Electric label stripping cassette with horizontal sensor

By designing an electric label peeling box with a horizontal sensor, the automatic separation of the label from the backing paper is achieved by using the sensor to control the motor. This solves the problems of high price, large size and low efficiency of existing electric label peeling machines, and provides a low-cost and high-efficiency label peeling solution.

CN224324919UActive Publication Date: 2026-06-05SHENZHEN YUANYE INNOVATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN YUANYE INNOVATION TECH CO LTD
Filing Date
2025-08-07
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing electric label peeling machines are expensive, bulky, and lack security, and their label peeling efficiency and production efficiency need to be improved.

Method used

Design an electric label peeler with a horizontal sensor, comprising a paper box, a lid, a pressure plate, and a sensor assembly. The sensor detects the label paper output and controls the motor to achieve automatic separation of the label from the backing paper. Combined with a backing paper recycling device and a paper observation port, the structure is simple and easy to install and disassemble.

Benefits of technology

It achieves low-cost, high-efficiency label peeling, occupies little space, is easy to use in fast food restaurants, has a label content masking protection function, and can observe the remaining amount of paper.

✦ Generated by Eureka AI based on patent content.

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Abstract

An electric label stripping box with horizontal sensor, which is composed of a paper loading box, a box cover, a paper pressing board and a sensor assembly. The paper loading box is used for placing label paper. The back of the paper loading box is a paper feeding baffle, which is used for limiting the movement range of the paper. The box cover is provided with a main plate box, a motor and a bottom paper recycling device. The top of the box cover is provided with a paper outlet on one side, which is used for extending the label paper. The box cover is provided with a crossbeam perpendicular to the cover surface, and the crossbeam is provided with an opening in the middle, which is used for placing a small protruding block of the paper pressing board. The box cover is provided with track grooves on the left and right sides, which are used for placing the paper pressing board. The paper pressing board is provided with a small protruding block in the middle, which is used for interacting with the crossbeam to press the paper. The label paper enters from the paper inlet, passes around the crossbeam, and then passes through the gap between the crossbeam and the paper pressing board in the middle to be connected with the bottom paper recycling device. The sensor assembly is used for detecting the label paper outlet. The box cover can also be composed of a split box cover assembly A and a box cover assembly B.
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Description

Technical Field

[0001] This utility model relates to label peeling, especially fast food sealing sticker peeling, and is an electric label peeling box with a horizontal sensor. Background Technology

[0002] Existing electric label peelers are generally expensive, which hinders the use and promotion of fast food sealing tape. The market needs electric label peelers that are simple to use, economical, and have higher production efficiency. Utility Model Content

[0003] The purpose of this invention is to provide an electric label peeler with a horizontal sensor, which solves the problems of high price, large size, and lack of security of existing electric label peelers, while more effectively improving the label peeling efficiency and production efficiency of the label peeler. This objective is achieved through the following technical solution.

[0004] Firstly, the implementation scheme of this utility model:

[0005] An electric label peeler with a horizontal sensor comprises a paper tray, a lid, a pressure plate, and a sensor assembly. The paper tray holds the label paper; a paper feed baffle on the back of the paper tray limits the paper's movement; the lid has a main board housing, a motor, and a bottom paper recycling device; the main board housing houses the circuit board, and the bottom paper recycling device pulls the label paper and recycles the bottom paper; a paper outlet on one side of the top of the lid allows the label paper to extend; the lid has a crossbeam perpendicular to its surface, with an opening in the center for inserting a protruding piece from the pressure plate; the lid has grooved tracks on both sides for inserting the pressure plate; the pressure plate has a protruding piece in the center that interacts with the crossbeam to press the paper firmly; the sensor... The component is used to detect label paper output. The label paper enters from the paper inlet, passes around the crossbeam, and then passes downward through the gap between the crossbeam and the pressure plate, connecting with the backing paper recycling device. After assembly, the paper extending above the sensor component's sensing head is pushed downward into the paper tray, ensuring that there is no obstruction in front of the sensor component's sensing head. After power is applied, the sensor component senses that there is no obstruction in front and sends a signal to rotate the motor. The label and backing paper will separate partially after the motor rotates. After the sensor component senses the extended label paper, the motor stops rotating. After the label is torn off the backing paper, the sensor component senses that there is no obstruction in front and sends a signal to rotate the motor again. The label and backing paper will separate partially again after the motor rotates.

[0006] Secondly, the assembly solution for the box lid of this utility model is as follows:

[0007] An electric label peeler with a horizontal sensor comprises a paper tray, a lid assembly A, a lid assembly B, a pressure plate, and a sensor assembly. The paper tray holds the label paper; the back of the paper tray has a paper feed baffle to limit the paper's movement range; lid assembly B includes a main board box, a motor, and a bottom paper recycling device. The main board box holds the circuit board, and the bottom paper recycling device pulls the label paper and recycles the bottom paper; lid assembly A and lid assembly B are glued together to form the lid; the top of the lid has a paper outlet for the label paper to extend; the lid has a crossbeam perpendicular to the lid surface, with an opening in the middle for inserting a small protrusion of the pressure plate; the left and right sides of the lid have track grooves for inserting the pressure plate; the pressure plate has a small protrusion in the middle for... The label interacts with the crossbeam to press the paper; the sensor assembly detects the label output; the label paper enters from the paper inlet, passes around the crossbeam, and then passes downward through the gap between the crossbeam and the pressure plate to connect with the backing paper recycling device; after assembly, the paper extending above the sensor assembly's sensing head is pushed downward into the paper tray, ensuring that there is no obstruction in front of the sensor assembly's sensing head; after power is applied, the sensor assembly senses no obstruction in front and sends a signal to rotate the motor, causing the label and backing paper to separate partially after the motor rotates; after the sensor assembly senses the extended label paper, the motor stops rotating; after the label is torn off the backing paper, the sensor assembly senses no obstruction in front and sends a signal to rotate the motor again, causing the label and backing paper to separate partially again after the motor rotates.

[0008] Thirdly, based on the first and second aspects, the present invention also has the following improvements:

[0009] The electric label peeler with a horizontal sensor has a label paper spindle for fixing the label paper core.

[0010] The electric label peeler with horizontal sensor has a wall-mounting groove on the back, which can be used with a wall hook to hang it on the wall.

[0011] The electric label peeler with horizontal sensor has a waste paper box for storing waste paper.

[0012] The electric label peeling box with a horizontal sensor has a paper observation port for observing the amount of paper remaining.

[0013] The bottom paper recycling device of the electric label peeling box with horizontal sensor consists of a motor gearbox and a rotating rod.

[0014] The bottom paper recycling device of the electric label peeling box with horizontal sensor consists of a motor gearbox, a rotating rod, and a synchronous belt.

[0015] The rotating rod of the bottom paper recycling device of the electric label peeler with horizontal sensor has a straight cut.

[0016] The rotating rod of the bottom paper recycling device of the electric label peeler with horizontal sensor has a cross-shaped cut.

[0017] This utility model has a reasonable structural design and is easy to use. Compared with the prior art, the solution of this utility model can achieve the following beneficial effects:

[0018] 1. Simple structure, low manufacturing cost, and easy to promote and use;

[0019] 2. Easy to install and disassemble, takes up little space, and is convenient to place in fast food restaurants;

[0020] 3. Automatic paper feeding saves effort and improves efficiency;

[0021] 4. The peel-off box can mask and protect the label content, which is beneficial for scenarios such as one code per meal;

[0022] 5. The front-mounted waste paper box can hold discarded labels;

[0023] 6. It has a paper viewing window, which can be used to observe the amount of paper remaining. Attached Figure Description

[0024] Figure 1 The following is a structural diagram of the label roll of this utility model:

[0025] 1 is for packaging cardboard boxes;

[0026] 2 is the box lid;

[0027] 3 is the pressure plate;

[0028] 4 represents the sensor assembly.

[0029] Figure 2 The following is a structural diagram of the present invention without a paper roll spool:

[0030] 1 is for packaging cardboard boxes;

[0031] 101 is the paper feed baffle;

[0032] 2 is the box lid;

[0033] 201 is the label output port;

[0034] 202 is a crossbeam;

[0035] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0036] 204 is a track groove used to insert the pressure plate;

[0037] 205 is the tear line;

[0038] 206 is an electric motor;

[0039] 3 is the pressure plate;

[0040] 301 is a small protruding piece for pressing the cardboard;

[0041] 4 represents the sensor assembly.

[0042] Figure 3 The following is a structural diagram of the present invention with a paper roll spool:

[0043] 1 is for packaging cardboard boxes;

[0044] 101 is the paper feed baffle;

[0045] 102 is the paper roll spindle guide rail;

[0046] 2 is the box lid;

[0047] 201 is the label output port;

[0048] 202 is a crossbeam;

[0049] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0050] 204 is a track groove used to insert the pressure plate;

[0051] 205 is the tear line;

[0052] 3 is the pressure plate;

[0053] 301 is a small protruding piece for pressing the cardboard;

[0054] 4 represents the sensor assembly;

[0055] 5 is the paper roll spindle.

[0056] Figure 4 The following is a structural diagram of the present invention without a paper roll swivel (the lid consists of lid assembly A and lid assembly B):

[0057] 1 is for packaging cardboard boxes;

[0058] 101 is the paper feed baffle;

[0059] 2 is the lid assembly A;

[0060] 201 is the label output port;

[0061] 202 is a crossbeam;

[0062] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0063] 204 is a track groove used to insert the pressure plate;

[0064] 205 is the tear line;

[0065] 3 is the pressure plate;

[0066] 301 is a small protruding piece for pressing the cardboard;

[0067] 4 represents the sensor assembly;

[0068] 5 represents box cover assembly B;

[0069] 501 is a motor.

[0070] Figure 5 This invention features a paper roll swivel (the lid consists of lid assembly A and lid assembly B).

[0071] 1 is for packaging cardboard boxes;

[0072] 101 is the paper feed baffle;

[0073] 102 is the paper roll spindle guide rail;

[0074] 2 is the lid assembly A;

[0075] 201 is the label output port;

[0076] 202 is a crossbeam;

[0077] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0078] 204 is a track groove used to insert the pressure plate;

[0079] 205 is the tear line;

[0080] 3 is the pressure plate;

[0081] 301 is a small protruding piece for pressing the cardboard;

[0082] 4 represents the sensor assembly;

[0083] 5 represents box cover assembly B;

[0084] 6 is the paper roll spindle.

[0085] Figure 6 The following is a structural diagram of the present invention, showing the paper viewing port (without the paper roll shaft):

[0086] 1 is for packaging cardboard boxes;

[0087] 101 is the paper viewing port;

[0088] 2 is the box lid;

[0089] 3 is the pressure plate;

[0090] 4 represents the sensor assembly.

[0091] Figure 7 The following is a structural diagram of the present invention, showing the paper viewing port (with a paper roll shaft):

[0092] 1 is for packaging cardboard boxes;

[0093] 101 is the paper viewing port;

[0094] 2 is the box lid;

[0095] 3 is the pressure plate;

[0096] 4 represents the sensor assembly;

[0097] 5 is the paper roll spindle.

[0098] Figure 8 The following is a structural diagram of the present invention with a waste paper box:

[0099] 1 is for packaging cardboard boxes;

[0100] 101 is the paper feed baffle;

[0101] 102 is the paper roll spindle guide rail;

[0102] 103 is a waste paper box;

[0103] 2 is the lid assembly A;

[0104] 201 is the label output port;

[0105] 202 is a crossbeam;

[0106] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0107] 204 is a track groove used to insert the pressure plate;

[0108] 205 is the tear line;

[0109] 3 is the pressure plate;

[0110] 301 is a small protruding piece for pressing the cardboard;

[0111] 4 represents the sensor assembly;

[0112] 5 represents box cover assembly B;

[0113] 6 is the paper roll spindle.

[0114] Figure 9 The following is a structural diagram of the present invention with a wall-mounting hole:

[0115] 1 is for packaging cardboard boxes;

[0116] 101 is the paper feed baffle;

[0117] 102 is the wall mounting hole;

[0118] 2 is the lid assembly A;

[0119] 201 is the label output port;

[0120] 202 is a crossbeam;

[0121] 203 is a hole in the middle of the crossbeam for inserting the small protruding piece of the pressure plate;

[0122] 204 is a track groove used to insert the pressure plate;

[0123] 205 is the tear line;

[0124] 3 is the pressure plate;

[0125] 301 is a small protruding piece for pressing the cardboard;

[0126] 4 represents the sensor assembly;

[0127] 401 is the sensor assembly mounting slot, used for assembly with the pressure plate;

[0128] 402 is the sensor assembly connection cable, used to connect to the motherboard box;

[0129] 5 represents box cover assembly B;

[0130] 501 is a motor;

[0131] 502 is the rotating rod of the bottom paper recycling device;

[0132] 6 is the paper roll spindle.

[0133] Figure 10 This invention provides a structural diagram of a motherboard box, motor, and bottom paper recycling device:

[0134] 1 is the box lid;

[0135] 101 is the motherboard enclosure;

[0136] 102 is the motor mount;

[0137] 103 is the motor;

[0138] 104 is a bottom paper recycling device;

[0139] 105 is the cable slot for the sensor assembly.

[0140] Figure 11 This invention provides a structural diagram of a motherboard box, a motor, and a bottom paper recycling device with a motor reduction gearbox.

[0141] 1 is the box lid;

[0142] 101 is the motherboard enclosure;

[0143] 102 is the motor mount;

[0144] 103 is the motor;

[0145] The bottom paper recycling device consists of a 104 motor reduction gearbox and a 105 rotating rod;

[0146] 106 is the sensor assembly cable slot.

[0147] Figure 12 This invention provides a structural diagram of a motherboard box, a motor, and a bottom paper recycling device with a synchronous belt:

[0148] 1 is the box lid;

[0149] 101 is the motherboard enclosure;

[0150] 102 is the motor mount;

[0151] 103 is the motor;

[0152] The bottom paper recycling device consists of a 104 motor gearbox, a 105 rotating rod, and a 106 synchronous belt.

[0153] 107 is the sensor assembly cable slot.

[0154] Figure 13 This invention provides a structural diagram of a motherboard box, motor, and bottom paper recycling device (the box cover consists of box cover assembly A and box cover assembly B).

[0155] 1 is the lid assembly A;

[0156] 2 is the lid assembly B;

[0157] 201 is the motherboard enclosure;

[0158] 202 is the motor mount;

[0159] 203 is a motor;

[0160] 204 is a bottom paper recycling device;

[0161] 205 is the sensor assembly cable slot.

[0162] Figure 14 This invention provides a structural diagram of a motherboard box, a motor, and a bottom paper recycling device with a motor reduction gearbox (the box cover consists of box cover assembly A and box cover assembly B).

[0163] 1 is the lid assembly A;

[0164] 2 is the lid assembly B;

[0165] 201 is the motherboard enclosure;

[0166] 202 is the motor mount;

[0167] 203 is a motor;

[0168] The bottom paper recycling device consists of a 204 motor gearbox and a 205 rotating rod;

[0169] 206 is the sensor assembly cable slot.

[0170] Figure 15 This invention provides a structural diagram of a motherboard box, a motor, and a bottom paper recycling device with a synchronous belt (the box cover consists of box cover assembly A and box cover assembly B).

[0171] 1 is the lid assembly A;

[0172] 2 is the lid assembly B;

[0173] 201 is the motherboard enclosure;

[0174] 202 is the motor mount;

[0175] 203 is a motor;

[0176] The bottom paper recycling device consists of a 204 motor gearbox, a 205 rotating rod, and a 206 synchronous belt.

[0177] 207 is the sensor assembly cable slot.

[0178] Figure 16 The following is a structural diagram of the sensor assembly (multiple combined sensing heads) of this utility model:

[0179] 1 represents the sensor assembly;

[0180] 101 is the sensor head;

[0181] 102 is the sensor assembly mounting slot, used for assembly with the pressure plate;

[0182] 103 is the sensor assembly connection cable, used to connect to the motherboard box.

[0183] Figure 17 A structural diagram of the sensor assembly (single sensor head) of this utility model is shown:

[0184] 1 represents the sensor assembly;

[0185] 101 is the sensor head;

[0186] 102 is the sensor assembly mounting slot, used for assembly with the pressure plate;

[0187] 103 is the sensor assembly connection cable, used to connect to the motherboard box.

[0188] Figure 18 The following is a structural diagram of the sensor assembly (a single set of sensing heads distributed left and right) of this utility model:

[0189] 1 represents the sensor assembly;

[0190] 101 is the sensor head;

[0191] 102 is the sensor assembly mounting slot, used for assembly with the pressure plate;

[0192] 103 is the sensor assembly connection cable, used to connect to the motherboard box.

[0193] Figure 19 The following is a structural diagram of the rotating rod (cross-cut) of the bottom paper recycling device of this utility model:

[0194] 1 is a rotating rod for the bottom paper recycling device, with a cross-shaped cut, used to hold the bottom paper and pull the label paper and recycle the bottom paper.

[0195] Figure 20 The following is a structural diagram of the rotating rod (straight cut) of the bottom paper recycling device of this utility model:

[0196] 1 is the rotating rod of the bottom paper recycling device, with a slotted cut to hold the bottom paper and pull the label paper and recycle the bottom paper.

[0197] Figure 21 A structural diagram of the label roll shaft of this utility model is shown:

[0198] 1 is the paper roll spindle.

[0199] Figure 22 A structural diagram of the present invention using folded label paper is shown:

[0200] 1 is a folded label paper. Detailed Implementation

[0201] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are some embodiments of this utility model, but not all embodiments.

[0202] Example 1

[0203] like Figure 2 As shown,

[0204] Insert the pressure plate 3 into the box cover 2 along the groove 204 of the track;

[0205] The small protruding piece 301 of the pressure plate extends into the hole 203 in the middle of the crossbeam;

[0206] With the label paper facing upwards, place it into paper tray 1;

[0207] The label paper extends from the paper outlet 201, passes around the crossbeam 202, and then passes downward through the gap between the crossbeam 202 and the pressure plate 3, connecting with the bottom paper recycling device.

[0208] Simply close the lid (2) to complete the installation. After installation, as shown... Figure 1 As shown;

[0209] After assembly, push the paper extending above the sensor head of sensor assembly 4 downwards into paper tray 1, ensuring that there is no obstruction in front of the sensor head of sensor assembly 4. After power-on, sensor assembly 4 senses that there is no obstruction in front and sends a signal to the main board box to rotate motor 206. After motor 206 rotates, the label paper will separate from the backing paper under the interaction of the paper feed baffle 101, crossbeam 202, and pressure plate 3. After sensor assembly 4 senses the extended label paper, motor 206 stops rotating. At this time, the label can be pulled out to peel off the label. After the label is peeled off the backing paper, sensor assembly 4 senses that there is no obstruction in front and sends a signal to rotate motor 206 again. The label and backing paper will separate from each other again after motor 206 rotates.

[0210] Example 2

[0211] like Figure 4 As shown,

[0212] Two box lid components A and five box lid components B are glued together to form a box lid;

[0213] Insert the pressure plate 3 into the box lid along the groove 204 of the track;

[0214] The small protruding piece 301 of the pressure plate extends into the hole 203 in the middle of the crossbeam;

[0215] With the label paper facing upwards, place it into paper tray 1;

[0216] The label paper extends from the paper outlet 201, passes around the crossbeam 202, and then passes downward through the gap between the crossbeam 202 and the pressure plate 3, connecting with the bottom paper recycling device.

[0217] Simply close the lid to complete the installation. After installation, it should look like... Figure 1 As shown;

[0218] After assembly, push the paper extending above the sensor head of sensor assembly 4 downwards into paper tray 1, ensuring that there is no obstruction in front of the sensor head of sensor assembly 4. After power-on, sensor assembly 4 senses that there is no obstruction in front and sends a signal to the main board box to rotate motor 501. After motor 501 rotates, the label paper will separate from the backing paper under the interaction of the paper feed baffle 101, crossbeam 202, and pressure plate 3. After sensor assembly 4 senses the extended label paper, motor 501 stops rotating. At this time, the label can be pulled out to peel off the label. After the label is peeled off the backing paper, sensor assembly 4 senses that there is no obstruction in front and sends a signal to rotate motor 501 again. The label and backing paper will separate from each other again after motor 501 rotates.

[0219] Example 3

[0220] like Figure 9 As shown,

[0221] Two box lid components A and five box lid components B are glued together to form a box lid;

[0222] Insert the pressure plate 3 into the box lid along the groove 204 of the track;

[0223] The small protruding piece 301 of the pressure plate extends into the hole 203 in the middle of the crossbeam;

[0224] Insert the sensor assembly mounting slot 401 of the sensor assembly 4 into the pressure plate protrusion 301, and connect the sensor assembly connecting wire 402 to the main board box.

[0225] Insert the roll shaft 6 into the core of the label roll, with the label roll paper exiting upwards, and place the roll shaft 6 into the paper tray 1 along the roll shaft guide rail 102;

[0226] The label paper extends from the paper outlet 201, passes around the crossbeam 202, goes down through the gap between the crossbeam 202 and the pressure plate 3, and then passes through the cut of the bottom paper recycling device rotating rod 502.

[0227] Simply close the lid to complete the installation. After installation, it should look like... Figure 1 As shown;

[0228] After assembly, push the paper extending above the sensor head of sensor assembly 4 downwards into paper tray 1, ensuring that there is no obstruction in front of the sensor head of sensor assembly 4. After power-on, sensor assembly 4 senses that there is no obstruction in front and sends a signal to the main board box to rotate motor 501. After motor 501 rotates, the label paper will separate from the backing paper under the interaction of the paper feed baffle 101, crossbeam 202, and pressure plate 3. After sensor assembly 4 senses the extended label paper, motor 501 stops rotating. At this time, the label can be pulled out to peel off the label. After the label is peeled off the backing paper, sensor assembly 4 senses that there is no obstruction in front and sends a signal to rotate motor 501 again. After motor 501 rotates, the label and backing paper will separate from each other again.

[0229] The label peeler can be placed on a desktop or shelf, or it can be hung on the wall through the wall mounting hole 102.

[0230] like Figure 8 As shown, waste paper labels can be placed in waste paper box 103. Example 4

[0231] like Figure 10 As shown, when installing the label paper, the label paper passes through the cut of the rotating rod 104 of the bottom paper recycling device. After rotation, the cut will hold the label paper in place.

[0232] like Figure 11 As shown, when installing the label paper, the label paper passes through the cut of the rotating rod 105 of the bottom paper recycling device. After rotation, the cut will hold the label paper in place.

[0233] like Figure 12 As shown, when installing the label paper, take one or more labels, stick the label backing paper and the timing belt 106 of the backing paper recycling device together, and after rotation, the label backing paper is recycled by the rotation of the timing belt.

[0234] Example 5

[0235] like Figure 6 As shown, the remaining amount of label paper in the label peeler box without the roll paper reel can be viewed through the 101 paper viewing port;

[0236] like Figure 7 As shown, the remaining amount of label paper in the label peeler box with roll paper spool can be viewed through the 101 paper viewing port.

[0237] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. An electrically operated tag peeler with a horizontal sensor, characterized in that: It consists of a paper tray, a lid, a pressure plate, and a sensor assembly; the paper tray is used to hold label paper; the back of the paper tray has a paper feed baffle to limit the movement range of the paper; the lid has a main board box, a motor, and a bottom paper recycling device; The mainboard box is used to hold the circuit board, and the bottom paper recycling device is used to pull the label paper and recycle the bottom paper. There is a paper outlet on one side of the top of the box lid for the label paper to extend out. The box lid has a crossbeam perpendicular to the lid surface, with an opening in the middle for inserting a small protruding piece of the pressure plate. There are track grooves on the left and right sides of the box lid for inserting the pressure plate. The pressure plate has a small protruding piece in the middle for interacting with the crossbeam to press the paper. The label paper enters from the paper inlet, goes around the crossbeam, and then passes down through the gap between the crossbeam and the pressure plate to connect with the bottom paper recycling device. The sensor assembly is used to detect the label paper output.

2. The electrically operated label peeler with a horizontal sensor according to claim 1, characterized in that... The electric label peeling box lid consists of lid assembly A and lid assembly B, which are bonded together to form the lid.

3. An electric label peeling box according to claim 1 or claim 2, characterized in that... The electric label peeler has a label paper spindle for securing the label paper roll core.

4. A motorized label peeler with a horizontal sensor according to claim 1 or claim 2, characterized in that... The electric label peeler has a wall-mounting groove on the back, which can be used with a wall hook to hang it on the wall.

5. An electric label peeler with a horizontal sensor according to claim 1 or claim 2, characterized in that... The electric label peeler box includes a waste paper box for storing waste paper.

6. A motorized label peeler with a horizontal sensor according to claim 1 or claim 2, characterized in that... The electric label peeler has a paper viewing port for observing the amount of paper remaining.

7. An electric label peeling box with a horizontal sensor according to claim 1 or claim 2, characterized in that... The bottom paper recycling device of the electric label peeling box consists of a motor gearbox and a rotating rod.

8. An electric label peeler with a horizontal sensor according to claim 1 or claim 2, characterized in that... The bottom paper recycling device of the electric label peeler consists of a motor gearbox, a rotating rod, and a synchronous belt.

9. An electric label peeler with a horizontal sensor according to claim 1 or claim 2, characterized in that... The rotating rod of the bottom paper recycling device of the electric label peeler box has a straight cut.

10. An electric label peeling box with a horizontal sensor according to claim 1 or claim 2, characterized in that... The rotating rod of the bottom paper recycling device of the electric label peeler box has a cross-shaped cut.