CN216118841U - Point card machine - Google Patents

Abstract

The utility model provides a card counting machine which comprises a base, a feeding assembly, a conveying assembly, a driving part and a clutch assembly, wherein the feeding assembly, the conveying assembly, the driving part and the clutch assembly are arranged on the base; the conveying assembly is used for conveying the cards fed by the feeding assembly; the driving component is used for driving the feeding component and the conveying component to work; the clutch assembly is arranged on the feeding assembly, the clutch assembly has a closed state and an open state, when the clutch assembly is in the closed state, the feeding assembly is connected with the clutch assembly, and the driving part simultaneously drives the feeding assembly and the conveying assembly to work; when the clutch assembly is in a disconnected state, the feeding assembly is separated from the clutch assembly, and the driving part only drives the conveying assembly to work. The card counting machine provided by the utility model has the advantages that the card moving and counting speed is high, and the card running is prevented; the working efficiency is greatly improved; the power is saved, the whole structure of the card dotting machine is compact, the size is small, and the cost is reduced.

Description

Point card machine

Technical Field

The utility model relates to a card counting machine.

Background

The card ordering machine can be used for obtaining the number of cards rapidly, such as subway cards, and subway workers need to use the card ordering machine for counting the number of the recovered cards conveniently. In order to guarantee the accuracy of the preset point card in the current point card machine, a double-motor structure is adopted: the feeding motor ensures that a single card is continuously fed, and the conveying motor ensures that the fed card moves in the channel and counts. When the counting value reaches the preset value, the feeding motor stops rotating, the conveying motor continues to operate, and the cards are guaranteed to move and count. When the card reaches the preset value, the card behind the preset value runs to block the feeding part, so that the machine is easy to damage; for example, a preset value of 10, the 11 th card will follow the infeed unit after the 10 cards have passed through the infeed unit. In addition, the double-motor structure causes that the whole structure is large, the occupied space is large, the moving and counting speed of the card is slow, and the rotating speed is 500 plus 600 pieces/minute.

Disclosure of Invention

The utility model aims to provide a point card machine, which solves the problems that the point card machine needs two motors to drive, so that the card moving and counting speed is low, and the whole structure is large.

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

a card dotting machine comprises a base, a feeding assembly, a conveying assembly, a driving part and a clutch assembly, wherein the feeding assembly is arranged on the base and is used for feeding a card into the conveying assembly; the conveying assembly is used for conveying the cards fed by the feeding assembly; the driving part is used for driving the feeding assembly and the conveying assembly to work;

the clutch assembly is arranged on the feeding assembly, the clutch assembly has a closed state and an open state, when the clutch assembly is in the closed state, the feeding assembly is connected with the clutch assembly, and the driving part simultaneously drives the feeding assembly and the conveying assembly to work; when the clutch assembly is in a disconnected state, the feeding assembly is separated from the clutch assembly, and the driving part only drives the conveying assembly to work.

Preferably, the card counting machine further comprises a controller, the controller is connected with the driving part and the clutch assembly, and the controller is used for counting the cards passing through the feeding assembly and controlling the clutch assembly to be switched between a closed state and an open state according to a counting result.

Preferably, the clutch assembly comprises an iron core component and an electromagnetic clutch component, and when the clutch assembly is in a closed state, the electromagnetic clutch component is electrified to generate magnetic attraction force, so that the iron core component is connected with the feeding assembly in an adsorption manner; when the clutch assembly is in a disconnected state, the electromagnetic clutch component is powered off, so that the iron core component is separated from the feeding assembly.

Preferably, the feeding assembly comprises a feeding roller, a driving wheel and a transmission shaft, the feeding roller is used for conveying the card, and the transmission shaft can rotate around the axis of the transmission shaft; the feeding roller is fixedly sleeved on the transmission shaft, the transmission wheel is movably sleeved on the transmission shaft, and the driving part is in transmission connection with the transmission wheel and can drive the transmission wheel to rotate;

the iron core component is fixedly sleeved on the transmission shaft, when the clutch component is in a closed state, the iron core component is in adsorption connection with the transmission wheel, and the transmission wheel rotates to drive the transmission shaft and the feeding roller to rotate; when the clutch component is in a disconnected state, the iron core component is separated from the transmission wheel.

Preferably, a bearing is arranged between the transmission wheel and the transmission shaft.

Preferably, a support is arranged on the base, and the electromagnetic clutch component is arranged on the support.

Preferably, the conveying assembly comprises a first conveying roller, and the driving component is in transmission connection with a roller shaft of the first conveying roller.

Preferably, the conveying assembly further comprises a second conveying roller, the second conveying roller and the first conveying roller are arranged in parallel, and a transmission belt is sleeved between a roller shaft of the first conveying roller and a roller shaft of the second conveying roller.

Preferably, the feeding assembly comprises a feeding roller, a driving wheel and a transmission shaft, wherein the driving wheel is used for transmitting the card, and the transmission shaft can rotate around the axis of the transmission shaft; the feeding roller is fixedly sleeved on the transmission shaft, the transmission wheel is movably sleeved on the transmission shaft, and a transmission belt is sleeved between the roller shaft of the first conveying roller and the transmission wheel.

Preferably, only one of said drive members is provided.

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

according to the point card machine provided by the utility model, the feeding assembly, the conveying assembly, the driving part and the clutch assembly are arranged, and when the clutch assembly is in a closed state, the driving part simultaneously drives the feeding assembly and the conveying assembly to work; when the clutch assembly is in a disconnected state, the driving component only drives the conveying assembly to work, the response speed is high, and the card is prevented from running along; the card moving and counting speed is high, the rotating speed can reach 800 plus 900 pieces/minute, the working efficiency is greatly improved, and the time is saved; the driving part is arranged, power is saved, the whole structure of the card dotting machine is compact, the size is small, and cost is reduced.

Drawings

Fig. 1 is a front view of a card dotting machine provided by the present invention;

FIG. 2 is a rear view of the card dotting machine provided by the present invention;

fig. 3 is a sectional view of the driving wheel and the iron core component of the point card machine provided by the utility model being separated;

FIG. 4 is a cross-sectional view of the driving wheel and the iron core part of the point card machine provided by the utility model in adsorption connection;

fig. 5 is an exploded view of a clutch assembly provided by the present invention.

In the above drawings: 1-base, 2-clutch component, 21-iron core component, 22-electromagnetic clutch component, 3-feeding roller, 4-driving wheel, 5-transmission shaft, 6-bearing, 7-supporting piece, 8-first conveying roller, 9-second conveying roller, 10-driving belt, 11-tensioning roller, 12-driving component, 13-baffle plate and 14-positioning piece.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. 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.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to the card dotting machine shown in fig. 1 to 5, the card dotting machine includes a base 1, a feeding assembly disposed on the base 1, a conveying assembly, a driving component 12, and a clutch assembly 2, wherein the feeding assembly is used for feeding a card into the conveying assembly; the conveying assembly is used for conveying the cards fed by the feeding assembly; the driving component 12 is used for driving the feeding assembly and the conveying assembly to work.

The clutch assembly 2 is arranged on the feeding assembly, the clutch assembly 2 has a closed state and an open state, when the clutch assembly 2 is in the closed state, the feeding assembly is connected with the clutch assembly 2, and the driving part 12 simultaneously drives the feeding assembly and the conveying assembly to work; when the clutch assembly 2 is in the disconnected state, the feeding assembly is separated from the clutch assembly 2, and the driving part 12 only drives the conveying assembly to work.

The original two motors are driven simultaneously, so that the response time difference exists, the rotating speed is slow, only one driving part 12 is arranged, the response speed is high, the feeding assembly can be stopped quickly, and the card can be prevented from running along; the card moving and counting speed is high, the rotating speed can reach 800 plus 900 pieces/minute, the working efficiency is greatly improved, and the time is saved; the driving part 12 is arranged, power is saved, the whole structure of the card dotting machine is compact, the size is small, and cost is reduced.

The card counting machine further comprises a controller, the controller is connected with the driving part 12 and the clutch assembly 2, the controller is used for counting cards passing through the feeding assembly and controlling the clutch assembly 2 to switch between a closed state and an open state according to a counting result, and specifically, when the feeding assembly sends a card with a preset value to the conveying assembly, the controller controls the clutch assembly 2 to be in the closed state; when the number of the cards entering the conveying assembly reaches a preset value, the controller controls the clutch assembly 2 to be in a disconnected state.

The controller includes display screen and digital operating button, for example when needing 10 cards of main points (the card that gets into conveying assembly is only 10 promptly), set up the preset value of 10 earlier, put into feeding assembly's entry end with a pile of card that is greater than 10 again, start point card machine back, 10 cards are sent into to conveying assembly through feeding assembly, later feeding assembly stop work, conveying assembly continues work and carries out 10 cards, the entry that feeding assembly was stayed to 11 card cards can not be carried to conveying assembly.

The point card machine that this application provided has the tally function, puts into the entry end of feeding subassembly with a stack of cards, starts the point card machine back, and the card quantity through the feeding subassembly shows on the display screen. The controller of the card counting machine has a counting function, and the function belongs to a conventional function.

The clutch assembly 2 is constructed as follows: referring to fig. 5, it includes iron core part 21 and electromagnetic clutch part 22, when the clutch assembly 2 is in the closed state, the electromagnetic clutch part 22 is powered on to generate magnetic attraction, so that the iron core part 21 and the feeding assembly are connected in an adsorption manner; when the clutch assembly 2 is in the off state, the electromagnetic clutch part 22 is powered off, so that the iron core part 21 is separated from the feeding assembly.

Set up the iron core in the iron core part 21, the iron core is embedded to have the coil, and iron core part 21 includes first body and second body, has seted up the through-hole that link up mutually on first body and the second body, and first body and second body all are the cylindricality, and the diameter of first body is greater than the diameter of second body. The electromagnetic clutch component 22 is cylindrical, a space for accommodating the first body of the iron core component 21 and a through hole communicated with the space are arranged in the electromagnetic clutch component 22, when the electromagnetic clutch component is used, the second body of the iron core component 21 extends into the through hole of the electromagnetic clutch component 22, the first body of the iron core component 21 enters the space of the electromagnetic clutch component 22, and the length of the second body is smaller than that of the through hole of the electromagnetic clutch component 22.

The structure of the feeding assembly is as follows: the card feeding device comprises a feeding roller 3, a driving wheel 4 and a transmission shaft 5, wherein the feeding roller 3 is used for transmitting a card, and the transmission shaft 5 can rotate around the axis of the transmission shaft; the feeding roller 3 is fixedly sleeved on the transmission shaft 5, and the transmission shaft 5 rotates to drive the feeding roller 3 to rotate. The transmission wheel 4 is movably sleeved on the transmission shaft 5, namely the transmission wheel 4 is not directly contacted with the transmission shaft 5, a bearing 6 is arranged between the transmission wheel 4 and the transmission shaft 5, and when the transmission shaft 5 is static and does not rotate, the transmission wheel 4 can rotate around the axis of the transmission shaft 5; the drive wheel 4 does not rotate axially along the drive shaft 5 but only radially. The driving part 12 is in transmission connection with the transmission wheel 4 and can drive the transmission wheel 4 to rotate, for example, a transmission belt 10 is arranged between the driving part 12 and the transmission wheel 4, the transmission belt 10 is a belt or a chain, or the driving part 12 is in transmission connection with the transmission wheel 4 through a gear assembly.

The iron core component 21 and the electromagnetic clutch component 22 are fixedly sleeved on the transmission shaft 5 (the through holes on the iron core component 21 and the electromagnetic clutch component 22 are used for penetrating through the transmission shaft 5), when the clutch assembly 2 is in a closed state, the electromagnetic clutch component 22 is electrified to generate magnetic attraction, so that the iron core component 21 is connected with the transmission wheel 4 in an adsorption manner, the transmission wheel 4 rotates to drive the transmission shaft 5 and the feeding roller 3 to rotate, the driving component 12 is in transmission connection with the transmission wheel 4 and can drive the transmission wheel 4 to rotate, when the driving component 12 drives the conveying assembly to work, the transmission shaft 5 and the feeding roller 3 are driven to rotate simultaneously, namely, the feeding assembly and the conveying assembly work, and refer to fig. 4.

When the clutch assembly 2 is in the off state, the electromagnetic clutch component 22 is powered off and does not generate magnetic attraction, the iron core component 21 is separated from the transmission wheel 4, the driving component 12 still drives the transmission wheel 4 to rotate, and the transmission shaft 5 is separated from the transmission wheel 4, so that the transmission shaft 5 and the feeding roller 3 do not rotate, at this time, the driving component 12 only drives the conveying assembly to work, referring to fig. 3, a gap is formed between the iron core component 21 and the transmission wheel 4, which indicates that the gap is large, and in actual work, the gap is small.

The base 1 is provided with a supporting piece 7, the electromagnetic clutch part 22 is provided with a positioning piece 14, and the iron core part 21 and the electromagnetic clutch part 22 can be sleeved on the transmission shaft 5 and cannot be separated from the transmission shaft 5 by connecting the supporting piece 7 with the positioning piece 14. The support member 7 is horizontally arranged, the positioning member 14 is vertically arranged, the support member 7 is detachably connected with the positioning member 14, and after the clutch assembly 2 is arranged on the transmission shaft 5, the support member 7 is connected with the positioning member 14; when the clutch assembly 2 is removed, the support member 7 is separated from the positioning member 14, and the clutch assembly 2 can be separated from the transmission shaft 5. The electromagnetic clutch part 22 is also provided with an electric wire for connecting a power supply.

The structure of the conveying assembly is as follows: it includes first conveying roller 8, and driver part 12 is connected with first conveying roller 8's roller transmission, and driver part 12 is the motor, and the cover is equipped with the drive belt between the output shaft of motor and first conveying roller 8's the roller, and the output shaft of motor rotates and drives first conveying roller 8 and rotate around self axis, and the card that is sent into by the feeding subassembly is carried away through first conveying roller 8.

Conveying assembly still includes second conveying roller 9, second conveying roller 9 and first conveying roller 8 parallel arrangement, and the cover is equipped with the drive belt between the roller of first conveying roller 8, the roller of second conveying roller 9, and the output shaft of motor rotates and drives first conveying roller 8 and rotate, can drive second conveying roller 9 and rotate around self axis, sets up two conveying rollers and makes the card carry more steadily. A tension roller 11 is arranged between the first conveying roller 8 and the second conveying roller 9, and the tension roller 11 is used for tensioning the transmission belt.

In a preferred embodiment, the feeding assembly comprises a feeding roller 3, a driving wheel 4 and a transmission shaft 5, wherein the driving wheel 4 is used for transmitting the card, and the transmission shaft 5 can rotate around the axis of the transmission shaft; the feeding roller 3 is fixedly sleeved on the transmission shaft 5, the transmission wheel 4 is movably sleeved on the transmission shaft 5, the transmission assembly comprises a first transmission roller 8, the driving part 12 is a motor, a transmission belt is sleeved between an output shaft of the motor and a roller shaft of the first transmission roller 8, a transmission belt is sleeved between the roller shaft of the first transmission roller 8 and the transmission wheel 4, the output shaft of the motor rotates to drive the first transmission roller 8 to rotate, the first transmission roller 8 rotates to drive the transmission wheel 4 to rotate, and when the transmission wheel 4 is connected with the iron core part 21 in an adsorption manner, the transmission wheel 4 rotates to drive the transmission shaft 5 and the feeding roller 3 to rotate; when the transmission wheel 4 is separated from the iron core component 21, the transmission wheel 4 rotates and cannot drive the transmission shaft 5 and the feeding roller 3 to rotate.

The card dotting machine further comprises a baffle 13, the baffle 13 is located above the feeding assembly, the feeding assembly and the conveying assembly are located on two sides of the baffle 13, a space for one card to pass through is formed between the baffle 13 and the feeding assembly, and the two cards are prevented from passing through the space at the same time.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. A point card machine is characterized by comprising a base, a feeding assembly, a conveying assembly, a driving component and a clutch assembly, wherein the feeding assembly, the conveying assembly, the driving component and the clutch assembly are arranged on the base,

the feeding assembly is used for feeding the cards into the conveying assembly;

the conveying assembly is used for conveying the cards fed by the feeding assembly;

the driving part is used for driving the feeding assembly and the conveying assembly to work;

the clutch assembly is arranged on the feeding assembly, the clutch assembly has a closed state and an open state, when the clutch assembly is in the closed state, the feeding assembly is connected with the clutch assembly, and the driving part simultaneously drives the feeding assembly and the conveying assembly to work; when the clutch assembly is in a disconnected state, the feeding assembly is separated from the clutch assembly, and the driving part only drives the conveying assembly to work.

2. The card dotting machine according to claim 1, characterized in that the card dotting machine further comprises a controller, the controller is connected with the driving component and the clutch component, and the controller is used for counting the number of the cards passing through the feeding component and controlling the clutch component to switch between the on state and the off state according to the counting result.

3. The card counting machine according to claim 1, wherein the clutch assembly comprises an iron core component and an electromagnetic clutch component, and when the clutch assembly is in a closed state, the electromagnetic clutch component is energized to generate magnetic attraction force, so that the iron core component is connected with the feeding assembly in an adsorption manner; when the clutch assembly is in a disconnected state, the electromagnetic clutch component is powered off, so that the iron core component is separated from the feeding assembly.

4. The card counting machine according to claim 3, wherein the feeding assembly comprises a feeding roller, a driving wheel and a transmission shaft, the feeding roller is used for conveying a card, and the transmission shaft can rotate around the axis of the transmission shaft; the feeding roller is fixedly sleeved on the transmission shaft, the transmission wheel is movably sleeved on the transmission shaft, and the driving part is in transmission connection with the transmission wheel and can drive the transmission wheel to rotate;

the iron core component is fixedly sleeved on the transmission shaft, when the clutch component is in a closed state, the iron core component is in adsorption connection with the transmission wheel, and the transmission wheel rotates to drive the transmission shaft and the feeding roller to rotate; when the clutch component is in a disconnected state, the iron core component is separated from the transmission wheel.

5. The card dotting machine according to claim 4, characterized in that a bearing is arranged between the driving wheel and the transmission shaft.

6. The card dotting machine according to claim 4, characterized in that a support is arranged on the base, and the electromagnetic clutch component is arranged on the support.

7. The card dotting machine according to claim 1, characterized in that said conveying assembly comprises a first conveying roller, and said driving component is in transmission connection with a roller shaft of said first conveying roller.

8. The card dotting machine according to claim 7, wherein the conveying assembly further comprises a second conveying roller, the second conveying roller is arranged in parallel with the first conveying roller, and a driving belt is sleeved between a roller shaft of the first conveying roller and a roller shaft of the second conveying roller.

9. The card counting machine according to claim 7, wherein the feeding assembly comprises a feeding roller, a driving wheel and a transmission shaft, the driving wheel is used for transmitting the card, and the transmission shaft can rotate around the axis of the transmission shaft; the feeding roller is fixedly sleeved on the transmission shaft, the transmission wheel is movably sleeved on the transmission shaft, and a transmission belt is sleeved between the roller shaft of the first conveying roller and the transmission wheel.

10. The card reader according to claim 1, wherein only one driving member is provided.

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