CN217581037U - Rotating shaft type metal line installation mechanism - Google Patents

Abstract

The utility model discloses a rotating shaft type metal line installation mechanism, which comprises a metal line, an installation component and a connecting piece, wherein the installation component comprises a first installation piece, a second installation piece, a rotating shaft, a transfer shaft and a base; the first mounting part is provided with a first mounting surface and a sliding groove which are arranged oppositely; the second mounting part is provided with a notch arranged in a back direction and a sliding block matched with the sliding groove, and two sides of the notch are respectively provided with a first through shaft hole; the transfer shaft is provided with a through hole and a connecting rod, and the through hole of the through hole is vertical to the connecting rod; the base is provided with a second mounting surface and a second through shaft hole; the connecting piece has the connection face and is arranged and perpendicular to the third installation face of connecting the face both ends homonymy, and the connection face is used for being connected fixedly with the major structure. The utility model discloses can realize the installation regulation of metal lines in a plurality of angles and direction, and overall structure processing is simple, convenient operation.

Description

Rotating shaft type metal line installation mechanism

Technical Field

The utility model belongs to the technical field of metal lines installation in the building structure, in particular to pivot formula metal lines installation mechanism.

Background

The existing metal line installation node is rough, the field installation accuracy control is not ideal, and the method mainly embodies that: 1) The conventional metal line mounting node needs to cut the end part of the line at multiple angles to realize rotation in a plane, if the angle is too large, the processing precision of the line is difficult to ensure, and the site is extremely difficult to control; 2) Conventional metal lines installation node need design the angle sign indicating number of multi-angle in order to adapt to the multi-angle problem outside the plane, if the angle is too much, causes a large amount of angle sign indicating numbers die sinking cost, and is not easy to control.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a pivot formula metal lines installation mechanism can realize the installation regulation of metal lines in a plurality of angles and direction, and overall structure processing is simple, convenient operation.

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

a rotating shaft type metal line installation mechanism comprises a metal line, installation components arranged at two ends of the metal line, and connecting pieces used for connecting adjacent installation components, wherein each installation component comprises a first installation piece, a second installation piece, a rotating shaft, a transfer shaft and a base; the first mounting part is provided with a first mounting surface and a sliding groove which are arranged oppositely; the second mounting piece is provided with a notch arranged in a back direction and a sliding block matched with the sliding groove, and two sides of the notch are respectively provided with a first through shaft hole; the transfer shaft is provided with a through hole and a connecting rod, and the through hole direction of the through hole is vertical to the connecting rod; the base is provided with a second mounting surface and a second through shaft hole; the connecting piece is provided with a connecting surface and a third mounting surface which is arranged on the same side of two ends of the connecting surface and is vertical to the connecting surface, and the connecting surface is used for being connected and fixed with the main body structure; when the combined installation is carried out, the sliding block of the second installation part is inserted into the sliding groove of the first installation part, and is fixedly connected with the first installation part after being adjusted in place in a sliding manner in the Z-axis direction; the rotating shaft is inserted into the through hole of the switching shaft and the first through hole of the second mounting piece; the connecting rod of the transfer shaft penetrates through a second shaft passing hole of the base, and the base is fixedly connected with a third mounting surface of the connecting piece through a second mounting surface; the metal lines are fixedly connected with the first mounting surface of the first mounting part, the metal lines are driven to rotate in the first direction through the rotating shaft, and the metal lines are driven to rotate in the second direction through the connecting rod of the transfer shaft.

Optionally, the mounting assembly further comprises a clamp; the clamp is provided with a clamp body, bayonets and clamp skirt edges arranged at two ends of the bottom of the clamp body; a journal is arranged on a connecting rod of the transfer shaft; the base is also provided with an installation groove for installing the clamp; when the connecting rod is assembled, the hoop is arranged in the mounting groove and clamped at the position of the shaft neck, and the skirt edge of the hoop is fixedly connected with the mounting surface of the base so as to limit the connecting rod to move axially.

Optionally, a first long hole is formed in the connecting surface of the connecting piece, and position adjustment of the connecting piece in the Z-axis direction is achieved through the first long hole. After the adjusting device is adjusted in place, the connecting piece and the target main body can be fixedly connected through the bolts and the gaskets which are used in a matched mode.

Optionally, a second long hole is formed in the mounting surface of the connecting piece, and position adjustment of the metal lines in the X-axis direction is achieved through the second long hole. After the base is adjusted in place, the base, the clamp and the connecting piece are connected and fixed through the screws and the gaskets which are used in a matched mode.

Optionally, the mounting surface of the base and the hoop skirt of the hoop are correspondingly provided with third long holes, and position adjustment of the metal lines in the Y-axis direction is achieved through the third long holes. After the base is adjusted in place, the base, the clamp and the connecting piece are connected and fixed through the screws and the gaskets which are used in a matched mode.

Optionally, the first long hole, the second long hole and the third long hole are connected and fixed by a screw and a gasket used in cooperation.

Optionally, the contact surfaces of the first long hole, the second long hole and the third long hole and the gasket are in a tooth-shaped structure.

Optionally, two ends of the rotating shaft and the end of the connecting rod of the transfer shaft are respectively provided with an anti-falling mechanism.

Optionally, the anti-dropping mechanism is a plug, and the plugs are respectively arranged at two ends of the rotating shaft and at the end of the connecting rod; or the anti-falling mechanism comprises a machine thread hole and a screw arranged in the machine thread hole, and the machine thread hole is formed in the two ends of the rotating shaft and the end part of the connecting rod.

Optionally, the cross sections of the sliding groove and the sliding block are dovetail-shaped.

The utility model adopts the above technical scheme, following beneficial effect has:

(1) The utility model discloses an ingenious cooperation between pivot and the changeover shaft can realize that the metal lines is at two planar multi-angle rotating.

(2) The utility model discloses a spout of first installed part and the cooperation of the slider of second installed part are used, can realize that the metal lines compares in the position control of target main part on Z axle direction (vertical direction).

(3) The utility model can realize the position adjustment of the connecting piece relative to the target main body and further realize the position adjustment of the metal line in the Z-axis direction by arranging the long hole on the connecting surface of the connecting piece; the position of the metal line in the X-axis direction (front-back direction) can be adjusted by arranging the long hole on the mounting surface of the connecting piece; the elongated hole is formed in the mounting surface of the base, so that the position of the metal line in the Y-axis direction (left-right direction) can be adjusted.

(4) The utility model discloses a set up the axle journal on the changeover shaft to cooperation through the clamp is used, realizes the relatively fixed of changeover shaft and base, avoids rotating the in-process slippage.

(5) The utility model discloses an angle and position adjustable metal lines installation mechanism enables the adaptability of metal lines wider to can reduce the processing of multi-angle complicated, the many problems of mould kind, greatly reduced the cost of manufacture, promote the installation effectiveness.

Drawings

FIG. 1 is a schematic view of the installation of a metal wire mounting mechanism 1;

FIG. 2 is a schematic structural diagram of a metal wire mounting mechanism;

fig. 3 is a schematic structural view of the first mounting member 02;

fig. 4 is a schematic structural view of the second mounting member 03;

FIG. 5 is a schematic structural diagram of a T-shaped adapter shaft 05;

FIG. 6 is a schematic view of the installation of the wire line mounting mechanism 2;

fig. 7 is a schematic structural view of the base 07;

fig. 8 is a schematic structural view of the clamp 08;

fig. 9 is a schematic structural view of the connecting member 06;

fig. 10 is a schematic structural view of a tooth-shaped gasket 09;

FIG. 11 is a schematic view of the installation of the wire line mounting mechanism 3;

FIG. 12 is a schematic view of the installation of the wire line mounting mechanism 4;

FIG. 13 is a schematic view of the installation of the wire mounting mechanism 5;

FIG. 14 is a schematic view of the installation of the wire line mounting mechanism 6;

FIG. 15 is a schematic view of the position and angle adjustment of the metal wire mounting mechanism;

the attached drawings are marked as follows: 01-metal lines; 02-first mount, 021-mount, 022-dovetail; 03-a second mounting member, 031-Yan Weikuai, 032-a notch, 033-a through-shaft hole; 04-a rotating shaft; 05-T type transfer shaft, 051-through hole, 052-connecting rod and 053-shaft neck; 06-connecting piece, 061-connecting surface, 062-mounting surface, 063-slot; 07-a base, 071-a mounting surface, 072-a shaft passing hole, 073-a mounting groove and 074-a screw hole (or a long hole); 08-clamp, 081-clamp body, 082-clamp skirt, 083-bayonet, 084-screw hole (or long hole), and long hole 083; 09-tooth-shaped gasket; 101-bolt, 102-screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

In the description of the present invention, it should be noted that, if terms indicating directions or positional relationships such as "up", "down", "front", "back", "left", "right", "inside", "outside" appear, they are based on the directions or positional relationships shown in the drawings, and are only for convenience of description of the present invention and simplification of description, but not for indicating or implying that the indicated device or element must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. The "X-axis direction", "Y-axis direction", and "Z-axis direction" are three mutually perpendicular directions based on an XYZ-axis coordinate system; the "R1 direction" and "R2 direction" appearing refer to directions of rotation about respective axes.

The embodiment discloses a rotating shaft type metal wire installation mechanism which mainly comprises a metal wire 01, installation components arranged at two ends of the metal wire and a connecting piece used for connecting the adjacent installation components. Wherein, the installation component mainly includes first installed part 02, second installed part 03, pivot 04, switching axle 05, base 07 and clamp 08, uses through the cooperation of each part and realizes that metal lines 01 is in position control and angle of a plurality of directions and rotate.

As shown in fig. 3 and 4, the first mounting member 02 and the second mounting member 03 may be integrally formed as a bar-shaped structure, or may be formed with a profiled appearance in other embodiments. The first mounting part 02 includes a mounting surface 021 and a dovetail groove 022, the second mounting part 03 includes a dovetail block 031 and a notch 032, and two through-shaft holes 033 arranged oppositely are further provided on both sides of the notch 032. Wherein, the cross-section of dovetail 022 and forked tail piece 031 is the dovetail, and the shape size phase-match, accessible dovetail 022 and forked tail piece 031 joint and then connect first installed part 02 and second installed part 03 fixedly. When the installation, forked tail piece 031 can slide from top to bottom in dovetail 022 to the position of Z axle direction is adjusted in the convenience, and the installation back in place, accessible is nailed fixedly at the rear side of dovetail 022 and forked tail piece 031, perhaps installs hexagonal mechanism screw and fixes in dovetail 022. In other embodiments, the dovetail groove 022 and the dovetail block 031 may have other matching cross-sectional shapes, so long as the two can be engaged and slid relative to each other.

Referring to fig. 5 and 6, the T-shaped adapter shaft 05 includes a through hole 051, a connecting rod 052 and a journal 053, wherein the through hole 051 is disposed at one end of the connecting rod 052, and the through hole direction is perpendicular to the connecting rod 052, and is mainly used for penetrating the rotating shaft 04. Journal 053 is disposed on link 052 and can be used to quickly locate and install clip 08. In other embodiments, the journal 053 may not be provided, and the clamp 08 may be directly mounted on the connecting rod 052 for fixing. The length of the through-hole 051 matches with the width of the notch 032 of the second mounting part 03 so as to be mounted between two through-hole holes 033 on the notch 032 in the second mounting part 03. The hole diameters of the through hole 051 and the through hole 033 are both adapted to the diameter of the rotating shaft 04 so that the rotating shaft 04 can be conveniently penetrated, wherein the hole diameter of the through hole 051 is slightly larger than the diameter of the rotating shaft 04, and the rotating shaft 04 can rotate in the through hole 051. After the rotating shaft 04 and the T-shaped adapter shaft 05 are installed, plugs are arranged at two ends of the rotating shaft 04, or the rotating shaft 04 and the second mounting part 03 are relatively fixed or do not get rid of grooves by adopting welding, machine-made screws and other forms.

As shown in fig. 7, the base 07 mainly includes a mounting surface 071, a through-axis hole 072 and a mounting groove 073, and the diameter of the through-axis hole 072 is adapted to the diameter of the connecting rod 052 of the T-shaped adapter shaft 05 so as to be able to penetrate the connecting rod 052. The through-axis holes 072 have two oppositely arranged on the mounting surface 071, and the mounting groove 073 is provided between the two through-axis holes 072. During installation, a connecting rod 052 of the T-shaped adapter shaft 05 penetrates through the two shaft passing holes 072, and the position of the installation groove 073 corresponds to a shaft neck 053 of the connecting rod 052, so that the clamp 08 is installed on the connecting rod 052. The diameter of the through-hole 072 is matched with the diameter of the connecting rod 052, so that the connecting rod 052 of the T-shaped adapter shaft 05 can rotate in the through-hole 072. Screw holes 074 can be formed in the mounting surface 071 of the base 07 to be fixedly connected to the connecting member 06 by a screw connection. Of course, in other embodiments, the screw holes 074 may not be provided, and the mounting surface 071 and the connecting member 06 may be directly welded and fixed.

As shown in fig. 8, the clamp 08 mainly includes a clamp body 081, a clamp skirt 082 and a bayonet 083, the cross section of the bayonet 083 may be an arc opening as shown in fig. 8, or may be a circular opening corresponding to the position of the through-shaft hole 072 of the base 07 as shown in fig. 10, as long as the connection rod 052 of the T-shaped adapting shaft 05 can be inserted and rotated. Preferably, the inner diameter of the circular opening or circular opening is adapted to the journal 053 of the connecting rod 052, whereby the base 07 is locked against slipping during rotation. The two sides of the clamp body 081 are connected with a clamp skirt 082, similar to an arch structure, and the thickness of the clamp 08 is adapted to the width of the mounting groove 073 of the base 07. During installation, after the position of the base 07 is adjusted, the base 07 can be further fixed on the connecting piece 06 through the clamp 08, specifically, a screw hole 084 corresponding to the screw hole 074 can be arranged on a clamp skirt 082, and screws are installed in the screw hole 074 and the screw hole 084, so that the base 07 is fixed with the installation surface 071 of the base 07 in a threaded connection manner, and the base 07 is prevented from moving in the X-axis direction.

As shown in fig. 9, the connecting member 06 mainly includes a connecting surface 061 and mounting surfaces 062 disposed at both ends of the connecting surface 061, and the mounting surfaces 062 are parallel to each other and perpendicular to the connecting surface 061, and are similar to a "shape" as a whole. The connecting surface 061 of the connecting piece 06 is fixedly connected with a target body (such as an outer surface of a building, an industrial product, etc.), and the mounting surface 062 is respectively connected with the base 07, thereby realizing the mounting and fixing of the metal wire. Preferably, each mounting surface 062 is provided with a pair of long holes 063, which can realize the position adjustment of the base 07 in the X-axis direction, and after the adjustment is completed, the locking fixation is realized through the tooth-shaped gasket 09. A pair of long holes 063 can also be provided on the connection surface 061, so that the installation position of the connection member 06 in the Z-axis direction can be adjusted, that is, the position of the metal wire installation mechanism in the Z-axis direction relative to the target body can also be locked and fixed by the tooth-shaped gasket 09 after the adjustment.

As shown in fig. 11, the tooth-shaped gasket 09 includes at least one rough surface 091 with a tooth-shaped structure, and further includes a screw hole 092, so that the tooth-shaped structure can increase the friction force of the contact surface, prevent sliding, and better achieve locking fixation. Of course, in other embodiments, the rough surface 091 can have other non-smooth configurations as long as increased friction is achieved.

As shown in fig. 11 and 14, alternatively, the screw hole 074 on the mounting surface 071 of the base 07 may be replaced by a long hole 074 arranged along the Y-axis direction, and correspondingly, the screw hole 084 on the clamp skirt 082 of the clamp 08 may also be replaced by a long hole 084, and the screw hole cooperates with the tooth-shaped gasket 09 to achieve position fixing. The slot 074 and the slot 084 can be designed to allow the base 07 to move in the Y-axis direction.

As shown in fig. 12, in other embodiments, this part of the clip 08 can be omitted, the base 07 does not need to be provided with the mounting groove 073, and the two through-shaft holes 072 are connected to form a whole, so that the base 07 and the connecting piece 06 can be directly connected and fixed. In this case, the journal 053 does not need to be provided on the connecting rod 052 of the T-shaped joint shaft 05. This configuration is a relatively more simplified design and also allows rotation of the base 07 about the link 052 of the T-shaped swivel 05. In this configuration, a screw hole and a nail (the diameter of the head of the screw is larger than the diameter of the 072 through-hole) may be provided in the end of the link 052 of the T-shaped adapter shaft 05, or a welded plug may be provided in the end to prevent the base 07 from coming off the groove.

Referring to fig. 11, 2, 6, 13 and 14, the spindle-type metal wire mounting mechanism according to the embodiment may be assembled and mounted by the following steps:

the installation surface 021 of the first installation part 02 is fixedly connected with the top end and the bottom end of the side edge of the metal line 01, specifically, the first installation part 02 and the metal line 01 can be fixedly installed by adopting screws, bolts and the like in a threaded connection mode, or can also be fixedly installed by adopting a welding mode and the like.

The rotating shaft 04 is inserted into the through-hole 033 of the second mounting member 03 and the through-hole 051 of the T-shaped adapting shaft 05, and the rotating shaft 04 and the second mounting member 03 are relatively fixed or do not separate from the groove in a mode of arranging a plug, welding, a machine-made screw and the like, so that the second mounting member 03, the rotating shaft 04 and the T-shaped adapting shaft 05 are connected, and the connecting rod 052 of the T-shaped adapting shaft 05 can rotate around the rotating shaft 04.

The dovetail block 031 of the second mounting member 03 is slid into the dovetail groove 022 of the first mounting member 02 to achieve clamping, the height of the second mounting member 03 in the Z-axis direction is adjusted, and the first mounting member 02 and the second mounting member 03 are fixed after the adjustment is completed, so that the assembly structure shown in fig. 6 is obtained.

The base 07 is sleeved on the connecting rod 052 of the T-shaped transfer shaft 05 through the through shaft hole 072 of the base 07, the mounting surface 071 of the base 07 and the mounting surface 062 of the connecting piece 06 are fixedly connected, and the relative position of the base 07 and the connecting piece 06 in the Y-axis direction is adjusted through the long hole 063 on the mounting surface 062. After the adjusting in place, a gasket 09 is arranged on the inner side of the mounting surface 071, and the base 07 and the connecting piece 06 are mounted and fixed through bolts. By using the base 07C, the possibility of adjustment of the metal lines in the Y-axis direction and the possibility of horizontal angular rotation can be increased on the basis of fig. 13.

As shown in fig. 15, the rotary shaft type metal line installation mechanism disclosed in the present invention can still flexibly rotate the metal line according to the installation or effect requirement after the installation is completed, and specifically can realize the requirement of the rotation of the out-of-plane angle of the metal line through the rotary shaft 04 (the direction of R1 indicated in fig. 15); the requirement for angular rotation in the plane of the wire (the R2 direction indicated schematically in fig. 15) is achieved by the swivel shaft 05. In the installation process, the vertical up-and-down adjustment of the metal wire (in the Z-axis direction illustrated in FIG. 15) is realized through the matched use of the first installation part 02 and the second installation part 03; the metal lines are adjusted back and forth through the long holes on the mounting surface of the connecting piece 06 (in the X-axis direction shown in fig. 15); the metal lines are adjusted left and right through the long holes in the base 07 (in the Y-axis direction shown in fig. 15); the metal strand is adjusted to the left and right (in the Y-axis direction as shown in fig. 15) by means of elongated holes in the connecting surfaces of the connecting elements 06.

Therefore, the utility model discloses an equipment cooperation effect of essential element such as first installed part, second installed part, pivot, switching axle, base and connecting piece can realize the metal lines and adjust in a plurality of angles and ascending nimble, and easy operation, has promoted installation effectiveness and accuracy control greatly.

Finally, it should be noted that, although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above-mentioned embodiments and application fields, and the above-mentioned embodiments are only illustrative and instructive, but not limiting. Those skilled in the art, having the benefit of this disclosure, may effect numerous modifications thereto without departing from the scope of the invention as defined by the claims.

Claims (10)

1. A rotating shaft type metal wire installation mechanism is characterized by comprising a metal wire, installation components arranged at two ends of the metal wire and a connecting piece used for connecting adjacent installation components, wherein each installation component comprises a first installation part, a second installation part, a rotating shaft, a transfer shaft and a base;

the first mounting part is provided with a first mounting surface and a sliding groove which are arranged oppositely; the second mounting part is provided with a notch arranged in a back direction and a sliding block matched with the sliding groove, and two sides of the notch are respectively provided with a first through shaft hole; the transfer shaft is provided with a through hole and a connecting rod, and the through hole direction of the through hole is vertical to the connecting rod; the base is provided with a second mounting surface and a second through shaft hole; the connecting piece is provided with a connecting surface and a third mounting surface which is arranged on the same side of two ends of the connecting surface and is vertical to the connecting surface, and the connecting surface is used for being connected and fixed with the main body structure;

when the combined installation is carried out, the sliding block of the second installation part is inserted into the sliding groove of the first installation part, and is fixedly connected with the first installation part after being adjusted in place in a sliding manner in the Z-axis direction; the rotating shaft is inserted into the through hole of the switching shaft and the first through hole of the second mounting piece; the connecting rod of the transfer shaft penetrates through a second shaft passing hole of the base, and the base is fixedly connected with a third mounting surface of the connecting piece through a second mounting surface; the metal lines are fixedly connected with the first mounting surface of the first mounting part, the metal lines are driven to rotate in the first direction through the rotating shaft, and the metal lines are driven to rotate in the second direction through the connecting rod of the transfer shaft.

2. The spool-type wire mounting mechanism of claim 1 wherein the mounting assembly further comprises a clip; the clamp is provided with a clamp body, bayonets and clamp skirt edges arranged at two ends of the bottom of the clamp body; a journal is arranged on a connecting rod of the transfer shaft; the base is also provided with a mounting groove for mounting the clamp;

when the connecting rod is assembled, the hoop is arranged in the mounting groove and clamped at the position of the shaft neck, and the skirt edge of the hoop is fixedly connected with the mounting surface of the base so as to limit the connecting rod to move axially.

3. A rotary shaft type metal wire installation mechanism as claimed in claim 1 or 2, wherein the connecting surface of the connecting piece is provided with a first long hole, and the position of the connecting piece in the Z-axis direction is adjusted through the first long hole.

4. The rotary shaft type metal wire installation mechanism of claim 3, wherein a second long hole is arranged on the installation surface of the connecting piece, and the position of the metal wire in the X-axis direction is adjusted through the second long hole.

5. The pivot-type wire mounting mechanism of claim 4 wherein the mounting surface of the base and the skirt of the clip are provided with third elongated holes, respectively, and the position of the wire in the Y-axis direction is adjusted by the third elongated holes.

6. The rotary shaft type metal wire installation mechanism of claim 5, wherein the first long hole, the second long hole and the third long hole are fixedly connected through a screw and a gasket which are used in a matched mode.

7. The rotary shaft type metal line installation mechanism of claim 6, wherein the contact surfaces of the first long hole, the second long hole and the third long hole and the gasket are in a tooth-shaped structure.

8. The rotary shaft type metal wire installation mechanism as claimed in claim 1 or 2, wherein two ends of the rotary shaft and the end of the connecting rod of the transfer shaft are respectively provided with a retaining mechanism.

9. The rotary shaft type metal wire installation mechanism as claimed in claim 8, wherein the anti-dropping mechanism is a plug, and the plugs are respectively arranged at two ends of the rotary shaft and at the end of the connecting rod; or the anti-falling mechanism comprises a machine thread hole and a screw arranged in the machine thread hole, and the machine thread hole is formed in the two ends of the rotating shaft and the end part of the connecting rod.

10. The rotary shaft type metal line installation mechanism as claimed in claim 1 or 2, wherein the cross sections of the sliding groove and the sliding block are dovetail-shaped.

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