CN211245068U - Support for preventing evaporator from being opened by mistake and evaporator using support - Google Patents

Abstract

The utility model relates to a prevent that the support is opened to evaporimeter mistake, use the evaporimeter of this support, prevent that the evaporimeter mistake from opening the support and including main air circuit piece, the linked valve, the interlocking slider, the slider spring, set up the slider mounting hole on the main air circuit piece, the slider mounting hole is arranged in to the slider spring, the tail end of interlocking slider is arranged in the slider mounting hole and with slider spring transmission cooperation so that the interlocking slider can follow the slider mounting hole and go up and down, the diapire of linked valve sets up the linked valve spacing groove, the rotatable setting of linked valve is on main air circuit piece during the assembly, the top of interlocking slider is stretched into the linked valve spacing groove and is used for carrying on spacingly to the linked valve, extrude interlocking slider when the linked valve rotates, interlocking slider extrudees the interlocking spring so that the interlocking slider descends to the interlocking slider and breaks away from the linked valve spacing.

Description

Support for preventing evaporator from being opened by mistake and evaporator using support

Technical Field

The utility model relates to a medical auxiliary assembly technical field, especially an evaporimeter that prevents that the support is opened, this support is used to evaporimeter mistake.

Background

The evaporator is an important component of the anesthesia machine and is used for ensuring the concentration ratio of anesthetic gas. A linkage valve is generally arranged on a main air path block of the evaporator to control the on-off of an air path on the main air path block, and a valve of the main air path block is opened unintentionally under the condition that the main air path block is not installed and adjusted in place, so that anesthetic gas can be volatilized into an operation environment to influence the health of medical care personnel. The design of the evaporator which has simple structure and reliable control and prevents the support from being opened by mistake and applies the support is a technical problem which needs to be solved urgently by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a simple structure, control are reliable prevents that the evaporimeter from opening the support, using the evaporimeter of this support by mistake.

For solving the technical problem, the utility model provides a prevent that evaporimeter mistake from opening support, including main gas circuit piece, linked valve, interlocking slider, slider spring, set up the slider mounting hole on the main gas circuit piece, the slider spring is arranged in the slider mounting hole, the tail end of interlocking slider is arranged in the slider mounting hole and with slider spring transmission cooperation so that the interlocking slider can follow the lift of slider mounting hole, the diapire of linked valve sets up the linked valve spacing groove, during the assembly the rotatable setting of linked valve is on main gas circuit piece, and the top of interlocking slider stretches into the linked valve spacing groove and is used for spacing the linked valve, extrudeing the interlocking slider when the linked valve rotates, and the interlocking slider extrudes the interlocking spring so that the interlocking slider descends to the interlocking slider and breaks away from the linked valve spacing groove, and the linked valve breaks away from and rotates spacingly.

Furthermore, the support is prevented from being opened by mistake by the evaporator and further comprises a linkage rod and a support fixedly connected with a main air circuit block, a linkage rod clamping groove is formed in the interlocking sliding block, a linkage rod mounting groove communicated with the sliding block mounting hole is formed in the main air circuit block, a linkage rod rotating groove is formed in the support, the tail end of the linkage rod penetrates through the linkage rod mounting groove and stretches into the linkage rod clamping groove, a first rotating pin is arranged in the middle of the linkage rod, and the front end of the linkage rod stretches into the linkage rod rotating groove, so that the linkage rod can be driven to rotate around the first rotating pin when the interlocking sliding block goes up and down.

Further, prevent that the evaporimeter mistake from opening the support and still include left interlocking pole, right interlocking pole, set up on the support with the gangbar rotates communicating left interlocking pole mounting hole in groove, right interlocking pole mounting hole, the front end of left side interlocking pole passes left interlocking pole mounting hole and stretches into the gangbar and rotates the groove, and the front end of right interlocking pole passes right interlocking pole mounting hole and stretches into the gangbar and rotate the groove and with the front end butt of left interlocking pole to the tail end that makes the gangbar is arranged in the below of left interlocking pole, right interlocking pole joint department for the rotation of restriction gangbar.

Further, prevent that the evaporimeter mistake from opening the support and still include left locking lever, right locking lever, set up on the support with the communicating left locking lever mounting groove of left side interlocking lever mounting hole, with the communicating right locking lever mounting groove of right interlocking lever mounting hole, set up left draw-in groove on the left side interlocking lever, set up right draw-in groove on the right interlocking lever, the front end of left side locking lever is used for locking left interlocking lever when arranging left draw-in groove in after passing left locking lever mounting groove, and left interlocking lever unlocks when the front end of left side locking lever breaks away from left draw-in groove, and the front end of right locking lever is used for locking right interlocking lever when arranging right draw-in groove in after passing right locking lever mounting groove, and right interlocking lever unlocks when the front end of right locking lever breaks away from right draw-in groove.

The support for preventing the evaporator from being opened by mistake further comprises an induction pin and an induction spring, a left spring mounting hole is formed in the upper end of the left locking rod mounting groove, a left stepped hole is formed in the lower end of the left locking rod mounting groove, and the left stepped hole and the left spring mounting hole are arranged on the same straight line; the upper end of the right locking rod mounting groove is provided with a right spring mounting hole, the lower end of the right locking rod mounting groove is provided with a right stepped hole, the right stepped hole and the right spring mounting hole are arranged on the same straight line, the left stepped hole and the right stepped hole are respectively internally provided with an induction pin, the left spring mounting hole and the right spring mounting hole are respectively internally provided with an induction spring, each induction spring is respectively abutted against the left locking rod and the right locking rod so that the front end of the left locking rod is clamped into the left clamping groove and the front end of the right locking rod is clamped into the right clamping groove, the top end of the induction pin in the left stepped hole is abutted against the left locking rod and the bottom end of the induction pin extends out of the left stepped hole, the top end of the induction pin in the right stepped hole is abutted against the right locking rod and the bottom end of the induction pin extends out of the right stepped hole, so that the front end of the left locking rod is separated from the left clamping groove and, the left interlocking rod and the right interlocking rod are free from locking.

Furthermore, the front ends of the left interlocking rod and the right interlocking rod are provided with sheet-shaped locking rod insertion blocks, and the tail parts of the left interlocking rod and the right interlocking rod are provided with second rotating pins so that the left interlocking rod and the right interlocking rod can be rotatably arranged.

Furthermore, the support for preventing the evaporator from being opened by mistake further comprises a left interlocking spring and a right interlocking spring, the left interlocking spring is sleeved on the left interlocking rod and is in transmission fit with the support, the tail end of the left interlocking rod extends out of the left interlocking rod mounting hole, so that the left interlocking rod can move in the left interlocking rod mounting hole when the left interlocking rod is extruded, and the left interlocking spring is used for driving the left interlocking rod to reset; the right interlocking spring is sleeved on the right interlocking rod and is in transmission fit with the support, the tail end of the right interlocking rod extends out of the right interlocking rod mounting hole, so that the right interlocking rod can move in the right interlocking rod mounting hole when the right interlocking rod is extruded, and the right interlocking spring is used for driving the right interlocking rod to reset.

Furthermore, a triangular top head is arranged at the front end of the linkage rod, and the front end of the left interlocking rod and the front end of the right interlocking rod are arranged in a hemispherical shape, so that the vertex angle of the triangular top head is arranged at the lower sides of the front ends of the left interlocking rod and the right interlocking rod.

Furthermore, the top of interlocking slider sets up rotates the spheroid, the linked valve spacing groove is the arc setting to the top of interlocking slider is the cambered surface contact with the linked valve spacing groove when making the linked valve rotate, avoids interlocking slider card to die.

The working method for preventing the support of the evaporator from being opened by mistake comprises the following steps: when the linkage valve is in a locking state, the left locking rod and the right locking rod are extruded by the induction spring until the front end of the left locking rod is clamped into the left clamping groove of the left interlocking rod, the front end of the right locking rod is clamped into the right clamping groove of the right interlocking rod, the front ends of the left interlocking rod and the right interlocking rod are abutted at the front end of the linkage rod rotating groove, the bottom end of the induction pin extends out of the left stepped hole and the right stepped hole, the triangular top head at the front end of the linkage rod is arranged at the lower sides of the left interlocking rod and the right interlocking rod, the tail end of the linkage rod is inserted into the linkage rod clamping groove, the interlocking slider is supported by the slider spring, the top end of the interlocking slider extends into the linkage valve limiting groove to prevent the linkage valve from rotating, the interlocking slider is extruded to generate a downward moving trend when the linkage valve rotates, and the interlocking slider drives the front end of the linkage rod to be abutted against the left interlocking rod and the right interlocking; when the induction pin is extruded, the left locking rod and the right locking rod are lifted up and extrude the induction spring, the front end of the left locking rod is separated from the left clamping groove, the front end of the right locking rod is separated from the right clamping groove, the left interlocking rod is reset and popped out under the action of the left interlocking spring, the right interlocking rod is reset and popped out under the action of the right interlocking spring, the limitation on the interlocking rod is removed, the interlocking slider is pressed downwards to enter the slider mounting hole when the interlocking valve rotates, and the interlocking rod rotates around the first rotation pin.

The utility model provides an evaporator, includes foretell evaporimeter mistake of preventing and opens the support, still includes the evaporimeter main part and the protrusion sets up the platform of accepting in evaporimeter main part one side, main air circuit piece is fixed to be set up in the evaporimeter main part, the support is arranged in accept on the platform to the bottom that makes the assembly accomplish the back response round pin contacts with the top surface of accepting the platform, triggers the response round pin by accepting the platform.

The technical effects of the utility model are that: (1) compared with the prior art, the support is prevented from being opened by mistake by the evaporator, the linkage rod is pried by the interlocking slider, and the linkage rod is limited by the left interlocking rod and the right interlocking rod, so that the linkage rod cannot rotate when the left interlocking rod and the right interlocking rod are abutted, and the linkage valve is locked; the left interlocking rod and the right interlocking rod are limited by the left locking rod and the right locking rod, the left locking rod and the right locking rod are controlled by the sensing pin and the sensing spring, and the left locking rod and the right locking rod can be lifted when the sensing pin is extruded, so that the control of the linkage valve is realized; (2) when the support is installed in place, the bottom end of the support is in surface contact with the evaporator, so that the two sensing pins are simultaneously extruded, and the left interlocking rod and the right interlocking rod are unlocked; (3) the left interlocking spring and the right interlocking spring are impacted and generate sound effect when driving the left interlocking rod and the right interlocking rod to reset, so as to achieve the purpose of reminding a user; the triangular top head is arranged, the vertex angle of the triangular top head is aligned to the joint of the left interlocking rod and the right interlocking rod, and the left interlocking rod and the right interlocking rod can be effectively separated under the emergency condition that the interlocking spring fails.

Drawings

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

FIG. 1 is a schematic view of the exploded structure of the present invention for preventing the evaporator from being opened by mistake;

FIG. 2 is a schematic sectional view of the support of the present invention for preventing the evaporator from being opened by mistake;

FIG. 3 is a schematic cross-sectional view of the assembled support, left interlock rod, and right interlock rod;

FIG. 4 is a schematic cross-sectional view of the support along the axial direction of the left interlock shaft;

FIG. 5 is a schematic perspective view of an interlocking slide;

FIG. 6 is a schematic perspective view of a linkage rod;

FIG. 7 is a perspective view of the left interlock lever;

FIG. 8 is a schematic perspective view of a linkage valve.

In the figure: a main air path block 1, a main vent hole 11, a slide block mounting hole 12, a linkage rod mounting groove 13, a left locking rod mounting hole 14, a right locking rod mounting hole 15,

a support 2, a left interlocking bar mounting hole 21, a linkage bar rotating groove 22, a left locking bar mounting groove 23,

a linkage valve 3, a linkage valve limiting groove 31,

interlocking slide block 4, slide block spring 41, slide block rod body 42, top column 43, rotating ball 44, linkage rod clamping groove 45, elastic bulge 46,

a linkage rod 5, a first rotating pin 51, a triangular top head 52, a linkage rod plug 53, a rotating pin mounting hole 54,

a left locking rod 6, a sensing pin 61, a sensing pin cylinder 611, a lower cylinder 612, an upper cylinder 613, a limit step 614, a pressing block 62, a sensing spring 63, a right locking rod 64, a locking rod upper clamping groove 65, a locking rod inserting block 66, a second rotating pin 67, a hemisphere 68, a locking rod lower clamping groove 69,

a left interlock rod 71, a left interlock spring 72, a left interlock nut 73, a right interlock rod 74, a right interlock spring 75, a right interlock nut 76, a left snap spring 77, and a right snap spring 78.

Detailed Description

Embodiment 1 as shown in fig. 1, the support for preventing the evaporator from being opened by mistake of the embodiment includes a main air path block 1, a support 2, a linkage valve 3, an interlocking slider 4, a slider spring 41, a linkage rod 5, a left locking rod 6, a right locking rod 64, a left interlocking rod 71, and a right interlocking rod 74.

The center of the main air path block 1 is provided with a main vent hole 11, the linkage valve 3 is rotatably arranged on the main vent hole 11, one side of the main vent hole 11 is provided with a slide block mounting hole 12, the slide block mounting hole 12 is arranged in parallel with the main vent hole 11, and a slide block spring 41 is arranged in the slide block mounting hole 12.

As shown in fig. 5, the interlocking slider 4 includes a slider rod 42 having a round rod shape, the tail end of the slider rod 42 is disposed in the slider mounting hole 12 and is in transmission fit with the slider spring 41 so that the interlocking slider 4 can be lifted along the slider mounting hole 12, the top end of the slider rod 42 is provided with a top pillar 43, the diameter of the top pillar 43 is smaller than that of the slider rod 42, the diameter of the slider rod 42 is larger than the opening of the slider mounting hole 12, so that the top pillar 43 can extend out of the slider mounting hole 12 when the slider rod 42 is disposed in the slider mounting hole 12, the slider rod 42 cannot extend out of the slider mounting hole 12, and the slider rod 42 is axially limited; the top end of the slider rod body 42 is provided with a rotatable rotating ball 44, as shown in fig. 8, the bottom wall of the linkage valve 3 is provided with a linkage valve limiting groove 31, the linkage valve limiting groove 31 is arranged in an arc shape, the depths of the two ends of the valve limiting groove 31 are smaller than the depth of the middle part, the two ends of the valve limiting groove 31 are in smooth transition, so that the rotating ball 44 at the top end of the interlocking slider 4 is in arc surface contact with the linkage valve limiting groove 31 when the linkage valve 3 rotates, and the interlocking slider 4 is prevented from being blocked during rotation; the side wall of the sliding block rod body 42 is provided with an elastic bulge 46 so that the sliding block rod body 42 is in clearance fit with the sliding block mounting hole 12, and the side wall of the sliding block rod body 42 is provided with a linkage rod clamping groove 45.

As shown in fig. 6, a triangular top 52 is arranged at the front end of the linkage rod 5, a linkage rod plug 53 matched with the linkage rod slot 45 is arranged at the tail end of the linkage rod 5, a rotating pin mounting hole 54 is arranged at the middle part of the linkage rod 5, a linkage rod mounting groove 13 is arranged on the main air passage block 1, the size of the linkage rod mounting groove 13 is larger than that of the linkage rod plug 53, the linkage rod mounting groove 13 is arranged along the radial direction of the slider mounting hole 12 and communicated with the slider mounting hole 12, so that the linkage rod plug 53 at the tail end of the linkage rod 5 passes through the linkage rod mounting groove 13 and extends into the linkage rod slot 45, a linkage rod rotating groove 22 is arranged on the support 2, the size of the linkage rod rotating groove 22 is larger than that of the linkage rod 5, after the support 2 is fixedly connected with the side wall of the main air passage block 1 through a screw, the front end of the linkage rod 5 extends into the linkage rod rotating groove 22, and a first rotating pin 51 is arranged on the, the first rotating pin 51 is fixedly connected with two side walls of the linkage rod rotating groove 22, so that the linkage rod 5 can be driven to rotate around the first rotating pin 51 in the linkage rod rotating groove 22 when the interlocking slide block 4 is lifted.

The support 2 is provided with a left interlocking rod mounting hole 21 and a right interlocking rod mounting hole which are communicated with the linkage rod rotating groove 22, and the left interlocking rod mounting hole 21 and the right interlocking rod mounting hole are arranged on the same straight line and are vertical to the extending direction of the linkage rod rotating groove 22; the front end of the left interlocking rod 71 passes through the left interlocking rod mounting hole 21 and extends into the linkage rod rotating groove 22, the front end of the right interlocking rod 74 passes through the right interlocking rod mounting hole and extends into the linkage rod rotating groove 22 and abuts against the front end of the left interlocking rod 71, so that the triangular top head 52 at the front end of the linkage rod 5 is arranged below the joints of the left interlocking rod 71 and the right interlocking rod 74, and the rotation of the linkage rod 5 is limited by the combination of the left interlocking rod 71 and the right interlocking rod 74.

In order to enable the left interlocking rod 71 and the right interlocking rod 74 to be capable of automatically popping out and prevent the evaporator from being opened by mistake, the support also comprises a left interlocking spring 72, a right interlocking spring 75, a left snap spring 77, a right snap spring 78, a left interlocking nut 73 and a right interlocking nut 76, as shown in figure 3, the left interlocking spring 72 is sleeved on the left interlocking rod 71, the left snap spring 77 is sleeved on the middle part of the left interlocking rod 71, the front end of the left interlocking spring 72 is fixed by the left snap spring 77, the left interlocking nut 73 is arranged at the tail end of the left interlocking rod mounting hole 21 and used for fixing the tail end of the left interlocking spring 72, the tail end of the left interlocking rod 71 passes through the left interlocking nut 73 to extend out of the left interlocking rod mounting hole 21, the right interlocking spring 75 is sleeved on the right interlocking rod 74, the right snap spring 78 is sleeved on the middle part of the right interlocking rod 74, the front end of the right interlocking spring 75 is fixed by the right snap spring 78, the right, the left interlocking rod 71 can move in the left interlocking rod mounting hole 21 when the left interlocking rod 71 is pressed, and the left interlocking spring 72 is used for driving the left interlocking rod 71 to reset; the right interlock lever 74 is movable in the right interlock lever mounting hole when the right interlock lever 74 is pressed, and the right interlock spring 75 serves to drive the right interlock lever 74 to be reset.

The left locking rod 6 and the right locking rod 64 are used for limiting the movement of the left interlocking rod 71 and the right interlocking rod 74, the support 2 is provided with a left locking rod installation groove 23 communicated with the left interlocking rod installation hole 21 and a right locking rod installation groove communicated with the right interlocking rod installation hole, the left locking rod installation groove and the right locking rod installation groove are arranged in parallel with the linkage rod rotating groove 22, the left interlocking rod 71 is provided with a left clamping groove, the right interlocking rod 74 is provided with a right clamping groove, the front end of the left locking rod 6 is provided with a thin-sheet-shaped locking rod insertion block 66 matched with the left clamping groove, the front end of the right locking rod 64 is provided with a thin-sheet-shaped locking rod insertion block 66 matched with the right clamping groove, when the front ends of the left interlocking rod 71 and the right interlocking rod 74 move to abut against the linkage rod rotating groove 22, the left clamping groove is aligned with the left locking rod installation groove 23, and the right clamping groove is aligned with the right locking rod installation groove, so that the insertion block 66 at the front end of the left locking rod 6 passes through the left, the left interlocking bar 6 is used for locking the left interlocking bar 6, and when the locking bar insertion block 66 at the front end of the left locking bar 6 is separated from the left clamping groove, the left interlocking bar 6 is unlocked; the locking rod insert block 66 at the front end of the right locking rod 64 penetrates through the right locking rod mounting groove and then is arranged in the right card slot for locking the right interlocking rod 64, and the right interlocking rod 64 is unlocked when the locking rod insert block 66 at the front end of the right locking rod 64 is separated from the right card slot.

The support for preventing the evaporator from being opened by mistake further comprises 2 sensing pins 61 and 2 sensing springs 63, as shown in fig. 7, each sensing pin 61 comprises a sensing pin cylinder 611, a lower cylinder 612 is arranged at the bottom end of the sensing pin cylinder 611, an upper cylinder 613 is arranged at the top end of the sensing pin cylinder 611, and the diameters of the lower cylinder 612 and the upper cylinder 613 are both smaller than the diameter of the sensing pin cylinder 611, so that the lower cylinder 612 and the sensing pin cylinder 611 form a limit step 614, as shown in fig. 4, a left spring mounting hole is arranged at the upper end of the left locking rod mounting groove 23, a left stepped hole is arranged at the lower end of the left locking rod mounting groove 23, the left stepped hole and the left spring mounting hole are arranged on the same straight line, and the left stepped hole and the left spring mounting hole are arranged perpendicular to the left locking; the upper end of the right locking rod mounting groove is provided with a right spring mounting hole, the lower end of the right locking rod mounting groove is provided with a right stepped hole, the right stepped hole and the right spring mounting hole are arranged on the same straight line, and the right stepped hole and the right spring mounting hole are vertically arranged with the right locking rod mounting groove; the upper sides of the left locking rod 6 and the right locking rod 64 are respectively provided with an upper locking rod clamping groove 65, the lower sides of the left locking rod 6 and the right locking rod 64 are respectively provided with a lower locking rod clamping groove 69, the left stepped hole and the right stepped hole are respectively provided with a sensing pin 61, the lower column body of each sensing pin 61 extends out of the corresponding left stepped hole and the right stepped hole, and a limit step 614 is used to form a limit to prevent the sensing pin column 611 from sliding out, the upper column 613 of each sensing pin 61 extends into the lower locking rod slot 69 at the lower side of the left locking rod 6 and the right locking rod 64, the upper end of the induction spring 63 is fixed by the pressing block 62 through the pressing block 62 in the top end of the left spring mounting hole and the right spring mounting hole which are inserted into the corresponding locking rod upper clamping groove 65 of the left locking rod 6 or the right locking rod 64.

The tails of the left locking rod 6 and the right locking rod 64 are respectively provided with a second rotating pin 67, two ends of the second rotating pin 67 of the left locking rod 6 are in hinged fit with two side walls of the left locking rod mounting groove 23, two ends of the second rotating pin 67 of the right locking rod 64 are in hinged fit with two side walls of the right locking rod mounting groove, the main air passage block 1 is provided with a left locking rod mounting hole 14 and a right locking rod mounting hole 15, the tail ends of the left locking rod 6 and the right locking rod 64 are provided with hemispheroids 68, after the support 2 is fixedly connected with the main air passage block 1, the hemispheroids 68 at the tail end of the left locking rod 6 extend into the left locking rod mounting hole 14, and the hemispheroids 68 at the tail end of the right locking rod 64 extend into the right locking rod mounting hole 15.

When the sensing pin 61 is squeezed, the left locking rod 6 and the right locking rod 64 are pushed to swing around the second rotating pin 67, the locking rod insertion block 68 at the front end of the left locking rod 6 is separated from the left clamping groove, the locking rod insertion block 68 at the front end of the right locking rod 64 is separated from the right clamping groove, the left interlocking rod 71 and the right interlocking rod 74 are separated from locking, when the sensing pin 61 is not squeezed by external force, the left locking rod 6 and the right locking rod 64 are pressed downwards under the action of the sensing spring 63, the locking rod insertion block 66 at the front end of the left locking rod 6 is clamped into the left clamping groove, the locking rod insertion block 66 at the front end of the right locking rod 64 is clamped into the right clamping groove, and the left interlocking rod 71 and the right.

During assembly, as shown in fig. 2, the linkage valve 3 is rotatably arranged on the main air path block 1, the top end of the interlocking slider 4 extends into the linkage valve limiting groove 31 to limit the linkage valve 3, the interlocking slider 4 is extruded when the linkage valve 3 rotates, the interlocking slider 4 extrudes the interlocking spring 41 to enable the interlocking slider 4 to descend to the point that the interlocking slider 4 is separated from the linkage valve limiting groove 31, the linkage valve 3 is separated from rotation limit, the linkage rod plug 53 at the tail end of the linkage rod 5 penetrates through the linkage rod mounting groove 13 and extends into the linkage rod clamping groove 45, the triangular top head 52 at the front end of the linkage rod 5 is arranged below the joints of the left interlocking rod 71 and the right interlocking rod 74, the rotation of the linkage rod 5 is limited by the left interlocking rod 71 and the right interlocking rod 74, so that the linkage rod 5 cannot rotate when the left interlocking rod 71 and the right interlocking rod 74 are abutted, and the linkage valve 3 is locked; the left and right interlock levers 71 and 74 are restricted by the left and right lock levers 6 and 64, and the left and right lock levers 6 and 64 are controlled by the sensing pin 61 and the sensing spring 63, so that the left and right lock levers 6 and 64 can be lifted up when the sensing pin 61 is pressed.

Example 2

The working method for preventing the support of the evaporator from being opened by mistake comprises the following steps: when the linkage valve 3 is in a locking state, the left locking rod 6 and the right locking rod 64 are extruded by the induction spring 63 to the front end of the left locking rod 6 to be clamped into the left clamping groove of the left interlocking rod 71, the front end of the right locking rod 64 is clamped into the right clamping groove of the right interlocking rod 74, the front ends of the left interlocking rod 71 and the right interlocking rod 74 are abutted at the front end of the linkage rod rotating groove 22, the bottom end of the induction pin 64 extends out of the left stepped hole and the right stepped hole, the triangular top head 52 at the front end of the linkage rod 5 is arranged at the lower sides of the left interlocking rod 71 and the right interlocking rod 74, the tail end of the linkage rod 5 is inserted into the linkage rod clamping groove 45, the interlocking slider 4 is supported by the slider spring 41, the top end of the interlocking slider 4 extends into the linkage valve limiting groove 31 to prevent the linkage valve 3 from rotating, the interlocking slider 4 is extruded to generate a downward moving trend when the linkage valve 3 rotates, and the interlocking slider 4 drives the linkage rod 5 to rotate around the, The right interlocking rod 74 resists and cannot tilt up, and the limiting of the linkage valve 3 is completed; when the sensing pin 61 is squeezed, the left locking rod 6 and the right locking rod 64 are lifted up and squeeze the sensing spring 63, the front end of the left locking rod 6 is separated from the left clamping groove, the front end of the right locking rod 64 is separated from the right clamping groove, the left interlocking rod 71 is reset and popped out under the action of the left interlocking spring 72, the right interlocking rod 74 is reset and popped out under the action of the right interlocking spring 75, the limitation on the interlocking rod 5 is removed, the interlocking slider 4 is pressed down to enter the slider mounting hole 12 when the interlocking valve 3 rotates, and the interlocking rod 5 rotates around the first rotating pin 51.

Example 3

The utility model provides an evaporator, include foretell prevent that the support is opened by mistake to the evaporimeter, still include the evaporimeter main part and the protrusion sets up in the platform of accepting of evaporimeter main part one side, main gas circuit piece 1 is fixed to be set up in the evaporimeter main part, is linked together by main air vent 11 of main gas circuit piece 1 and the gas circuit of evaporimeter main part, and support 2 is arranged in and is accepted on the platform to make the bottom of response round pin 61 contact with the top surface of accepting the platform after the assembly is accomplished, trigger response round pin 61 by accepting the platform, relieve the locking of coordinated valve 3.

It should be understood that the above examples are only for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And that obvious changes and modifications may be made without departing from the spirit of the invention.

Claims (9)

1. The support is characterized by comprising a main air circuit block, a linkage valve, an interlocking slide block and a slide block spring, wherein a slide block mounting hole is formed in the main air circuit block, the slide block spring is arranged in the slide block mounting hole, the tail end of the interlocking slide block is arranged in the slide block mounting hole and is in transmission fit with the slide block spring so that the interlocking slide block can lift along the slide block mounting hole, a linkage valve limiting groove is formed in the bottom wall of the linkage valve, the linkage valve can be rotatably arranged on the main air circuit block during assembly, the top end of the interlocking slide block extends into the linkage valve limiting groove to limit the linkage valve, the interlocking slide block is extruded when the linkage valve rotates, the interlocking slide block extrudes the interlocking spring so that the interlocking slide block descends to the interlocking slide block to be separated from the linkage valve limiting groove, and the linkage valve breaks away from rotation limitation.

2. The support for preventing the evaporator from being opened by mistake as claimed in claim 1, further comprising a linkage rod and a support fixedly connected with a main air circuit block, wherein a linkage rod clamping groove is formed in the interlocking slider, a linkage rod mounting groove communicated with the slider mounting hole is formed in the main air circuit block, a linkage rod rotating groove is formed in the support, the tail end of the linkage rod penetrates through the linkage rod mounting groove and extends into the linkage rod clamping groove, a first rotating pin is arranged in the middle of the linkage rod, and the front end of the linkage rod extends into the linkage rod rotating groove, so that the linkage rod can be driven to rotate around the first rotating pin when the interlocking slider is lifted.

3. The support for preventing the evaporator from being opened by mistake as claimed in claim 2, further comprising a left interlocking rod and a right interlocking rod, wherein the support is provided with a left interlocking rod mounting hole and a right interlocking rod mounting hole which are communicated with the linkage rod rotating groove, the front end of the left interlocking rod penetrates through the left interlocking rod mounting hole and extends into the linkage rod rotating groove, and the front end of the right interlocking rod penetrates through the right interlocking rod mounting hole and extends into the linkage rod rotating groove and abuts against the front end of the left interlocking rod, so that the tail end of the linkage rod is arranged below the joint of the left interlocking rod and the right interlocking rod.

4. The support of claim 3, further comprising a left locking rod and a right locking rod, wherein the support is provided with a left locking rod mounting groove communicated with the left interlocking rod mounting hole and a right locking rod mounting groove communicated with the right interlocking rod mounting hole, the left interlocking rod is provided with a left clamping groove, the right interlocking rod is provided with a right clamping groove, the front end of the left locking rod penetrates through the left locking rod mounting groove and then is used for locking the left interlocking rod when being placed in the left clamping groove, the front end of the left locking rod is unlocked by the left interlocking rod when being separated from the left clamping groove, the front end of the right locking rod penetrates through the right locking rod mounting groove and then is used for locking the right interlocking rod when being placed in the right clamping groove, and the front end of the right locking rod is unlocked by the right interlocking rod when being separated from the right clamping groove.

5. The support for preventing the evaporator from being opened by mistake as claimed in claim 4, further comprising a sensing pin and a sensing spring, wherein a left spring mounting hole is formed at the upper end of the left locking rod mounting groove, a left stepped hole is formed at the lower end of the left locking rod mounting groove, and the left stepped hole and the left spring mounting hole are arranged on the same straight line; the upper end of the right locking rod mounting groove is provided with a right spring mounting hole, the lower end of the right locking rod mounting groove is provided with a right stepped hole, the right stepped hole and the right spring mounting hole are arranged on the same straight line, the left stepped hole and the right stepped hole are respectively internally provided with an induction pin, the left spring mounting hole and the right spring mounting hole are respectively internally provided with an induction spring, each induction spring is respectively abutted against the left locking rod and the right locking rod so that the front end of the left locking rod is clamped into the left clamping groove and the front end of the right locking rod is clamped into the right clamping groove, the top end of the induction pin in the left stepped hole is abutted against the left locking rod and the bottom end of the induction pin extends out of the left stepped hole, the top end of the induction pin in the right stepped hole is abutted against the right locking rod and the bottom end of the induction pin extends out of the right stepped hole, so that the front end of the left locking rod is separated from the left clamping groove and, the left interlocking rod and the right interlocking rod are free from locking.

6. The support of claim 5, wherein the front ends of the left and right interlock rods are provided with a locking rod insertion block in the shape of a thin plate, and the tail parts of the left and right interlock rods are provided with a second rotation pin, so that the left and right interlock rods can be rotatably arranged.

7. The support for preventing the evaporator from being opened by mistake as claimed in claim 6, further comprising a left interlocking spring and a right interlocking spring, wherein the left interlocking spring is sleeved on the left interlocking rod and is in transmission fit with the support, the tail end of the left interlocking rod extends out of the left interlocking rod mounting hole, so that the left interlocking rod can move in the left interlocking rod mounting hole when the left interlocking rod is extruded, and the left interlocking spring is used for driving the left interlocking rod to reset; the right interlocking spring is sleeved on the right interlocking rod and is in transmission fit with the support, the tail end of the right interlocking rod extends out of the right interlocking rod mounting hole, so that the right interlocking rod can move in the right interlocking rod mounting hole when the right interlocking rod is extruded, and the right interlocking spring is used for driving the right interlocking rod to reset.

8. The support for preventing the evaporator from being opened by mistake as claimed in claim 7, wherein a triangular top is arranged at the front end of the linkage rod, and the front end of the left interlocking rod and the front end of the right interlocking rod are arranged in a hemispherical shape, so that the vertex angle of the triangular top is arranged at the lower side of the front ends of the left interlocking rod and the right interlocking rod.

9. An evaporator, comprising the support for preventing the evaporator from being opened by mistake as claimed in any one of claims 5 to 8, further comprising an evaporator body and a receiving platform protruding from one side of the evaporator body, wherein the main air path block is fixedly arranged on the evaporator body, and the support is arranged on the receiving platform, so that the bottom end of the sensing pin is contacted with the top surface of the receiving platform after assembly is completed, and the sensing pin is triggered by the receiving platform.

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