CN113579701B

CN113579701B - Baffle pressure equipment kayser machine

Info

Publication number: CN113579701B
Application number: CN202110877845.9A
Authority: CN
Inventors: 樊宇峰; 何松礼; 吴斌
Original assignee: Chengdu Hanke Robot Co ltd
Current assignee: Chengdu Hanke Robot Co ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2022-09-27
Anticipated expiration: 2041-07-30
Also published as: CN113579701A

Abstract

The invention relates to the technical field of installation of a partition plate, in particular to a partition plate press-fitting clamping and locking machine, which is used for solving the problems that in the prior art, when the partition plate is installed in a fuel tank, the fuel tank is easy to crack, the fuel tank is easy to leak, time and labor are wasted, and the labor intensity is high. The invention comprises a base, a mounting rack and a main slide rail, wherein the mounting rack is provided with a mounting plate, the mounting rack is provided with a radial outward expansion assembly, the mounting plate is also provided with an inner membrane assembly, and the mounting rack is provided with an outer membrane assembly; the main sliding rail is provided with a middle sliding block, a tail end sliding block and a rotating mechanism, the rotating mechanism is provided with a rotating plate, the top surface of the rotating plate is provided with a supporting frame assembly, the supporting frame assembly is provided with an adsorption mechanism, the tail end sliding block is provided with a tail seat, and the side surface of the tail seat is provided with a clamping mechanism. According to the technical scheme, the fuel tank is not easy to leak oil, and meanwhile, the labor intensity and the time spent by workers can be reduced.

Description

Baffle pressure equipment kayser machine

Technical Field

The invention relates to the technical field of installation of partition plates, in particular to the technical field of installation of fuel tank partition plates, and particularly relates to a partition plate press-fitting clamping and locking machine.

Background

The fuel tank, i.e. fuel storage device, has high requirement for corrosion resistance, when the pressure of double working pressure is at least 0.03MPa, the fuel tank is sealed, the generated overpressure must be automatically reduced by a hole or a safety valve, the fuel cannot flow out from a liquid filling sealing cover or a pressure balancing device when the fuel tank runs on a bend, an inclined road surface or is impacted, the fuel tank must be installed away from an engine so as to avoid igniting the fuel when a traffic accident occurs, a fuel tank clapboard is assembled in the fuel tank and plays a role of buffering fuel vibration and supporting a fuel tank framework, and corresponding equipment is usually needed to be paved when the clapboard is installed in the fuel tank.

In the prior art, the equipment for mounting the middle-paved combustion-supporting fuel tank partition plate mainly comprises a welding gun and a support frame, wherein a fuel tank is mounted on the support frame, the partition plate is placed in the fuel tank, then the partition plate is welded through the welding gun, and finally the partition plate is welded in the fuel tank; moreover, during the welding of the partition, the position of the fuel tank is required to be moved, which is usually done manually, which inevitably increases the labor intensity of the workers.

To sum up, install the baffle in the fuel tank among the prior art, exist and pull easily the fuel tank that splits, lead to the fuel tank seepage to and waste time and energy, problem that intensity of labour is big. In order to solve the technical problem, a partition press-fitting latch machine is particularly provided.

Disclosure of Invention

Based on the problems, the invention provides a baffle press-fitting clamping and locking machine which is used for solving the problems that in the prior art, a baffle is installed in a fuel tank, the fuel tank is prone to being cracked, the fuel tank is prone to leakage, time and labor are wasted, and labor intensity is high. According to the invention, the inner membrane component and the outer membrane component extrude the partition plate, so that grooves matched with each other can be formed between the fuel tank and the partition plate, and the partition plate is installed in the fuel tank in a clamping manner through the grooves, so that welding spots cannot appear between the fuel tank and the partition plate, the fuel tank shell is not easy to crack due to vibration of fuel, and the fuel tank is not easy to leak fuel; the support frame assembly and the fuel tank can be driven to slide along the length direction of the base through the sliding mechanism, the support frame and the fuel tank can be driven to rotate through the rotating mechanism, the fuel tanks at different height positions can be conveniently adsorbed through the adsorption mechanism, the fuel tanks can be conveniently clamped through the clamping mechanism, the tailstock is convenient to move through the conveying mechanism, and therefore the manual moving and carrying work can be reduced when the partition plate is installed, and the labor intensity and the time spent by workers can be reduced.

The invention specifically adopts the following technical scheme for realizing the purpose:

a partition plate press-mounting clamping and locking machine comprises a base, wherein a mounting frame and a main sliding rail are sequentially arranged on the top surface of the base along the length direction of the base, a mounting plate is arranged on the mounting frame, a radial outward expansion assembly penetrating through the mounting plate is arranged on the mounting frame, an inner membrane assembly connected with the radial outward expansion assembly is further arranged on the mounting plate, and an outer membrane assembly corresponding to the inner membrane assembly is arranged on the mounting frame;

the main sliding rail is sequentially provided with a middle sliding block and a tail end sliding block along the length direction of the main sliding rail, the top surface of the middle sliding block is provided with a base plate, the base plate is provided with a rotating mechanism, the rotating mechanism is provided with a rotating plate, the top surface of the rotating plate is provided with a support frame assembly through a connecting piece, the support frame assembly is provided with an adsorption mechanism, and the base is also provided with a sliding mechanism connected with the base plate; the tail end sliding block is provided with a tail seat, the side face of the tail seat is provided with a clamping mechanism, and the base is provided with a conveying mechanism connected with the tail seat.

The preferable structure of the inner membrane component is as follows: radial spout has been seted up to the radial even of mounting panel, the inner membrance subassembly includes and radially expands outward a plurality of inner membrance briquetting that the subassembly is connected and be located radial spout.

The preferred structure of the outer membrane assembly is: the adventitia subassembly includes a plurality of adventitia cylinders of evenly installing in the mounting bracket side, install the adventitia briquetting on the piston rod of adventitia cylinder, and the adventitia briquetting can follow the radial slip of mounting panel, adventitia briquetting and intimal briquetting one-to-one.

The preferred construction of the radially flaring assembly is: the radial outer subassembly that expands is including installing the outer cylinder that expands on the mounting bracket, be connected with the outer post that expands that passes the through-hole on the piston rod of outer cylinder that expands, expand the post outward and pass through the sliding sleeve and be connected with the mounting bracket, the even division of tip of outer post that expands has a plurality of wedges inclined planes, install the sliding unit who is connected with the inner membrance briquetting on the wedge inclined plane.

Preferably, the sliding unit expands the board including installing outward on the wedge inclined plane, the top surface that expands the board outward is equipped with the fixed plate of being connected with the inner membrance briquetting, but fixed plate and outer expand the relative slip between the board, install the guided way that is located outer expansion board both sides on the wedge inclined plane, open the side of guided way has the guide way, it is stupefied that the both sides of expanding the board still integrated into one piece have the direction outward, the protruding stupefied position in the guide way that leads.

The preferred structure of the support frame assembly is: the support frame assembly comprises a first support frame and a second support frame which are oppositely arranged on the connecting piece, the connecting piece comprises a first sliding rail and a second sliding rail which are oppositely arranged on the top surface of the rotating plate, and the first sliding rail and the second sliding rail can relatively slide on the rotating plate.

Preferably, the top surface integrated into one piece of rotor plate has protruding stupefied, the bottom surface of first slide rail and second slide rail has all opened the spout, protruding stupefied be located the spout and can slide relative to the spout, still open on first slide rail, the second slide rail has the fixed orifices, install the fixing bolt that can contact with protruding stupefied through the screw in the fixed orifices.

Preferably, the top surfaces of the first support frame and the second support frame are provided with arc-shaped grooves, the adsorption mechanism comprises adsorption cylinders arranged in the first support frame and the second support frame, and piston rods of the adsorption cylinders penetrate through the arc-shaped grooves and are connected with adsorption suckers.

The preferable structure of the rotating mechanism is as follows: the rotating mechanism comprises a rotating motor arranged on the bottom surface of the substrate, a motor shaft of the rotating motor penetrates through the substrate and is connected with a driving gear, a driven gear meshed with the driving gear is arranged on the bottom surface of the rotating plate through a rotating shaft, a rotating groove is formed in the top surface of the substrate, and the driven gear is arranged in the rotating groove.

The preferable structure of the clamping mechanism is as follows: clamping mechanism includes first slide rail and the second slide rail of installing relatively on the tailstock, install first slider on the first slide rail, install first pinch-off blades on the first slider, install the second slider on the second slide rail, install the second pinch-off blades relative with first pinch-off blades on the second slider, install the first fixed block that corresponds with first pinch-off blades on the tailstock, install the second fixed block that corresponds with the second pinch-off blades on the tailstock, the side-mounting of first pinch-off blades has first connecting strip, the side-mounting of second pinch-off blades has the second connecting strip, install die clamping cylinder on the first connecting strip, die clamping cylinder's piston rod and second connecting strip are connected.

The invention has the following beneficial effects:

(1) according to the invention, the inner membrane component and the outer membrane component extrude the partition plate, so that grooves matched with each other can be formed between the fuel tank and the partition plate, and the partition plate is installed in the fuel tank in a clamping manner through the grooves, so that welding spots cannot appear between the fuel tank and the partition plate, the fuel tank shell is not easy to crack due to vibration of fuel, and the fuel tank is not easy to leak fuel; the support frame assembly and the fuel tank can be driven to slide along the length direction of the base through the sliding mechanism, the support frame and the fuel tank can be driven to rotate through the rotating mechanism, the fuel tanks at different height positions can be conveniently adsorbed through the adsorption mechanism, the fuel tanks can be conveniently clamped through the clamping mechanism, the tailstock is convenient to move through the conveying mechanism, and therefore the manual moving and carrying work can be reduced when the partition plate is installed, and the labor intensity and the time spent by workers can be reduced.

(2) When the inner film pressing block needs to slide along the radial direction of the mounting plate, the piston rod of the outward expansion cylinder can extend outwards to drive the outward expansion column to extend out in the direction perpendicular to the mounting plate, the fixing plate is fixedly connected with the inner film pressing plate, the outward expansion plate is mounted on the wedge-shaped inclined surface, the wedge-shaped inclined surface has a certain inclination, and the wedge-shaped inclined surface inclines towards the tail end of the outward expansion column, so that when the outward expansion column extends, the outward expansion plate and the fixing plate can slide mutually, the outer expansion plate can extrude the fixing plate outwards in the radial direction of the mounting plate in the sliding process, and the inner film pressing block can slide in the radial sliding groove after being subjected to outward extrusion force, so that the inner film pressing block can provide outward extrusion force for the partition plate.

(3) According to the invention, the rotating motor drives the driving gear to rotate, the driving gear drives the driven gear to rotate in the rotating groove, the driven gear drives the rotating plate and the supporting frame assembly to rotate, and the supporting frame assembly drives the fuel tank to rotate by a specified angle, so that the fuel tank can rotate conveniently.

(4) The fuel tank is arranged on the arc-shaped grooves on the top surfaces of the first support frame and the second support frame, so that the fuel tank can be arranged more stably, when the distance between the first support frame and the second support frame needs to be adjusted, the fixing bolt can be rotated to ensure that the fixing bolt does not abut against the convex edge any more, then the first support frame or/and the second support frame is pushed to enable the sliding groove of the first sliding rail to slide relative to the first convex edge, or/and the sliding groove of the second sliding rail slides relative to the second convex edge, so that the first support frame and the second support frame can move along the same direction or the opposite direction, when the distance between the first support frame and the second support frame is proper, the fixing bolt is rotated to tightly abut against the first convex edge or/and the second convex edge, therefore, the distance between the first support frame and the second support frame can be adjusted conveniently, and the first support frame and the second support frame can support fuel tanks with different lengths conveniently.

(5) When fuel tanks at different height positions need to be sucked, the piston rod of the suction cylinder can extend out to drive the suction cup to extend out, and the fuel tank can be sucked through the suction cup until the suction cup is contacted with the top surface of the fuel tank, so that the fuel tank can be sucked and supported more stably through the suction cup, the tailstock can return to the original position more conveniently, and the support frame assembly can move the fuel tank conveniently.

(6) When the partition plate at one end is installed and extruded in the fuel tank, the piston rod of the clamping cylinder can extend out, so that the first sliding block is driven to slide on the first rail, the second sliding block slides on the second rail, the first sliding block drives the first clamping plate to move towards the first fixing plate, the second sliding block drives the second clamping plate to move towards the second fixing plate, one edge of the fuel tank is clamped between the first clamping plate and the first fixing plate, and the other edge of the fuel tank is clamped between the second clamping plate and the second fixing plate, so that one end of the fuel tank is clamped conveniently, and the fuel tank is driven to move through the tail stock.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the inner membrane module, outer membrane module, etc. mounted on a mounting frame in accordance with the present invention;

FIG. 3 is a schematic perspective view of the radially outward expanding mechanism of the present invention;

FIG. 4 is a schematic front view of the radially outwardly expanding mechanism of the present invention;

FIG. 5 is a schematic perspective view of the externally expanding column of the present invention;

FIG. 6 is a schematic perspective view of the mounting plate of the present invention;

FIG. 7 is a schematic perspective view of the expanding plate of the present invention;

FIG. 8 is a schematic perspective view of the support bracket assembly of the present invention mounted on a base;

FIG. 9 is a schematic partial perspective view of the support frame assembly of the present invention mounted on a base;

fig. 10 is a schematic perspective view of the rotating plate of the present invention;

FIG. 11 is a schematic perspective view of a first slide rail according to the present invention;

FIG. 12 is a schematic perspective view of a substrate according to the present invention;

fig. 13 is a schematic perspective view of the rotary mechanism of the present invention mounted on a mount assembly;

figure 14 is a schematic side sectional view of a rotary mechanism of the present invention mounted on a mounting bracket assembly;

FIG. 15 is a schematic view of the front side of the clamping mechanism of the present invention mounted on the tailstock;

FIG. 16 is a schematic view of the back side of the clamping mechanism of the present invention mounted on the tailstock;

FIG. 17 is a schematic perspective view of the transfer mechanism of the present invention mounted on a mounting bracket;

reference numerals: 1 mounting frame, 2 radial outward expansion assembly, 21 outward expansion cylinder, 22 sliding sleeve, 23 outward expansion column, 231 wedge-shaped inclined plane, 24 outward expansion plate, 241 guide convex edge, 25 guide rail, 26 fixing plate, 3 outer membrane assembly, 31 outer membrane cylinder, 32 outer membrane pressing block, 4 bases, 5 support frame assembly, 51 first support frame, 52 second support frame, 6 adsorption mechanism, 61 adsorption suction cup, 62 adsorption cylinder, 7 main sliding rail, 8 tailstock, 9 transmission mechanism, 10 sliding mechanism, 11 inner membrane assembly, 111 inner membrane pressing block, 12 mounting plate, 121 radial sliding chute, 13 middle sliding block, 131 tail end sliding block, 14 connecting plate, 141 first sliding rail, 142 second sliding rail, 15 arc-shaped groove, 151 rotating plate, 1511 convex edge, 16 base plate, 161 rotating groove, 17 fixing bolt, 18 sliding chute, 19

rotating mechanism

193, 191 driven gear, 192 rotating motor, driving gear, 20 clamping mechanism, 201 first fixing block, 202 a first clamping plate, 203 a first slide block, 204 a second clamping plate, 205 a second slide block, 206 a second fixed block, 207 a first slide rail, 208 a first connecting bar, 209 a clamping cylinder, 2010 a second connecting bar, 2011 a second slide rail.

Detailed Description

For a better understanding of the present invention by those skilled in the art, the present invention will be described in further detail below with reference to the accompanying drawings and the following examples.

Example 1:

as shown in fig. 1-2, 8 and 17, a partition press-fitting latch machine comprises a base 4, wherein an installation frame 1 and a main slide rail 7 are sequentially installed on the top surface of the base 4 along the length direction of the base, an installation plate 12 is installed on the installation frame 1, a radial outward expansion assembly 2 penetrating through the installation plate 12 is installed on the installation frame 1, an inner membrane assembly 11 connected with the radial outward expansion assembly 2 is also installed on the installation plate 12, and an outer membrane assembly 3 corresponding to the inner membrane assembly 11 is installed on the installation frame 1;

the main slide rail 7 is sequentially provided with a middle slide block 13 and a tail end slide block 131 along the length direction, the top surface of the middle slide block 13 is provided with a substrate 16, the substrate 16 is provided with a rotating mechanism 19, the rotating mechanism 19 is provided with a rotating plate 151, the top surface of the rotating plate 151 is provided with a support frame assembly 5 through a connecting piece, the support frame assembly 5 is provided with an adsorption mechanism 6, and the base 4 is also provided with a sliding mechanism 10 connected with the substrate 16; the tail end slide block 131 is provided with a tail seat 8, the side surface of the tail seat 8 is provided with a clamping mechanism 20, and the base 4 is provided with a transmission mechanism 9 connected with the tail seat 8.

The preferable structure of the inner membrane module 11 is: radial spout 121 has been seted up to the radial homogeneous of mounting panel 12, and inner membrane subassembly 11 includes and is connected with radial flaring subassembly 2 and is located a plurality of inner membrane briquetting 111 of radial spout 121.

The preferred construction of the outer membrane module 3 is: the outer membrane component 3 comprises a plurality of outer membrane cylinders 31 which are uniformly arranged on the side surface of the mounting frame 1, outer membrane pressing blocks 32 are arranged on piston rods of the outer membrane cylinders 31, the outer membrane pressing blocks 32 can slide along the radial direction of the mounting plate 12, and the outer membrane pressing blocks 32 correspond to the inner membrane pressing blocks 111 one by one.

Preferably, a plurality of installation blocks are evenly arranged on the side face of the installation frame 1, a limiting cylinder is arranged on each installation block, a limiting block is arranged on a piston rod of each limiting cylinder, a limiting roller is arranged on each limiting block, the limiting rollers and the inner membrane assemblies 11 are arranged alternately, after the fuel tank is fixed between the inner membrane pressing block 111 and the outer membrane pressing block 32, the piston rod of each limiting cylinder can stretch out to drive the limiting blocks and the rollers to move towards the fuel tank, the rollers are finally in contact with the outer surface of the fuel tank and limit the fuel tank, and the abrasion to the fuel tank can be reduced by limiting the fuel tank through the rollers.

Further, a plurality of oil pipes are installed on the installation frame 1, and a plurality of oil passages communicated with the oil pipes are formed in the radial sliding grooves 121. Through pouring lubricating oil into the oil pipe, lubricating oil in the oil pipe can flow into the oil circuit on the mounting panel 12 to can play lubricated effect to inner membrance briquetting 111, and then can make this pressure equipment structure more durable.

The conveying mechanism 9 comprises a rack which is arranged along the length direction of the base 4 and on the side surface of the base 4, and a transmission motor which is arranged on the base 4, wherein a motor shaft of the transmission motor is provided with a transmission gear which is meshed with the rack; the sliding mechanism 10 includes a sliding motor installed on the base 4, a screw rod installed along the length direction of the base 4 is installed on a motor shaft of the sliding motor, a nut is installed on the screw rod, a nut seat is installed on the nut, and a bent plate connected with the substrate 16 is connected on the nut seat.

The working principle is as follows: when the baffle plate needs to be installed in the fuel tank, a fuel tank cylinder is placed on the support frame component 5 manually or in other modes, then the baffle plate is placed on the inner membrane component 11, the inner membrane component 11 is driven by the radial outward expansion component 2 to prop open the baffle plate, then the sliding motor is electrified, the sliding motor rotates to drive the screw rod to rotate, as the screw rod is connected with the nut through threads, the nut can drive the nut seat, the bent plate and the base plate 16 to move along the length direction of the base 4 when the nut rotates, finally the fuel tank is driven to move towards the direction of the baffle plate, then the conveying motor is electrified, the conveying motor rotates to drive the conveying gear to rotate, the conveying gear can be meshed with the rack, the conveying gear moves along the length direction of the rack, the tail seat 8 is finally driven to move towards the end face of the fuel tank, after the movement is in place, the inner membrane 111 is driven by the radial outward expansion component 2 to move along the radial outer side of the installation plate 12, meanwhile, the piston rod of the outer membrane cylinder 31 extends out to drive the outer membrane pressing block 32 to move towards the inner side of the mounting plate 12, so that a groove capable of clamping the partition plate can be formed on the inner wall of the fuel tank under the reverse extrusion of the outer membrane pressing block 32 and the inner membrane pressing block 111 on the partition plate;

after extrusion forming, the fuel tank is clamped by the clamping mechanism 20 on the tailstock 8, then the piston rod of the outer film cylinder 31 retracts to drive the outer film pressing block 32 to retract, the inner film pressing block 111 is driven to retract by the radial outward expansion component 2, the tailstock 8 and the fuel tank are driven to move towards the direction far away from the mounting rack 1 by the conveying mechanism 9, then the bottom surface of the fuel tank is absorbed by the absorption mechanism 6, the clamping mechanism 20 loosens the fuel tank, judging whether a clapboard needs to be arranged at the other end of the fuel tank according to actual conditions, if so, driving the rotating plate 151 and the support frame component 5 to rotate through the rotating mechanism 19, finally driving the fuel tank to rotate until the fuel tank rotates 180 degrees, then arranging the clapboard at the other end of the fuel tank through the method, and taking down the fuel tank with the clapboard after the clapboard is arranged, in order to enable the rotating mechanism 19 to drive the fuel tank to rotate 180 degrees accurately, a corresponding limiting part can be arranged on the rotating plate 151;

the inner membrane pressing block 111 and the outer membrane pressing block 32 oppositely press the partition plates, so that grooves matched with each other can be formed between the fuel tank and the partition plates, and the partition plates are installed in the fuel tank in a clamping mode through the grooves, so that welding spots cannot be generated between the fuel tank and the partition plates, the fuel tank shell is not prone to being pulled apart by vibration of fuel, and the fuel tank is not prone to leaking fuel; the support frame assembly 5 and the fuel tank can be driven to slide along the length direction of the base 4 through the sliding mechanism 10, the support frame and the fuel tank can be driven to rotate through the rotating mechanism 19, the fuel tanks at different height positions can be conveniently adsorbed through the adsorption mechanism 6, the fuel tanks can be conveniently clamped through the clamping mechanism 20, the tail seat 8 is conveniently moved through the conveying mechanism 9, the manual moving and carrying work can be reduced when the partition plates are installed, and therefore the labor intensity and the cost time of workers can be reduced.

Example 2:

as shown in fig. 3 to 7, on the basis of the above embodiment 1, this embodiment provides a preferred structure of the radially outwardly expanding assembly 2: the radial outward expansion assembly 2 comprises an outward expansion cylinder 21 installed on the installation frame 1, an outward expansion column 23 penetrating through a through hole is connected to a piston rod of the outward expansion cylinder 21, the outward expansion column 23 is connected with the installation frame 1 through a sliding sleeve 22, a plurality of wedge-shaped inclined planes 231 are uniformly formed in the end portion of the outward expansion column 23, and a sliding unit connected with the inner membrane pressing block 111 is installed on the wedge-shaped inclined planes 231.

Preferably, the sliding unit includes an outer expanding plate 24 installed on the wedge-shaped inclined surface 231, a fixing plate 26 connected with the inner membrane pressing block 111 is installed on the top surface of the outer expanding plate 24, the fixing plate 26 and the outer expanding plate 24 can slide relatively, guide rails 25 located at two sides of the outer expanding plate 24 are installed on the wedge-shaped inclined surface 231, a guide groove is opened on the side surface of each guide rail 25, guide convex ridges 241 are further integrally formed at two sides of the outer expanding plate 24, and the guide convex ridges 241 are located in the guide groove. When the outward expansion plate 24 and the fixed plate 26 slide relatively, the guide protrusions 241 slide relatively in the guide grooves, so that the guide rails 25 at both sides of the outward expansion plate 24 can limit the relative sliding between the fixed plate 26 and the outward expansion plate 24 to generate deviation, and the sliding between the outward expansion plate 24 and the fixed plate 26 is more stable.

In this embodiment: when the inner film pressing block 111 needs to slide along the radial direction of the mounting plate 12, the piston rod of the outer expanding cylinder 21 can extend outwards to drive the outer expanding column 23 to also extend out in the direction perpendicular to the mounting plate 12, because the fixing plate 26 is fixedly connected with the inner film pressing plate, the outer expanding plate 24 is installed on the wedge-shaped inclined surface 231, the wedge-shaped inclined surface 231 has a certain inclination, and the wedge-shaped inclined surface 231 is inclined towards the tail end of the outer expanding column 23, when the outer expanding column 23 extends out, the outer expanding plate 24 and the fixing plate 26 can slide mutually, the outer expanding plate 24 can extrude the fixing plate 26 outwards in the radial direction of the mounting plate 12 in the sliding process, the inner film pressing block 111 can slide in the radial sliding groove 121 after being subjected to an outward extrusion force, and accordingly the inner film pressing block 111 can provide an outward extrusion force for the partition plate.

Example 3:

as shown in fig. 8 to 12, on the basis of the above embodiment 1, the present embodiment provides a preferable structure of the support frame assembly 5 as follows: the support frame assembly 5 comprises a first support frame 51 and a second support frame 52 which are oppositely mounted on a connecting member, the connecting member comprises a first slide rail 141 and a second slide rail 142 which are oppositely mounted on the top surface of the rotating plate 151, and the first slide rail 141 and the second slide rail 142 can slide relatively on the rotating plate 151.

Preferably, the top surface of the rotating plate 151 is integrally formed with a protrusion 1511, the bottom surfaces of the first slide rail 141 and the second slide rail 142 are both provided with a sliding groove 18, the protrusion 1511 is located in the sliding groove 18 and can slide relative to the sliding groove 18, the first slide rail 141 and the second slide rail 142 are further provided with fixing holes, and fixing bolts 17 which can contact with the protrusion 1511 are installed in the fixing holes through threads.

Preferably, the top surfaces of the first support frame 51 and the second support frame 52 are provided with arc grooves 15, the adsorption mechanism 6 comprises adsorption cylinders 62 installed in the first support frame 51 and the second support frame 52, and piston rods of the adsorption cylinders 62 penetrate through the arc grooves 15 and are connected with adsorption suckers 61. When fuel tanks at different height positions need to be sucked and supported, a piston rod of the suction cylinder 62 can stretch out to drive the suction cup 61 to stretch out, and the fuel tanks can be sucked through the suction cup 61 until the suction cup 61 is contacted with the top surface of the fuel tanks, so that the fuel tanks can be supported through the suction cup 61 more stably, the fuel tanks at different height positions can be sucked and fixed through the suction cylinder 62, and the fuel tanks can be positioned at different height positions.

In this embodiment: the fuel tank is arranged on the arc-shaped groove 15 on the top surfaces of the first support frame 51 and the second support frame 52, so that the fuel tank can be arranged more stably, when the distance between the first support frame 51 and the second support frame 52 needs to be adjusted, the fixing bolt 17 can be rotated to ensure that the fixing bolt 17 does not abut against the convex edge 1511 any more, then the first support frame 51 or/and the second support frame 52 is pushed to ensure that the sliding groove 18 of the first sliding rail 141 slides relative to the first convex edge 1511 or/and the sliding groove 18 of the second sliding rail 142 slides relative to the second convex edge 1511, so that the first support frame 51 and the second support frame 52 can move along the same direction or opposite directions, when the distance between the first support frame 51 and the second support frame 52 is proper, the fixing bolt 17 is rotated to abut against the first convex edge 1511 or/and the second convex edge 1511, so that the distance between the first support frame 51 and the second support frame 52 can be adjusted, so that the first support bracket 51 and the second support bracket 52 can support fuel tanks of different lengths.

Example 4:

as shown in fig. 13 to 14, on the basis of the above embodiment 1, the present embodiment provides a preferable structure of the rotating mechanism 19 as follows: the rotating mechanism 19 includes a rotating motor 192 installed on the bottom surface of the base plate 16, a motor shaft of the rotating motor 192 passes through the base plate 16 and is connected with a driving gear 193, a driven gear 191 engaged with the driving gear 193 is installed on the bottom surface of the rotating plate 151 through a rotating shaft, a rotating groove 161 is formed on the top surface of the base plate 16, and the driven gear 191 is installed in the rotating groove 161.

In this embodiment: the rotating motor 192 drives the driving gear 193 to rotate, the driving gear 193 drives the driven gear 191 to rotate in the rotating groove 161, the driven gear 191 drives the rotating plate 151 and the support frame assembly 5 to rotate, and the support frame assembly 5 drives the fuel tank to rotate by a specified angle, so that the fuel tank can rotate conveniently.

Preferably, a shield for shielding the driving gear 193 and the driven gear 191 is further installed on the base plate 16, the shield can protect the driving gear 193 and the driven gear 191, and can reduce the amount of dust entering the driving gear 193 and the driven gear 191, thereby improving the service life of the driving gear 193 and the driven gear 191.

Example 5:

as shown in fig. 15 to 16, on the basis of the above embodiment 1, the present embodiment provides a preferable structure of the clamping mechanism 20: the clamping mechanism 20 comprises a first slide rail 141 and a second slide rail 142 which are oppositely installed on the tailstock 8, a first slider 203 is installed on the first slide rail 141, a first clamping plate 202 is installed on the first slider 203, a second slider 205 is installed on the second slide rail 142, a second clamping plate 204 opposite to the first clamping plate 202 is installed on the second slider 205, a first fixing block 201 corresponding to the first clamping plate 202 is installed on the tailstock 8, a second fixing block 206 corresponding to the second clamping plate 204 is installed on the tailstock 8, a first connecting bar 208 is installed on the side surface of the first clamping plate 202, a second connecting bar 2010 is installed on the side surface of the second clamping plate 204, a clamping cylinder 209 is installed on the first connecting bar 208, and a piston rod of the clamping cylinder 209 is connected with the second connecting bar 2010.

In this embodiment: when the partition plate at one end is installed and extruded in the fuel tank, the piston rod of the clamping cylinder 209 can extend out, so that the first sliding block 203 is driven to slide on the first rail, the second sliding block 205 slides on the second rail, the first sliding block 203 drives the first clamping plate 202 to move towards the direction of the first fixing plate 26, the second sliding block 205 drives the second clamping plate 204 to move towards the direction of the second fixing plate 26, one edge of the fuel tank is clamped between the first clamping plate 202 and the first fixing plate 26, the other edge of the fuel tank is clamped between the second clamping plate 204 and the second fixing plate 26, and therefore one end of the fuel tank is clamped conveniently, and the fuel tank is driven to move through the tail stock 8.

The above is an embodiment of the present invention. The embodiments and specific parameters in the embodiments are only for the purpose of clearly illustrating the process of verifying the invention, and are not intended to limit the scope of the invention, which is defined by the claims.

Claims

1. The utility model provides a baffle pressure equipment kayser machine, includes base (4), its characterized in that: the top surface of the base (4) is sequentially provided with an installation frame (1) and a main sliding rail (7) along the length direction of the top surface, the installation frame (1) is provided with an installation plate (12), the installation frame (1) is provided with a radial outward expansion assembly (2) penetrating through the installation plate (12), the installation plate (12) is further provided with an inner membrane assembly (11) connected with the radial outward expansion assembly (2), and the installation frame (1) is provided with an outer membrane assembly (3) corresponding to the inner membrane assembly (11); the radial outward expansion assembly (2) comprises an outward expansion cylinder (21) installed on the installation frame (1), an outward expansion column (23) penetrating through a through hole is connected to a piston rod of the outward expansion cylinder (21), the outward expansion column (23) is connected with the installation frame (1) through a sliding sleeve (22), a plurality of wedge-shaped inclined planes (231) are uniformly formed in the end portion of the outward expansion column (23), and a sliding unit connected with the inner membrane pressing block (111) is installed on each wedge-shaped inclined plane (231);

the main sliding rail (7) is sequentially provided with a middle sliding block (13) and a tail end sliding block (131) along the length direction of the main sliding rail, the top surface of the middle sliding block (13) is provided with a base plate (16), the base plate (16) is provided with a rotating mechanism (19), the rotating mechanism (19) is provided with a rotating plate (151), the top surface of the rotating plate (151) is provided with a support frame assembly (5) through a connecting piece, the support frame assembly (5) is provided with an adsorption mechanism (6), and the base (4) is further provided with a sliding mechanism (10) connected with the base plate (16); the tail end sliding block (131) is provided with a tail seat (8), the side face of the tail seat (8) is provided with a clamping mechanism (20), and the base (4) is provided with a conveying mechanism (9) connected with the tail seat (8).

2. A partition press-fit latch lock machine according to claim 1, wherein: radial spout (121) have been seted up to the radial even of mounting panel (12), interior membrane module (11) include with radially expand subassembly (2) be connected and be located a plurality of inner membrance briquetting (111) of radial spout (121).

3. A partition press-fit latch lock machine according to claim 2, wherein: adventitia subassembly (3) are including evenly installing a plurality of adventitia cylinders (31) in mounting bracket (1) side, install adventitia briquetting (32) on the piston rod of adventitia cylinder (31), and the radial slip of mounting panel (12) can be followed in adventitia briquetting (32), adventitia briquetting (32) and intima briquetting (111) one-to-one.

4. A partition press-fit latch lock machine according to claim 1, wherein: the sliding unit expands board (24) including installing outer on wedge inclined plane (231), the top surface that expands board (24) outward is equipped with fixed plate (26) of being connected with inner membrance briquetting (111), but fixed plate (26) and outer expand board (24) relative slip, install on wedge inclined plane (231) and be located outer guided way (25) that expand board (24) both sides, open the side of guided way (25) has the guide way, the both sides that expand board (24) outward still integrated into one piece have the protruding stupefied (241) of direction, the protruding stupefied (241) of direction is located the guide way.

5. A partition press-fit latch lock machine according to claim 1, wherein: the support frame assembly (5) comprises a first support frame (51) and a second support frame (52) which are oppositely arranged on a connecting piece, the connecting piece comprises a first slide rail (141) and a second slide rail (142) which are oppositely arranged on the top surface of the rotating plate (151), and the first slide rail (141) and the second slide rail (142) can slide on the rotating plate (151) relatively.

6. The partition press-fit latch lock of claim 5, wherein: the top surface integrated into one piece of rotor plate (151) has protruding stupefied (1511), spout (18) have all been opened to the bottom surface of first slide rail (141) and second slide rail (142), protruding stupefied (1511) are located spout (18) and can slide relative spout (18), still open the fixed orifices on first slide rail (141), second slide rail (142), install fixing bolt (17) that can contact with protruding stupefied (1511) through the screw in the fixed orifices.

7. The partition press-fit latch lock of claim 5, wherein: arc-shaped grooves (15) are formed in the top surfaces of the first support frame (51) and the second support frame (52), the adsorption mechanism (6) comprises adsorption cylinders (62) installed in the first support frame (51) and the second support frame (52), and piston rods of the adsorption cylinders (62) penetrate through the arc-shaped grooves (15) and are connected with adsorption suckers (61).

8. A partition press-fit latch lock machine according to claim 1, wherein: the rotating mechanism (19) comprises a rotating motor (192) installed on the bottom surface of the base plate (16), a motor shaft of the rotating motor (192) penetrates through the base plate (16) and is connected with a driving gear (193), a driven gear (191) meshed with the driving gear (193) is installed on the bottom surface of the rotating plate (151) through a rotating shaft, a rotating groove (161) is formed in the top surface of the base plate (16), and the driven gear (191) is installed in the rotating groove (161).

9. A partition press-fit latch lock machine according to claim 1, wherein: the clamping mechanism (20) comprises a first slide rail (141) and a second slide rail (142) which are oppositely arranged on a tailstock (8), a first sliding block (203) is arranged on the first slide rail (141), a first clamping plate (202) is arranged on the first sliding block (203), a second sliding block (205) is arranged on the second slide rail (142), a second clamping plate (204) opposite to the first clamping plate (202) is arranged on the second sliding block (205), a first fixing block (201) corresponding to the first clamping plate (202) is arranged on the tailstock (8), a second fixing block (206) corresponding to the second clamping plate (204) is arranged on the tailstock (8), a first connecting strip (208) is arranged on the side surface of the first clamping plate (202), a second connecting strip (2010) is arranged on the side surface of the second clamping plate (204), and a clamping cylinder (209) is arranged on the first connecting strip (208), the piston rod of the clamping cylinder (209) is connected to a second connecting bar (2010).