlet, and the lifting assembly is used for lifting coins in the coin inlet to the coin outlet;

the transverse conveying belt extends along the horizontal direction and is used for receiving coins falling from the upper part and conveying the coins to any one end of the transverse conveying belt;

and the transmission control mechanism is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate positively or reversely.

Preferably, the transverse conveying belt is positioned below the coin outlet of the lifting channel, and a packaging machine or a sorter is respectively arranged below two ends of the transverse conveying belt.

Preferably, the transverse conveyor belt comprises a first transverse conveyor belt, a second transverse conveyor belt and a third transverse conveyor belt, wherein the first transverse conveyor belt is positioned below the coin outlet of the lifting channel, and the second transverse conveyor belt and the third transverse conveyor belt are respectively positioned below two ends of the first transverse conveyor belt.

Preferably, the second transverse conveyor belt and the third transverse conveyor belt are positioned on the same horizontal plane.

Preferably, the device further comprises a first bracket, a second bracket and a third bracket, wherein the first transverse conveying belt is arranged on the first bracket, the second transverse conveying belt is arranged on the second bracket, the third transverse conveying belt is arranged on the third bracket, and the first bracket, the second bracket and the third bracket are mutually independent.

Preferably, the transverse conveyor belt comprises a first transverse conveyor belt, a second transverse conveyor belt and a third transverse conveyor belt, wherein the first transverse conveyor belt is positioned below the coin outlet of the lifting channel, the second transverse conveyor belt is positioned below the first transverse conveyor belt, and the third transverse conveyor belt is positioned below the second transverse conveyor belt.

Preferably, the second transverse conveyor belt is located below one end of the first transverse conveyor belt, and the third transverse conveyor belt is located below one end of the second transverse conveyor belt away from the first transverse conveyor belt.

Preferably, the device further comprises a first bracket, a second bracket and a third bracket, wherein the first transverse conveying belt is arranged on the first bracket, the second transverse conveying belt is arranged on the second bracket, the third transverse conveying belt is arranged on the third bracket, and the first bracket, the second bracket and the third bracket are mutually independent.

Preferably, two ends of the transverse conveyor belt are respectively provided with a detection probe, and the detection probes are used for detecting coins on the packaging machine below the transverse conveyor belt.

Preferably, the transmission control mechanism comprises a driving piece and a controller, wherein the driving piece is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate, and the controller is connected with the driving piece.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

according to the multi-station scattered coin lifting device provided by the utility model, one scattered coin lifting mechanism can simultaneously convey coins to a plurality of coin packaging machines, the number of the scattered coin lifting mechanisms is reduced, the cost is low, and the occupied area is small.

Drawings

FIG. 1 is a view of a first view of a multi-station coin dispensing elevator apparatus of embodiment 1;

FIG. 2 is a view showing a structure of a second view angle of the multi-station coin loose coin lifting device of embodiment 1;

FIG. 3 is a block diagram of a multi-station coin dispensing elevator apparatus of embodiment 2;

FIG. 4 is a block diagram of a multi-station coin dispensing lifting device of example 3;

FIG. 5 is a block diagram of a conventional coin lifting device;

fig. 6 is a block diagram of a conventional coin lifting device and a conventional packing machine.

In the above figures: 1-lifting channel, 11-coin outlet, 2-longitudinal conveyor belt, 3-transverse conveyor belt, 4-first transverse conveyor belt, 5-second transverse conveyor belt, 6-third transverse conveyor belt, 7-support frame, 8-detection probe, 9-coin storage hopper, 10-packing machine, 12-driving piece, 13-lifting driving part, 14-first bracket, 15-second bracket and 16-third bracket.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to the multi-station coin loose coin lifting device shown in fig. 1 to 4, the device comprises a coin storage hopper, a lifting mechanism, a transverse conveying belt and a transmission control mechanism, and specifically:

the hopper 9 has a space for storing coins, and the hopper 9 is located at the conveyance start end of the lifting mechanism.

The lifting mechanism comprises a lifting channel 1 and a lifting assembly, wherein the lifting channel 1 is provided with a coin inlet and a coin outlet 11, the coin inlet corresponds to the inlet of the coin storage hopper 9, and the lifting assembly is used for lifting coins in the coin storage hopper 9 to the coin outlet 11.

The lifting assembly has a variety of structural forms, one: the lifting assembly comprises a longitudinal conveying belt 2 and a lifting driving part 13, wherein the longitudinal conveying belt 2 is arranged in the lifting channel 1, the lifting driving part 13 is connected with the longitudinal conveying belt 2 and used for lifting coins in the coin hopper 9 to a coin outlet 11 of the lifting channel 1, a coin lifting baffle plate can be arranged on the longitudinal conveying belt 2, the lower end of the longitudinal conveying belt 2 corresponds to a coin hopper 9 inlet, and in the rotation process of the longitudinal conveying belt 2, the coins in the coin hopper 9 enter the coin lifting baffle plate and are transferred to the coin outlet 11. The lifting assembly structure is not limited to the structure shown in fig. 1-2, and other structures for lifting coins in the coin hopper 9 to the coin outlet 11 are applicable to the present application.

In this example, the longitudinal conveyor belt 2 extends in the vertical direction, the lifting channel 1 extends in the vertical direction, or the longitudinal conveyor belt 2 is obliquely arranged (forms an acute angle with the horizontal plane), so that the lifting channel 1 is obliquely arranged, and the oblique direction and the angle are consistent.

The transverse conveyor belt extends in a horizontal direction for receiving coins falling from above and conveying them to either end thereof.

The transmission control mechanism is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate forward or reversely, and coins are conveyed to one end of the transverse conveying belt when the transverse conveying belt rotates forward; when the transverse conveying belt rotates reversely, coins are conveyed to the other end of the transverse conveying belt, and a packing machine or a sorting machine is arranged under the other end of the transverse conveying belt according to forward rotation or reverse rotation.

The transmission control mechanism comprises a driving piece 12 and a controller, wherein the driving piece 12 is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate, the controller is connected with the driving piece 12 and used for controlling the driving piece 12 to drive the transverse conveying belt to rotate positively or reversely, and the driving piece 12 can be a driving motor.

There are various arrangements regarding the arrangement of the lateral conveyors, and the following will exemplify the difference in the number of the lateral conveyors.

Example 1

Referring to fig. 1 and 2, the transverse conveyor belt 3 is disposed one, and the transverse conveyor belt 3 is located below the coin outlet 11 of the lifting channel 1, and the transverse conveyor belt 3 is configured to receive coins falling from the coin outlet 11 of the lifting channel 1 and convey the coins to either end thereof, in this example, the upper part refers to the coin outlet 11 of the lifting channel 1. The packagine machine or the sorter is provided with respectively to the below at the both ends of horizontal conveyer belt 3, and the benefit of setting like this is: one coin scattering elevator is matched with two coin packaging machines (or two coin sorting machines) for use, so that the number of the packaging machines or the sorting machines is reduced.

The lifting assembly comprises a longitudinal conveying belt 2 and a lifting driving part 13, the longitudinal conveying belt 2 is arranged in the lifting channel 1, the longitudinal conveying belt 2 lifts and conveys coins onto the transverse conveying belt 3, the transverse conveying belt 3 can move in two directions, the forward direction (indicated by the direction a in fig. 1) can convey coins into the end A, and the reverse direction (indicated by the direction B in fig. 1) can convey coins into the end B. A coin packer (or coin sorter) is respectively arranged below the end A and the end B, so that double-station coin conveying is finished.

In this example, a supporting frame 7 is provided, the lifting channel 1 is arranged on the supporting frame 7, and the transverse conveyor belt 3 is also arranged on the supporting frame 7. The two ends of the transverse conveyor belt 3 are respectively provided with a detection probe 8, the detection probes 8 face downwards the packaging machine 10, the detection probes 8 are used for detecting coins on the packaging machine 10 below the transverse conveyor belt 3, and if no coins exist, the lifting mechanism stops working.

Example 2

The transverse conveying belts comprise a first transverse conveying belt 4, a second transverse conveying belt 5 and a third transverse conveying belt 6, the first transverse conveying belt 4 is located below the coin outlet 11 of the lifting channel 1, and the second transverse conveying belt 5 and the third transverse conveying belt 6 are respectively located below two ends of the first transverse conveying belt 4. The packer 10 or the sorter is respectively arranged below the two ends of the second transverse conveyor belt 5, and the packer 10 or the sorter is respectively arranged below the two ends of the third transverse conveyor belt 6. The first transverse conveyor belt 4 is used for receiving coins falling from the coin outlet 11 of the lifting channel 1 and conveying the coins to any one end of the coin outlet, and when the coins are conveyed to one end of the first transverse conveyor belt 4, the coins fall to the second transverse conveyor belt 5; when conveyed toward the other end of the first lateral conveyor belt 4, coins drop down to the third lateral conveyor belt 6.

The advantages of this arrangement are: one coin scattering elevator is matched with four coin packagers (or four coin sorting machines) for use, so that the number of the packagers or the sorting machines is reduced.

In this example, the second and third lateral conveyors 5, 6 are positioned on the same horizontal plane, and a gap is maintained between the second and third lateral conveyors 5, 6.

The device also comprises a first bracket 14, a second bracket 15 and a third bracket 16, wherein the first transverse conveyor belt 4 and the lifting mechanism are arranged on the first bracket 14, the second transverse conveyor belt 5 is arranged on the second bracket 15, the third transverse conveyor belt 6 is arranged on the third bracket 16, and the first bracket 14, the second bracket 15 and the third bracket 16 are mutually independent.

The two ends of the second transverse conveyor belt 5 are respectively provided with a detection probe 8, the detection probes 8 face downwards the packaging machine 10, and the detection probes 8 are used for detecting coins on the packaging machine 10 located below the second transverse conveyor belt 5. The third transverse conveyor belt 6 is provided with a detection probe 8 at each end thereof, the detection probe 8 being directed downwards towards the packaging machine 10, the detection probe 8 being arranged to detect coins on the packaging machine 10 located below the third transverse conveyor belt 6.

Example 3

The transverse conveyor belts comprise a first transverse conveyor belt 4, a second transverse conveyor belt 5 and a third transverse conveyor belt 6, wherein the first transverse conveyor belt 4 is positioned below the coin outlet 11 of the lifting channel 1, the second transverse conveyor belt 5 is positioned below the first transverse conveyor belt 4, and the third transverse conveyor belt 6 is positioned below the second transverse conveyor belt 5. The first transverse conveyor belt 4 is used for receiving coins falling from the coin outlet 11 of the lifting channel 1 and conveying the coins to one end of the coin, the coins fall to the second transverse conveyor belt 5, the second transverse conveyor belt 5 conveys the coins on the second transverse conveyor belt to one end of the coin far away from the first transverse conveyor belt 4, and the coins fall to the third transverse conveyor belt 6.

The first transverse conveyor belt 4, the second transverse conveyor belt 5 and the third transverse conveyor belt 6 are distributed like steps on the same side, specifically, the second transverse conveyor belt 5 is located below one end of the first transverse conveyor belt 4, and the third transverse conveyor belt 6 is located below one end of the second transverse conveyor belt 5 away from the first transverse conveyor belt 4.

The device also comprises a first bracket 14, a second bracket 15 and a third bracket 16, wherein the first transverse conveyor belt 4 and the lifting mechanism are arranged on the first bracket 14, the second transverse conveyor belt 5 is arranged on the second bracket 15, the third transverse conveyor belt 6 is arranged on the third bracket 16, and the first bracket 14, the second bracket 15 and the third bracket 16 are mutually independent.

Example 4

The transverse conveying belt comprises a first transverse conveying belt and a second transverse conveying belt, the first transverse conveying belt is located below the coin outlet of the lifting channel, the second transverse conveying belt is located below one end of the first transverse conveying belt, a packing machine is arranged below the other end of the first transverse conveying belt, packing machines are respectively arranged below two ends of the second transverse conveying belt, and three packing machines can be arranged.

The first transverse conveying belt is used for receiving coins falling from the coin outlet of the lifting channel and conveying the coins to any one end of the coin outlet of the lifting channel, and when the coins are conveyed to one end of the first transverse conveying belt, the coins fall to the second transverse conveying belt; when the coins are conveyed to the other end of the first transverse conveying belt, the coins fall to a packing machine or a sorting machine below the first transverse conveying belt.

According to the embodiment, the number of the transverse conveying belts is smaller than the total number of the packing machines or the sorting machines, one coin scattering lifting mechanism can simultaneously convey coins to a plurality of coin packing machines (coin sorting machines), and the total number of the packing machines or the sorting machines can be increased under the condition that one lifting mechanism is arranged.

Obviously, the utility model is not limited to arranging one, two and three transverse conveyor belts, and four, five, six and more than six transverse conveyor belts can be arranged. Under the condition that one lifting mechanism is arranged, the number of the transverse conveying belts is N, and the number of the packing machines is N+1.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (10)

1. A multistation coin loose coin hoisting device, characterized by, include:

the coin storage hopper is used for storing coins;

the lifting mechanism comprises a lifting channel and a lifting assembly, the lifting channel is provided with a coin inlet and a coin outlet, the coin inlet corresponds to the coin storage hopper inlet, and the lifting assembly is used for lifting coins in the coin inlet to the coin outlet;

the transverse conveying belt extends along the horizontal direction and is used for receiving coins falling from the upper part and conveying the coins to any one end of the transverse conveying belt;

and the transmission control mechanism is connected with the transverse conveying belt and used for driving the transverse conveying belt to rotate positively or reversely.

2. The multi-station coin-dispensing and lifting device according to claim 1, wherein the transverse conveying belt is positioned below the coin outlet of the lifting channel, and a packing machine or a sorting machine is respectively arranged below two ends of the transverse conveying belt.

3. The multi-station coin dispensing and lifting device of claim 1, wherein the transverse conveyor belt comprises a first transverse conveyor belt, a second transverse conveyor belt and a third transverse conveyor belt, the first transverse conveyor belt is positioned below the coin outlet of the lifting channel, and the second transverse conveyor belt and the third transverse conveyor belt are respectively positioned below two ends of the first transverse conveyor belt.

4. A multi-station coin dispensing elevator apparatus as claimed in claim 3 wherein said second transverse conveyor is co-located with said third transverse conveyor.

5. A multi-station coin dispensing elevator as claimed in claim 3, further comprising a first support, a second support, and a third support, wherein the first transverse conveyor belt is disposed on the first support, the second transverse conveyor belt is disposed on the second support, the third transverse conveyor belt is disposed on the third support, and the first support, the second support, and the third support are independent of each other.

6. The multi-station coin dispensing and lifting device of claim 1, wherein said transverse conveyor comprises a first transverse conveyor, a second transverse conveyor and a third transverse conveyor, said first transverse conveyor is positioned below said coin outlet of said lifting channel, said second transverse conveyor is positioned below said first transverse conveyor, and said third transverse conveyor is positioned below said second transverse conveyor.

7. The multi-station coin dispensing elevator apparatus of claim 6 wherein said second transverse conveyor is positioned below one end of said first transverse conveyor and said third transverse conveyor is positioned below one end of said second transverse conveyor remote from said first transverse conveyor.

8. The multi-station coin dispensing and lifting device of claim 6 further comprising a first support, a second support, and a third support, wherein the first transverse conveyor belt is disposed on the first support, the second transverse conveyor belt is disposed on the second support, the third transverse conveyor belt is disposed on the third support, and the first support, the second support, and the third support are independent of each other.

9. The multi-station coin-dispensing and lifting device according to claim 1, wherein the two ends of the transverse conveyor belt are respectively provided with a detection probe, and the detection probes are used for detecting coins on the packaging machine below the transverse conveyor belt.

10. The multi-station coin dispensing elevator of claim 1, wherein said drive control mechanism includes a drive member and a controller, said drive member being coupled to said transverse conveyor for driving said transverse conveyor in rotation, said controller being coupled to said drive member.

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