CN109466921B - Ceramic equipment connecting frame - Google Patents

Abstract

The invention relates to a connecting frame, in particular to a connecting frame for ceramic equipment, which comprises a fixed support, a connecting mechanism I, a supporting mechanism, a lifting mechanism and a connecting mechanism II, the device can be quickly and fixedly connected through the connecting nail I, the sliding waist hole I and the sliding waist hole II can enable the connecting nail I to be suitable for more installation positions, the two connecting plates I are used for connecting and installing two ceramic devices, the adjusting waist hole I and the adjusting waist hole II can enable the two connecting plates I to be suitable for more installation positions, the relative distance between the two connecting plates I is changed by rotating the connecting handle I, so that the two connecting plates I can be suitable for connecting requirements of different widths, make coupling mechanism II can change different height according to the user demand of difference through rotating elevating system, coupling mechanism II can be connected two ceramic equipment and install through two connecting plates II.

Description

Ceramic equipment connecting frame

Technical Field

The invention relates to a connecting frame, in particular to a connecting frame for ceramic equipment.

Background

For example, publication No. CN206203318U discloses a ceramic device connection rack, which includes at least one connection rack, and the connection rack includes a rack, a conveying module, an identification module, and a control module; through the permutation and combination of a plurality of link, can connect the ceramic equipment that is in different positions to can realize the transport and the communication of material between ceramic equipment, can reduce the manpower and materials that ceramic equipment removed and consume by a wide margin. The utility model discloses a ceramic equipment connecting frame, which comprises at least one connecting frame; the connecting frame comprises a rack, a conveying module, an identification module and a control module; the conveying module is arranged on the rack; the identification modules are respectively arranged at two ends or side surfaces of the rack and used for identifying the connecting equipment; the control module comprises a wireless communication unit and a controller, and the controller is connected with the identification module and the conveying module; the connecting frames are connected with each other, the connecting frames positioned at the two ends are connected with the ceramic equipment to be connected, and the ceramic equipment to be connected is provided with a marker matched with the identification module; the utility model discloses an equipment of different models can not be connected to the complicated operation during shortcoming.

Disclosure of Invention

The invention aims to provide a ceramic equipment connecting frame which can be used for connecting different types of ceramic equipment and is suitable for connecting different widths and heights so as to meet more use requirements.

The purpose of the invention is realized by the following technical scheme:

a ceramic equipment connecting frame comprises a fixed support, a connecting mechanism I, a supporting mechanism, a lifting mechanism and a connecting mechanism II, wherein the fixed support comprises a fixed bottom plate, a fixed sliding cylinder, a fixed connecting plate I, a sliding waist hole I, a fixed connecting plate II, a sliding waist hole II, rectangular plates, T-shaped grooves, rotating plates, connecting nails I, a supporting plate and locking nails, the fixed sliding cylinder is fixedly connected to each of four corners of the fixed bottom plate, the fixed connecting plate I is fixedly connected to the lower ends of the four corners of the fixed bottom plate, the sliding waist holes I are arranged on the four fixed connecting plates I, the fixed connecting plate II is fixedly connected between every two fixed connecting plates I, the sliding waist holes II are arranged on the two fixed connecting plates II, the rectangular plate is fixedly connected to the middle end of the lower side of the fixed bottom plate, the T-shaped groove is arranged on the rectangular plate, the rotating plate is fixedly, the connecting nails I are slidably connected in the four sliding waist holes I, the two connecting nails I are slidably connected in the two sliding waist holes II, the middle end of one side of the fixed bottom plate is fixedly connected with a supporting plate, and the supporting plate is connected with locking nails through threads;

the connecting mechanism I comprises a connecting shaft I, a connecting handle I, a synchronous belt wheel I, a connecting shaft II, a synchronous belt wheel II, a threaded block, a connecting rod, T-shaped tracks, a connecting plate I, a sliding column I, an adjusting waist hole I and a connecting nail II, wherein the upper end and the lower end of the connecting shaft I are respectively fixedly connected with the connecting handle I and the synchronous belt wheel I, the lower end of the connecting shaft II is fixedly connected with the synchronous belt wheel II, the synchronous belt wheel II and the synchronous belt wheel I are connected through synchronous belt transmission, the connecting shaft I is rotatably connected onto a supporting plate, the locking nail penetrates through the supporting plate to be contacted with the connecting shaft I, the connecting shaft II is rotatably connected onto a rotating plate, the connecting shaft II is connected with the threaded block through threads, the two ends of the threaded block are respectively hinged with the connecting rod, the outer ends of the two connecting rods are respectively hinged with the T, two adjusting waist holes I are formed in each connecting plate I, connecting nails II are connected into the four adjusting waist holes I in a sliding mode, and four sliding columns I are connected into the four fixed sliding cylinders in a sliding mode respectively;

the supporting mechanism comprises a supporting bottom plate, a supporting cylinder I, a supporting baffle I, a supporting cylinder II, a supporting baffle II, L-shaped supporting plates, vertical waist holes and an installation rotating groove, the supporting bottom plate is fixedly connected with the supporting cylinder I and the supporting cylinder II, the supporting cylinder I and the supporting cylinder II are coaxially arranged, the supporting cylinder I and the supporting cylinder II are respectively and fixedly connected with the supporting baffle I and the supporting baffle II, the two sides of the supporting bottom plate are respectively and fixedly connected with the L-shaped supporting plates, the two L-shaped supporting plates are respectively provided with the vertical waist holes, the supporting bottom plate is provided with the installation rotating groove, and the supporting bottom plate is fixedly connected to the fixed bottom plate;

the lifting mechanism comprises a lifting rotating plate, a lifting rotating groove, a lifting rotating cylinder, a lifting mounting plate, a lifting baffle plate I, a lifting threaded column, a lifting baffle plate II, a lifting support plate I, a lifting support plate II, a circular through hole I, a circular through hole II, a limiting column and a fastening mechanism, wherein the lifting rotating groove is arranged on the lifting rotating plate, the lifting rotating plate is rotatably connected to the supporting baffle plate I and the supporting baffle plate II through the lifting rotating groove, the lifting rotating cylinder is fixedly connected to the lifting rotating plate, the lifting mounting plate and the lifting baffle plate II are respectively and fixedly connected to the upper end and the lower end of the lifting rotating cylinder, the lifting mounting plate is rotatably connected to the mounting rotating groove, the lifting baffle plate I is fixedly connected to the supporting base plate, the inner ring of the lifting baffle plate I is contacted with the lifting mounting plate, the lifting threaded column is connected to the lifting rotating cylinder through threads, the two sides of the lifting support plate I are fixedly connected with lifting support plates II, the two lifting support plates II are respectively provided with a circular through hole I and a circular through hole II, the number of the limiting columns is two, the inner sides of the two limiting columns are fixedly connected to the lifting threaded columns, the outer sides of the two limiting columns are respectively connected to the two vertical waist holes in a sliding manner, the fastening mechanism comprises fastening threaded columns, fastening arc-shaped plates and fastening handles, the lower ends of the fastening threaded columns are fixedly connected with the fastening arc-shaped plates, the upper ends of the fastening threaded columns are connected with the fastening handles through threads, the fastening mechanism is provided with two fastening threaded columns which are respectively in clearance fit with the two sides of the lifting rotating plate, the two fastening threaded columns penetrate through the lifting rotating plate, the upper ends of the two fastening arc-shaped plates are respectively attached to the supporting baffle I and the supporting baffle II, the inner side and the outer side of, the lower end of the fastening handle is contacted with the lifting rotating plate;

coupling mechanism II is including connection handle II, the connection baffle, the connecting thread post, connecting plate II, adjustment waist hole III, connection nail III and sliding column II, the equal fixedly connected with connection baffle in both ends of connection handle II, the connecting thread post is provided with two, the inboard of two connecting thread posts all is through threaded connection in connection handle II, the screw thread on two connecting thread posts is to opposite soon, two connecting thread posts sliding connection respectively are in two circular through-holes I, the equal fixedly connected with connecting plate II in the outside of two connecting thread posts, all be provided with two adjustment waist holes III on two connecting plates II, equal sliding connection has connection nail III in two adjustment waist holes III, equal fixedly connected with sliding column II on two connecting plates II, two sliding column II sliding connection respectively are in two circular through-holes II.

As a further optimization of the technical scheme, the connecting nail I comprises a connecting screw and a connecting sliding block, the connecting screw is connected with the connecting sliding block through threads, the connecting screw is connected in the sliding waist hole I in a sliding mode through the connecting sliding block, the connecting nail I, the connecting nail II and the connecting nail III are identical in structure, and the connecting nail I, the connecting nail II and the connecting nail III are identical in sliding connection mode.

As a further optimization of the technical scheme, the connecting mechanism I of the ceramic equipment connecting frame further comprises two adjusting waist holes II, and the two adjusting waist holes II are formed in the two connecting plates I.

As a further optimization of the technical scheme, the connecting mechanism ii of the ceramic equipment connecting frame further comprises two adjusting waist holes iv, and the two connecting plates ii are provided with the two adjusting waist holes iv.

As further optimization of the technical scheme, the connecting sliding block of the ceramic equipment connecting frame is processed in a split mode.

The ceramic equipment connecting frame has the beneficial effects that:

the ceramic equipment connecting frame can be used for quickly and fixedly connecting devices through the connecting nail I, the sliding waist hole I and the sliding waist hole II can enable the connecting nail I to be suitable for more mounting positions, the two connecting plates I are used for connecting and mounting two ceramic equipment, the adjusting waist hole I and the adjusting waist hole II can enable the two connecting plates I to be suitable for more mounting positions, the relative distance between the two connecting plates I is changed by rotating the connecting handle I, so that the two connecting plates I can be suitable for connecting requirements of different widths, the connecting mechanism II can change different heights according to different use requirements by rotating the lifting mechanism, the connecting mechanism II can connect and install two ceramic devices through the two connecting plates II, the relative distance between the two connecting plates II can be changed by rotating the connecting handle II, so that the ceramic equipment is suitable for connection requirements.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic view of the overall structure of the connecting frame of the ceramic device of the present invention;

FIG. 2 is a schematic view of the overall structure of the connecting frame of the ceramic device of the present invention;

FIG. 3 is a first schematic view of the fixing bracket of the present invention;

FIG. 4 is a second schematic view of the fixing bracket structure of the present invention;

FIG. 5 is a schematic structural view of a connecting mechanism I of the present invention;

FIG. 6 is a schematic structural view of the support mechanism of the present invention;

FIG. 7 is a schematic cross-sectional view of the support mechanism of the present invention;

FIG. 8 is a schematic view of the lift mechanism of the present invention;

FIG. 9 is a schematic cross-sectional view of the lift mechanism of the present invention;

FIG. 10 is a schematic view of the fastening mechanism of the present invention;

FIG. 11 is a schematic structural view of a connecting mechanism II of the present invention;

FIG. 12 is a schematic cross-sectional view of the connection mechanism II of the present invention;

fig. 13 is a schematic structural view of the connecting nail I of the invention.

In the figure: a fixed bracket 1; a fixed base plate 1-1; a fixed sliding cylinder 1-2; fixing a connecting plate I1-3; 1-4 of a sliding waist hole; fixing a connecting plate II 1-5; sliding waist holes II 1-6; 1-7 of rectangular plates; t-shaped grooves 1-8; rotating the plates 1-9; 1-10 parts of connecting nails; support plates 1-11; 1-12 parts of locking nail; connecting screws 1-13; connecting sliding blocks 1-14; a connecting mechanism I2; a connecting shaft I2-1; the connecting handle I2-2; a synchronous belt wheel I2-3; connecting shafts II 2-4; 2-5 synchronous belt wheels; 2-6 of thread blocks; 2-7 of a connecting rod; 2-8 of T-shaped track; 2-9 of a connecting plate; 2-10 parts of a sliding column I; adjusting waist holes I2-11; adjusting the waist holes II 2-12; connecting nails II 2-13; a support mechanism 3; a support base plate 3-1; 3-2 of a support cylinder; 3-3 parts of a supporting baffle plate; 3-4 of a support cylinder; 3-5 of a supporting baffle plate; 3-6 of an L-shaped support plate; 3-7 of vertical waist holes; installing a rotating groove 3-8; a lifting mechanism 4; a lifting rotating plate 4-1; a lifting rotating groove 4-2; 4-3 of a lifting rotary cylinder; lifting the mounting plate 4-4; 4-5 of a lifting baffle plate; 4-6 of lifting threaded columns; lifting baffles II 4-7; 4-8 of a lifting support plate I; 4-9 of a lifting support plate; 4-10 parts of a circular through hole; circular through holes II 4-11; 4-12 parts of a limiting column; 4-13 parts of a fastening mechanism; fastening threaded columns 4-14; 4-15 of fastening arc-shaped plates; fastening handles 4-16; a connecting mechanism II 5; a connecting handle II 5-1; connecting a baffle 5-2; connecting the threaded columns 5-3; 5-4 of a connecting plate; 5-5 of adjusting a waist hole III; adjusting waist holes IV by 5-6; 5-7 of connecting nails; and 5-8 sliding columns II.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Before describing the embodiments, to avoid repetitive language, it is explained that the "fixed connection" described below may be: the fixing device is fixed through modes such as bolt connection, welding and rivet connection, and technicians in the field can select different fixing and connecting modes according to different application scenes, and the fixing device is mainly used for fixing two parts.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-13, a ceramic device connecting frame comprises a fixed support 1, a connecting mechanism I2, a supporting mechanism 3, a lifting mechanism 4 and a connecting mechanism II 5, the device can be quickly and fixedly connected through connecting nails I1-10, connecting nails I1-10 can be made to be suitable for more installation positions by sliding waist holes I1-4 and sliding waist holes II 1-6, two connecting plates I2-9 are used for connecting and installing two ceramic devices, two connecting plates I2-9 can be suitable for more installation positions by adjusting waist holes I2-11 and adjusting waist holes II 2-12, two connecting plates I2-9 can be suitable for more installation positions by changing the relative distance between two connecting plates I2-9 by rotating a connecting handle I2-2, so that the two connecting plates I2-9 can be suitable for connection requirements of different widths, the connecting mechanism II 5 can change different heights according to different use requirements by rotating the lifting mechanism 4, the connecting mechanism II 5 can connect and install two ceramic devices through the two connecting plates II 5-4, and the relative distance between the two connecting plates II 5-4 can be changed by rotating the connecting handle II 5-1 so as to be suitable for the ceramic devices with the connection requirements.

The fixed support 1 comprises a fixed bottom plate 1-1, fixed sliding cylinders 1-2, fixed connecting plates I1-3, sliding waist holes I1-4, fixed connecting plates II 1-5, sliding waist holes II 1-6, rectangular plates 1-7, T-shaped grooves 1-8, rotating plates 1-9, connecting nails I1-10, supporting plates 1-11 and locking nails 1-12, wherein the fixed sliding cylinders 1-2 are fixedly connected to four corners of the fixed bottom plate 1-1, the lower ends of the four corners of the fixed bottom plate 1-1 are fixedly connected with the fixed connecting plates I1-3, the sliding waist holes I1-4 are arranged on the four fixed connecting plates I1-3, and the fixed connecting plates II 1-5 are fixedly connected between every two fixed connecting plates I1-3, two fixed connecting plates II 1-5 are respectively provided with a sliding waist hole II 1-6, the middle end of the lower side of the fixed bottom plate 1-1 is fixedly connected with a rectangular plate 1-7, a T-shaped groove 1-8 is arranged on the rectangular plate 1-7, the middle end of the lower side of the rectangular plate 1-7 is fixedly connected with a rotating plate 1-9, connecting nails I1-10 are respectively and slidably connected in four sliding waist holes I1-4, two connecting nails I1-10 are respectively and slidably connected in two sliding waist holes II 1-6, the middle end of one side of the fixed bottom plate 1-1 is fixedly connected with a supporting plate 1-11, and locking nails 1-12 are connected on the supporting plate 1-11 through threads;

the connecting mechanism I2 comprises a connecting shaft I2-1, a connecting handle I2-2, a synchronous pulley I2-3, a connecting shaft II 2-4, a synchronous pulley II 2-5, a thread block 2-6, a connecting rod 2-7, a T-shaped track 2-8, a connecting plate I2-9, a sliding column I2-10, an adjusting waist hole I2-11 and a connecting nail II 2-13, wherein the upper end and the lower end of the connecting shaft I2-1 are respectively and fixedly connected with the connecting handle I2-2 and the synchronous pulley I2-3, the lower end of the connecting shaft II 2-4 is fixedly connected with the synchronous pulley II 2-5, the synchronous pulley II 2-5 and the synchronous pulley I2-3 are connected through synchronous belt transmission, the connecting shaft I2-1 is rotatably connected to the supporting plate 1-11, the locking nail 1-12 penetrates through the supporting plate 1-11 to be in contact with the connecting shaft I2-1, the connecting shaft II 2-4 is rotatably connected to the rotating plate 1-9, the connecting shaft II 2-4 is connected with a thread block 2-6 through threads, two ends of the thread block 2-6 are hinged with connecting rods 2-7, the outer ends of the two connecting rods 2-7 are respectively hinged with T-shaped tracks 2-8, the two T-shaped tracks 2-8 are respectively and slidably connected into the two T-shaped grooves 1-8, the outer ends of the two T-shaped tracks 2-8 are respectively and fixedly connected with connecting plates I2-9, two adjusting waist holes I2-11 are respectively arranged on the two connecting plates I2-9, connecting nails II 2-13 are respectively and slidably connected into the four adjusting waist holes I2-11, and four sliding columns I2-10 are respectively and slidably connected into the four fixed sliding cylinders 1-2;

the supporting mechanism 3 comprises a supporting base plate 3-1, a supporting cylinder I3-2, a supporting baffle I3-3, a supporting cylinder II 3-4, a supporting baffle II 3-5, an L-shaped supporting plate 3-6, a vertical waist hole 3-7 and an installation rotating groove 3-8, the supporting base plate 3-1 is fixedly connected with the supporting cylinder I3-2 and the supporting cylinder II 3-4, the supporting cylinder I3-2 and the supporting cylinder II 3-4 are coaxially arranged, the supporting cylinder I3-2 and the supporting cylinder II 3-4 are respectively and fixedly connected with the supporting baffle I3-3 and the supporting baffle II 3-5, the two sides of the supporting base plate 3-1 are respectively and fixedly connected with the L-shaped supporting plate 3-6, the two L-shaped supporting plates 3-6 are respectively provided with a vertical waist hole 3-7, the supporting bottom plate 3-1 is provided with an installation rotating groove 3-8, and the supporting bottom plate 3-1 is fixedly connected to the fixed bottom plate 1-1;

the lifting mechanism 4 comprises a lifting rotating plate 4-1, a lifting rotating groove 4-2, a lifting rotating cylinder 4-3, a lifting mounting plate 4-4, a lifting baffle plate I4-5, a lifting threaded column 4-6, a lifting baffle plate II 4-7, a lifting support plate I4-8, a lifting support plate II 4-9, a circular through hole I4-10, a circular through hole II 4-11, a limiting column 4-12 and a fastening mechanism 4-13, the lifting rotating plate 4-1 is provided with the lifting rotating groove 4-2, the lifting rotating plate 4-1 is rotatably connected to the supporting baffle plate I3-3 and the supporting baffle plate II 3-5 through the lifting rotating groove 4-2, the lifting rotating cylinder 4-3 is fixedly connected to the lifting rotating plate 4-1, and the lifting mounting plate 4-4 and the lifting baffle plate are fixedly connected to the upper end and the lower end of the lifting rotating cylinder 4-3 respectively A plate II 4-7, a lifting mounting plate 4-4 is rotatably connected in the mounting rotating groove 3-8, a lifting baffle I4-5 is fixedly connected on the supporting base plate 3-1, the inner ring of the lifting baffle I4-5 is contacted with the lifting mounting plate 4-4, a lifting threaded column 4-6 is connected in the lifting rotating cylinder 4-3 through threads, the upper end of the lifting threaded column 4-6 is fixedly connected with a lifting supporting plate I4-8, the two sides of the lifting supporting plate I4-8 are both fixedly connected with lifting supporting plates II 4-9, the two lifting supporting plates II 4-9 are both provided with a circular through hole I4-10 and a circular through hole II 4-11, the number of the limiting columns 4-12 is two, the inner sides of the two limiting columns 4-12 are both fixedly connected on the lifting threaded column 4-6, the outer sides of two limiting columns 4-12 are respectively connected in two vertical waist holes 3-7 in a sliding manner, a fastening mechanism 4-13 comprises two fastening threaded columns 4-14, two fastening arc plates 4-15 and two fastening handles 4-16, the lower ends of the fastening threaded columns 4-14 are fixedly connected with the fastening arc plates 4-15, the upper ends of the fastening threaded columns 4-14 are connected with the fastening handles 4-16 through threads, two fastening mechanisms 4-13 are arranged, the two fastening threaded columns 4-14 are respectively in clearance fit with the two sides of a lifting rotating plate 4-1, the two fastening threaded columns 4-14 penetrate through the lifting rotating plate 4-1, the upper ends of the two fastening arc plates 4-15 are respectively attached to a supporting baffle I3-3 and a supporting baffle II 3-5, and the inner side and the outer side of the two fastening arc plates 4-15 are respectively attached to a supporting cylinder I3-2 and a supporting cylinder II 3-4 Fitting, wherein the lower end of the fastening handle 4-16 is contacted with the lifting rotating plate 4-1;

the connecting mechanism II 5 comprises a connecting handle II 5-1, a connecting baffle plate 5-2, connecting threaded columns 5-3, connecting plates II 5-4, adjusting waist holes III 5-5, connecting nails III 5-7 and sliding columns II 5-8, the connecting baffle plate 5-2 is fixedly connected at both ends of the connecting handle II 5-1, two connecting threaded columns 5-3 are arranged, the inner sides of the two connecting threaded columns 5-3 are connected in the connecting handle II 5-1 through threads, the thread turning directions on the two connecting threaded columns 5-3 are opposite, the two connecting threaded columns 5-3 are respectively connected in two circular through holes I4-10 in a sliding manner, the connecting plates II 5-4 are fixedly connected at the outer sides of the two connecting threaded columns 5-3, two adjusting waist holes III 5-5 are arranged on the two connecting plates II 5-4, connecting nails III 5-7 are slidably connected in the two adjusting waist holes III 5-5, sliding columns II 5-8 are fixedly connected on the two connecting plates II 5-4, and the two sliding columns II 5-8 are respectively slidably connected in the two circular through holes II 4-11; when the device is used, the device is fixedly connected at a designated position through a connecting nail I1-10, the connecting screw 1-13 is enabled to rotate in a connecting sliding block 1-14 through threads by rotating the connecting screw 1-13, the connecting screw 1-13 is connected with the designated position to be fixed through threads, the connecting sliding block 1-14 is enabled not to slide in a sliding waist hole I1-4 and a sliding waist hole II 1-6 by extrusion force generated in the axial direction of the connecting screw 1-13 through the threads, the position of the device is fixed, and when the position of the device or the installation position needs to be adjusted, the connecting sliding block 1-14 is enabled to slide in the sliding waist hole I1-4 and the sliding waist hole II 1-6; when two different ceramic devices on two sides need to be connected and installed, the two different ceramic devices on the two sides are connected and fixed through the connecting nails II 2-13 on the two connecting plates I2-9 through threads, and when the connecting positions or the installing positions of the connecting nails II 2-13 on the two different ceramic devices on the two sides need to be adjusted, the connecting nails II are enabled to be connected

2-13 in the adjusting waist holes I2-11, the connecting positions or mounting positions of the connecting nails II 2-13 on two different ceramic devices on two sides are changed in a sliding manner, the connecting mechanism II 5 further comprises adjusting waist holes IV 5-6, and two adjusting waist holes IV 5-6 are arranged on the two connecting plates II 5-4; the connecting nails III 5-7 can be installed in the two adjusting waist holes IV 5-6, so that the two connecting plates II 5-4 have more installation positions, when the relative distance between the two connecting plates I2-9 is adjusted according to different use requirements, the connecting handle I2-2 is rotated, so that the connecting handle I2-2 rotates by taking the axis of the connecting shaft I2-1 as the center, the connecting handle I2-2 drives the connecting shaft I2-1 to rotate by taking the axis of the connecting shaft I2-1 as the center, the connecting shaft I2-1 drives the synchronous belt pulley I2-3 to rotate by taking the axis of the connecting shaft I2-1 as the center, the synchronous belt pulley I2-3 drives the synchronous belt pulley II 2-5 to rotate by taking the axis of the connecting shaft II 2-4 as the center, and the synchronous belt pulley II 2-5 drives the connecting shaft II 2-4 to rotate by taking the axis of the connecting shaft II 2 The connecting shaft II 2-4 drives the thread blocks 2-6 to move in the axis direction of the connecting shaft II 2-4 through threads, the thread blocks 2-6 drive the inner sides of the two connecting rods 2-7 to move in the axis direction of the connecting shaft II 2-4, the outer sides of the two connecting rods 2-7 are close to or far away from each other, the outer sides of the two connecting rods 2-7 drive the two T-shaped rails 2-8 to be close to or far away from each other, the two T-shaped rails 2-8 drive the two connecting plates I2-9 to be close to or far away from each other, the relative distance between the two connecting plates I2-9 changes, the two connecting plates I2-9 can be suitable for more use requirements, and the connecting shaft II 2-4 has the characteristic of unidirectional self-locking because the threads drive the thread blocks 2-6 to move, the distance between the two connecting plates I2-9 cannot be changed due to the reaction force applied to the two connecting plates I2-9, and the connecting shaft I2-1 can be fixed through the threaded transmission of the locking nails 1-12 on the supporting plates 1-11; when more ceramic equipment needs to be connected or more use requirements are met, the lifting rotating plate 4-1 is rotated to enable the lifting rotating plate 4-1 to rotate by taking the axis of the lifting rotating plate 4-1 as the center, the lifting rotating plate 4-1 drives the lifting rotating cylinder 4-3 to rotate by taking the axis of the lifting rotating plate 4-1 as the center, the lifting rotating cylinder 4-3 enables the lifting threaded column 4-6 to move up and down on the axis of the lifting rotating cylinder 4-3 in the limiting direction of the limiting column 4-12 through threads, the lifting threaded column 4-6 drives the lifting supporting plate I4-8 and the lifting supporting plate II 4-9 to move up and down on the axis of the lifting rotating cylinder 4-3, and the lifting supporting plate II 4-9 drives the connecting mechanism II 5 to move up and down on the axis of the lifting rotating cylinder 4-3, the height of the connecting mechanism II 5 is changed to meet more connecting requirements, the connecting mechanism II 5 fixes two ceramic devices on two sides through connecting nails III 5-7 on two connecting plates II 5-4, the connecting nails III 5-7 can meet more connecting requirements by sliding in adjusting waist holes III 5-5 and adjusting waist holes IV 5-6, when the relative distance between the two connecting plates II 5-4 needs to be changed to meet more connecting requirements, the connecting handle II 5-1 is rotated, the connecting handle II 5-1 rotates by taking the axis of the connecting handle II 5-1 as the center, the screw thread rotating directions on the two connecting threaded columns 5-3 are opposite, the connecting handle II 5-1 drives the two connecting threaded columns 5-3 to be close to or far away from each other on the axis of the connecting handle II 5-1 through screw threads, the two connecting threaded columns 5-3 drive the two connecting plates II 5-4 to mutually approach or separate from each other on the axis of the connecting handle II 5-1, and the relative distance between the two connecting plates II 5-4 is changed to meet more connecting requirements.

The connecting nails I1-10 comprise connecting screws 1-13 and connecting sliding blocks 1-14, the connecting sliding blocks 1-14 are connected to the connecting screws 1-13 through threads, the connecting screws 1-13 are slidably connected into the sliding waist holes I1-4 through the connecting sliding blocks 1-14, the connecting nails I1-10, the connecting nails II 2-13 and the connecting nails III 5-7 are identical in structure, and the connecting nails I1-10, the connecting nails II 2-13 and the connecting nails III 5-7 are identical in sliding connection mode; the connecting sliding blocks 1-14 can limit the connecting screws 1-13, the connecting sliding blocks 1-14 are processed in a split mode to ensure that the connecting sliding blocks 1-14 can be installed in the sliding waist holes I1-4 and the sliding waist holes II 1-6, the connecting nails I1-10, the connecting nails II 2-13 and the connecting nails III 5-7 are connected in a sliding mode in the same mode, and the connecting nails II 2-13 and the connecting nails III 5-7 are connected in the adjusting waist holes I2-11, the adjusting waist holes II 2-12, the adjusting waist holes III 5-5 and the adjusting waist holes IV 5-6 in a sliding mode in the same mode.

The connecting mechanism I2 further comprises two adjusting waist holes II 2-12, and the two connecting plates I2-9 are respectively provided with the two adjusting waist holes II 2-12; the two adjusting waist holes II 2-12 can be internally provided with connecting nails II 2-13, so that the two connecting plates I2-9 have more mounting positions.

The connecting mechanism II 5 further comprises two adjusting waist holes IV 5-6, and the two connecting plates II 5-4 are respectively provided with two adjusting waist holes IV 5-6; the two adjusting waist holes IV 5-6 can be internally provided with connecting nails III 5-7, so that the two connecting plates II 5-4 have more mounting positions.

The connecting sliding blocks 1-14 are processed in a split mode; the sliding blocks 1-14 can be installed in the sliding waist holes I1-4 and the sliding waist holes II 1-6.

The invention relates to a ceramic equipment connecting frame, which has the working principle that:

when the device is used, the device is fixedly connected at a designated position through a connecting nail I1-10, the connecting screw 1-13 is enabled to rotate in a connecting sliding block 1-14 through threads by rotating the connecting screw 1-13, the connecting screw 1-13 is connected with the designated position to be fixed through threads, the connecting sliding block 1-14 is enabled not to slide in a sliding waist hole I1-4 and a sliding waist hole II 1-6 by extrusion force generated in the axial direction of the connecting screw 1-13 through the threads, the position of the device is fixed, and when the position of the device or the installation position needs to be adjusted, the connecting sliding block 1-14 is enabled to slide in the sliding waist hole I1-4 and the sliding waist hole II 1-6; when two different ceramic devices on two sides need to be connected and installed, the two different ceramic devices on the two sides are connected and fixed through the connecting nails II 2-13 on the two connecting plates I2-9 through threads, and when the connecting positions or the installing positions of the connecting nails II 2-13 on the two different ceramic devices on the two sides need to be adjusted, the connecting nails II 2-13 slide in the adjusting waist holes I2-11 to change the connecting positions or the installing positions of the connecting nails II 2-13 on the two different ceramic devices on the two sides, the connecting mechanism II 5 further comprises adjusting waist holes IV 5-6, and the two connecting plates II 5-4 are provided with two adjusting waist holes IV 5-6; the connecting nails III 5-7 can be installed in the two adjusting waist holes IV 5-6, so that the two connecting plates II 5-4 have more installation positions, when the relative distance between the two connecting plates I2-9 is adjusted according to different use requirements, the connecting handle I2-2 is rotated, so that the connecting handle I2-2 rotates by taking the axis of the connecting shaft I2-1 as the center, the connecting handle I2-2 drives the connecting shaft I2-1 to rotate by taking the axis of the connecting shaft I2-1 as the center, the connecting shaft I2-1 drives the synchronous belt pulley I2-3 to rotate by taking the axis of the connecting shaft I2-1 as the center, the synchronous belt pulley I2-3 drives the synchronous belt pulley II 2-5 to rotate by taking the axis of the connecting shaft II 2-4 as the center, and the synchronous belt pulley II 2-5 drives the connecting shaft II 2-4 to rotate by taking the axis of the connecting shaft II 2 The connecting shaft II 2-4 drives the thread blocks 2-6 to move in the axis direction of the connecting shaft II 2-4 through threads, the thread blocks 2-6 drive the inner sides of the two connecting rods 2-7 to move in the axis direction of the connecting shaft II 2-4, the outer sides of the two connecting rods 2-7 are close to or far away from each other, the outer sides of the two connecting rods 2-7 drive the two T-shaped rails 2-8 to be close to or far away from each other, the two T-shaped rails 2-8 drive the two connecting plates I2-9 to be close to or far away from each other, the relative distance between the two connecting plates I2-9 changes, the two connecting plates I2-9 can be suitable for more use requirements, and the connecting shaft II 2-4 has the characteristic of unidirectional self-locking because the threads drive the thread blocks 2-6 to move, the distance between the two connecting plates I2-9 cannot be changed due to the reaction force applied to the two connecting plates I2-9, and the connecting shaft I2-1 can be fixed through the threaded transmission of the locking nails 1-12 on the supporting plates 1-11; when more ceramic equipment needs to be connected or more use requirements are met, the lifting rotating plate 4-1 is rotated to enable the lifting rotating plate 4-1 to rotate by taking the axis of the lifting rotating plate 4-1 as the center, the lifting rotating plate 4-1 drives the lifting rotating cylinder 4-3 to rotate by taking the axis of the lifting rotating plate 4-1 as the center, the lifting rotating cylinder 4-3 enables the lifting threaded column 4-6 to move up and down on the axis of the lifting rotating cylinder 4-3 in the limiting direction of the limiting column 4-12 through threads, the lifting threaded column 4-6 drives the lifting supporting plate I4-8 and the lifting supporting plate II 4-9 to move up and down on the axis of the lifting rotating cylinder 4-3, and the lifting supporting plate II 4-9 drives the connecting mechanism II 5 to move up and down on the axis of the lifting rotating cylinder 4-3, the height of the connecting mechanism II 5 is changed to meet more connecting requirements, the connecting mechanism II 5 fixes two ceramic devices on two sides through connecting nails III 5-7 on two connecting plates II 5-4, the connecting nails III 5-7 can meet more connecting requirements by sliding in adjusting waist holes III 5-5 and adjusting waist holes IV 5-6, when the relative distance between the two connecting plates II 5-4 needs to be changed to meet more connecting requirements, the connecting handle II 5-1 is rotated, the connecting handle II 5-1 rotates by taking the axis of the connecting handle II 5-1 as the center, the screw thread rotating directions on the two connecting threaded columns 5-3 are opposite, the connecting handle II 5-1 drives the two connecting threaded columns 5-3 to be close to or far away from each other on the axis of the connecting handle II 5-1 through screw threads, the two connecting threaded columns 5-3 drive the two connecting plates II 5-4 to mutually approach or separate from each other on the axis of the connecting handle II 5-1, and the relative distance between the two connecting plates II 5-4 is changed to meet more connecting requirements.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a ceramic equipment link, includes fixed bolster (1), coupling mechanism I (2), supporting mechanism (3), elevating system (4) and coupling mechanism II (5), its characterized in that: the fixing support (1) comprises a fixing bottom plate (1-1), fixing sliding cylinders (1-2), fixing connecting plates I (1-3), sliding waist holes I (1-4), fixing connecting plates II (1-5), sliding waist holes II (1-6), rectangular plates (1-7), T-shaped grooves (1-8), rotating plates (1-9), connecting nails I (1-10), supporting plates (1-11) and locking nails (1-12), the fixing sliding cylinders (1-2) are fixedly connected to four corners of the fixing bottom plate (1-1), the fixing connecting plates I (1-3) are fixedly connected to the lower ends of the four corners of the fixing bottom plate (1-1), the sliding waist holes I (1-4) are arranged on the four fixing connecting plates I (1-3), fixedly connected with a fixed connecting plate II (1-5) between every two of four fixed connecting plates I (1-3), sliding waist holes II (1-6) are respectively arranged on the two fixed connecting plates II (1-5), the middle end of the lower side of the fixed bottom plate (1-1) is fixedly connected with a rectangular plate (1-7), a T-shaped groove (1-8) is arranged on the rectangular plate (1-7), the middle end of the lower side of the rectangular plate (1-7) is fixedly connected with a rotating plate (1-9), connecting nails I (1-10) are respectively and slidably connected in the four sliding waist holes I (1-4), two connecting nails I (1-10) are respectively and slidably connected in the two sliding waist holes II (1-6), a supporting plate (1-11) is fixedly connected at the middle end of one side of the fixed bottom plate (1-1), the support plates (1-11) are connected with locking nails (1-12) through threads;

the connecting mechanism I (2) comprises a connecting shaft I (2-1), a connecting handle I (2-2), a synchronous pulley I (2-3), a connecting shaft II (2-4), a synchronous pulley II (2-5), a thread block (2-6), a connecting rod (2-7), a T-shaped track (2-8), a connecting plate I (2-9), a sliding column I (2-10), an adjusting waist hole I (2-11) and a connecting nail II (2-13), wherein the upper end and the lower end of the connecting shaft I (2-1) are respectively and fixedly connected with the connecting handle I (2-2) and the synchronous pulley I (2-3), the lower end of the connecting shaft II (2-4) is fixedly connected with the synchronous pulley II (2-5), and the synchronous pulley II (2-5) and the synchronous pulley I (2-3) are connected through synchronous belt transmission, the connecting shaft I (2-1) is rotatably connected to the supporting plate (1-11), the locking nail (1-12) penetrates through the supporting plate (1-11) to be in contact with the connecting shaft I (2-1), the connecting shaft II (2-4) is rotatably connected to the rotating plate (1-9), the connecting shaft II (2-4) is connected with a thread block (2-6) through threads, two ends of the thread block (2-6) are hinged with connecting rods (2-7), the outer ends of the two connecting rods (2-7) are respectively hinged with T-shaped rails (2-8), the two T-shaped rails (2-8) are respectively connected in two T-shaped grooves (1-8) in a sliding mode, the outer ends of the two T-shaped rails (2-8) are respectively and fixedly connected with connecting plates I (2-9), two adjusting waist holes I (2-11) are respectively arranged on the two connecting plates I (2-9), the four adjusting waist holes I (2-11) are all connected with connecting nails II (2-13) in a sliding manner, and the four sliding columns I (2-10) are respectively connected in the four fixed sliding cylinders (1-2) in a sliding manner;

the supporting mechanism (3) comprises a supporting base plate (3-1), a supporting cylinder I (3-2), a supporting baffle I (3-3), a supporting cylinder II (3-4), a supporting baffle II (3-5), an L-shaped supporting plate (3-6), a vertical waist hole (3-7) and an installation rotating groove (3-8), the supporting base plate I (3-2) and the supporting cylinder II (3-4) are fixedly connected to the supporting base plate (3-1), the supporting cylinder I (3-2) and the supporting cylinder II (3-4) are coaxially arranged, the supporting baffle I (3-3) and the supporting baffle II (3-5) are fixedly connected to the supporting cylinder I (3-2) and the supporting cylinder II (3-4) respectively, the L-shaped supporting plate (3-6) is fixedly connected to both sides of the supporting base plate (3-1), vertical waist holes (3-7) are formed in the two L-shaped supporting plates (3-6), mounting rotating grooves (3-8) are formed in the supporting bottom plates (3-1), and the supporting bottom plates (3-1) are fixedly connected to the fixing bottom plates (1-1);

the lifting mechanism (4) comprises a lifting rotating plate (4-1), a lifting rotating groove (4-2), a lifting rotating cylinder (4-3), a lifting mounting plate (4-4), a lifting baffle I (4-5), a lifting threaded column (4-6), a lifting baffle II (4-7), a lifting support plate I (4-8), a lifting support plate II (4-9), a circular through hole I (4-10), a circular through hole II (4-11), a limiting column (4-12) and a fastening mechanism (4-13), the lifting rotating plate (4-1) is provided with the lifting rotating groove (4-2), the lifting rotating plate (4-1) is rotatably connected to the supporting baffle I (3-3) and the supporting baffle II (3-5) through the lifting rotating groove (4-2), a lifting rotating cylinder (4-3) is fixedly connected on the lifting rotating plate (4-1), the upper end and the lower end of the lifting rotating cylinder (4-3) are respectively fixedly connected with a lifting mounting plate (4-4) and a lifting baffle plate II (4-7), the lifting mounting plate (4-4) is rotatably connected in a mounting rotating groove (3-8), a lifting baffle plate I (4-5) is fixedly connected on a supporting base plate (3-1), the inner ring of the lifting baffle plate I (4-5) is contacted with the lifting mounting plate (4-4), a lifting threaded column (4-6) is connected in the lifting rotating cylinder (4-3) through threads, a lifting supporting plate I (4-8) is fixedly connected at the upper end of the lifting threaded column (4-6), and lifting supporting plates II (4-9) are fixedly connected on the two sides of the lifting supporting plate I (4-8), the two lifting support plates II (4-9) are respectively provided with a circular through hole I (4-10) and a circular through hole II (4-11), the number of the limiting columns (4-12) is two, the inner sides of the two limiting columns (4-12) are fixedly connected to the lifting threaded columns (4-6), the outer sides of the two limiting columns (4-12) are respectively connected in the two vertical waist holes (3-7) in a sliding manner, the fastening mechanism (4-13) comprises a fastening threaded column (4-14), a fastening arc-shaped plate (4-15) and a fastening handle (4-16), the lower end of the fastening threaded column (4-14) is fixedly connected with the fastening arc-shaped plate (4-15), the upper end of the fastening threaded column (4-14) is connected with the fastening handle (4-16) through threads, and the number of the fastening mechanism (4-13) is two, two fastening threaded columns (4-14) are respectively in clearance fit with two sides of the lifting rotating plate (4-1), the two fastening threaded columns (4-14) penetrate through the lifting rotating plate (4-1), the upper ends of the two fastening arc plates (4-15) are respectively attached to the supporting baffle I (3-3) and the supporting baffle II (3-5), the inner side and the outer side of the two fastening arc plates (4-15) are respectively attached to the supporting cylinder I (3-2) and the supporting cylinder II (3-4), and the lower end of the fastening handle (4-16) is in contact with the lifting rotating plate (4-1);

the connecting mechanism II (5) comprises a connecting handle II (5-1), connecting baffles (5-2), connecting threaded columns (5-3), connecting plates II (5-4), adjusting waist holes III (5-5), connecting nails III (5-7) and sliding columns II (5-8), the two ends of the connecting handle II (5-1) are fixedly connected with the connecting baffles (5-2), the number of the connecting threaded columns (5-3) is two, the inner sides of the two connecting threaded columns (5-3) are connected into the connecting handle II (5-1) through threads, the thread turning directions of the two connecting threaded columns (5-3) are opposite, the two connecting threaded columns (5-3) are respectively connected into the two round through holes I (4-10) in a sliding manner, the outer sides of the two connecting threaded columns (5-3) are respectively and fixedly connected with the connecting plates II (5-4), two adjusting waist holes III (5-5) are formed in the two connecting plates II (5-4), connecting nails III (5-7) are connected in the two adjusting waist holes III (5-5) in a sliding mode, sliding columns II (5-8) are fixedly connected to the two connecting plates II (5-4), and the two sliding columns II (5-8) are connected in the two circular through holes II (4-11) in a sliding mode respectively.

2. A ceramic equipment link according to claim 1 wherein: the connecting nail I (1-10) comprises a connecting screw (1-13) and a connecting sliding block (1-14), the connecting screw (1-13) is connected with the connecting sliding block (1-14) through a thread, the connecting screw (1-13) is connected in the sliding waist hole I (1-4) through the connecting sliding block (1-14) in a sliding mode, the connecting nail I (1-10), the connecting nail II (2-13) and the connecting nail III (5-7) are identical in structure, and the connecting nail I (1-10), the connecting nail II (2-13) and the connecting nail III (5-7) are identical in sliding connection mode.

3. A ceramic equipment link according to claim 2 wherein: the connecting mechanism I (2) further comprises two adjusting waist holes II (2-12), and the two connecting plates I (2-9) are provided with the two adjusting waist holes II (2-12).

4. A ceramic equipment link according to claim 3 wherein: the connecting mechanism II (5) further comprises two adjusting waist holes IV (5-6), and the two connecting plates II (5-4) are respectively provided with the two adjusting waist holes IV (5-6).

5. The ceramic equipment link of claim 4, wherein: the connecting sliding blocks (1-14) are processed in a split mode.

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