TWM507827U - Pipe clamp structure - Google Patents

Description

Water pipe clamp construction

This creation is related to the construction of water pipe clamps, especially a water pipe clamp that can adjust the clamping diameter.

The conventional water pipe clamp is composed of two tongs 4 and 5 which are pivotally arranged as shown in Figs. One of the calipers 4 is provided with a long straight slot 41, and the other caliper 5 is disposed in the slot 41 by a pivot 51 having a ratchet 52; wherein the pivot 51 is permeable to control The yoke body 5 is detached from the sipe 41, so that the caliper body 5 can be slid relative to the caliper body 4, thereby adjusting the clamping diameter of the water pipe clamp, and then the control can be used to engage the pivot shaft 51 with the ratchet teeth 52 in the gullet 41 for fixing. The pivot 51 is positioned and the object is gripped by the set clamping diameter.
When the caliper body 5 is opened, it is blocked by a blocking portion 53 on the side surface 42 of the caliper body 4, thereby forming a maximum opening range. However, the side surface 42 of the caliper body 4 also forms a long straight shape corresponding to the shape of the gullet 41. This structural shape will reduce the expandable width of the caliper body 5 when it is opened, resulting in inconvenience in use.
On the other hand, as shown in FIG. 11, the gullet 41 is provided with a row of tooth portions 43 on both sides thereof, and the tooth portion 43 is in an upright shape from top to bottom, so that the user must control the pivot shaft 51. The position of the pivot shaft 51 in the tooth groove 41 can be adjusted completely away from the tooth groove 41, which is also one of the disadvantages of inconvenience in use.
In view of this, how to improve the above problems is the primary issue that the creative office wants to solve.

The main purpose of the present invention is to provide a water pipe clamp structure in which the side edges of the caliper body having the cogging are curved to allow the other caliper body to open a large angle, thereby improving the operability and convenience in use.
To achieve the foregoing objectives, the present invention provides a water pipe clamp construction comprising:
a first tong body having a first nip portion and a first shank portion at the two ends, and an actuating portion is disposed between the first tong portion and the first grip portion, and the actuating portion is disposed There is a through slot, and the left and right sides of the slot are respectively provided with a plurality of teeth; wherein the distance between the teeth on both sides of the slot is defined as the width of the slot, and the slot is formed toward the slot The first grip portion extends in a curved shape, and the side edge of the actuating portion also forms a curved shape corresponding to the tooth groove;
a second tong body having a second nip portion and a second shank portion at the two ends, and a second surface having a stepped surface between the second nip portion and the second shank portion; The tong body is opposite to the tooth gap of the first caliper body and intersects with the first caliper body; the second caliper body is provided with a blocking portion adjacent to the second tongs portion When the caliper body is opened relative to the first caliper body, the blocking portion is blocked by the side edge of the actuating portion of the first caliper body to limit the opening angle of the second caliper body;
a control member having a column portion having an outer diameter smaller than a width of the tooth groove, a top end of the column portion is provided with a pressing block, and the bottom end ring is provided with a rod portion and a chassis; the control member is worn by the column portion Provided in the through hole and the tooth groove, and the pressing block is located above the step surface; the position of the tooth portion can be moved by pressing the pressing block to engage or disengage the tooth block of the tooth groove.
The pillar portion of the control member is provided with an elastic member, and the two ends of the elastic member respectively abut against the pressing block and the step surface.
Further, the device further includes a bridge member; the bridge member and the second caliper body are respectively disposed on upper and lower sides of the slot of the first caliper body, and the bridge member is fixed to the second caliper body, and The chassis of the control member is pivotally mounted on the bridge member. And two connecting blocks are integrally formed on the second tong body, and the two connecting blocks are respectively located on two sides of the actuating portion of the first caliper body, and two ends of the bridging member are respectively fixed to the two connecting blocks.
In one embodiment, the upper and lower sides of the tooth block of the cogging protrude toward each other such that the width of the tooth groove is formed in a state of narrow upper and lower width or upper width and lower narrow, and the rod portion of the control member is also formed. The shape corresponding to the width of the gullet.
In one embodiment, the forging flow line of the first caliper body extends in a direction in which the first caliper body extends, and the forging flow line of the second caliper body extends in a direction in which the second caliper body extends.
The characteristics of this creation are as follows:
1. The first and second calipers can be manufactured by the direction of the forging flow line, and the first and second calipers are overlapped and pivoted by the bridge members, without being hollowed out and removed on the second tong body. The first caliper body has a passage through which the first caliper body has a high structural strength, and the first and second caliper bodies can be connected through the bridge member during assembly, which is convenient for assembly work.
2, the elastic member can be implemented with different cross-sectional areas at both ends, for example, in the shape of a cone, so that the elastic member is better installed at the step, that is, if the step is a narrow space, the cone The shape of the elastic member can be properly adapted to the shape at the step, thereby improving the ease of assembly.
3. The angle limiting body (rodent part, chassis) is made by forging/metal injection, and the forging/metal injection method enables the metal to be effectively molded into a mode, retaining the metal strength, and changing and adjusting the metal streamline. The trend is more consistent, so that in addition to the shape of the appropriate rod shape by forging/metal injection, the bite strength and resistance of the rod portion are preserved.
The above objects and advantages of the present invention are not to be understood in detail from the detailed description and the accompanying drawings.

1‧‧‧First caliper 11‧‧‧First nipple 12‧‧‧First grip 13‧‧‧Activity 131‧‧‧Side 14‧‧‧Girdle 15‧‧‧8 2‧ ‧‧Second caliper 21‧‧‧Second nipple 22‧‧‧Second gripper 23‧‧‧Perforated 231‧‧‧Step 24‧‧‧Blocking section 25‧‧‧Bridges 251‧‧‧ Grouping holes 252‧‧‧through holes 253‧‧‧ bulging 254‧‧‧End 26‧‧‧ Connection block 3‧‧‧Controls 31‧‧‧ Columns 32‧‧‧ Pressing blocks 33‧‧‧ rodents Department 34‧‧‧ Chassis 35, 35B‧‧‧ Elastic parts 4, 5‧‧ ‧ Body 41‧‧‧ Cavities 42‧‧‧ Side 43‧‧‧ Teeth 51‧‧‧ Pivot 52‧‧‧thorn Tooth 53‧‧ ‧ blocking

Figure 1 is a perspective view of the creation;
Figure 2 is a three-dimensional exploded view of the creation;
Figure 3 is a partial exploded view of another perspective of the creation;
Figures 4 and 5 are schematic plan views of the creation, showing its forging streamlines;
Figure 6 is a schematic view showing the state of use of the creation when it is opened;
Figures 7 and 8 are schematic cross-sectional views showing the state of use of the creative control member;
Figure 9 is a schematic view showing another embodiment of the creative elastic member;
Figure 10 is a plan view of a conventional structure;
Figure 11 is a schematic cross-sectional view showing the state of use of the conventional structure.

Please refer to FIG. 1 to FIG. 3 , which shows the water pipe clamp structure provided by the present invention, which mainly includes a first caliper body 1 , a second caliper body 2 and a control member 3 . The two ends of the first caliper body 1 are a first caliper portion 11 and a first shank portion 12, and the two ends of the second caliper body 2 are respectively a second nipper portion 21 and a second handle portion. a portion 22, and the forging flow lines of the two caliper bodies 1 and 2 extend in a direction in which the two caliper bodies 1 and 2 extend as shown in FIGS. 4 and 5, whereby the two caliper bodies 1 and 2 can be added in this direction. Tensile strength.
An actuating portion 13 is disposed between the first jaw portion 11 and the first grip portion 12, and the actuating portion 13 is provided with a through slot 14 extending through the slot 14 A plurality of tooth blocks 15 are respectively disposed on the left and right sides of the inner side. Further, the tooth groove 14 is defined to form an arc extending toward the first handle portion 12, and one side surface 131 of the actuating portion 13 is also formed in an arc shape corresponding to the tooth groove 14. In addition, the distance between the tooth blocks 15 on both sides of the tooth groove 14 is defined as the width of the tooth groove 14. In the present embodiment, the upper sides of the tooth blocks 15 are opposed to each other, so that the width of the tooth groove 14 is narrowed. The state of the lower width. Conversely, each of the tooth blocks 15 may also have another structural shape in which the lower side faces outwardly, so that the width of the tooth groove 14 is formed to be wide and narrow.
On the other hand, the second caliper body 2 is provided with a through hole 23 having a step surface 231 between the second caliper portion 21 and the second handle portion 22, and the second caliper body 2 is aligned with the through hole 23 The slot 14 of the first caliper body 1 is overlapped with the first caliper body 1 and is disposed in the through hole 23 and the slot 14 by a control member 3, thereby pivoting the first caliper body 1 and the second caliper body 2. The second caliper body 2 is disposed adjacent to the second caliper portion 21 with a blocking portion 24. When the second caliper body 2 is opened relative to the first caliper body 1, the blocking portion 24 is blocked by the first tongs. The side surface 131 of the actuating portion 13 of the body 1 limits the opening angle of the second caliper body 2. As shown in FIG. 6, since the side surface 131 of the actuating portion 13 of the first caliper body 1 is curved, the second caliper body 2 can be increased compared with the long straight shape of the conventional structure in FIG. The extent of the opening, thereby increasing the clamping diameter of the water pipe clamp, is more convenient to use.
In addition, as shown in FIG. 3, in the present embodiment, a bridge member 25 is further included, and the bridge member 25 and the second caliper body 2 jointly hold the first caliper body 1. In detail, the middle portion of the bridge member 25 has a ridge portion 253, and a plurality of connecting holes 251 are respectively formed at the end portions 254 of the two sides of the ridge portion 253. On the other hand, the second tong body 2 is integrally protruded. There are two connecting blocks 26, and the two connecting blocks 26 are respectively located on both sides of the actuating portion 13 of the first caliper body 1. Accordingly, the bridging member 25 is connected to the actuating portion 13 of the first caliper body 1 with the ridge portion 253, and is connected to the two connecting blocks 26 of the second caliper body 2 by the connecting holes 251 at both ends, so as to be The bridge member 25 is fixed to the second caliper body 2 and sandwiches the first caliper body 1 together with the second caliper body 2 .
It is to be noted that the bridge member 25 is formed in a middle ridge shape so that the first caliper body 1 and the second caliper body 2 can be pivotally connected while extending along the forging flow line. The shape, rather than making any of the calipers curved. Accordingly, the two caliper bodies 1, 2 can achieve high bending strength by their shapes, and the two can be firmly connected by the bridge member 25.
The first caliper body 1 and the second caliper body 2 can adjust the position of the pivoting of the first caliper body 1 and the second caliper body 2 to adjust the clamping diameter. In detail, as shown in FIGS. 2 and 7, the control member 3 has a column portion 31 in which the outer diameter of the column portion 31 is smaller than the width of the tooth groove 14. A pressing block 32 is disposed at a top end of the column portion 31, and a bottom portion ring is provided with a rod portion 33 and a bottom plate 34. In the embodiment, the rod portion 33 is formed into a trapezoidal shape corresponding to the shape of the slot 14 And matingly engages the tooth block 15 in the slot. The control member 3 is disposed in the through hole 23 and the slot 14 by the column portion 31, and the pressing block 32 is located above the step surface 231, and the rod portion 33 is engaged with the tooth block 15 of the slot 14 The chassis 34 is disposed in one of the through holes 252 of the bridge member 25.
The position of the rod portion 33 described above can be changed by the control of the control member 3. In this embodiment, as shown in FIG. 7, the column portion 31 of the control member 3 is provided with an elastic member 35. The elastic member 35 is a spring, and the two ends thereof respectively abut the pressing block 32 and the same. The perforated step 231 is thereby biased against the pressing block 32 so that the rod portion 33 can be normally engaged in the slot. When the user presses the pressing block 32, as shown in FIG. 8, the elastic member 35 is compressed, and the rod portion 33 is disengaged from the slot 14 to release the first caliper body and the second caliper body. Relatively fixed state.
In another embodiment, as shown in FIG. 9, the elastic member 35B may also be formed in a trapezoidal shape, that is, the outer diameters of the two ends are different; accordingly, the elastic member 35B may have a diameter of the step 231. The shape is such that the elastic member 35B is properly mounted to the step surface 231, so that the shape change of the elastic member 35B can improve the mounting convenience in a narrow space.
As shown in FIG. 8 , due to the shape of the tooth groove 14 and the toothed portion 33, when the control member 3 is operated, the pressing block 32 can be pressed and moved without being too long, that is, the rod portion 33. The relative fixing state of the first caliper body and the second caliper body can be released without completely disengaging the gullet 14; in other words, only a slight pressing is required to disengage the toothed portion 33 from the tooth block in the gullet 14. 15 can be used, thereby further improving the convenience of use.
It is further illustrated that the rod portion 33 and the chassis 34 are formed by forging/metal injection, which can effectively shape the metal, change the metal structure, strengthen the metal performance, and change and adjust the metal flow line to be more consistent. That is, the rod portion 33 and the chassis 34 can be shaped according to requirements during the forging/metal ejection process, and have better bite resistance, and maintain the strength and resistance of the rod portion 33 during operation.
However, the disclosure of the above embodiments is intended to illustrate the present invention and is not intended to limit the present invention, so the replacement of equivalent elements should still be within the scope of this creation.
In summary, it can be made clear to the skilled person that the creation can achieve the aforementioned objectives, and it has already met the requirements of the Patent Law and submitted an application according to law.

1‧‧‧ first tong body

13‧‧‧Operation Department

131‧‧‧ side

2‧‧‧Second caliper

24‧‧‧Block

Claims (6)

[Item 1] A water pipe clamp construction comprising:
a first tong body having a first nip portion and a first shank portion at the two ends, and an actuating portion is disposed between the first tong portion and the first grip portion, and the actuating portion is disposed There is a through slot, and the left and right sides of the slot are respectively provided with a plurality of teeth; wherein the distance between the teeth on both sides of the slot is defined as the width of the slot, and the slot is formed toward the slot The first grip portion extends in a curved shape, and the side edge of the actuating portion also forms a curved shape corresponding to the tooth groove;
a second tong body having a second nip portion and a second shank portion at the two ends, and a second surface having a stepped surface between the second nip portion and the second shank portion; The tong body is opposite to the tooth gap of the first caliper body and intersects with the first caliper body; the second caliper body is provided with a blocking portion adjacent to the second tongs portion When the caliper body is opened relative to the first caliper body, the blocking portion is blocked by the side edge of the actuating portion of the first caliper body to limit the opening angle of the second caliper body;
a control member having a column portion having an outer diameter smaller than a width of the tooth groove, a top end of the column portion is provided with a pressing block, and the bottom end ring is provided with a rod portion and a chassis; the control member is worn by the column portion Provided in the through hole and the tooth groove, and the pressing block is located above the step surface; the position of the tooth portion can be moved by pressing the pressing block to engage or disengage the tooth block of the tooth groove;
a bridge member, the bridge member and the second caliper body are respectively disposed on upper and lower sides of the slot of the first caliper body, and the bridge member is fixed to the second caliper body, and the chassis of the control member It is worn on the bridge. [Item 2] The water pipe clamp structure of claim 1, wherein the column portion of the control member is provided with an elastic member, and the two ends of the elastic member respectively abut the pressing block and the step surface. [Item 3] The water pipe clamp construction of claim 2, wherein the outer ends of the elastic members have different outer diameters. [Item 4] The water pipe clamp structure of claim 1, wherein the second tong body is integrally provided with two connecting blocks, and the two connecting blocks are respectively located at two sides of the actuating portion of the first caliper body, and the bridge member is The two ends are respectively fixed to the two connection blocks. [Item 5] The water pipe clamp structure of claim 1, wherein the upper and lower sides of the tooth block of the tooth groove protrude toward each other, so that the width of the tooth groove is formed into a state of narrow upper and lower width or upper width and lower narrow, and the The rod portion of the control member also forms a shape corresponding to the width of the gullet. [Item 6] The water pipe clamp structure of claim 1, wherein the forging flow line of the first caliper body extends in a direction in which the first caliper body extends, and the forging flow line of the second caliper body extends along the second caliper body The direction extends.