CN217146629U - Beveling clamp sealing device - Google Patents

Abstract

The utility model belongs to the technical field of the encapsulation technique and specifically relates to a pair of butt joint clamp sealing device is related to. The utility model provides a pair of butt cut clamp seal device includes: the clamp aligning mechanism and the displacement measuring mechanism are arranged on the base at the same side, and the displacement measuring mechanism is abutted with the clamp aligning mechanism; the butt clamp mechanism comprises a cutter and a butt joint component, a cutting edge of the cutter and the butt joint component are oppositely arranged to form a butt clamp sealing space, the displacement measuring mechanism comprises a displacement plate component and a magnetic force meter component, the displacement plate component is connected to the cutter at an included angle and moves along the cutter, and the displacement plate component is abutted to the magnetic force meter component. The utility model provides a pair of bisection clamp sealing device has solved the encapsulation of big deformation and can seal near the product body region and cause great stress and deformation, can not the problem of accurate control depth of compression volume.

Description

Beveling clamp sealing device

Technical Field

The application relates to the technical field of packaging, in particular to a small-deformation opposite-cutting clamp sealing device.

Background

The steam cavity has efficient temperature equalization effect and heat transfer capacity, and coefficient of heat conductivity is high, can realize the heat transfer demand of three-dimensional direction, spreads the whole face direction with the heat source rapidly, increases heat transfer area, realizes the samming and the cooling of chip rapidly, satisfies the local heat source of electronic components and parts and spreads heat, samming, the heat dissipation demand.

However, the steam chamber is usually provided with a filling tube during filling, after filling, the product needs to be packaged, the filling tube and the redundant parts are removed, the product is generally packaged in a squeezing and shearing mode in the production process, and the filling tube is directly squeezed or sheared off, so that the large deformation package can cause large stress and deformation to the body area near the product seal, the pressing depth cannot be accurately controlled, and the shaping, the post-treatment and the like of the whole product are not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pair of butt joint clamp sealing device to alleviate the big deformation encapsulation that exists among the prior art and can seal near the product and regional great stress and the deformation that causes, the problem of the volume of can not accurate control pressure depth.

In order to solve the technical problem, the utility model provides a technical scheme lies in:

the embodiment of the utility model provides a cut split clip sealing device includes: the clamp aligning mechanism and the displacement measuring mechanism are arranged on the base at the same side, and the displacement measuring mechanism is abutted with the clamp aligning mechanism;

the butt clamp mechanism comprises a cutter and a butt joint component, a cutting edge of the cutter and the butt joint component are oppositely arranged to form a butt clamp sealing space, the displacement measuring mechanism comprises a displacement plate component and a magnetic force meter component, the displacement plate component is connected to the cutter at an included angle and moves along the cutter, and the displacement plate component is abutted to the magnetic force meter component.

As a further technical scheme, the magnetometer component comprises a support part and a magnetometer;

the support piece corresponds cutter fixed connection in base, and the magnetometer rotates to be connected in support piece, and the pointer of magnetometer is followed the propulsive direction of cutter and is propped with the displacement board subassembly.

As a further technical scheme, the displacement plate assembly comprises a horizontal displacement plate and a vertical displacement plate which are vertically connected;

the vertical displacement plate is connected with the horizontal displacement plate in an integrated mode and is abutted to a pointer of the magnetic force meter, and the horizontal displacement plate is connected with one end, deviating from the cutting edge, of the cutter.

As a further technical scheme, the cutting edge of the cutter is arc-shaped in the vertical direction and protrudes towards the direction close to the abutting assembly.

As a further technical solution, the abutting assembly comprises a top plate and a backing plate;

the top plate is fixedly connected to the base in an included angle, and the backing plate is fixedly arranged at one end, close to the cutter, of the top plate;

the abutting assembly can be replaced by a cutter according to different conditions.

As a further technical scheme, the butt-clamping mechanism further comprises a vertical limiting piece and a horizontal limiting piece;

the vertical limiting part is vertically connected with the base and is arranged opposite to the abutting component, and the horizontal limiting part is fixedly connected with the end face of the base and limits the displacement of the cutter in the vertical direction.

As a further technical scheme, the base is provided with an accommodating groove;

cutter and horizontal displacement board all slide to set up in the holding tank.

As a further technical scheme, the bisection clamp sealing device also comprises a driving component;

the driving assembly comprises a driving piece and a transmission piece;

the driving piece is fixedly arranged on the base and is in transmission connection with the transmission piece, and the transmission piece is in transmission connection with the cutter.

As a further technical scheme, the driving part is set as a hydraulic pump, and the driving part is a hydraulic jack;

the hydraulic pump is fixedly arranged on the base and is connected with the hydraulic jack pipeline, and the hydraulic jack is abutted against the horizontal displacement plate.

As a further technical scheme, the central line of the hydraulic jack and the central line of the horizontal displacement plate are in the same horizontal plane.

Compared with the prior art, the utility model provides a technical advantage that the beveling presss from both sides the sealing device and has does:

the embodiment of the utility model provides a cut split clip sealing device includes: the clamp aligning mechanism and the displacement measuring mechanism are arranged on the base at the same side, and the displacement measuring mechanism is abutted with the clamp aligning mechanism; the butt clamp mechanism comprises a cutter and a butt joint component, a cutting edge of the cutter and the butt joint component are oppositely arranged to form a butt clamp sealing space, the displacement measuring mechanism comprises a displacement plate component and a magnetic force meter component, the displacement plate component is connected to the cutter at an included angle and moves along the cutter, and the displacement plate component is abutted to the magnetic force meter component. Because the displacement plate component is connected with the cutter in an included angle and is abutted against the magnetic meter component along the moving direction of the cutter, when the product is clamped and sealed by the beveling and clamping and sealing device, the product is placed in the beveling and clamping and sealing space, the cutter is pushed, and the product is packaged along with the approach of the cutter to the abutting component; in the process, the displacement plate component moves along with the movement of the cutter, the magnetic force meter component which is abutted to the displacement plate component along the movement direction of the cutter also moves along with the movement of the cutter, the feed amount of the cutter can be mastered according to the displacement amount of the magnetic force meter component, the depth of the cutter to the product is judged, the sealing and sealing of the product under a small deformation amount are realized, and the integral post-processing of the product is facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention or the related art, the drawings required to be used in the description of the embodiments or the related art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a bisection clamp sealing apparatus provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a base in the bisection clamp device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a displacement plate assembly in a bisection clamp device according to an embodiment of the present invention.

Icon: 100-a clamp mechanism; 110-a cutter; 120-an abutment assembly; 121-top plate; 122-a backing plate; 130-vertical limit piece; 140-horizontal limit piece;

200-a displacement measuring mechanism; 210-a displacement plate assembly; 211-horizontal displacement plate; 212-vertical displacement plate; 220-a magnetometer component; 221-a support member; 222-a magnetometer;

300-a base; 310-a receiving tank;

400-a drive assembly; 410-a drive member; 420-a transmission.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific 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. The term "physical quantity" in the formula, unless otherwise noted, is understood to mean a basic quantity of a basic unit of international system of units, or a derived quantity derived from a basic quantity by a mathematical operation such as multiplication, division, differentiation, or integration.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also 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 meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

The bisection clip sealing apparatus provided by this embodiment includes: the clamp mechanism 100 and the displacement measuring mechanism 200 are arranged on the base 300 at the same side of the clamp mechanism 100 and the displacement measuring mechanism 200, and the displacement measuring mechanism 200 is abutted against the clamp mechanism 100.

The opposite clamping mechanism 100 comprises a cutter 110 and an abutting assembly 120, a cutting edge of the cutter 110 is arranged opposite to the abutting assembly 120 to form an opposite clamping sealing space, the displacement measuring mechanism 200 comprises a displacement plate assembly 210 and a magnetometer assembly 220, the displacement plate assembly 210 is connected to the cutter 110 in an included angle, and the displacement plate assembly 210 abuts against the magnetometer assembly 220 along the moving direction of the cutter 110.

The bisection clamp sealing device can have two setting forms, the first setting form is that when the cutting edge of the cutter 110 and the abutting component 120 are arranged oppositely to form a bisection clamp sealing space, the cutter 110 and the base 300 are arranged relatively fixedly, the abutting component 120 is connected with the base 300 in a sliding mode, the displacement plate component 210 is connected to the abutting component 120 in an included angle mode, the displacement plate component 210 abuts against the magnetic meter component 220 along the moving direction of the abutting component 120, and the displacement plate component moves left and right along the direction shown in fig. 1 of the abutting component 120, so that the size of the bisection clamp sealing space is changed. The second arrangement form is that when the cutting edge of the cutter 110 and the abutting component 120 are arranged oppositely to form a bisection clamping and sealing space, the abutting component 120 and the base 300 are arranged relatively fixedly, the cutter 110 is connected with the base 300 in a sliding mode, the displacement plate component 210 is connected to the cutter 110 in an included angle mode, and along the moving direction of the cutter 110, the displacement plate component 210 abuts against the magnetic force meter component 220, the cutter 110 moves left and right in the direction shown in fig. 1, the bisection clamping and sealing space is changed, the technical purpose that the depth of the product pressed by the cutter 110 is visualized through the magnetic force meter component 220 can be achieved, and the cutter 110 is specifically arranged according to requirements. In the present application, the second setting mode of the cutting and clamping device is selected, and is specifically shown in fig. 1. The base 300 is provided with a mounting groove, the abutting component 120 is fixedly arranged on one side wall of the mounting groove, the cutter 110 and the abutting component 120 are slidably mounted on the base 300 at the same side, the cutting edge of the cutter 110 is arranged opposite to the abutting component 120, the displacement plate component 210 and the cutter 110 are fixed in relative position and are connected at an included angle, and the magnetometer component 220 is always abutted to one end, close to the abutting component 120, of the displacement plate component 210. When the product is clamped and sealed by the bisection clamp sealing device, the product is placed in the bisection clamp sealing space, the cutter 110 is pushed, and the product is sealed along with the fact that the cutter 110 gradually approaches the abutting assembly 120; in the whole process, the relative position of the displacement plate assembly 210 and the cutter 110 is fixed, the displacement plate assembly 210 moves along with the movement of the cutter 110, the magnetic force meter assembly 220 abutted against the displacement plate assembly 210 along the movement direction of the cutter 110 also moves along with the movement, the feed amount of the cutter 110 is converted into the displacement amount of the magnetic force meter assembly 220, the pressing depth of the cutter 110 to a product can be judged according to the displacement amount of the magnetic force meter assembly 220, the deformation of the product is reduced in the process of sealing the product, and the overall post-processing of the product is facilitated. And because the relative position of the displacement plate assembly 210 and the tool 110 is fixed, in the process of converting the feed amount of the tool 110 into the displacement amount of the magnetic force meter assembly 220, the accuracy of the converted amount can be ensured, so that an operator can more accurately master the feed amount of the tool 110.

In an optional solution of this embodiment, the magnetometer package 220 includes a supporting member 221 and a magnetometer 222.

The support 221 is fixedly connected to the base 300 corresponding to the cutter 110, the magnetometer 222 is rotatably connected to the support 221, and the pointer of the magnetometer 222 abuts against the displacement plate assembly 210 in the direction in which the cutter 110 advances.

Specifically, as shown in fig. 1, the magnetometer package 220 has three configurations, the first configuration is that, when the magnetometer package 220 only includes the magnetometer 222, the magnetometer 222 is directly connected to the base 300 corresponding to the cutting tool 110 in a rotating manner; when the magnetometer package 220 comprises the supporting member 221 and the magnetometer 222, the second configuration is that the supporting member 221 is fixedly connected to the base 300 corresponding to the tool 110, and the magnetometer 222 is rotatably connected to the supporting member 221; in a third arrangement, the supporting member 221 is rotatably connected to the base 300 corresponding to the tool 110, and the magnetic force meter 222 is fixedly connected to the supporting member 221; the technical purpose that the pointer of the magnetic force meter 222 is always abutted against the displacement plate assembly 210 along the advancing direction of the cutter 110 can be achieved, and the pointer is specifically arranged according to requirements. In the present application, the magnetic force meter assembly 220 adopts the second arrangement mode, the supporting member 221 and the tool 110 are correspondingly and fixedly arranged on the base 300, the connecting rod on the magnetic force meter 222 is perpendicular to the base 300 and is rotatably arranged with the supporting member 221, and the pointer on the magnetic force meter 222 is always abutted against the displacement plate assembly 210 along the advancing direction of the tool 110; when the cutter 110 slides towards the direction close to the displacement plate assembly 210, the displacement plate assembly 210 connected with the cutter 110 drives the magnetic force meter 222 to rotate relative to the base 300, and the feed amount of the cutter 110 is judged according to the rotation amount of the magnetic force meter 222; when the tool 110 slides in a direction away from the displacement plate assembly 210, the magnetometer 222 rotates in a reverse direction relative to the base 300, and the tool retracting amount of the tool 110 is determined by the rotation amount of the magnetometer 222, as in the above-described process.

The parts that are always abutted against the displacement plate assembly 210 in the direction in which the tool 110 is pushed are not limited to the magnetometers 222, and the amount of feed and the amount of retraction of the tool 110 may be converted into parts that can be easily observed by an operator, such as a manometer.

In an optional technical solution of this embodiment, the displacement plate assembly 210 includes a horizontal displacement plate 211 and a vertical displacement plate 212 that are vertically connected;

the vertical displacement plate 212 is integrally connected to the horizontal displacement plate 211 and abuts against the pointer of the magnetic force gauge 222, and the horizontal displacement plate 211 is connected to the end of the cutter 110 away from the blade.

Specifically, as shown in fig. 1 and fig. 3, the vertical displacement plate 212 and the horizontal displacement plate 211 are connected perpendicularly to each other, and the section of the connected vertical displacement plate 212 and the section of the connected horizontal displacement plate 211 can be "L" shaped or "T" shaped, in the present application, a "T" shaped connection is adopted, one end of the cutter 110 away from the cutting edge is connected with the horizontal displacement plate 211 at a relative position, and the vertical displacement plate 212 abuts against a pointer of the magnetometer 222; when a product is clamped and sealed by the beveling and clamping device, the cutter 110 is pushed, the cutter 110 drives the vertical displacement plate 212 and the horizontal displacement plate 211 to move, the vertical displacement plate 212 drives the magnetic force meter 222 to rotate relative to the base 300, and the feed amount of the cutter 110 is judged according to the rotation amount of the magnetic force meter 222; the process of tool retracting is the same as that of tool feeding, the magnetic force meter 222 rotates reversely relative to the base 300, the tool retracting amount of the tool 110 is judged according to the rotation amount of the magnetic force meter 222, and an operator can conveniently observe the relative position of the tool 110 and a product.

The displacement plate assembly 210 may also only include a vertical displacement plate 212, the vertical displacement plate 212 is directly and fixedly connected to the cutter 110, the operation principle is the same as that described above, and the relative position between the cutter 110 and the product is determined by the rotation amount of the magnetic force meter 222 driven by the vertical displacement plate 212. The specific arrangement of the displacement plate assembly 210 may be selected according to specific requirements.

In an optional technical solution of this embodiment, the cutting edge of the cutter 110 is arc-shaped in the vertical direction and protrudes toward the direction close to the abutting assembly 120.

As shown in fig. 1, the cutting edge of the cutter 110 protrudes in the vertical direction toward the abutting assembly 120, and the cross section of the cutting edge may be circular arc, trapezoid or triangle. Different cutters 110 may be selected depending on the product to be sealed. In this application, the cross section of the cutter 110 in the vertical direction is selected to be circular arc, the radius of the circular arc can be set to be 1mm, 3mm or 5mm, the thickness of the whole cutter 110 is selected to be 5mm, and carbon tool steel or other materials with similar performance to the carbon tool steel are selected as the material of the cutter 110. When the cutter 110 with the arc-shaped section in the vertical direction clamps and seals a product, stress can be effectively prevented from being concentrated on the surface of the product, which is in contact with the cutter 110, so that the deformation of the product can be effectively reduced, and the integral post-treatment of the product is facilitated.

In an alternative embodiment, the abutment assembly 120 includes a top plate 121 and a backing plate 122.

The top plate 121 is fixedly connected to the base 300 at an included angle, and the backing plate 122 is fixedly disposed at one end of the top plate 121 close to the cutter 110.

The abutment assembly 120 may be replaced with the tool 110 depending on the situation.

Specifically, as shown in fig. 1 and fig. 2, the top plate 121 is fixedly connected to the side wall of the mounting groove on the base 300, the backing plate 122 is fixedly connected to a surface of the top plate 121 facing away from the side wall of the mounting groove, and the number of the backing plates 122 can be adjusted according to specific requirements; the top plate 121, the backing plate 122 and the cutter 110 form a bisection clamping and sealing space, and when a product is placed in the bisection clamping and sealing space, the top plate 121 and the backing plate 122 have a certain positioning effect on the product in the bisection clamping and sealing space, so that the cutter 110 can clamp and seal the product conveniently. According to different products, the abutting assembly 120 can be replaced by the cutter 110, the cutting edges of the two cutters 110 are oppositely arranged to form a pair of clamping and sealing spaces, the two cutters 110 can slide relative to the mounting groove on the base 300, or alternatively slide relative to the mounting groove on the base 300, and the other cutter and the mounting groove on the base 300 are oppositely and fixedly arranged.

In an optional technical solution of this embodiment, the clamping mechanism 100 further includes a vertical limiting member 130 and a horizontal limiting member 140;

the vertical limiting member 130 is vertically connected to the base 300 and disposed opposite to the abutting assembly 120, and the horizontal limiting member 140 is fixedly connected to an end surface of the base 300 to limit the vertical displacement of the cutter 110.

Specifically, as shown in fig. 1 and fig. 2, the vertical limiting member 130 and the backing plate 122 are relatively and fixedly connected to another sidewall of the mounting groove on the base 300, the horizontal limiting member 140 is fixedly disposed on the end surface of the base 300 corresponding to the cutter 110, the horizontal limiting member 140 limits the displacement of the cutter 110 in the vertical direction, so as to prevent the cutter 110 from being separated from the base 300 in the vertical direction, and meanwhile, when the cutter 110 is feeding, the cutter 110 has a certain guiding effect on the feeding and retracting direction of the cutter 110; the vertical limiting member 130 limits the displacement of the cutter 110 in the cutter advancing and retracting direction, so that the cutter 110 is prevented from being damaged by excessive cutter feeding amount during cutter feeding; the vertical limiting member 130 and the horizontal limiting member 140 are mutually matched to limit the cutter 110 from being separated from the base 300, so that the safety and the stability of the operation of the whole device are ensured.

In an optional technical solution of this embodiment, the base 300 is provided with an accommodating groove 310;

the cutter 110 and the horizontal displacement plate 211 are both slidably disposed in the accommodating groove 310.

Specifically, as shown in fig. 1 and fig. 2, when the receiving groove 310 is provided, a bottom wall of the receiving groove 310 may be higher than an end surface of the base 300, or may be lower than the end surface of the base 300, and in this application, the bottom wall of the receiving groove 310 may be lower than the end surface of the base 300; the accommodating groove 310 is matched with the vertical limiting piece 130 and the horizontal limiting piece 140, so that the separation of the cutter 110 and the base 300 is limited in three directions, and the operation safety and the operation stability of the whole device are ensured; meanwhile, the cutter 110 and the horizontal displacement plate 211 are guided in the cutter advancing and retracting direction, the cutter advancing and retracting direction of the cutter 110 is limited, and the accuracy of the cut and sealed product is ensured.

In an optional solution of this embodiment, the bisection clamp sealing apparatus further includes a driving assembly 400, and the driving assembly 400 includes a driving member 410 and a transmission member 420.

The driving member 410 is fixedly disposed on the base 300 and is in transmission connection with the transmission member 420, and the transmission member 420 is in transmission connection with the tool 110.

Specifically, as shown in fig. 1 and fig. 2, the driving element 410 provides a driving force to drive the driving element 420 to move, the driving element 420 drives the cutter 110 to perform transmission connection, and in the process of clamping and sealing a product by the bisection clamping and sealing device, the driving element 410 drives the cutter 110 to feed or withdraw, so that the cutter 110 does not need to be manually pushed, the acting force on the clamped and sealed product can be ensured to be consistent, the accuracy in feeding or withdrawing can also be ensured, and the consistency of the quality of the clamped and sealed product can be improved.

In the present application, two ends of the horizontal displacement plate 211 are respectively and fixedly disposed opposite to the end of the transmission member 420 and the end of the cutter 110 away from the cutting edge; the transmission member 420 may be connected to the tool 110 directly or through other components without interfering with other components, or the driving member 410 may be connected to the tool 110 directly, so as to drive the tool 110 to advance or retract.

In an optional technical solution of this embodiment, the driving member 410 is a hydraulic pump, and the transmission member 420 is a hydraulic jack;

the hydraulic pump is fixedly arranged on the base 300 and is connected with a hydraulic jack pipeline, and the hydraulic jack is abutted against the horizontal displacement plate 211.

As shown in specific combination of fig. 1 and fig. 2, the base 300 is provided with a holding tank for mounting a hydraulic jack, the hydraulic jack is mounted in the holding tank, and is connected with a hydraulic pump fixedly arranged on the base 300 through a pipeline, the hydraulic jack is abutted against one end of the horizontal displacement plate 211 departing from the cutter 110, when the product is clamped and sealed by the beveling and clamping device, the hydraulic pump starts to drive the hydraulic jack to stretch, the hydraulic jack drives the cutter 110 to feed or withdraw, the cutter 110 does not need to be manually pushed to feed or withdraw, and the randomness of the quality of the clamped and sealed product can be reduced. Other power sources can be selected for the driving member 410, such as a push rod motor or a rotating shaft motor.

In the optional technical solution of this embodiment, the center line of the hydraulic jack and the center line of the horizontal displacement plate 211 are on the same horizontal plane.

Specifically, as shown in fig. 1, the thickness of the horizontal displacement plate 211 is the same as that of the cutter 110, and the center line of the hydraulic jack, the center line of the horizontal displacement plate 211 and the center line of the cutter 110 are in the same horizontal plane, so that the cutter 110 can be lifted to be uniformly stressed all the time during feeding or retracting, and the consistency of the quality of a clamped and sealed product is improved.

When the displacement plate assembly 210 only comprises the vertical displacement plate 212, and the vertical displacement plate 212 is directly and fixedly connected with the cutter 110 vertically, the hydraulic jack is directly abutted against one end of the cutter 110, which is far away from the cutting edge, and the center line of the hydraulic jack and the center line of the cutter 110 are in the same horizontal plane; on the premise that the cutter 110 is uniformly stressed all the time when feeding or retracting, the hydraulic jack can be in transmission connection with the cutter 110 through other components.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A bisecting clip seal apparatus, comprising: the clamp comprises a clamping mechanism (100) and a displacement measuring mechanism (200), wherein the clamping mechanism (100) and the displacement measuring mechanism (200) are arranged on a base (300) at the same side, and the displacement measuring mechanism (200) is abutted to the clamping mechanism (100);

the butt clamp mechanism (100) comprises a cutter (110) and an abutting assembly (120), a cutting edge of the cutter (110) and the abutting assembly (120) are oppositely arranged to form a butt clamp sealing space, the displacement measuring mechanism (200) comprises a displacement plate assembly (210) and a magnetometer assembly (220), the displacement plate assembly (210) is connected to the cutter (110) in an included angle mode, the cutter (110) moves in the direction, and the displacement plate assembly (210) is abutted to the magnetometer assembly (220).

2. The bisecting clamp seal apparatus of claim 1, wherein the magnetic force gauge assembly (220) comprises a support (221) and a magnetic force gauge (222);

the supporting piece (221) is fixedly connected to the base (300) corresponding to the cutter (110), the magnetic force meter (222) is rotatably connected to the supporting piece (221), and a pointer of the magnetic force meter (222) abuts against the displacement plate assembly (210) along the advancing direction of the cutter (110).

3. The pair of pinch seals according to claim 2, wherein the displacement plate assembly (210) comprises a vertically connected horizontal displacement plate (211) and a vertical displacement plate (212);

the vertical displacement plate (212) is integrally connected with the horizontal displacement plate (211) and is abutted to a pointer of the magnetic force meter (222), and the horizontal displacement plate (211) is connected with one end, away from the cutting edge, of the cutter (110).

4. A split seal arrangement according to claim 1, characterized in that the cutting edge of the cutter (110) is rounded in the vertical direction and protrudes in a direction approaching the abutment member (120).

5. The bisecting clip seal of claim 1, characterized in that the abutment assembly (120) includes a top plate (121) and a backing plate (122);

the top plate (121) is fixedly connected to the base (300) in an included angle, and the backing plate (122) is connected to one end, close to the cutter (110), of the top plate (121);

the abutment assembly (120) can be exchanged for the tool (110) depending on the situation.

6. The bisecting clamp sealing device according to claim 1, wherein the clamping mechanism (100) further includes a vertical stopper (130) and a horizontal stopper (140);

the vertical limiting piece (130) is vertically connected with the base (300) and is arranged opposite to the abutting assembly (120), and the horizontal limiting piece (140) is fixedly connected with the end face of the base (300) so as to limit the displacement of the cutter (110) in the vertical direction.

7. A split clamp seal device according to claim 3, characterized in that said base (300) is provided with a receiving groove (310);

the cutter (110) and the horizontal displacement plate (211) are arranged in the accommodating groove (310) in a sliding mode.

8. The pair of pinch seal devices according to any one of claims 1 to 7, further comprising a driving assembly (400);

the drive assembly (400) comprises a drive member (410) and a transmission member (420);

the driving piece (410) is fixedly arranged on the base (300) and is in transmission connection with the transmission piece (420), and the transmission piece (420) is in transmission connection with the cutter (110).

9. The bisecting clamp sealing device according to claim 8, wherein the driving member (410) is provided as a hydraulic pump, and the transmission member (420) is a hydraulic jack;

the hydraulic pump is fixedly arranged on the base (300) and is connected with the hydraulic jack pipeline, and the hydraulic jack is abutted against the displacement plate component (210).

10. The bisecting clamp seal apparatus of claim 9, wherein a centerline of the hydraulic jack is at the same level as a centerline of the bottom surface of the displacement plate assembly (210).

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