CN110793182B

CN110793182B - Air conditioner core assembling equipment for automobile production

Info

Publication number: CN110793182B
Application number: CN201911117987.4A
Authority: CN
Inventors: 田金鑫; 胡丰收; 高洁; 冯如只; 张志显; 魏富德; 郭树青; 田康康
Original assignee: Henan Mechanical and Electrical Vocational College
Current assignee: Henan Mechanical and Electrical Vocational College
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2021-03-19
Anticipated expiration: 2039-11-15
Also published as: CN110793182A

Abstract

The invention discloses an air conditioner core body assembling device for automobile production, which comprises a fixed frame, wherein the lower surface of the fixed frame is connected with a slide rail assembly, the slide rail assembly is connected with a movable frame, the movable frame is connected with the fixed frame in a clamping manner, a bearing on the fixed frame is connected with a damping shaft rod in a penetrating manner, the part of the damping shaft rod, which extends into the fixed frame, is connected with a gear in a key manner, two sides of the gear are connected with toothed bars in a meshing manner, the end parts of the toothed bars penetrate through the fixed frame through slotted holes reserved on the fixed frame and are connected with the movable frame in a meshing manner, and the inner sides. This an air conditioner core equipment for automotive production can be convenient for adjust according to the length of pressure manifold and the length of flat pipe for this air conditioner core equipment can be applicable to the pressure manifold and the flat pipe of various length, and can be applicable to the inclined to one side pipe use of various quantity, and can be convenient for light drive pressure manifold and remove to flat pipe, until pressure manifold and flat pipe contact and block.

Description

Air conditioner core assembling equipment for automobile production

Technical Field

The invention relates to the technical field related to automobile production, in particular to an air conditioner core body assembling device for automobile production.

Background

With the development of society, automobiles become necessities, basically every family has, and air conditioners in ordinary automobiles are necessary, so that the air conditioner core body needs to be assembled in the production process of the automobiles, and the air conditioner core body assembling equipment is a device for installing and assembling the air conditioner core body.

However, the existing air conditioner core assembling equipment has certain problems in the using process, such as:

1. when the existing air conditioner core body assembling equipment is used, the existing air conditioner core body assembling equipment is inconvenient to adjust according to the length of the collecting pipe and cannot adjust according to the length and the number of the flat pipes, so that the existing air conditioner core body assembling equipment is limited in the using process and cannot be flexibly adjusted according to the length of the collecting pipe, the length of the flat pipes and the number of the flat pipes;

2. the existing air conditioner core assembling equipment is inconvenient for connecting the collecting pipe and the flat pipe in the using process, and the existing air conditioner core assembling equipment is inconvenient for workers to use because the collecting pipe and the flat pipe need to be manually straightened when being connected;

to sum up, an air conditioner core assembling device for automobile production is designed to solve the above problems.

Disclosure of Invention

The invention aims to provide air conditioner core assembling equipment for automobile production, and aims to solve the problem that the existing air conditioner core assembling equipment in the background art is inconvenient to flexibly adjust and use according to the length of a collecting pipe, the length of a flat pipe and the number of the flat pipes.

In order to achieve the purpose, the invention provides the following technical scheme: an air conditioner core body assembling device for automobile production comprises a fixed frame, wherein the lower surface of the fixed frame is connected with a slide rail assembly, a movable frame is connected onto the slide rail assembly, the movable frame is connected with the fixed frame in a clamping manner, a damping shaft lever is connected onto the fixed frame in a penetrating manner through a bearing, the damping shaft lever extends into the fixed frame and is connected with a gear in a key manner, two sides of the gear are meshed and connected with a toothed bar, the end part of the toothed bar is meshed and connected with the movable frame through the fixed frame through a slotted hole reserved on the fixed frame, supporting bars are connected to the inner sides of the fixed frame and the movable frame respectively, positioning holes are reserved on the supporting bars and are connected with positioning pieces on the positioning holes, driving pipes are respectively connected to the inner sides of the fixed frame and the movable frame in a bearing manner, a supporting structure is installed on the driving pipes, two ends of the supporting, the novel hemp cutting machine is characterized in that a clamping groove is formed in the pressing plate, supporting blocks are arranged at the upper end of the pressing plate, the supporting blocks are connected with each other through a sliding rod, a nested part is nested on the outer side of the sliding rod, a displacement groove is reserved in the nested part, a limiting plate is connected to the outer side of the nested part in a shaft mode, the inner side of the limiting plate is connected with a lifting block, the lifting block penetrates through the displacement groove and extends into the nested part, a second supporting pipe is connected in the nested part, the end portion of the second supporting pipe is nested on the outer side of a second supporting rod, the second supporting rods are connected with each other through a compression rod, the upper end of the second supporting rod is connected to a pressing block, the pressing block penetrates through the nested part through a groove hole formed in the nested part, a hemp rod is connected to the inner side of the driving pipe, one end of the hemp rod penetrates through the fixed, and the spacing groove sets up on the connecting rod, the one end of twist pole is connected with first bracing piece, and the one end of first bracing piece stretches into in the first stay tube to first stay tube connects in the spacing groove, all be provided with compression spring between first stay tube and first bracing piece and second bracing piece and the second stay tube, the tip outside nestification of connecting rod has the connecting pipe.

Preferably, the inner side and the outer side of the driving pipe are both provided with threads, and the threads on the inner side of the driving pipe are matched with the threads on the outer side of the twist rod.

Preferably, prop the apical structure and include that thread bush, first prop apical axis, prop the ejector pin and the second props the apical axis, the both sides of thread bush all are connected with through first propping the apical axis and prop the ejector pin, and the first other end that props the apical axis is connected with the second and props the apical axis.

Preferably, the thread bush threaded connection is in the outside of driving tube, and every 2 thread bushes constitute a set to the screw thread bush in a set of opposite direction of turning, the ejector pin that props that connects on the same group of thread bush simultaneously constitutes the rhombus structure, and the ejector pin that props of every group of thread bush homonymy is connected with the clamp plate through same second props the apical axis.

Preferably, the positioning holes are uniformly distributed on the supporting bars, and the structural shapes of the positioning holes are prism-shaped.

Preferably, the upper surface of the positioning piece is provided with a groove, the groove is in a step shape, the lower end of the positioning piece is in a prism shape, and meanwhile, the prism-shaped structure is matched with the structural shape of the positioning hole.

Preferably, the rack bar is in an L shape, gear teeth are arranged on two sides of the rack bar, and the gear teeth on the two sides are respectively engaged with the gear and the gear teeth on the outer side of the movable frame.

Preferably, the structural shapes of the two ends of the nesting piece are prism-shaped, and the nesting piece is connected with the sliding rod in a sliding mode.

Preferably, the side of the lifting block facing the slide rod is an arc-shaped surface, and the distance between the arc-shaped surface and the axis of the slide rod is gradually increased.

Preferably, the second supporting rod and the pressed rod form an H-shaped structure, and the pressed rod and the lifting block are arranged in a one-to-one correspondence manner.

Compared with the prior art, the invention has the beneficial effects that: this an air conditioner core equipment for automobile production can be convenient for adjust according to the length of pressure manifold and the length of flat pipe for this air conditioner core equipment can be applicable to the pressure manifold and the flat pipe of various length, and can be applicable to the inclined to one side pipe use of various quantity, and can be convenient for light drive pressure manifold and remove to flat pipe, until pressure manifold and flat pipe contact and block:

1. the collecting pipe can be clamped through the clamping groove, the nested part slides to a proper position on the sliding rod through the nested part, then the nested part is fixed at the position of the sliding rod at the moment through rotating the limiting plate, and the limiting plate can be in contact with one end of the collecting pipe, so that the clamping groove and the limiting plate can position the collecting pipes with different lengths, and the air conditioner core body assembling equipment can be suitable for the collecting pipes with different lengths;

2. the gear on the damping shaft lever is driven to move by rotating the damping shaft lever, so that the meshing connection between the gear lever and the movable frame can be conveniently disconnected, the movable frame can slide through the damping shaft lever, and the position between the fixed frame and the movable frame is further changed, so that the air conditioner core body assembling equipment can be suitable for flat pipes with different lengths;

3. the positioning parts with proper number are clamped into the positioning holes at proper positions, so that the flat pipes with different numbers can be conveniently positioned, and the flat pipes with corresponding numbers can be positioned according to the number of the flat pipe connection positions on the collecting pipe;

4. through draw connecting rod and connecting pipe outward, can make the fried dough twist pole remove, and can rotate through spacing groove restriction fried dough twist pole to can drive the driving tube and rotate, the driving tube can make the strutbeam structure expand when rotating, and then can be convenient for the clamp plate and be close to each other, thereby can realize that the pressure manifold is close to flat tub of tip, and with flat union coupling.

Drawings

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

FIG. 2 is an enlarged view of point A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the connection structure of the fixed frame and the movable frame of the present invention;

FIG. 4 is a schematic view of a slider and platen connection configuration according to the present invention;

FIG. 5 is a schematic cross-sectional view of a positioning member according to the present invention;

FIG. 6 is a schematic view of a partial front view of the connecting rod of the present invention;

FIG. 7 is a schematic view of the front view connection structure of the slide rod and the position limiting plate according to the present invention;

FIG. 8 is a schematic view of a partial structure of a nest according to the present invention;

FIG. 9 is a schematic cross-sectional view of the main cross-sectional structure of the slide rod and limiting plate of the present invention;

fig. 10 is an enlarged schematic view of point B in fig. 9 according to the present invention.

In the figure: 1. a fixed mount; 2. a movable frame; 3. a damping shaft lever; 4. a slide rail assembly; 5. a drive tube; 6. a supporting structure; 601. a threaded sleeve; 602. a first jack shaft; 603. supporting a top rod; 604. a second jack shaft; 7. a slider; 8. pressing a plate; 9. a supporting strip; 10. a twisted rod; 11. a connecting rod; 12. a connecting pipe; 13. a support block; 14. a slide rod; 15. a limiting plate; 16. a card slot; 17. positioning holes; 18. a positioning member; 19. a gear; 20. a rack bar; 21. a first support bar; 22. a first support tube; 23. a limiting groove; 24. nesting; 25. lifting the block; 26. a pressing block; 27. a displacement slot; 28. a second support bar; 29. a compression spring; 30. a second support tube; 31. a pressure receiving rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: an air conditioner core body assembling device for automobile production comprises a fixed frame 1, a movable frame 2, a damping shaft lever 3, a sliding rail assembly 4, a driving pipe 5, a supporting structure 6, a threaded sleeve 601, a first supporting shaft 602, a supporting rod 603, a second supporting shaft 604, a sliding block 7, a pressing plate 8, a supporting strip 9, a twist rod 10, a connecting rod 11, a connecting pipe 12, a supporting block 13, a sliding rod 14, a limiting plate 15, a clamping groove 16, a positioning hole 17, a positioning piece 18, a gear 19, a toothed bar 20, a first supporting rod 21, a first supporting pipe 22, a limiting groove 23, a nesting piece 24, a lifting block 25, a pressing block 26, a displacement groove 27, a second supporting rod 28, a compression spring 29, a second supporting pipe 30 and a pressed rod 31, wherein the lower surface of the fixed frame 1 is connected with the sliding rail assembly 4, the movable frame 2 is connected with the fixed frame 1 in a clamping manner, the movable frame 2 is connected with the fixed frame 1 in a penetrating manner, and, the damping shaft lever 3 is connected with a gear 19 by the key of the outer side of the part extending into the fixed frame 1, the two sides of the gear 19 are engaged and connected with a toothed bar 20, the end part of the toothed bar 20 penetrates through the fixed frame 1 and is engaged and connected with the movable frame 2 by a slotted hole reserved on the fixed frame 1, the inner sides of the fixed frame 1 and the movable frame 2 are both connected with a supporting bar 9, a positioning hole 17 is reserved on the supporting bar 9, a positioning piece 18 is connected on the positioning hole 17, the inner sides of the fixed frame 1 and the movable frame 2 are both connected with a driving tube 5 by a bearing, a supporting structure 6 is arranged on the driving tube 5, the two ends of the supporting structure 6 are respectively connected with a sliding block 7 and a pressing plate 8, the sliding block 7 is connected with the inner sides of the fixed frame 1 and the movable frame 2 in a sliding way, a clamping groove 16 is arranged on the pressing plate 8, a, a displacement groove 27 is reserved on the nesting piece 24, a limit plate 15 is axially connected on the outer side of the nesting piece 24, a lifting block 25 is connected on the inner side of the limit plate 15, the lifting block 25 penetrates through the displacement groove 27 and extends into the nesting piece 24, a second support tube 30 is connected in the nesting piece 24, the end part of the second support tube 30 is nested on the outer side of a second support rod 28, the second support rods 28 are connected through a pressed rod 31, the upper end of the second support rod 28 is connected on a pressing block 26, the pressing block 26 penetrates through the nesting piece 24 through a slotted hole arranged on the nesting piece 24, the inner side of the driving tube 5 is connected with a twist rod 10, one end of the twist rod 10 respectively penetrates through the fixed frame 1 and the movable frame 2 through slotted holes arranged on the fixed frame 1 and the movable frame 2, one end of the twist rod 10 penetrates through the limit groove 23, the limit groove 23 is arranged on the connecting rod 11, one end of the, one end of the first support rod 21 extends into the first support tube 22, the first support tube 22 is connected in the limiting groove 23, compression springs 29 are arranged between the first support tube 22 and the first support rod 21 and between the second support tube 28 and the second support tube 30, and the connecting tube 12 is nested outside the end of the connecting rod 11.

The inside and outside both sides of driving tube 5 all are provided with the screw thread, and the screw thread of the inboard screw thread of driving tube 5 and the screw thread phase-match in the fluted twist pole 10 outside can move and do not rotate the condition under at fluted twist pole 10, drive driving tube 5 and rotate.

The supporting structure 6 comprises a threaded sleeve 601, a first supporting shaft 602, a supporting rod 603 and a second supporting shaft 604, wherein the two sides of the threaded sleeve 601 are connected with the supporting rod 603 through the first supporting shaft 602, the other end of the first supporting shaft 602 is connected with the second supporting shaft 604, the threaded sleeve 601 is in threaded connection with the outer side of the driving pipe 5, every 2 threaded sleeves 601 form a group, the screwing directions of the threaded sleeves 601 in the group are opposite, the supporting rods 603 connected on the threaded sleeves 601 in the same group form a diamond structure, the supporting rods 603 on the same side of each group of threaded sleeves 601 are connected with the pressing plate 8 through the same second supporting shaft 604, and the supporting rods can be far away from or close to each other when the threaded sleeves 601 in the same group rotate in the driving pipe 5.

The positioning holes 17 are uniformly distributed on the supporting bars 9, the positioning holes 17 are prism-shaped in structural shape, the positioning pieces 18 can be conveniently clamped in the different positioning holes 17, and the requirement of the air conditioner core body assembling equipment on the number of the flat pipes is met.

The upper surface of the positioning element 18 is provided with a groove which is in a step shape, the lower end of the positioning element 18 is in a prism shape, and meanwhile, the prism-shaped structure is matched with the structure shape of the positioning hole 17, so that the positioning element 18 can be prevented from rotating when the positioning element 18 is clamped with the positioning hole 17, and the positioning element 18 can be convenient for fixing flat pipes with different thicknesses.

The structure shape of rack bar 20 is "L" shape, and the both sides of rack bar 20 all are provided with the teeth of a cogwheel to the teeth of a cogwheel of its both sides respectively with the teeth of a cogwheel meshing in gear 19 and the adjustable shelf 2 outside, can drive rack bar 20 and remove when gear 19 rotates, and can fix the position of mount 1 and adjustable shelf 2 through the teeth of a cogwheel meshing in rack bar 20 and the adjustable shelf 2 outside.

The structural shapes of the two ends of the nesting piece 24 are prism-shaped, and the nesting piece 24 is connected with the slide rod 14 in a sliding mode, so that the nesting piece 24 can only slide on the slide rod 14 but cannot rotate on the slide rod 14, and the position of the limiting plate 15 clamped in the clamping groove 16 is guaranteed to be stable.

The side of lifting piece 25 towards litter 14 is the arcwall face, and the distance of this arcwall face and litter 14 axis is gradual increase, and second bracing piece 28 and receive the pole 31 and constitute "H" shape structure, and receive the pole 31 and the one-to-one setting of lifting piece 25, can be convenient for when lifting piece 25 rotates along with limiting plate 15, progressively to receiving the pole 31 extrusion lifting to can be convenient for lifting support piece 26, so that guarantee the stability of limiting plate 15 card position in draw-in groove 16.

The working principle is as follows: the air conditioner core assembling equipment for automobile production is firstly installed at a use position and used in the following way:

according to fig. 1-10, a suitable number of positioning elements 18 are inserted into the positioning holes 17 at suitable positions to facilitate subsequent positioning of the flat tubes;

according to the length of flat pipe again, adjust the position between mount 1 and the adjustable shelf 2, specifically as follows:

the damping shaft lever 3 is rotated to drive the gear 19 which is in key connection with the damping shaft lever 3 to rotate, so that the toothed bars 20 on two sides of the gear 19 move towards the damping shaft lever 3, the meshing connection between the toothed bars 20 and the outer side of the movable frame 2 is disconnected, at the moment, the fixed frame 1 is slid on the slide rail assembly 4, so that the position between the fixed frame 1 and the movable frame 2 is adjusted, and finally, the damping shaft lever 3 is rotated reversely, so that the gear 19 which is in key connection with the damping shaft lever 3 drives the toothed bars 20 to move away from the damping shaft lever 3 until the toothed bars 20 are in meshing connection with the outer side of the movable frame 2 at the corresponding position, so that the positions of;

during the above adjustment, the connecting rod 11 will be gradually withdrawn from the connecting tube 12 or gradually extend into the connecting tube 12;

then the collecting pipe is clamped into the clamping groove 16, one end of the collecting pipe is abutted against one end of the clamping groove 16, and the position of the limiting plate 15 is adjusted according to the length of the collecting pipe, which is as follows:

the nesting piece 24 is slid on the sliding rod 14 until the limiting plate 15 connected with the nesting piece 24 is moved to the other end position of the collecting pipe, the limiting plate 15 is rotated, the limiting plate 15 is connected with an outer side bearing of the nesting piece 24, and two ends of the nesting piece 24 are in a rectangular structure, so that the nesting piece 24 can be prevented from rotating along with the limiting plate 15, when the limiting plate 15 rotates, the lifting block 25 can be driven to move in the displacement groove 27, the pressed rod 31 can be gradually extruded, the pressed rod 31 drives the second supporting rod 28 to move towards the sliding rod 14 together, and the pressing block 26 can be gradually contacted and extruded with the sliding rod 14, so that the nesting piece 24 is locked, and the nesting piece 24 is prevented from moving on the sliding rod 14 randomly;

the collecting pipe is rotatably clamped in the clamping groove 16 at the other end of the collecting pipe through the limiting plate 15, so that the collecting pipe can be conveniently fixed, and the condition of dislocation when the collecting pipe is connected with the flat pipe is avoided;

after the above steps are completed, the connecting rod 11 and the connecting pipe 12 are pulled outwards, so that the twist rod 10 synchronously moves outwards, and the twist rod 10 is limited through the limiting groove 23, so that the driving pipe 5 in threaded connection with the outer side of the twist rod 10 rotates;

when the driving pipe 5 rotates, the thread sleeves 601 in the same group are close to each other, so that the pressing plates 8 on the air conditioner core body assembling equipment for automobile production are close to each other, and the collecting pipes can gradually contact with the flat pipes and be clamped and connected;

in the above process, the position of the driving pipe 5 is changed, so that the first supporting rod 21 moves on the first supporting pipe 22, and the sliding block 7 slides on the air conditioner core assembling device for automobile production, which is well known to those skilled in the art and not described in detail in this specification.

It is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the purpose of convenience and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and are not to be considered limiting of the scope of the present invention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an air conditioner core equipment for automotive production, includes mount (1), its characterized in that: the lower surface of the fixed frame (1) is connected with a sliding rail component (4), the sliding rail component (4) is connected with a movable frame (2), the movable frame (2) is connected with the fixed frame (1) in a clamping manner, a damping shaft lever (3) is connected to the fixed frame (1) in a penetrating manner through a bearing, a gear (19) is connected to the part of the damping shaft lever (3) extending into the fixed frame (1) in a key manner at the outer side, the two sides of the gear (19) are meshed with gear rods (20), the end part of each gear rod (20) is meshed with the movable frame (2) through the fixed frame (1) through a slotted hole reserved on the fixed frame (1), the inner sides of the fixed frame (1) and the movable frame (2) are both connected with supporting bars (9), the positioning holes (17) are reserved on the supporting bars (9), the positioning parts (18) are connected to the positioning holes (17), the inner sides of the fixed frame (1, and install on driving tube (5) and prop a structure (6), prop the both ends of a structure (6) and connect respectively on slider (7) and clamp plate (8), and slider (7) and the inboard sliding connection of mount (1) and adjustable shelf (2), be provided with draw-in groove (16) on clamp plate (8), and the upper end of clamp plate (8) is provided with supporting shoe (13), be connected through litter (14) between supporting shoe (13), and the outside of litter (14) nests and has nested (24), it has displacement groove (27) to reserve on nested (24), and the outside hub connection of nested (24) has limiting plate (15), the inboard of limiting plate (15) is connected with lifting piece (25), and lifting piece (25) run through displacement groove (27) and stretch into nested (24), nested (24) in-connection has second stay tube (30), the end part of the second supporting pipe (30) is nested outside the second supporting rod (28), the second supporting rods (28) are connected through a pressed rod (31), the upper end of the second supporting rod (28) is connected to a pressing block (26), the pressing block (26) penetrates through a nested part (24) through a slotted hole formed in the nested part (24), the inner side of the driving pipe (5) is connected with a twist rod (10), one end of the twist rod (10) penetrates through the fixed frame (1) and the movable frame (2) through slotted holes formed in the fixed frame (1) and the movable frame (2), one end of the twist rod (10) penetrates through the limiting groove (23) and is arranged on the connecting rod (11), one end of the twist rod (10) is connected with the first supporting rod (21), and one end of the first supporting rod (21) extends into the first supporting pipe (22), and the first supporting tube (22) is connected in the limiting groove (23), compression springs (29) are arranged between the first supporting tube (22) and the first supporting rod (21) and between the second supporting rod (28) and the second supporting tube (30), the connecting tube (12) is nested on the outer side of the end portion of the connecting rod (11), the supporting structure (6) comprises a threaded sleeve (601), a first supporting top shaft (602), a supporting top rod (603) and a second supporting top shaft (604), the two sides of the threaded sleeve (601) are connected with the supporting top rod (603) through the first supporting top shaft (602), the other end of the first supporting top shaft (602) is connected with the second supporting top shaft (604), the threaded sleeve (601) is in threaded connection with the outer side of the driving tube (5), every 2 threaded sleeves (601) form a group, the threaded sleeves (601) in a group are opposite in rotation direction, and the supporting top rods (603) connected on the same group of threaded sleeves (601) form a diamond-shaped structure, the supporting rods (603) on the same side of each group of threaded sleeves (601) are connected with the pressing plate (8) through the same second supporting shaft (604).

2. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the inner side and the outer side of the driving pipe (5) are both provided with threads, and the threads on the inner side of the driving pipe (5) are matched with the threads on the outer side of the twist rod (10).

3. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the positioning holes (17) are uniformly distributed on the supporting bars (9), and the structural shapes of the positioning holes (17) are prism-shaped.

4. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the upper surface of the positioning piece (18) is provided with a groove which is in a step shape, the lower end of the positioning piece (18) is in a prism shape, and the prism structure is matched with the structural shape of the positioning hole (17).

5. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the structure shape of rack bar (20) is "L" shape, and the both sides of rack bar (20) all are provided with the teeth of a cogwheel to the teeth of a cogwheel of its both sides respectively with gear (19) and the teeth of a cogwheel meshing of adjustable shelf (2) outside.

6. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the structural shapes of two ends of the nesting piece (24) are prism-shaped, and the nesting piece (24) is connected with the slide rod (14) in a sliding mode.

7. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the side surface of the lifting block (25) facing the sliding rod (14) is an arc-shaped surface, and the distance between the arc-shaped surface and the axis of the sliding rod (14) is gradually increased.

8. An air conditioning core assembly apparatus for automotive production as claimed in claim 1, wherein: the second supporting rod (28) and the pressed rod (31) form an H-shaped structure, and the pressed rod (31) and the lifting blocks (25) are arranged in a one-to-one correspondence mode.