CN222491804U - A refrigerant distributor processing device with a control structure - Google Patents

Abstract

The utility model discloses a refrigerant distributor processing device with a control structure, which relates to the technical field of refrigerant distributor processing, and comprises a lower die, wherein the upper surface of the lower die is provided with a die cavity, the upper part of the die cavity is provided with a workpiece body and a control component, the control assembly is arranged in the die cavity, the control assembly is used for controlling the position of the workpiece body at the middle part of the die cavity all the time, the discharging assembly is arranged on the bottom wall of the die cavity, and the discharging assembly is used for controlling the workpiece body to pop up for use after finishing processing. Through setting up control assembly, can reach when processing the machined part body, can make the machined part body be in the middle part that holds the board all the time after fixing totally the machined part body of equidimension not, reach the purpose of being convenient for process the machined part body of equidimension not, through setting up the subassembly of unloading, can reach the effect of being convenient for easily taking off after accomplishing the machined part body processing of equidimension not.

Description

Refrigerant distributor processingequipment with control structure

Technical Field

The utility model belongs to the technical field of refrigerant distributor processing, and particularly relates to a refrigerant distributor processing device with a control structure.

Background

The refrigerant distributor is an air conditioning branch device, and the air conditioning branch device is used for a variable refrigerant quantity air conditioning system, is an alias branch pipe, and is divided into an air pipe and a liquid pipe by connecting a host machine and a plurality of end devices. The gas pipe is generally thicker than the liquid pipe, and the refrigerant passes through an expansion valve or a capillary tube for throttling, and then comes out of the outlet of the host machine and is connected with the liquid pipe of the branching device. The refrigerant is split through the liquid tubes to separate the other branch tubes and the end evaporators. The refrigerant is converted into gas by heat absorption in the evaporator and then flows back to the compressor of the main unit through the gas pipe.

At present, when the manifold is machined, the manifold is generally fixed on a die at first, and in order to ensure that the manifold is firm and durable, a stamping forming tool is used for most of the time, the manifold is subjected to one-time forming after being stamped for many times, so that the service life of the manifold is prolonged, at present, when the manifold is machined, different fixing dies can be replaced due to different diameters of the manifold to be machined, if the dies are not replaced, the problem that the stamping effect is influenced due to unstable fixing can occur, and the dies are very firm to install after the fixing is finished, so that the die is time-consuming and labor-consuming to replace.

Therefore, we propose a refrigerant distributor processing device with a control structure.

Disclosure of Invention

The utility model aims to provide a refrigerant distributor processing device with a control structure, which solves the problems in the background technology.

In order to achieve the above purpose, the refrigerant distributor machining device with the control structure comprises a lower die, wherein a die cavity is formed in the upper surface of the lower die, a workpiece body is placed on the upper portion of the die cavity, the control assembly is arranged in the die cavity and used for controlling the workpiece body to be always positioned in the middle of the die cavity, the discharging assembly is arranged on the bottom wall of the die cavity and used for controlling the workpiece body to be ejected after machining is completed.

Preferably, the control assembly comprises two guide rods, wherein one side, away from each other, of each guide rod is fixedly connected with a plurality of guide rods, the guide rods penetrate through the front surface and the back surface of the lower die respectively, a plurality of first springs are fixedly connected between each control plate and the inner wall of the die cavity, each first spring is sleeved with the corresponding guide rod, a containing plate is placed in the middle of the inside of the die cavity, and the containing plate is located in the middle of the two control plates.

Preferably, a baffle is fixedly arranged at the other end of each group of guide rods.

Preferably, the arc surfaces of the two control boards respectively correspond to the containing boards.

Preferably, an upper die is placed on the upper portion of the lower die, a module is fixedly installed on the bottom surface of the upper die, and the size of the module is matched with the size of the containing plate.

Preferably, the upper surface of the lower die is fixedly connected with four supporting rods, the upper surfaces of the four supporting rods are fixedly provided with a top plate, the upper surface of the top plate is fixedly embedded with an electric push rod, the output end of the electric push rod is fixedly connected with the upper surface of the upper die, and the supporting rods are clamped with the upper die.

Preferably, the unloading assembly comprises a supporting plate, the supporting plate is installed on the bottom surface of the containing plate, a plurality of limiting rods are fixedly installed on the bottom surface of the containing plate, a plurality of limiting grooves are formed in the bottom wall of the die cavity, each limiting rod is clamped with the corresponding limiting groove, a plurality of second springs are fixedly installed between the bottom surface of the containing plate and the bottom wall of the die cavity, and each second spring is sleeved with the corresponding limiting rod.

Preferably, a stamping assembly body is mounted on the left portion of the lower die.

The utility model has at least the following beneficial effects:

1. When the machined part body needs to be machined, the machined part body is firstly placed between the module and the containing plate, the power supply of the electric push rod is started at the moment to enable the output end of the electric push rod to push the upper die downwards, the module can press the machined part body downwards, when the machined part body continuously moves downwards, the arc-shaped surfaces of the two control plates can be in contact with the containing plate and the machined part body at the moment, the two control plates can extrude the machined part body under the influence of the first spring force, the pressure on the machined part body received by the two groups of first spring force is the same and can control the machined part body to be close towards the middle of the containing plate, and when the machined part body is completely fixed, the machined part body can be always located in the middle of the containing plate, and the machined part bodies with different sizes are identical.

Through setting up control assembly, can reach when processing the machined part body, can make the machined part body be in the middle part that holds the board all the time after fixing completely the machined part body of equidimension not, reach the purpose of being convenient for process the machined part body of equidimension not.

2. After the machined part body is fixed, start the punching press subassembly body this moment, after the punching press through each subassembly of punching press subassembly body makes machined part body shaping, start electric putter this moment, make electric putter's output drive go up the mould and rise, receive the influence of second spring elasticity and gag lever post and spacing groove complex direction spacing effect this moment, can make hold the board rise, and then can drive the machined part body and rise, and the thickness machined part body is got off to the processing that can be relaxed this moment.

Through setting up the subassembly of unloading, can reach the effect of being convenient for with the light dismantlement after the processing of the machined part body of equidimension not.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic side view of a lower die of the present invention;

FIG. 4 is a schematic side sectional view of the present utility model;

fig. 5 is an enlarged schematic view of the structure a of fig. 4 according to the present utility model.

The device comprises a control assembly, a discharging assembly, a lower die, a die cavity, a 5, an upper die, a 6, a module, a 7, a supporting rod, a 8, a top plate, a 9, an electric push rod, a 10, a control plate, a 11, a guide rod, a 12, a first spring, a 13, a baffle, a 14, a punching assembly body, a 15, a containing plate, a 16, a limiting rod, a 17, a second spring, a 18, a limiting groove, a 19, a supporting plate, a 20 and a workpiece body.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution:

Example 1

The utility model provides a refrigerant distributor processingequipment with control structure, includes bed die 3, and die cavity 4 has been seted up to bed die 3's upper surface, and machined part body 20 has been placed on the upper portion of die cavity 4, control assembly 1, and control assembly 1 installs in the inside of die cavity 4, and control assembly 1 is used for controlling machined part body 20 and is in the position at die cavity 4 middle part always, and the subassembly 2 of unloading, and the diapire at die cavity 4 is installed to subassembly 2 of unloading, and subassembly 2 of unloading is used for controlling machined part body 20 and pops out the use after finishing processing.

The control assembly 1 comprises two guide rods 11, wherein one surfaces, away from each other, of the two guide rods 11 are fixedly connected with a plurality of guide rods 11, the guide rods 11 penetrate through the front surface and the back surface of the lower die 3 respectively, a plurality of first springs 12 are fixedly connected between each control plate 10 and the inner wall of the die cavity 4, each first spring 12 is sleeved with the corresponding guide rod 11 respectively, a containing plate 15 is placed in the middle of the inside of the die cavity 4, and the containing plate 15 is located in the middle of the two control plates 10.

The other end of each group of guide rods 11 is fixedly provided with a baffle 13 for limiting the position of the guide rods 11, so that the danger of falling off caused by the guide rods 11 can be effectively avoided.

The arc surfaces of the two control boards 10 respectively correspond to the containing boards 15, so that the containing boards 15 can be smoothly lifted.

The upper die 5 has been placed on the upper portion of bed die 3, and the bottom surface fixed mounting of upper die 5 has module 6, and the size of module 6 and the size looks adaptation of holding board 15 can reach the effect of being convenient for press from both sides tightly fixedly to machined part body 20 through the cooperation of module 6 and holding board 15.

The upper surface fixedly connected with four bracing pieces 7 of bed die 3, the upper surface fixed mounting of four bracing pieces 7 has a roof 8, and the upper surface fixed of roof 8 is inlayed and is had electric putter 9, and electric putter 9's output and the upper surface fixed connection of last mould 5, bracing piece 7 and last mould 5 looks joint for the lift of last mould 5 provides power to use, further for the fixed power use that provides to machined part body 20.

When the workpiece body 20 needs to be machined, the workpiece body 20 is firstly placed between the module 6 and the containing plate 15, the power supply of the electric push rod 9 is started at the moment to enable the output end of the electric push rod 9 to push the upper die 5 downwards, the module 6 can press the workpiece body 20 downwards, when the workpiece body 20 continuously moves downwards, the arc-shaped surfaces of the two control plates 10 can contact the containing plate 15 and the workpiece body 20, the two control plates 10 can squeeze the workpiece body 20 under the influence of the elastic force of the first springs 12 at the moment, the pressure on the workpiece body 20 due to the fact that the elastic force of the two groups of first springs 12 is the same can control the workpiece body 20 to be close towards the middle of the containing plate 15, the workpiece body 20 can be always located at the position of the middle of the containing plate 15 after the workpiece body 20 is completely fixed, and the workpiece body 20 with different sizes is machined.

Through setting up control assembly 1, can reach when processing work piece body 20, can make work piece body 20 be in the middle part that holds board 15 all the time after fixing completely to the work piece body 20 of equidimension not, reach the purpose of being convenient for process work piece body 20 of equidimension not.

Example two

The unloading assembly 2 comprises a supporting plate 19, the supporting plate 19 is arranged on the bottom surface of the containing plate 15, a plurality of limiting rods 16 are fixedly arranged on the bottom surface of the containing plate 15, a plurality of limiting grooves 18 are formed in the bottom wall of the die cavity 4, each limiting rod 16 is clamped with the corresponding limiting groove 18, a plurality of second springs 17 are fixedly arranged between the bottom surface of the containing plate 15 and the bottom wall of the die cavity 4, each second spring 17 is sleeved with the corresponding limiting rod 16, the elastic force of each second spring 17 is larger than that of the first spring 12, and the containing plate 15 can be smoothly lifted under the influence of the elastic force of the second springs 17.

The left part of the lower die 3 is provided with a punching assembly body 14, and the punching assembly body 14 is used for punching and forming the workpiece body 20.

After the machined part body 20 is fixed, start punching press subassembly body 14 this moment, after the punching press through each subassembly of punching press subassembly body 14 makes machined part body 20 shaping, start electric putter 9 this moment, make electric putter 9's output drive go up mould 5 and rise, receive the influence of second spring 17 elasticity and gag lever post 16 and spacing groove 18 complex direction spacing effect this moment, can make hold board 15 rise, and then can drive machined part body 20 and rise, can light will process thickness machined part body 20 and take off this moment.

By arranging the unloading assembly 2, the effect of being convenient for easily taking down machined part bodies 20 with different sizes after machining is finished can be achieved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. The utility model provides a refrigerant distributor processingequipment with control structure, includes control panel (10), bed die (3), die cavity (4) have been seted up to the upper surface of bed die (3), machined part body (20), its characterized in that have been placed on the upper portion of die cavity (4):

The control assembly (1), the said control assembly (1) is installed in the inside of the die cavity (4), the said control assembly (1) is used for controlling the body of the machined part (20) to be in the position of the middle part of the die cavity (4) all the time;

The unloading assembly (2), the diapire at die cavity (4) is installed in unloading assembly (2), unloading assembly (2) are used for controlling machined part body (20) and pop out the use after finishing processing.

2. The refrigerant distributor processingequipment with control structure, according to claim 1, wherein control assembly (1) includes two guide bars (11), two guide bars (11) are all fixedly connected with a plurality of guide bars (11) in the one side that keeps away from each other, a plurality of guide bars (11) pass through the front and the back of bed die (3) respectively, every between control panel (10) and die cavity (4) inner wall a plurality of first springs (12) all fixedly connected with, every first spring (12) cup joints respectively with its corresponding guide bar (11), hold board (15) have been placed at the inside middle part of die cavity (4), hold board (15) are in the middle part of two control panels (10).

3. A refrigerant distributor processing device with a control structure as set forth in claim 2, wherein a baffle plate (13) is fixedly arranged at the other end of each guide rod (11).

4. A refrigerant distributor processing device with a control structure according to claim 2, characterized in that the arc surfaces of the two control plates (10) respectively correspond to the containing plates (15).

5. The refrigerant distributor machining device with the control structure according to claim 2, wherein an upper die (5) is arranged on the upper portion of the lower die (3), a module (6) is fixedly arranged on the bottom surface of the upper die (5), and the size of the module (6) is matched with the size of the containing plate (15).

6. The refrigerant distributor processingequipment with control structure, according to claim 5, wherein the upper surface fixedly connected with four bracing pieces (7) of bed die (3), four the upper surface fixed mounting of bracing piece (7) has a roof (8), the upper surface fixed of roof (8) inlays has electric putter (9), the output of electric putter (9) is fixedly connected with the upper surface of bed die (5), bracing piece (7) looks joint with bed die (5).

7. The refrigerant distributor processingequipment with control structure, according to claim 2, characterized in that the unloading assembly (2) comprises a supporting plate (19), the supporting plate (19) is installed on the bottom surface of the containing plate (15), a plurality of limit rods (16) are fixedly installed on the bottom surface of the containing plate (15), a plurality of limit grooves (18) are formed in the bottom wall of the die cavity (4), each limit rod (16) is clamped with the corresponding limit groove (18), a plurality of second springs (17) are fixedly installed between the bottom surface of the containing plate (15) and the bottom wall of the die cavity (4), and each second spring (17) is sleeved with the corresponding limit rod (16).

8. The refrigerant distributor processing device with a control structure according to claim 7, wherein a stamping component body (14) is mounted at the left part of the lower die (3).