CN220870238U - Electromechanical device pipeline installation adjusting bracket - Google Patents

Abstract

The utility model provides an electromechanical equipment pipeline installation adjusting bracket, which is characterized in that when in use, a left threaded rod and a right threaded rod are respectively rotated around the left and right directions, so that a left connecting block and a right connecting block are mutually closed along the left and right directions under the limiting action of a left sliding rod, a right sliding rod and a sliding groove, thereby driving a left arc clamping plate and a right arc clamping plate to be mutually closed along the left and right directions, clamping and fixing a pipeline arranged along the front and rear directions between the left arc clamping plate and the right arc clamping plate, and adjusting the left and right positions of the clamped and fixed pipeline. The utility model can support and fix pipelines with different sizes, and has convenient use and good applicability.

Description

Electromechanical device pipeline installation adjusting bracket

Technical Field

The utility model relates to the technical field of installation of electromechanical equipment, in particular to the technical field of installation of pipelines of the electromechanical equipment, and particularly relates to an installation adjusting bracket of the pipelines of the electromechanical equipment.

Background

Electromechanical devices generally refer to mechanical, electrical and electrical automation devices, and in construction, are commonly referred to as mechanical and plumbing devices other than geotechnical, woodworking, rebar, and mud.

The installation engineering of electromechanical equipment is an indispensable important component in the construction engineering, and comprises the installation of various equipment, water supply and drainage, electric, heating, ventilation, fire protection, communication and automatic control systems in industry, civil engineering and public engineering.

But current electromechanical device pipeline installing support all supports fixedly to the pipeline of fixed specification, is inconvenient for supporting fixedly to the pipeline of equidimension specification, when the pipeline of equidimension specification is fixed to the needs support, needs whole change can support the electromechanical device pipeline installing support of the pipeline of equidimension specification not, causes inconvenience, and the suitability is relatively poor.

Therefore, it is desirable to provide an electromechanical device pipeline installation adjusting bracket which can support and fix pipelines with different sizes and specifications, and has the advantages of convenient use and good applicability.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model aims to provide the electromechanical equipment pipeline installation adjusting bracket which can support and fix pipelines with different sizes and specifications, is convenient to use, has good applicability and is suitable for large-scale popularization and application.

The utility model aims to provide an electromechanical equipment pipeline installation adjusting bracket which is ingenious in design, simple in structure, convenient to manufacture, low in manufacturing cost and suitable for large-scale popularization and application.

In order to achieve the above purpose, the utility model provides an electromechanical device pipeline installation adjusting bracket, which comprises an installation bracket and is characterized by further comprising a left sliding rod, a right sliding rod, a left connecting block, a right connecting block, a left threaded rod, a right threaded rod, a left arc clamping plate and a right arc clamping plate, wherein:

The mounting bracket comprises a bottom plate, a left vertical rod and a right vertical rod, wherein the bottom plate is horizontally arranged and arranged along the left-right direction, the left vertical rod and the right vertical rod are arranged at the left end and the right end of the bottom plate at intervals, the top surface of the bottom plate is provided with a sliding groove along the left-right direction, the sliding groove is positioned between the left vertical rod and the right vertical rod, the left sliding rod and the right sliding rod are vertically arranged at intervals and are positioned between the left vertical rod and the right vertical rod, the lower end of the left sliding rod and the lower end of the right sliding rod are movably arranged in the sliding groove left and right, and the left connecting block and the right connecting block are respectively arranged at the upper end of the left sliding rod and the upper end of the right sliding rod;

The left threaded rod with the right threaded rod is all followed the left and right direction sets up and controls each other the interval, the left end of left threaded rod is located the left side of left pole setting, the middle part of left threaded rod is followed the left and right direction wears to establish and screw thread engagement left pole setting, the right end of left threaded rod is located the right of left pole setting and is located the left of left connecting block and around the rotatable connection of left and right direction left connecting block, the right end of right threaded rod is located the right of right pole setting, the middle part of right threaded rod is followed the left and right direction wears to establish and screw thread engagement right pole setting, the left end of right threaded rod is located the left and right of right pole setting and is located the right of right connecting block and around the rotatable connection of left and right connecting block of left and right direction, left arc splint with the equal vertical setting of right arc splint and all set up relatively along the front and back direction and left and right, left arc splint with right arc splint all are located left and right between the right and the connection respectively can dismantle with the connecting block.

Preferably, the electromechanical device pipeline installation adjusting bracket further comprises a left U-shaped joint, a right U-shaped joint, a left connecting rod, a right connecting rod, a left limiting piece and a right limiting piece, wherein:

The left U-shaped connector and the right U-shaped connector are both positioned between the left connecting block and the right connecting block and are respectively connected with the left connecting block and the right connecting block, the left U-shaped connector and the right U-shaped connector are respectively provided with a left U-shaped groove and a right U-shaped groove, the left U-shaped groove and the right U-shaped groove are both arranged along the front-back direction and are oppositely arranged left and right, the left connecting rod and the right connecting rod are both arranged along the left-right direction and are mutually spaced left and right, the left end of the left connecting rod and the right end of the right connecting rod are respectively inserted into the left U-shaped groove and the right U-shaped groove along the left-right direction, and the left arc clamping plate and the right arc clamping plate are both positioned between the right end of the left connecting rod and the left end of the right connecting rod and are respectively connected with the right end of the left connecting rod and the left end of the right connecting rod;

The left limiting part comprises a left limiting plate and a left limiting clamping strip, the left limiting plate is horizontally arranged and abutted against the upper side wall of the left U-shaped groove, the left limiting clamping strip is vertically arranged and vertically movably penetrates through the upper side wall of the left U-shaped groove, the left end of the left connecting rod and the lower side wall of the left U-shaped groove are vertically arranged, the upper side wall of the left U-shaped groove, the left end of the left connecting rod and the lower side wall of the left U-shaped groove are horizontally rotated and limited, the upper end of the left limiting clamping strip is located below the left limiting plate and connected with the left limiting plate, the right limiting part comprises a right limiting plate and a right limiting clamping strip, the right limiting plate is horizontally arranged and abutted against the upper side wall of the right U-shaped groove, the right limiting clamping strip is vertically arranged and vertically movably penetrates through the upper side wall of the right U-shaped groove, the right end of the right connecting rod and the lower side wall of the right U-shaped groove are horizontally rotated and limited by the upper side wall of the right U-shaped groove, the right limiting plate is connected with the right limiting plate and the right limiting plate is located at the lower end of the upper side of the right limiting plate and is horizontally connected with the limiting plate.

More preferably, the upper side wall of the left U-shaped groove, the left end of the left connecting rod and the lower side wall of the left U-shaped groove are vertically provided with an upper left clamping hole, a middle left clamping hole and a lower left clamping hole respectively, and the left limiting clamping strip vertically movably penetrates through the upper left clamping hole, the middle left clamping hole and the lower left clamping hole and is limited by the upper left clamping hole, the middle left clamping hole and the lower left clamping Kong Shuiping in a rotating manner.

Further, the cross section of the left limiting clamping strip is triangular, and the left upper clamping hole, the left middle clamping hole and the left lower clamping hole are triangular holes.

More preferably, the upper side wall of the right U-shaped groove, the right end of the right connecting rod and the lower side wall of the right U-shaped groove are vertically provided with an upper right clamping hole, a middle right clamping hole and a lower right clamping hole respectively, and the right limiting clamping strip vertically movably penetrates through the upper right clamping hole, the middle right clamping hole and the lower right clamping hole and is limited by the upper right clamping hole, the middle right clamping hole and the lower right clamping Kong Shuiping in a rotating manner.

Further, the cross section of the right limiting clamping strip is triangular, and the right upper clamping hole, the right middle clamping hole and the right lower clamping hole are triangular holes.

Preferably, the electromechanical device pipeline installation adjusting support further comprises a left arc-shaped buffer pad and a right arc-shaped buffer pad, wherein the left arc-shaped buffer pad and the right arc-shaped buffer pad are vertically arranged and are arranged in a left-right opposite mode along the front-back direction, the left arc-shaped buffer pad and the right arc-shaped buffer pad are located between the right side face of the left arc-shaped clamping plate and the left side face of the right arc-shaped clamping plate and are respectively connected with the right side face of the left arc-shaped clamping plate and the left side face of the right arc-shaped clamping plate.

More preferably, the electromechanical device pipeline installation adjusting bracket further comprises a left buffer bump and a right buffer bump, the left buffer bump and the right buffer bump are both positioned between the right side surface of the left arc-shaped buffer pad and the left side surface of the right arc-shaped buffer pad and are respectively arranged on the right side surface of the left arc-shaped buffer pad and the left side surface of the right arc-shaped buffer pad, the number of the left buffer bumps and the number of the right buffer bumps are multiple, and the left buffer bumps and the right buffer bumps are all arranged at intervals.

Preferably, the electromechanical device pipeline installation adjusting bracket further comprises a left limiting block and a right limiting block, wherein the left limiting block and the right limiting block are vertically arranged and are arranged in a left-right direction at intervals, the left limiting block is located at the left side of the left end of the left threaded rod and is connected with the left end of the left threaded rod, and the right limiting block is located at the right side of the right end of the right threaded rod and is connected with the right end of the right threaded rod.

Preferably, the electromechanical device pipeline installation adjusting bracket further comprises a left rotating handle and a right rotating handle, wherein the left rotating handle is arranged in the front-back direction and is positioned behind the left end of the left threaded rod and is connected with the left end of the left threaded rod, and the right rotating handle is vertically arranged on the right end of the right threaded rod.

The beneficial effects of the utility model are mainly as follows:

1. When the electromechanical equipment pipeline installation adjusting bracket is used, the left threaded rod and the right threaded rod are respectively rotated around the left and right directions, so that the left connecting block and the right connecting block are mutually closed along the left and right directions under the limiting action of the left sliding rod, the right sliding rod and the sliding groove, the left arc clamping plate and the right arc clamping plate are driven to be mutually closed along the left and right directions, the pipeline arranged along the front and rear directions and positioned between the left arc clamping plate and the right arc clamping plate is clamped and fixed, the left and right positions of the clamped and fixed pipeline can be adjusted, and when pipelines with different sizes are required to be clamped and fixed, the left arc clamping plate and the right arc clamping plate are respectively detached from the left connecting block and the right connecting block, and the left arc clamping plate and the right arc clamping plate with different sizes are replaced, so that the pipeline installation adjusting bracket can support and fix pipelines with different sizes, is convenient to use and good in applicability, and is suitable for large-scale popularization and application.

2. When the electromechanical equipment pipeline installation adjusting bracket is used, the left threaded rod and the right threaded rod are respectively rotated around the left and right directions, so that the left connecting block and the right connecting block are mutually closed along the left and right directions under the limiting action of the left sliding rod, the right sliding rod and the sliding groove, the left arc clamping plate and the right arc clamping plate are driven to be mutually closed along the left and right directions, the pipeline arranged along the front and rear directions and positioned between the left arc clamping plate and the right arc clamping plate is clamped and fixed, the left and right positions of the clamped and fixed pipeline can be adjusted, and when pipelines with different sizes are required to be clamped and fixed, the left arc clamping plate and the right arc clamping plate are respectively detached from the left connecting block and the right connecting block, and the left arc clamping plate and the right arc clamping plate with different sizes are replaced.

These and other objects, features and advantages of the present utility model will be more fully apparent from the following detailed description and drawings, and may be learned by the practice of the utility model by the means, apparatus and combinations thereof as set forth hereinafter.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the electromechanical device conduit mounting adjustment bracket of the present utility model.

Fig. 2 is a schematic diagram of a top perspective view of the embodiment shown in fig. 1.

Fig. 3 is a schematic diagram in partial perspective from the left of the embodiment shown in fig. 1.

Fig. 4 is a schematic diagram in partial perspective from the front of the embodiment shown in fig. 1.

(Symbol description)

1, Mounting a bracket; 2, a left slide bar; 3, a right slide bar; 4, a left connecting block; a right connecting block; 6, a left threaded rod; 7, a right threaded rod; 8, left arc clamping plates; 9 right arc clamping plates; 10 a bottom plate; 11 left upright posts; 12 right upright posts; 13 sliding grooves; a 14 left U-shaped joint; 15 right U-shaped joint; 16 left connecting rods; 17 right connecting rod; 18 left limiting piece; 19 right limiting pieces; 20 left U-shaped grooves; 21 right U-shaped groove; 22 left limiting plates; 23 left limit clamping strips; 24 right limiting plates; 25 right limit clamping strips; 26 left arc cushion pad; 27 right arc-shaped cushioning pad; 28 left buffer bumps; 29 right buffer bumps; a 30 left limiting block; a right limiting block 31; 32 left turning handle; 33 right swivel handle; 34 a fixing plate; 35 fixing holes.

Detailed Description

In order to make the technical contents of the present utility model more clearly understood, the following examples are specifically described.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1 to 4, in a specific embodiment of the present utility model, the electromechanical device pipeline installation adjusting bracket of the present utility model includes a mounting bracket 1, a left sliding rod 2, a right sliding rod 3, a left connecting block 4, a right connecting block 5, a left threaded rod 6, a right threaded rod 7, a left arc clamping plate 8 and a right arc clamping plate 9, wherein:

The mounting bracket 1 comprises a bottom plate 10, a left vertical rod 11 and a right vertical rod 12, wherein the bottom plate 10 is horizontally arranged and arranged along the left-right direction, the left vertical rod 11 and the right vertical rod 12 are arranged at the left end and the right end of the bottom plate 10 at left-right intervals, a sliding groove 13 is arranged on the top surface of the bottom plate 10 along the left-right direction, the sliding groove 13 is positioned between the left vertical rod 11 and the right vertical rod 12, the left sliding rod 2 and the right sliding rod 3 are vertically arranged at left-right intervals and are positioned between the left vertical rod 11 and the right vertical rod 12, the lower end of the left sliding rod 2 and the lower end of the right sliding rod 3 are arranged in the sliding groove 13 in a left-right movable manner, and the left connecting block 4 and the right connecting block 5 are respectively arranged at the upper end of the left sliding rod 2 and the upper end of the right sliding rod 3;

The left threaded rod 6 with the right threaded rod 7 is all followed the left and right direction sets up and controls mutual interval, the left end of left threaded rod 6 is located the left side of left pole setting 11, the middle part of left threaded rod 6 is followed the left and right direction wears to establish and screw thread engagement left pole setting 11, the right end of left threaded rod 6 is located the right of left pole setting 11 and be located left connecting block 4 and around left and right direction rotatable coupling left connecting block 4, the right end of right threaded rod 7 is located the right of right pole setting 12, the middle part of right threaded rod 7 is followed the left and right direction wears to establish and screw thread engagement right pole setting 12, the left end of right threaded rod 7 is located the left of right pole setting 12 and be located the right of right connecting block 5 and around the rotatable connection of left and right direction right connecting block 5, left arc splint 8 and right arc splint 9 all set up vertically and all set up and left and right relatively along the front and back direction, left and right arc splint 8 and right arc splint 9 are located between the arc splint 4 and the right connecting block 5 respectively.

The left arc clamping plate 8 and the right arc clamping plate 9 are detachably connected to the left connecting block 4 and the right connecting block 5, respectively, and may have any suitable structure, as shown in fig. 1-2 and 4, in a specific embodiment of the present utility model, the electromechanical device pipeline installation adjusting bracket further includes a left U-shaped connector 14, a right U-shaped connector 15, a left connecting rod 16, a right connecting rod 17, a left limiting member 18 and a right limiting member 19, where:

The left U-shaped joint 14 and the right U-shaped joint 15 are both positioned between the left connecting block 4 and the right connecting block 5 and respectively connect the left connecting block 4 and the right connecting block 5, the left U-shaped joint 14 and the right U-shaped joint 15 are respectively provided with a left U-shaped groove 20 and a right U-shaped groove 21, the left U-shaped groove 20 and the right U-shaped groove 21 are both arranged along the front-back direction and are oppositely arranged left and right, the left connecting rod 16 and the right connecting rod 17 are both arranged along the left-right direction and are mutually arranged left and right at intervals, the left end of the left connecting rod 16 and the right end of the right connecting rod 17 are respectively inserted in the left U-shaped groove 20 and the right U-shaped groove 21 along the left-right direction, and the left arc clamping plate 8 and the right arc clamping plate 9 are both positioned between the right end of the left connecting rod 16 and the left end of the right connecting rod 17 and are respectively connected with the right end of the left connecting rod 16 and the left end of the right connecting rod 17;

The left limiting piece 18 comprises a left limiting plate 22 and a left limiting clamping strip 23, the left limiting plate 22 is horizontally arranged and abutted against the upper side wall of the left U-shaped groove 20, the left limiting clamping strip 23 is vertically arranged and vertically movably penetrates through the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20 are vertically and movably limited by the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20, the upper end of the left limiting clamping strip 23 is positioned below the left limiting plate 22 and connected with the left limiting plate 22, the right limiting piece 19 comprises a right limiting plate 24 and a right limiting clamping strip 25, the right limiting plate 24 is horizontally arranged and abutted against the upper side wall of the right U-shaped groove 21, the right limiting clamping strip 25 is vertically arranged and vertically movably penetrates through the upper side wall of the right U-shaped groove 21, the right connecting rod 17 and the lower side wall of the left U-shaped groove 20 are horizontally limited by the upper side wall of the right limiting plate 21 and the right limiting clamping strip 25 and the lower side wall of the right U-shaped groove 21 are horizontally connected with the right limiting plate 21 and the lower side wall of the right limiting plate 21, and the right limiting plate 24 is positioned at the upper side wall of the right limiting plate 21 and the lower side wall of the right limiting plate 21.

The left limiting clamping strip 23 is horizontally rotated and limited by the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20, that is, the left limiting clamping strip 23 cannot horizontally rotate relative to the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20; the right limiting clamping strip 25 is horizontally rotated and limited by the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21, that is, the right limiting clamping strip 25 cannot horizontally rotate relative to the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21.

With the above arrangement, when the left arc clamping plate 8 and the right arc clamping plate 9 need to be detached from the left connecting block 4 and the right connecting block 5 respectively and the left arc clamping plate 8 and the right arc clamping plate 9 with different sizes are replaced, the left limiting plate 22 is lifted up, so that the left limiting clamping bar 23 is pulled out from the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 connected with the left arc clamping plate 8 to be replaced is inserted in the left U-shaped groove 20 along the left-right direction, the left limiting plate 22 is moved downwards, so that the left limiting clamping bar 23 is vertically inserted into the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 connected with the left arc clamping plate 8 to be replaced and the lower side wall of the left U-shaped groove 20 until the left limiting plate 22 is abutted against the upper side wall of the left U-shaped groove 20; similarly, the right stopper plate 24 is lifted up, thereby the right stopper bar 25 is pulled out from the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 connected to the right arc clamping plate 9 to be replaced is inserted in the right U-shaped groove 21 in the left-right direction, the right stopper plate 24 is moved down, and thereby the right stopper bar 25 is vertically inserted into the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 connected to the right arc clamping plate 9 to be replaced and the lower side wall of the right U-shaped groove 21 until the right stopper plate 24 abuts against the upper side wall of the right U-shaped groove 21.

The upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20 are vertically movably penetrated, and the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20 are horizontally rotated and limited, and any suitable structure may be adopted, and in an embodiment of the present utility model, the upper side wall of the left U-shaped groove 20, the left end of the left connecting rod 16 and the lower side wall of the left U-shaped groove 20 are vertically provided with an upper left clamping hole (not shown in the figure), a middle left clamping hole (not shown in the figure) and a lower left clamping hole (not shown in the figure), and the left limiting clamping rod 23 is vertically movably penetrated, and is rotated and limited by the upper left clamping hole, the middle left clamping hole and the lower left clamping hole Kong Shuiping.

The cross section of the left limit bar 23, the left upper card hole, the left middle card hole and the left lower card hole may have any suitable shape, and in one embodiment of the present utility model, the cross section of the left limit bar 23 is triangular, and the left upper card hole, the left middle card hole and the left lower card hole are triangular holes.

The upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21 are vertically movably penetrated, and the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21 are horizontally rotated and limited, and any suitable structure may be adopted, and in an embodiment of the present utility model, the upper side wall of the right U-shaped groove 21, the right end of the right connecting rod 17 and the lower side wall of the right U-shaped groove 21 are vertically provided with an upper right clamping hole (not shown in the figure), a middle right clamping hole (not shown in the figure) and a lower right clamping hole (not shown in the figure), and the upper right clamping hole, the middle right clamping hole and the lower right clamping hole Kong Shuiping are vertically movably penetrated by the right limiting clamping bar 25.

The cross section of the right limit stop 25, the upper right clip hole, the middle right clip hole and the lower right clip hole may have any suitable shape, and in one embodiment of the present utility model, the cross section of the right limit stop 25 is triangular, and the upper right clip hole, the middle right clip hole and the lower right clip hole are triangular holes.

The electromechanical device pipeline installation adjusting bracket may further comprise any other suitable structure, as shown in fig. 1 and 4, in an embodiment of the present utility model, the electromechanical device pipeline installation adjusting bracket further comprises a left arc-shaped buffer pad 26 and a right arc-shaped buffer pad 27, wherein the left arc-shaped buffer pad 26 and the right arc-shaped buffer pad 27 are vertically arranged and are arranged along the front-back direction and are arranged left-right oppositely, and the left arc-shaped buffer pad 26 and the right arc-shaped buffer pad 27 are respectively located between the right side surface of the left arc-shaped clamping plate 8 and the left side surface of the right arc-shaped clamping plate 9 and are respectively connected with the right side surface of the left arc-shaped clamping plate 8 and the left side surface of the right arc-shaped clamping plate 9. With the above arrangement, the stability of the clamping of the pipe to be clamped and fixed can be improved by the left arc cushion 26 and the right arc cushion 27.

The left and right arcuate cushion pads 26, 27 may be any suitable cushion material, and in one embodiment of the present utility model, the left and right arcuate cushion pads 26, 27 are rubber pads.

The rack for adjusting the piping installation of the electromechanical device may further comprise any other suitable structure, as shown in fig. 1, in an embodiment of the present utility model, the rack for adjusting the piping installation of the electromechanical device further comprises a left buffer bump 28 and a right buffer bump 29, wherein the left buffer bump 28 and the right buffer bump 29 are located between the right side surface of the left arc-shaped buffer pad 26 and the left side surface of the right arc-shaped buffer pad 27 and are respectively disposed on the right side surface of the left arc-shaped buffer pad 26 and the left side surface of the right arc-shaped buffer pad 27, and the number of the left buffer bumps 28 and the number of the right buffer bumps 29 are all plural, and the plurality of the left buffer bumps 28 and the plurality of right buffer bumps 29 are each disposed at intervals. With the above arrangement, the stability of the pipe to be clamped and fixed can be further improved by the left buffer bump 28 and the right buffer bump 29.

The term "plurality of" means 2 or more, but does not mean that the number of the left buffer bumps 28 and the number of the right buffer bumps 29 are the same, and the number of the left buffer bumps 28 and the number of the right buffer bumps 29 may be the same, for example, 240, or may be different, for example, 200 and 300, respectively.

The left bump 28 and the right bump 29 may be made of any suitable material, and in one embodiment of the present utility model, the left bump 28 and the right bump 29 are rubber bumps.

The electromechanical device pipe installation adjusting bracket may further comprise any other suitable structure, as shown in fig. 1 to 4, in an embodiment of the present utility model, the electromechanical device pipe installation adjusting bracket further comprises a left limiting block 30 and a right limiting block 31, where the left limiting block 30 and the right limiting block 31 are vertically disposed and are disposed along the front-rear direction and are spaced left and right from each other, the left limiting block 30 is located at the left side of the left end of the left threaded rod 6 and is connected to the left end of the left threaded rod 6, and the right limiting block 31 is located at the right side of the right end of the right threaded rod 7 and is connected to the right end of the right threaded rod 7. With the above arrangement, the limit position of the right movement of the left threaded rod 6 is limited by the left limiting block 30, that is, the left threaded rod 6 cannot move right when the left limiting block 30 abuts against the left upright rod 11, and the limit position of the left movement of the right threaded rod 7 is limited by the right limiting block 31, that is, the right threaded rod 7 moves left to the limit position when the right limiting block 31 abuts against the right upright rod 12.

The electromechanical device pipeline installation adjusting bracket may further comprise any other suitable structure, and in an embodiment of the present utility model, referring to fig. 1 to 4, the electromechanical device pipeline installation adjusting bracket further comprises a left rotating handle 32 and a right rotating handle 33, wherein the left rotating handle 32 is disposed along the front-rear direction and behind the left end of the left threaded rod 6 and is connected to the left end of the left threaded rod 6, and the right rotating handle 33 is vertically disposed on the right end of the right threaded rod 7. With the above arrangement, the left threaded rod 6 and the right threaded rod 7 are facilitated to be rotated around the left-right direction, respectively, by the left rotating handle 32 and the right rotating handle 33. Under the condition that the electromechanical device pipeline installation adjusting bracket further comprises a left limiting block 30 and a right limiting block 31, the left rotating handle 32 is located behind the left limiting block 30 and connected with the left limiting block 30, and the right rotating handle 33 is vertically arranged on the right limiting block 31.

The rack for adjusting the installation of the pipeline of the electromechanical device may further comprise any other suitable structure, as shown in fig. 1 to 4, in an embodiment of the present utility model, the rack for adjusting the installation of the pipeline of the electromechanical device further comprises a fixing plate 34, the fixing plate 34 is horizontally arranged, the bottom surface of the fixing plate 34 is flush with the bottom surface of the bottom plate 10, the fixing plate 34 is vertically provided with fixing holes 35, the number of the fixing plates 34 is multiple, and multiple fixing plates 34 are arranged around the bottom plate 10 at intervals and all connected with the bottom plate 10. With the above arrangement, the fixing plate 34 facilitates the mounting of the present utility model at the mounting position of the present utility model by vertically penetrating the fixing hole 35 and the mounting position of the present utility model with a fastener such as a fastening bolt and threadably engaging the mounting position of the present utility model.

The number of the fixing plates 34 may be determined according to the need, as shown in fig. 1-2, in an embodiment of the present utility model, the number of the fixing plates 34 is 4, the bottom plate 10 is a rectangular bottom plate, wherein 2 fixing plates 34 are respectively located at the front and rear of the left end of the rectangular bottom plate and are respectively connected to the left end of the rectangular bottom plate, and 2 fixing plates 34 are respectively located at the front and rear of the right end of the rectangular bottom plate and are respectively connected to the right end of the rectangular bottom plate.

When the pipeline clamping device is used, a pipeline to be clamped and fixed is arranged between the left arc clamping plate 8 and the right arc clamping plate 9 of the pipeline clamping device in the front-back direction, the left threaded rod 6 and the right threaded rod 7 are respectively rotated around the left-right direction, the left connecting block 4 and the right connecting block 5 are mutually closed along the left-right direction under the limiting action of the left sliding rod 2, the right sliding rod 3 and the sliding groove 13, the left arc clamping plate 8 and the right arc clamping plate 9 are driven to be mutually closed along the left-right direction, the pipeline to be clamped and fixed is clamped and fixed, when pipelines with different sizes and specifications are required to be clamped and fixed, the left arc clamping plate 8 and the right arc clamping plate 9 are respectively detached from the left connecting block 4 and the right connecting block 5, the left arc clamping plate 8 and the right arc clamping plate 9 with different sizes and specifications are replaced, and then the pipeline to be clamped and fixed according to the process.

After the pipeline is clamped and fixed, if the left and right positions of the pipeline need to be properly adjusted, the left threaded rod 6 and the right threaded rod 7 can be respectively rotated around the left and right directions, so that the left connecting block 4 and the right connecting block 5 are left or right moved under the limiting action of the left sliding rod 2, the right sliding rod 3 and the sliding groove 13, and the left arc clamping plate 8 and the right arc clamping plate 9 are driven to be left or right moved, and the left and right position adjusting effect of the pipeline clamped and fixed by the left arc clamping plate 8 and the right arc clamping plate 9 is achieved.

Compared with the prior art, the utility model has the following beneficial effects:

1. The left arc clamping plate and the right arc clamping plate are respectively detachably connected with the left connecting block and the right connecting block, so that the left arc clamping plate and the right arc clamping plate with different sizes can be replaced, pipelines with different sizes can be clamped and fixed, the use is convenient, and the application range is wide.

2. According to the utility model, the left slide bar, the right slide bar, the sliding chute, the left connecting block, the right connecting block, the left threaded rod, the right threaded rod, the left arc clamping plate and the right arc clamping plate are arranged, and under the limiting action of the left slide bar, the right slide bar and the sliding chute, the left threaded rod and the right threaded rod rotate to drive the left connecting block and the right connecting block to be mutually close along the left-right direction, so that the left arc clamping plate and the right arc clamping plate are driven to be mutually close along the left-right direction, and the pipeline is clamped and fixed.

3. According to the utility model, the left slide bar, the right slide bar, the slide groove, the left connecting block, the right connecting block, the left threaded rod, the right threaded rod, the left arc clamping plate and the right arc clamping plate are arranged, after a pipeline is clamped and fixed, the left threaded rod and the right threaded rod rotate under the limiting effect of the left slide bar, the right slide bar and the slide groove, the left connecting block and the right connecting block are driven to move left or right, and the left arc clamping plate and the right arc clamping plate are driven to move left or right, so that the left and right positions of the pipeline are adjusted.

In conclusion, the electromechanical equipment pipeline installation adjusting bracket can support and fix pipelines with different sizes, is convenient to use, good in applicability, ingenious in design, simple in structure, simple and convenient to manufacture, low in manufacturing cost and suitable for large-scale popularization and application.

It will thus be seen that the objects of the present utility model have been fully and effectively attained. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments may be modified at will without departing from such principles. Therefore, this utility model includes all modifications encompassed within the spirit of the following claims and the scope of the following claims.

Claims (10)

1. The utility model provides an electromechanical device pipeline installation adjusts support, includes the installing support, its characterized in that, electromechanical device pipeline installation adjusts support still includes left slide bar, right slide bar, left connecting block, right connecting block, left threaded rod, right threaded rod, left arc splint and right arc splint, wherein:

The mounting bracket comprises a bottom plate, a left vertical rod and a right vertical rod, wherein the bottom plate is horizontally arranged and arranged along the left-right direction, the left vertical rod and the right vertical rod are arranged at the left end and the right end of the bottom plate at intervals, the top surface of the bottom plate is provided with a sliding groove along the left-right direction, the sliding groove is positioned between the left vertical rod and the right vertical rod, the left sliding rod and the right sliding rod are vertically arranged at intervals and are positioned between the left vertical rod and the right vertical rod, the lower end of the left sliding rod and the lower end of the right sliding rod are movably arranged in the sliding groove left and right, and the left connecting block and the right connecting block are respectively arranged at the upper end of the left sliding rod and the upper end of the right sliding rod;

The left threaded rod with the right threaded rod is all followed the left and right direction sets up and controls each other the interval, the left end of left threaded rod is located the left side of left pole setting, the middle part of left threaded rod is followed the left and right direction wears to establish and screw thread engagement left pole setting, the right end of left threaded rod is located the right of left pole setting and is located the left of left connecting block and around the rotatable connection of left and right direction left connecting block, the right end of right threaded rod is located the right of right pole setting, the middle part of right threaded rod is followed the left and right direction wears to establish and screw thread engagement right pole setting, the left end of right threaded rod is located the left and right of right pole setting and is located the right of right connecting block and around the rotatable connection of left and right connecting block of left and right direction, left arc splint with the equal vertical setting of right arc splint and all set up relatively along the front and back direction and left and right, left arc splint with right arc splint all are located left and right between the right and the connection respectively can dismantle with the connecting block.

2. The electromechanical device conduit mounting adjustment bracket of claim 1 further comprising a left U-joint, a right U-joint, a left connecting rod, a right connecting rod, a left stop and a right stop, wherein:

The left U-shaped connector and the right U-shaped connector are both positioned between the left connecting block and the right connecting block and are respectively connected with the left connecting block and the right connecting block, the left U-shaped connector and the right U-shaped connector are respectively provided with a left U-shaped groove and a right U-shaped groove, the left U-shaped groove and the right U-shaped groove are both arranged along the front-back direction and are oppositely arranged left and right, the left connecting rod and the right connecting rod are both arranged along the left-right direction and are mutually spaced left and right, the left end of the left connecting rod and the right end of the right connecting rod are respectively inserted into the left U-shaped groove and the right U-shaped groove along the left-right direction, and the left arc clamping plate and the right arc clamping plate are both positioned between the right end of the left connecting rod and the left end of the right connecting rod and are respectively connected with the right end of the left connecting rod and the left end of the right connecting rod;

The left limiting part comprises a left limiting plate and a left limiting clamping strip, the left limiting plate is horizontally arranged and abutted against the upper side wall of the left U-shaped groove, the left limiting clamping strip is vertically arranged and vertically movably penetrates through the upper side wall of the left U-shaped groove, the left end of the left connecting rod and the lower side wall of the left U-shaped groove are vertically arranged, the upper side wall of the left U-shaped groove, the left end of the left connecting rod and the lower side wall of the left U-shaped groove are horizontally rotated and limited, the upper end of the left limiting clamping strip is located below the left limiting plate and connected with the left limiting plate, the right limiting part comprises a right limiting plate and a right limiting clamping strip, the right limiting plate is horizontally arranged and abutted against the upper side wall of the right U-shaped groove, the right limiting clamping strip is vertically arranged and vertically movably penetrates through the upper side wall of the right U-shaped groove, the right end of the right connecting rod and the lower side wall of the right U-shaped groove are horizontally rotated and limited by the upper side wall of the right U-shaped groove, the right limiting plate is connected with the right limiting plate and the right limiting plate is located at the lower end of the upper side of the right limiting plate and is horizontally connected with the limiting plate.

3. The electromechanical device pipeline installation adjusting bracket according to claim 2, wherein an upper side wall of the left U-shaped groove, a left end of the left connecting rod and a lower side wall of the left U-shaped groove are vertically provided with an upper left clamping hole, a middle left clamping hole and a lower left clamping hole respectively, and the left limiting clamping bar vertically movably penetrates through the upper left clamping hole, the middle left clamping hole and the lower left clamping hole and is limited by rotation of the upper left clamping hole, the middle left clamping hole and the lower left clamping hole Kong Shuiping.

4. The electromechanical device conduit mounting adjustment bracket of claim 3 wherein the left limiting snap bar is triangular in cross section and the upper left snap hole, the middle left snap hole and the lower left snap hole are triangular holes.

5. The electromechanical device pipeline installation adjusting bracket according to claim 2, wherein an upper side wall of the right U-shaped groove, a right end of the right connecting rod and a lower side wall of the right U-shaped groove are vertically provided with an upper right clamping hole, a middle right clamping hole and a lower right clamping hole respectively, and the right limiting clamping bar vertically movably penetrates through the upper right clamping hole, the middle right clamping hole and the lower right clamping hole and is limited by the upper right clamping hole, the middle right clamping hole and the lower right clamping hole Kong Shuiping in a rotating manner.

6. The electromechanical device conduit mounting adjustment bracket of claim 5 wherein the right stop clip is triangular in cross section and the upper right clip aperture, the middle right clip aperture and the lower right clip aperture are triangular apertures.

7. The electromechanical device conduit mounting adjustment bracket of claim 1 further comprising a left arcuate cushion and a right arcuate cushion, the left arcuate cushion and the right arcuate cushion being vertically disposed and disposed in a fore-aft direction and being disposed in a side-by-side opposite relationship, the left arcuate cushion and the right arcuate cushion being disposed between a right side of the left arcuate cleat and a left side of the right arcuate cleat and connecting a right side of the left arcuate cleat and a left side of the right arcuate cleat, respectively.

8. The electromechanical device conduit mounting adjustment bracket of claim 7 further comprising a left bumper bump and a right bumper bump, the left bumper bump and the right bumper bump being positioned between the right side of the left arcuate bumper pad and the left side of the right arcuate bumper pad and disposed on the right side of the left arcuate bumper pad and the left side of the right arcuate bumper pad, respectively, the number of left bumper bumps and the number of right bumper bumps being multiple, the multiple left bumper bumps and the multiple right bumper bumps being spaced apart from each other.

9. The electromechanical device pipe installation adjusting bracket of claim 1, further comprising a left stopper and a right stopper, wherein the left stopper and the right stopper are vertically arranged and are arranged along the front-rear direction and are arranged at intervals left and right, the left stopper is positioned at the left side of the left end of the left threaded rod and is connected with the left end of the left threaded rod, and the right stopper is positioned at the right side of the right end of the right threaded rod and is connected with the right end of the right threaded rod.

10. The electromechanical device conduit mounting adjustment bracket of claim 1 further comprising a left turn handle disposed in the fore-aft direction behind and connected to the left end of the left threaded rod and a right turn handle disposed vertically on the right end of the right threaded rod.