KR20190097530A - Tissue microtome and brake module for tissue microtome - Google Patents

Abstract

According to one embodiment of the present invention, a tissue microtome comprises: a body; a block fixing part capable of fixing a paraffin block and moving up and down with respect to the body at a front of the body; a position adjusting part connected to the block fixing part to adjust a position of the block fixing part; a blade fixing part disposed at a lower part of the block fixing part and fixing a blade which cuts the paraffin block when the block fixing part moves downward; a manual brake disposed on a side surface of the body and controlled by a user to prevent the block fixing part from moving in an up and down direction; a sensor for detecting the movement of a user around the block fixing part; and an automatic brake disposed inside the body and preventing the block fixing part from moving in the up and down direction when the sensor detects a movement of the user. Therefore, the present invention can prevent an accident from occurring and ensure the safety of the user.

Description

TISSUE MICROTOME AND BRAKE MODULE FOR TISSUE MICROTOME}

Embodiments of the present invention relate to tissue breakers and brake modules for use in tissue slicers.

Histological examination is performed for the treatment and diagnosis of the disease, including determining the malignancy of the tumor, determining the extent of the lesion, and determining the success and prognosis of the resection. The most common way to study tissue is to create a tissue sample that can be observed with an optical microscope.

When making a tissue specimen, first pour the melted paraffin into the mold, settle the tissue and cool it down to make a paraffin block. Thereafter, the surface of the hardened paraffin block is thinly sliced to a size of 4 to 6 μm to make paraffin fragments. Tissue microtomyrs are commonly used for this cutting operation.

United States Patent Application Publication No. 2017-0336299 published on November 23, 2017

1 is a perspective view schematically showing a conventional tissue slicer 2.

The conventional tissue slicer 2 includes a body 10, a block fixing portion 20, a position adjusting portion 30, a blade fixing portion 40, and a hand brake 50. The body 10 includes a housing 11 and a base 12. After fixing the paraffin block PB to the block fixing part 20, the user rotates the handle 32 of the position adjusting part 30 to rotate the rotating part 31. The block fixing part 20 which is mechanically connected to the rotating part 31 may move up and down. Accordingly, the user can turn the handle 32 to adjust the position of the paraffin block (PB) up and down. When the paraffin block PB is lowered, the surface of the paraffin block PB is cut by the blade B fixed by the blade fixing part 40. Once the paraffin slices are cut to a thickness of about 1-10 μm or less, the user repeats the above operation by replacing the paraffin block PB.

Before replacing the paraffin block PB, the user must activate the hand brake 50 to prevent the block fixing part 20 from moving up and down for safety. However, if the user does not comply with such a safety protocol, the block fixing part 20 may momentarily descend by the force of the user's hand during the operation of replacing the paraffin block PB. . In this case, there is a problem in that the hand holding the block fixing part 20 is also lowered and the risk of being wounded by the blade B increases. However, these problems are illustrative, and the scope of the present invention is not limited thereby.

Tissue slicer according to an embodiment of the present invention, the body; A block fixing part capable of fixing a paraffin block and moving up and down with respect to the body in front of the body; A position adjusting unit connected to the block fixing unit to adjust a position of the block fixing unit; A blade fixing part disposed below the block fixing part and configured to fix a blade that cuts the paraffin block when the block fixing part moves downward; A hand brake disposed on a side of the body and controlled by a user to prevent the block fixing part from moving in an up and down direction; A sensor for detecting a movement of a user around the block fixing unit; It is disposed inside the body, and when the sensor detects the movement of the user; an automatic brake to prevent the block fixing unit to move in the up and down direction; includes.

According to one embodiment, the sensor may be disposed on the front of the body.

According to one embodiment, the sensor may be disposed in the block fixing portion.

According to one embodiment, the sensor may be a proximity sensor.

Tissue slicer according to another embodiment of the present invention, the body; A block fixing part capable of fixing a paraffin block and moving up and down with respect to the body in front of the body; A position adjusting unit connected to the block fixing unit and including a handle for adjusting a position of the block fixing unit; And a brake adjuster disposed on the handle and configured to release an operation of the brake connected to the position adjuster when the user applies a force by hand.

Tissue slicer brake module according to an embodiment of the present invention, the sensor that can be attached to the body or block fixing surface of the tissue slicer having a manual brake; A contact unit capable of operating the manual brake by contacting the manual brake when the sensor detects a user's movement; And a fixing part connected to the contact part and attached to the body.

According to one embodiment, the contact portion may be in linear motion with respect to the fixing portion to contact the handbrake.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

According to the tissue slicer according to an embodiment of the present invention, when the user performs a 'paraffin block replacement operation' that is susceptible to injury, the sensor detects the movement of the user's hand to operate the automatic brake. Therefore, even if the user forgets to operate the hand brake before the paraffin block is replaced, an accident can be prevented and the user's safety can be secured.

When using a tissue slicer according to another embodiment of the present invention including a brake adjuster, the position adjusting unit and the block fixing unit may operate only in a state in which it is obvious that the user is performing the operation of turning the handle. Therefore, during the paraffin block replacement operation, the brake is always kept on, thereby reducing the risk of an accident and ensuring the safety of the user. On the other hand, the user can turn the brake off by pressing the brake adjuster only by a natural operation of holding the handle to turn the handle, thereby improving user convenience.

Tissue slicer brake module according to an embodiment of the present invention can be used by attaching to a conventional tissue slicer that does not have a safety device other than a manual brake, such as an automatic brake. That is, the tissue slicer brake module can be used by properly adjusting the position according to the structure of the tissue slicer. Accordingly, the user does not need to separately include a tissue slicer having a safety device, and the user can safely use the existing tissue slicer just by attaching the tissue slicer brake module.

Of course, the scope of the present invention is not limited by these effects.

1 is a perspective view schematically showing a conventional tissue slicer.
2 and 3 are perspective views schematically showing a tissue slicer according to an embodiment of the present invention.
4 is a perspective view schematically showing a tissue slicer according to another embodiment of the present invention.
5 is a perspective view schematically showing a tissue slicer brake module according to an embodiment of the present invention, Figures 6 to 8 is a side view showing the operating mechanism of the tissue slicer brake module of FIG.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail. Effects and features of the present invention, and methods of achieving them will be apparent with reference to the embodiments described below in detail together with the drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various forms.

In the following embodiments, the terms first, second, etc. are used for the purpose of distinguishing one component from other components rather than having a limiting meaning.

In the following examples, the singular forms "a", "an" and "the" include plural forms unless the context clearly indicates otherwise.

In the following examples, the terms including or having have meant that there is a feature or component described in the specification and does not preclude the possibility of adding one or more other features or components.

In the following embodiments, when a part of a film, an area, a component, etc. is said to be on or above another part, it is not only when it is directly above another part, but also in the middle of another film, area, composition It also includes the case where an element etc. are interposed.

In the drawings, components may be exaggerated or reduced in size for convenience of description. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, and thus the present invention is not necessarily limited to the illustrated.

1 is a perspective view schematically showing a conventional tissue slicer 2.

The conventional tissue slicer 2 includes a body 10, a block fixing portion 20, a position adjusting portion 30, a blade fixing portion 40, and a hand brake 50. The body 10 includes a housing 11 and a base 12. After fixing the paraffin block PB to the block fixing part 20, the user rotates the handle 32 of the position adjusting part 30 to rotate the rotating part 31. The block fixing part 20 which is mechanically connected to the rotating part 31 may move up and down. Accordingly, the user can turn the handle 32 to adjust the position of the paraffin block (PB) up and down. When the paraffin block PB is lowered, the surface of the paraffin block PB is cut by the blade B fixed by the blade fixing part 40. Once the paraffin slices are cut to a thickness of about 1-10 μm or less, the user repeats the above operation by replacing the paraffin block PB.

Before replacing the paraffin block PB, the user must activate the hand brake 50 to prevent the block fixing part 20 from moving up and down for safety. However, if the user does not comply with such a safety protocol, the block fixing part 20 may momentarily descend by the force of the user's hand during the operation of replacing the paraffin block PB. . In this case, the hand holding the block fixing part 20 is also lowered, and the blade B causes a magnetic field.

2 and 3 are perspective views schematically showing a tissue slicer 2 according to an embodiment of the present invention.

Tissue slicer 2 according to an embodiment of the present invention, the body 100, the block fixing part 200, the position adjusting part 300, the blade fixing part 400, the manual brake 500, the sensor ( 600, an automatic brake 700.

Referring to FIG. 2, the body 100 may include a housing 110 and a base 120 to accommodate various components therein. Grooves may be formed on the front surface of the housing 110 of the body 100. The groove may provide a path through which the block fixing part 200 may move.

The block fixing part 200 may fix the paraffin block PB. The block fixing part 200 protrudes on the front surface of the body 100 and may move in the up and down direction with respect to the body 100. The block fixing part 200 may include a moving part 210 moving inside the body 100 and a holder 220 connected to the moving part 210 and fixing the paraffin block PB. The side surface of the holder 220 may have a 'deck' shape. The holder 220 may have a structure that allows the paraffin block PB to be inserted between the gaps in the center. Holder 220 may have a width adjusting knob (not shown) for adjusting the width of the center gap.

The position adjusting unit 300 is connected to the block fixing unit 200 to adjust the position of the block fixing unit 200. The position adjusting unit 300 may adjust the movement of the block fixing unit 200 in the up and down direction. The tissue slicer 2 may further include a component for adjusting the forward and backward movement of the block fixing part 200, but a description thereof will be omitted.

The position adjusting unit 300 may be disposed to protrude outward from the side of the body 100. The position adjusting unit 300 may include a rotating unit 310 and a handle 320. When the user grabs and turns the handle 320, the rotating part 310 rotates, and the rotating part 310 may be mechanically connected to the block fixing part 200 through a linear gear or the like. By the motion converter 230 of the block fixing part 200, the rotational motion of the position controller 300 may be converted into a linear motion. Detailed connection structure of the position adjusting unit 300 and the block fixing unit 200 will be omitted. In the drawings of the present specification conceptually illustrates the motion converter 230.

When the user rotates the handle 320 in one direction, the block fixing part 200 may move up. When the user rotates the handle 320 in the opposite direction, the block fixing part 200 may move downward. The user may rotate the position adjusting unit 300 to appropriately adjust the position of the block fixing unit 200.

The blade fixing part 400 is disposed below the block fixing part 200 protruding in the front of the body 100. The blade fixing part 400 may be fixed on the supporting part 120. Blade fixing portion 400 may be composed of one or multiple stages. The blade B may be inserted at the top of the blade fixing part 400. The inserted blade B may cut the surface of the paraffin block PB when the block fixing part 200 moves downward.

Hand brake 500 may be disposed on the side of the body (100). The manual brake 500 in the on state may prevent the rotation of the position adjusting unit 300 and the up and down movement of the block fixing unit 200. 2 and 3 conceptually illustrates a structure in which the handbrake 500 is connected to the position adjusting unit 300. Detailed description of the connection mechanism between the hand brake 500 and the position adjusting unit 300 and / or the block fixing unit 200 will be omitted.

Hand brake 500 may have a structure in which one end is rotated and the other end is fixed to the central axis. When one end of the manual brake 500 rotates in one direction to be in a brake on state, even if the user applies the force to the handle 320, the position adjusting unit 300 does not rotate, and thus the block fixing unit 200 may not move. When one end of the manual brake 500 is rotated in the opposite direction to the brake off state, the user may rotate the position adjusting unit 300 by rotating the handle 320, and accordingly, the block fixing unit ( 200) can move up and down.

The handbrake 500 is turned on to prevent the user's finger from being caught between the block holder 200 and the blade B by moving the block holder 200 downward while replacing the paraffin block PB. It is desirable to maintain the (on) state. However, since the manual brake 500 needs to be consciously adjusted by the user, an accident occurs frequently because the user forgets to operate the manual brake 500 before replacing the paraffin block PB.

Thus, the tissue slicer 2 according to the embodiment of the present invention further includes a sensor 600 and an automatic brake 700. The sensor 600 may detect a user's movement around the front of the body 100. In particular, the sensor 600 may detect whether the user's hand is near the block fixing part 200. When the user touches the block fixing part 200 to replace the paraffin block PB, the sensor 600 may detect this.

According to an embodiment, the sensor 600 may be disposed in front of the body 100. In FIG. 2, one sensor 600 is disposed in front of the body 100, but a plurality of sensors 600 may be disposed in various places. The sensor 600 may be disposed around a groove formed in the front of the body 100. The sensor 600 may be disposed to protrude on the front of the body 100, and an electric line for transmitting an electric signal generated from the sensor 600 may be disposed inside the body 100.

According to an embodiment, the sensor 600 may be disposed in the block fixing part 200. When replacing the paraffin block (PB), the user should bring one hand to the block fixing part 200 to release the device holding the paraffin block (PB), and the other hand should pull out the paraffin block (PB). do. Accordingly, the user's hand is inevitably around the block fixing part 200. The sensor 600 may detect a hand of a user approaching around the block fixing part 200. To this end, the sensor 600 may be disposed at an appropriate position of the block fixing part 200. For example, referring to FIG. 3, the sensor 600 may be disposed on an upper surface of the block fixing part 200. In addition, the sensor 600 may be disposed on the front surface, the bottom surface, the side surface, etc. of the block fixing part 200.

The electric wire for transmitting the electric signal generated from the sensor 600 may be led to the inside of the body 100 through the interior of the block fixing part 200, as shown in Figure 2, passing through the groove in the front of the body 100 as shown in FIG. It may also lead to the interior of the solution body (100).

The sensor 600 may detect an approach of an object in various ways such as temperature, infrared ray, laser, and electromagnetic field. According to an embodiment, the sensor 600 may be a proximity sensor. For example, the sensor 600 may determine whether the user's hand is within 10 cm, but the sensing distance of the sensor 600 is not limited thereto.

According to an embodiment, the sensor 600 may be a pressure sensor 600. The pressure sensor 600 may be disposed on the surface of the block fixing part 200. If the user touches the pressure sensor 600 in the process of replacing the paraffin block PB, the sensor 600 may detect this. One or more pressure sensors 600 may be disposed on the top, bottom, side surfaces, etc. of the block fixing part 200.

The automatic brake 700 is disposed inside the body 100. When the sensor 600 detects a user's movement, the automatic brake 700 may be turned on to prevent the block fixing unit 200 from moving. The automatic brake 700 may prevent the position adjusting unit 300 from rotating and consequently prevent the block fixing unit 200 from moving. 2 and 3 conceptually illustrates a structure in which the automatic brake 700 is connected to the central axis of the position adjusting unit 30 to control the rotation of the position adjusting unit 30.

Unlike the manual brake 500 operated by the user, the automatic brake 700 is controlled on / off by the sensor 600. That is, when the movement of the user is detected by the sensor 600 near the block fixing part 200, the automatic brake 700 operates automatically. That is, even if the user forgets to operate the handbrake 500 in the process of replacing the paraffin block PB, the automatic brake 700 operates by itself so that the block fixing part 200 does not move.

When the user's movement is not detected by the sensor 600 for a predetermined time, the automatic brake 700 may be turned off. After the paraffin block PB is completely replaced, the user rotates the handle 320 to control the position of the paraffin block PB and then performs a cutting operation. In this case, the user's hand is fixed to the block fixing part 200. Will fall nearby. Therefore, if the user's movement is not detected for more than a predetermined time after the user's movement is detected by the sensor 600, it can be assumed that the user prepares for the 'cutting off' task. In this case, the automatic brake 700 may be switched to an off state by a command of the sensor 600 or a controller (not shown) connected to the sensor 600, and thus the block fixing unit 200 may be changed to a movable state. Can be.

According to the tissue slicer 2 according to an embodiment of the present invention, when the user performs a 'paraffin block (PB) replacement operation' which is susceptible to injury, the sensor 600 detects the movement of the user's hand. The auto brake 700 is activated. Therefore, even if the user forgets to operate the handbrake 500 before the paraffin block PB is replaced, an accident may be prevented, thereby ensuring the safety of the user.

4 is a perspective view schematically showing a tissue slicer 4 according to another embodiment of the present invention.

The tissue slicer 4 according to another embodiment of the present invention includes a body 100, a block fixing part 200, a position adjusting part 300, and a brake adjuster 800. Among these, the body 100 and the block fixing part 200 have similar characteristics to those of the above-described embodiment, and thus a detailed description thereof will be omitted.

The position adjusting unit 300 includes a handle 320 that can adjust the position of the block fixing unit 200. The handle 320 may be connected to the rotating part 310. The rotation part 310 may be connected to the block fixing part 200 through the motion conversion part 230 for converting the rotation motion into a linear motion. The brake 700 may be connected to the position adjusting unit 300. The brake 700 may fix the position adjusting unit 300 so that the rotating unit 310 does not rotate. Unless the user controls otherwise, the brake 700 may be always on. When the brake 700 is in an on state, both the position adjusting unit 300 and the block fixing unit 200 may be locked and not move. That is, even if the user tries to rotate only the handle 320 without operating the brake adjuster 800 described later, the position adjusting unit 300 may not rotate. In addition, even if a user applies a force directly to the block fixing part 200, the block fixing part 200 may not move up and down.

The brake adjuster 800 is disposed on the handle 320. The brake adjuster 800 may be connected to the brake 700. The brake adjuster 800 may be a push-type button that protrudes from the handle 320. That is, the brake adjuster 800 protruding out of the handle 320 enters inward when a force is applied, and may move outward again when no force is applied.

When the user grabs the handle 320 to rotate the rotating part 310, a force may be applied to the brake adjuster 800. When the brake regulator 800 is pressed by this force, the operation of the brake 720 connected to the brake regulator 800 may be released. When the brake 720 is turned off, the position adjusting unit 30 may rotate, and the block fixing unit 200 connected thereto may also move up and down.

According to one embodiment, the brake adjuster 800 may release the operation of the brake 720 when a force of a predetermined magnitude or more is applied. That is, the brake 720 may be turned off only when the user grips the handle 320 to turn the handle 320. In other words, the brake 720 may not be released when a force other than a force caused by the operation of 'holding' the handle 320 is applied. For example, even if a person other than the user of the tissue slicer 4 passes near the tissue slicer 4 and a part of the body hits the handle 320, the handle 320 may not rotate.

When using the tissue slicer 4 including the brake adjuster 800, the position adjusting part 300 and the block fixing part 200 are only in a state in which it is apparent that the user is performing the operation of turning the handle 320. It can work. Therefore, during the replacement of the paraffin block (PB), the brake 720 is always kept on (on), thereby reducing the risk of an accident, the user's safety can be ensured. On the other hand, the user can press the brake adjuster 800 to turn the brake 720 off by only a natural operation of holding the handle 320 to turn the handle 320, thereby improving user convenience. .

5 is a perspective view schematically showing a tissue slicer brake module 5 according to an embodiment of the present invention, and FIGS. 6 to 8 are side views illustrating an operating mechanism of the tissue slicer brake module 5 of FIG. 5. .

The tissue slicer brake module 5 according to the embodiment of the present invention includes a sensor 600, a contact part 1000, and a fixing part 900.

Referring to FIG. 5, the sensor 600 may be attached to the surface of the body 10 or the block fixing portion 20 of the conventional tissue slicer 2. The sensor 600 may be attached to, for example, an upper surface of the block fixing part 20 or a front surface of the body 10. The sensor 600 may detect a movement of a user's hand around the block fixing unit 20. Since the sensor 600 operates similarly to the sensor 600 of the above-described embodiment, a detailed description thereof will be omitted.

When the sensor 600 detects a user's movement, the contact part 1000 contacts the hand brake 50 to operate the hand brake 50. For example, the contact part 1000 may extend in one direction and rotate by pressing the hand brake 50.

The fixing part 900 is attached to the body 10 so that the position is fixed relative to the body 10. The fixing part 900 is connected to the contact part 1000. The contact part 1000 may move with respect to the fixing part 900 to contact the hand brake 60.

Referring to FIG. 5, the contact part 1000 may have a structure capable of linearly moving with respect to the fixing part 900. For example, a gear-shaped motor (not shown) operated by a signal of the sensor 600 is disposed inside the fixing part 900, and the contact part 1000 may be linearly connected to the motor. The movement mechanism of the fixing part 900 and the contact part 1000 is not limited thereto.

5 and 6 show a state before the contact portion 1000 is in contact with the handbrake 50. In this case, the length of the contact part 1000 protruding out of the fixing part 900 may be short.

7 illustrates a state in which the contact part 1000 contacts the hand brake 50. When the sensor 600 detects the movement of the user's hand H while the user replaces the paraffin block PB, the length of the contact part 1000 protruding out of the fixing part 900 may increase. That is, the contact part 1000 may apply a force to the handbrake 50 by linearly moving with respect to the fixing part 900. Accordingly, the handbrake 50 can rotate, and the handbrake 50 that was in the off state can be turned on. That is, when the movement of the user's hand H is detected around the block fixing part 20, the manual brake 50 may be switched to an 'automatically' on state by the tissue breaker brake module 5. . Accordingly, the block fixing unit 20 can prevent an accident caused by the user unintentionally moving up and down.

Referring to FIG. 8, the fixing part 900 may be attached to various positions of the body 10 in accordance with the rotation angle of the hand brake 50. If the tissue sectioner of the method of adjusting the on (on) / off (off) by rotating the end of the handbrake (50) left and right as shown in Figure 8, the fixing portion 900 and the contact portion 1000 is left and right It may be installed so as to be elongated in the direction.

Meanwhile, the sensor 600 and the contact part 1000 or the fixing part 900 may be connected by a connection line. Reel (not shown) that can adjust the length may be connected to the connecting line. The user may arbitrarily adjust the distance between the sensor 600 and the fixing part 900 by using a reel.

5 to 8, the structure of the fixing part 900 and the contacting part 1000 has been described under the assumption that the hand brake 50 is in the form of a lever that rotates. However, the present invention is not limited thereto. The contact portion 1000 may have any structure that can adjust the state of the handbrake 50 in a mechanical manner. For example, when the handbrake 50 is in the form of a button, the contact part 1000 may have a structure capable of pressing a button.

According to an exemplary embodiment, the contact part 1000 may rotate with respect to the fixing part 900 to contact the hand brake 50.

Tissue slicer brake module 5 according to an embodiment of the present invention can be used by attaching to a conventional tissue slicer that is not equipped with a safety device other than the hand brake 50, such as an automatic brake. That is, the tissue slicer brake module 5 can be used by appropriately adjusting the position according to the structure of the tissue slicer. Accordingly, the user does not need to separately include a tissue slicer having a safety device, and the user can safely use the existing tissue slicer just by attaching the tissue slicer brake module 5.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: body 110: housing
120: support portion 200: block fixing portion
210: moving part 220: holder
230: motion conversion unit 300: position adjusting unit
310: rotating part 320: handle
400: blade fixing portion 500: hand brake
600: sensor 700: automatic brake
720: brake 800: brake adjuster
900: fixed portion 1000: contact portion

Claims (7)

Body;
A block fixing part capable of fixing a paraffin block and moving up and down with respect to the body in front of the body;
A position adjusting unit connected to the block fixing unit to adjust a position of the block fixing unit;
A blade fixing part disposed below the block fixing part and configured to fix a blade that cuts the paraffin block when the block fixing part moves downward;
A hand brake disposed on a side of the body and controlled by a user to prevent the block fixing part from moving in an up and down direction;
A sensor for detecting a movement of a user around the block fixing unit;
And an automatic brake disposed inside the body and preventing the block fixing part from moving in the up and down direction when the sensor detects the movement of the user.
The method of claim 1,
And the sensor is disposed in front of the body.
The method of claim 1,
And the sensor is disposed in the block anchor.
The method of claim 1,
And the sensor is a proximity sensor.
Body;
A block fixing part capable of fixing a paraffin block and moving up and down with respect to the body in front of the body;
A position adjusting unit connected to the block fixing unit and including a handle for adjusting a position of the block fixing unit;
And a brake adjuster disposed on the handle, the brake adjuster releasing the operation of the brake connected to the position adjusting portion when the user applies a force by hand.
A sensor that can be attached to the surface of a body or block fixture of a tissue slicer having a hand brake;
A contact unit capable of operating the manual brake by contacting the manual brake when the sensor detects a user's movement;
And a fixing part connected to the contact part and attachable to the body.
The method of claim 6,
And the contact portion may be in linear motion with respect to the fixation portion to contact the hand brake.

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