CN219512274U - Clamping assembly and test equipment - Google Patents

Abstract

The utility model belongs to the technical field of consumable clamping, and particularly relates to a clamping assembly and testing equipment. This clamping component is used for installing the consumptive material, this clamping component includes centre gripping main part, riser and locating component, and centre gripping main part encloses with the riser to establish and is formed with accommodation space, and accommodation space has the opening that supplies the consumptive material to slide in, is equipped with first sliding part on the centre gripping main part, and the consumptive material sets up the second sliding part, and the consumptive material passes through first sliding part and second sliding part sliding fit and packs into the clamping component along the installation direction that is on a parallel with the consumptive material, in the direction of consumptive material roll-off accommodation space, locating component can with consumptive material locate cooperation. When the consumable is installed in the clamping assembly, the chip of the consumable and the pin of the consumable can be abutted without relative displacement, so that the risk of damage to the chip of the pin of the consumable and the chip of the consumable is reduced.

Description

Clamping assembly and test equipment

Technical Field

The utility model belongs to the technical field of consumable clamping, and particularly relates to a clamping assembly and testing equipment.

Background

Before the regenerated consumable is used, the regenerated consumable needs to be tested by using consumable testing equipment so as to ensure that the regenerated consumable can be normally used, and the consumable needs to be clamped and fixed when the consumable is tested.

The related art discloses a consumable centre gripping frock, including the body, this internal accommodation space that supplies the consumptive material to slide in that is equipped with has the consumptive material stitch that extends along the slip direction of consumptive material in the accommodation space, and accommodation space's bottom has the draw-in groove, and has the slide that supplies the consumptive material to slide in the accommodation space, and this slide includes first horizontal plane, joint face and the second horizontal plane that distributes in proper order along the slip direction of consumptive material, and the height of first horizontal plane is greater than the height of second horizontal plane. The support piece of bar is all equipped with to two sides of consumptive material, and the bottom surface of support piece's front end is equipped with the arch, and the bottom of consumptive material still is equipped with the clamping part.

In the consumable sliding process, the bulge is firstly contacted with the first horizontal plane, the bulge is contacted with the second horizontal plane beyond the connecting surface along with the continuous sliding of the consumable, meanwhile, the bottom surface of the supporting piece is contacted with the first horizontal plane, at the moment, the consumable is lowered, the clamping part is inserted into the clamping groove, so that the consumable is limited in the direction of sliding out of the accommodating space, and meanwhile, the chip contact of the consumable is abutted with the consumable pin. However, in the process of lowering the consumable, relative displacement occurs between the chip of the consumable and the pin of the consumable in the vertical direction, so that friction is generated, and thus the pin of the consumable and the chip of the consumable may be damaged.

Disclosure of Invention

The embodiment of the utility model aims to provide a device capable of solving the problem that when consumable materials are installed, the chip of the consumable materials and the pins of the consumable materials can be subjected to relative displacement, so that the pins of the consumable materials and the chip of the consumable materials are damaged.

In order to solve the technical problems, the utility model is realized as follows:

in a first aspect, an embodiment of the present utility model provides a clamping assembly, configured to mount a consumable, where the clamping assembly includes a clamping main body, a vertical plate, and a positioning member, the clamping main body and the vertical plate enclose an accommodating space, the accommodating space has an opening into which the consumable slides, the clamping main body is provided with a first sliding portion, the consumable is provided with a second sliding portion, the consumable is mounted in the clamping assembly along a mounting direction parallel to the consumable through sliding fit of the first sliding portion and the second sliding portion, and the positioning member can be in positioning fit with the consumable in a direction in which the consumable slides out of the accommodating space.

In a second aspect, an embodiment of the present utility model further provides a test apparatus, including a substrate and the above-mentioned clamping assembly, where the clamping body is provided with a circuit board, and the circuit board is provided with consumable pins and main control pins for electrically connecting with the test apparatus, and the substrate is provided with a main control board, and the main control board is provided with a slot, and the main control pins are inserted into the slot.

In the embodiment of the utility model, the clamping main body is provided with the first sliding part, the consumable is provided with the second sliding part, the first sliding part and the second sliding part are in sliding fit in the installation direction parallel to the consumable, and the installation direction extends along the horizontal direction. When packing into the clamping assembly with the consumptive material, second sliding part and first sliding part sliding fit, simultaneously, the consumptive material slides into accommodation space along its installation direction in, when the consumptive material is in the installed state, the locating component can fix a position the consumptive material to prevent that the consumptive material roll-off accommodation space. Therefore, the consumable in the embodiment of the utility model can slide into the accommodating space along the installation direction, and the second sliding part of the consumable is extended along the horizontal direction, so that the height of the consumable cannot be changed in the process of sliding into the accommodating space along the first sliding part, and in the vertical direction, the butt joint can be realized without relative displacement between the chip of the consumable and the pin of the consumable, thereby reducing the risk of damage to the chip of the pin of the consumable and the pin of the consumable.

Drawings

FIG. 1 is a first isometric view of a first consumable clamping assembly disclosed in an embodiment of the present utility model;

FIG. 2 is a second side view of a first consumable clamping assembly according to an embodiment of the present disclosure;

FIG. 3 is a third axial side view of a first consumable clamping assembly according to an embodiment of the present disclosure;

FIG. 4 is a first isometric view of a first consumable material disclosed in an embodiment of the present utility model;

FIG. 5 is a second side view of a first consumable material disclosed in an embodiment of the present utility model;

FIG. 6 is a schematic diagram illustrating an assembly of a first consumable and a first consumable clamping assembly according to an embodiment of the present utility model;

FIG. 7 is an isometric view of a second consumable clamping assembly disclosed in an embodiment of this utility model;

FIG. 8 is a first isometric view of a second consumable material disclosed in an embodiment of the present utility model;

FIG. 9 is a second side view of a second consumable material according to an embodiment of the present disclosure;

FIG. 10 is an isometric view of a substrate according to an embodiment of the present utility model;

FIG. 11 is an enlarged schematic view of the main control board and the slot shown in FIG. 10A according to the present utility model;

fig. 12 is an assembly schematic diagram of a consumable and a consumable testing apparatus according to an embodiment of the present utility model.

Reference numerals illustrate:

100-clamping body, 110-receiving space, 120-riser, 130-first clamping block, 131-first flange portion, 132-first stop, 133-first projection, 134-second projection, 135-fifth projection, 140-second clamping block, 141-second flange portion, 142-second stop, 143-third projection, 144-fourth projection, 145-sixth projection, 150-circuit board, 151-consumable pin, 152-master pin, 160-positioning portion, 200-positioning member, 210-abutment, 211-snap projection, 220-spring, 300-consumable, 310-first limited portion, 320-second limited portion, 330-mating portion, 340-positioning face, 400-base, 500-magnetic piece, 600-first slide, 610-first slide, 620-second projection, 700-second slide, 710-first projection, 720-second slide, 800-master board, 810-socket.

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 some, but not all embodiments of the utility model are described. 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.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present utility model may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The clamping assembly and the testing device provided by the embodiment of the utility model are described in detail below through specific embodiments and application scenes thereof with reference to the accompanying drawings.

As shown in fig. 1 to 9, the embodiment of the present utility model discloses a clamping assembly for mounting a consumable 300, the clamping assembly includes a clamping body 100, a vertical plate 120 and a positioning member 200, an accommodating space 110 is formed around the clamping body 100 and the vertical plate 120, the accommodating space 110 has an opening into which the consumable 300 slides, a first sliding portion 600 is provided on the clamping body 100, the consumable 300 is provided with a second sliding portion 700, the consumable 300 is mounted into the clamping assembly through sliding fit of the first sliding portion 600 and the second sliding portion 700 along a mounting direction parallel to the consumable 300, wherein the mounting direction of the consumable 300 is a direction indicated by an arrow line X2 in fig. 1, and the positioning member 200 is capable of positioning fit with the consumable 300 in a direction in which the consumable 300 slides out of the accommodating space 110 (a direction indicated by an arrow line X1 in fig. 1). Alternatively, the consumable 300 may be an ink cartridge or the like.

In the embodiment of the present utility model, the clamping body 100 is provided with a first sliding portion 600, the consumable 300 is provided with a second sliding portion 700, the first sliding portion 600 and the second sliding portion 700 are slidingly matched in a mounting direction parallel to the consumable 300, and the mounting direction extends along a horizontal direction. When the consumable 300 is mounted to the clamping assembly, the second sliding part 700 is in sliding fit with the first sliding part 600, and meanwhile, the consumable 300 slides into the accommodating space 110 along the mounting direction of the consumable 300, and when the consumable 300 is in the mounting state, the positioning member 200 can position the consumable 300 so as to prevent the consumable 300 from sliding out of the accommodating space 110. Therefore, the consumable 300 according to the embodiment of the utility model can slide into the accommodating space 110 along the installation direction, and the second sliding portion 700 of the consumable 300 does not change in height during the process of sliding into the accommodating space 110 along the first sliding portion 600 because the installation direction extends along the horizontal direction, so that the chip of the consumable 300 and the consumable pins 151 can be abutted without relative displacement in the vertical direction, and the risk of damage to the chip of the consumable pins 151 and the consumable 300 is reduced. In addition, it should be noted that, if the manufacturing error allows, the direction in which the consumable 300 slides into the accommodating space 110 may have a certain inclination angle compared to the installation direction of the consumable 300, which is also within the scope of "parallel to" in the embodiment of the present utility model.

In an alternative embodiment, the first slide 600 includes a first slide 610 and the second slide 700 includes a first protrusion 710 protruding from the consumable 300, the first protrusion 710 slidably engaging the first slide 610 such that the consumable 300 fits into the clamping assembly in a direction parallel to the mounting direction of the consumable 300; in this embodiment, the first sliding way 610 may be a sliding way disposed on the clamping assembly, and the first sliding way 610 may extend from the opening of the accommodating space 110 to the vertical plate 120 along the installation direction, and at least a portion of the first protrusion 710 is located in the first sliding way 610 and is slidably engaged with the first sliding way 610. Alternatively, the first protrusion 710 extends in the installation direction, so that the contact area between the first protrusion 710 and the first slide 610 is larger, thereby allowing the consumable 300 to more stably slide into the receiving space 110.

Alternatively, the first sliding part 600 includes the second protrusion 620, the second sliding part 700 includes the second slideway 720, and the second protrusion 620 is slidably engaged with the second slideway 720, so that the consumable 300 is loaded into the clamping assembly in a mounting direction parallel to the consumable 300. In this embodiment, the second slide 720 may be a chute disposed on the consumable 300, and the second slide 720 may extend from a front side of the consumable 300 to a rear side of the consumable 300, wherein the front side of the consumable 300 is a side of a distal end of the consumable 300 in an installation direction thereof, and at least a portion of the second protrusion 620 is disposed in the second slide 720 and slidably engaged with the second slide 720. Alternatively, the second protrusion 620 extends in the installation direction, so that the contact area between the second protrusion 620 and the second slideway 720 is larger, thereby enabling the consumable 300 to slide into the receiving space 110 more stably.

In an alternative embodiment, the clamping body 100 comprises a first clamping block 130 and a second clamping block 140, the first clamping block 130 and/or the second clamping block 140 being provided with at least one first slideway 610; alternatively, the first clamping block 130 and/or the second clamping block 140 are provided with at least one second protrusion 620, respectively. In this embodiment, when the number of the first slide ways 610 and the second protrusions 620 is plural, the supporting surface of the clamping body 100 on the consumable 300 is more, and the supporting stability is better. Optionally, the first clamping block 130 and the second clamping block 140 are connected to the riser 120, and the first clamping block 130 and the second clamping block 140 are disposed opposite to each other. Further, a magnetic member 500 is embedded on a surface of the vertical plate 120 facing away from the first clamping block 130 and the second clamping block 140, and the magnetic member 500 can be magnetically matched with the testing device.

Alternatively, the first slide 610 may include only a sliding protrusion extending in the mounting direction, and the first protrusion 710 may be slidably engaged with the top surface of the sliding protrusion. In this embodiment, the consumable 300 can slide into the accommodating space 110 along the installation direction, but since the first slide rail 610 cannot limit the consumable 300 in the vertical upward direction, the rear side of the consumable 300 may be lifted upwards if the consumable 300 receives the vertical upward force, which is not beneficial to installing the consumable 300.

In an alternative embodiment, the first clamping block 130 is provided with a first protrusion 133 and a second protrusion 134 protruding, the second clamping block 140 is provided with a third protrusion 143 and a fourth protrusion 144 protruding, the first slide 610 is formed between the first protrusion 133 and the second protrusion 134, and/or the first slide 610 is formed between the third protrusion 144 and the fourth protrusion 143. In this embodiment, the first clamping block 130 is provided with a first protrusion 133 and a second protrusion 134 in a protruding manner, the first protrusion 710 may be located in a first slide formed by the first protrusion 133 and the second protrusion 134, and the first protrusion 710 may be simultaneously slidably engaged with a surface of the first protrusion 133 facing the first slide and a surface of the second protrusion 134 facing the first slide. In this way, when the consumable 300 receives the vertical upward force, the higher one of the first protrusion 133 and the second protrusion 134 can prevent the rear side of the consumable 300 from being lifted upwards, so as to solve the problem that the mounting of the consumable 300 is not facilitated due to the lifting of the rear side of the consumable 300. Similarly, the first protrusion 710 may also be located within a first slide formed between the third protrusion 144 and the fourth protrusion 143, the higher of the third protrusion 144 and the fourth protrusion 143 also preventing the rearward side of the consumable 300 from lifting up.

In an alternative embodiment, the first and second protrusions 133 and 134 are disposed adjacent to the sidewall of the first clamping block 130 of the positioning member 200, and the third and fourth protrusions 143 and 144 are disposed opposite to the first and second protrusions 133 and 134 on the sidewall of the second clamping block 140, with the first and third protrusions 133 and 143 being disposed spaced apart from the second and fourth protrusions 134 and 144, respectively. In this embodiment, the first protrusion 133 and the second protrusion 134 are disposed adjacent to the positioning member 200, and the third protrusion 143 and the fourth protrusion 144 are opposite to the first protrusion 133 and the second protrusion 134, respectively, that is, the first slide 610 is disposed adjacent to the positioning member 200, and the first protrusion 710 engaged with the first slide 610 is disposed at the top of the consumable 300, so as to facilitate processing of the first protrusion 710.

In the above embodiment, in the installation direction of the consumable 300, the consumable pin 151 may be relied on to limit the consumable 300, but the strength of the consumable pin 151 is lower, so that the acting force applied to the consumable pin 151 by the consumable 300 is also larger under the condition that the pushing force applied to the consumable 300 is larger, so that the consumable pin 151 may be damaged, and the consumable 300 cannot be limited in the installation direction.

In an alternative embodiment, the first clamping block 130 is further provided with a first stopper 132, the second clamping block 140 is provided with a second stopper 142, the first stopper 132 is located on the first slide 610 of the first clamping block 130, the second stopper 142 is located on the first slide 610 of the second clamping block 140, the first stopper 132 and the second stopper 142 are oppositely disposed, the consumable 300 includes a first limited portion 310 and a second limited portion 320, the first stopper 132 can be in abutting engagement with the first limited portion 310 of the consumable 300, and the second stopper 142 can be in abutting engagement with the second limited portion 320 of the consumable 300 based on the installation state of the consumable 300. In this embodiment, the first slide way 610 of the first clamping block 130 is provided with the first stopper 132, the first slide way 610 of the second clamping block 140 is provided with the second stopper 142, and when the first stopper 132 is in abutting engagement with the first limited portion 310 of the consumable 300 and the second stopper 142 is in abutting engagement with the second limited portion 320 of the consumable 300 during the process of installing the consumable 300 in the clamping assembly, the consumable 300 cannot move along the installation direction, and at this time, the consumable pins 151 are in contact with the chip of the consumable 300, and the consumable 300 is in an installation state. Thus, the present embodiment can avoid the problem that the consumable 300 damages the consumable pins 151 under the condition that the pushing force applied to the consumable 300 is large.

In the case where the first slide 610 includes the combination of the second protrusion 134, the fourth protrusion 144, the first protrusion 133 and the third protrusion 143 in this embodiment, the first stopper 132 may be disposed on the top surface of the lower one of the second protrusion 134 and the first protrusion 133, and the second stopper 142 may be disposed on the top surface of the lower one of the fourth protrusion 144 and the third protrusion 143.

Further, the first stopper 132 may be independently provided; alternatively, the first protrusion 710 may include the first stopper 132, with the top surface of the lower one of the second protrusion 134 and the fourth protrusion 144 being in sliding engagement with the first stopper 132, while the top surface of the lower one of the first protrusion 133 and the third protrusion 143 is in sliding engagement with the first stopper 132.

In the above-described embodiment, the consumable 300 may be positioned in the vertical direction by the engagement between the first and second sliders 600 and 700. In an alternative embodiment, the clamping body 100 further includes a positioning portion 160, the consumable 300 has a positioning surface 340, the positioning surface 340 abuts the positioning portion 160 based on the mounted state of the consumable 300, and the consumable 300 is positioned between the positioning member 200 and the positioning portion 160. In this embodiment, the clamping body 100 further includes a positioning portion 160, the positioning portion 160 may abut against a positioning surface 340 of the consumable 300, and the positioning member 200 may be matched with the positioning portion 160, so as to position the consumable 300 therebetween, so that it can be seen that, in addition to positioning the consumable 300 in the vertical direction through the cooperation between the first sliding portion 600 and the second sliding portion 700, the consumable 300 can be positioned in the vertical direction through the positioning surface 340, so that the positioning of the consumable 300 in the vertical direction in this embodiment is more accurate, and the chip of the consumable 300 is ensured to be in contact with the consumable pins 151. Further, the positioning surface 340 of the consumable 300 is the bottom surface of the consumable 300, so that the positioning surface 340 does not need to be additionally arranged on the consumable 300, and the processing difficulty of the consumable 300 can be reduced.

Alternatively, an L-shaped groove may be provided on a surface of the first clamping block 130 facing the second clamping block 140 and a surface of the second clamping block 140 facing the first clamping block 130, respectively, and a bottom wall of the L-shaped groove may be used as the positioning portion 160. But the process for processing the L-shaped groove is complex and the processing cost is high. In an alternative embodiment, the positioning portion 160 includes a first flange portion 131 and a second flange portion 141, and the clamping body 100 includes a first clamping block 130 and a second clamping block 140, where the first flange portion 131 and the second flange portion 141 protrude from the first clamping block 130 and the second clamping block 140, respectively, and are disposed opposite to each other, that is, the first flange portion 131 protrudes from the first clamping block 130 toward the second clamping block 140, and the second flange portion 141 protrudes from the second clamping block 140 toward the first clamping block 130. In this embodiment, the top surface of the first flange 131 and the top surface of the second flange 141 can be abutted to the consumable 300, so as to position the consumable 300. In addition, the first flange portion 131 and the second flange portion 141 may be machined in advance, and then the first flange portion 131 is connected to the first clamping block 130, and the second flange portion 141 is connected to the second clamping block 140, so that the machining process may be simplified, and the machining cost may be reduced.

In the above embodiment, when the consumable 300 is installed, the position of the consumable 300 needs to be adjusted in advance, so that the chip of the consumable 300 is aligned with the consumable pin 151 in the first direction, and the chip of the consumable 300 is in contact with the consumable pin 151. Adjusting the position of the consumable 300 in advance consumes more installation time, which reduces the installation efficiency of the consumable 300. In an alternative embodiment, the first clamping block 130 is further provided with a fifth protrusion 135, the second clamping block 140 is further provided with a sixth protrusion 145, the fifth protrusion 135 and the sixth protrusion 145 each extend along the sliding direction of the consumable 300, the fifth protrusion 135 and the sixth protrusion 145 each can be slidably matched with the consumable 300, and the fifth protrusion 135 and the sixth protrusion 145 cooperate to enable the consumable 300 to be positioned in a first direction, wherein the first direction is perpendicular to the sliding direction and the vertical direction of the consumable 300. In a specific operation process, during the process of mounting the consumable 300 to the clamping assembly, two sides of the consumable 300 in the first direction may be slidably engaged with the fifth protrusion 135 and the sixth protrusion 145, respectively, that is, two sides of the consumable 300 in the first direction may be in contact with the fifth protrusion 135 and the sixth protrusion 145, respectively, so that the consumable 300 may be positioned in the first direction, thereby aligning the chip of the consumable 300 with the consumable pins 151 in the first direction. Therefore, when the consumable 300 is loaded into the clamping assembly, the chip of the consumable 300 can be aligned to the consumable pins 151 without adjusting the position of the consumable 300, so that the mounting efficiency of the consumable 300 is improved.

In an alternative embodiment, the positioning member 200 is disposed on the vertical plate 120, the positioning member 200 includes a pressing member 210 and an elastic piece 220, the pressing member 210 has a protruding part 211, the pressing member 210 is rotatably disposed opposite to the vertical plate 120, two ends of the elastic piece 220 are respectively connected to the clamping body 100 and the pressing member 210, the pressing member 210 can rotate between a first position and a second position, and in the case that the pressing member 210 is located at the first position, the protruding part 211 can be in positioning fit with a fitting part 330 disposed on the top surface of the consumable 300, so that the consumable 300 is positioned in the direction that the consumable 300 slides out of the accommodating space 110; in the case where the pressing member 210 is located at the second position, the protruding portion 211 may be disengaged from the consumable 300. The specific operation process is as follows, when the consumable 300 is installed, the consumable 300 slides in the accommodating space 110 along the installation direction of the consumable 300, when the matching portion 330 on the top surface of the consumable 300 slides to the clamping protrusion 211, the pressing member 210 can be rotated upwards to lift a certain angle, so that the pressing member 210 is located at the second position, the consumable 300 is pushed inwards continuously, the pressing member 210 can be rotated from the second position to the first position under the action of the elastic member 220, so that the consumable 300 is positioned in the direction of sliding out of the accommodating space 110, and the consumable 300 is prevented from sliding out of the accommodating space 110. Alternatively, the elastic member 220 may be a torsion spring or a coil spring.

Further, the protruding clamping portion 211 sequentially has a guiding surface and a locking surface in the mounting direction of the consumable 300, when the matching portion 330 on the top surface of the consumable 300 slides to the protruding clamping portion 211, the matching portion 330 contacts with the guiding surface to continuously push the consumable 300, and the matching portion 330 matches with the guiding surface, so that the pressing member 210 can be lifted up by a certain angle in an upward rotation manner, and the pressing member 210 is located at the second position. In the case that the pressing member 210 is located at the first position, the locking surface may be in a limit fit with the fitting portion 330 in a direction in which the consumable 300 slides out of the accommodating space 110, so as to prevent the consumable 300 from sliding out of the accommodating space 110.

In an alternative embodiment, the riser 120 is further provided with a circuit board 150, the circuit board 150 is provided with consumable pins 151 and a main control pin 152 for electrically connecting with a test device, one end of the consumable pins 151 away from the circuit board 150 is located in the accommodating space 110, and the axis of the consumable pins 151 extends along the sliding direction of the consumable 300, where the sliding direction of the consumable is the installation direction of the consumable 300 and the direction in which the consumable 300 slides out of the accommodating space 110. In this embodiment, the main control pins 152 of the circuit board 150 can be inserted into the slots 810 of the main control board 800 of the test device, so that the consumable clamping assembly is electrically connected with the test device, the consumable pins 151 can be in contact with the chip of the consumable 300, so that the consumable 300 is electrically connected with the consumable clamping assembly, and further the consumable 300 is electrically connected with the test device, so that the test device can test the consumable 300. In addition, the main control pins 152 are inserted into the main control board 800, that is, the clamping assembly is detachably connected with the testing device, so that the clamping assemblies of different types can be replaced, and the clamping assemblies of different types can be respectively adapted to the consumables 300 of different types, so that the same testing device can test the consumables 300 of different types.

As shown in fig. 10 to 12, the embodiment of the present utility model further discloses a test device, which includes a substrate 400 and the clamping assembly described in any of the foregoing embodiments, wherein the clamping body 100 is provided with a circuit board 150, the circuit board 150 is provided with consumable pins 151 and main control pins 152 for electrically connecting with the test device, the substrate 400 is provided with a main control board 800, the main control board 800 is provided with a slot 810, and the main control pins 152 are inserted into the slot 810. In the embodiment of the present utility model, the clamping body 100 is provided with a first sliding portion 600, the consumable 300 is provided with a second sliding portion 700, the first sliding portion 600 and the second sliding portion 700 are slidingly matched in a mounting direction parallel to the consumable 300, and the mounting direction extends along a horizontal direction. When the consumable 300 is mounted to the clamping assembly, the second sliding part 700 is in sliding fit with the first sliding part 600, and meanwhile, the consumable 300 slides into the accommodating space 110 along the mounting direction of the consumable 300, and when the consumable 300 is in the mounting state, the positioning member 200 can position the consumable 300 so as to prevent the consumable 300 from sliding out of the accommodating space 110. Therefore, the consumable 300 according to the embodiment of the utility model can slide into the accommodating space 110 along the installation direction, and the second sliding portion 700 of the consumable 300 does not change in height during the process of sliding into the accommodating space 110 along the first sliding portion 600 because the installation direction extends along the horizontal direction, so that the chip of the consumable 300 and the consumable pins 151 can be abutted without relative displacement in the vertical direction, and the risk of damage to the chip of the consumable pins 151 and the consumable 300 is reduced.

The foregoing embodiments of the present utility model mainly describe differences between the embodiments, and as long as there is no contradiction between different optimization features of the embodiments, the embodiments may be combined to form a better embodiment, and in view of brevity of line text, no further description is provided herein. The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.

Claims (12)

1. Clamping assembly for installing consumable (300), its characterized in that, clamping assembly includes clamping main body (100), riser (120) and locating component (200), clamping main body (100) with riser (120) enclose to establish and are formed with accommodation space (110), accommodation space (110) have the confession consumable (300) slide in opening, be equipped with first slider (600) on clamping main body (100), consumable (300) set up second slider (700), consumable (300) pass through first slider (600) with second slider (700) sliding fit is along being on a parallel with the installation direction of consumable (300) packs into clamping assembly consumable (300) roll-off in accommodation space (110)'s direction, locating component (200) can with consumable (300) location cooperation.

2. The clamping assembly according to claim 1, wherein the first slide (600) comprises a first slideway (610), the second slide (700) comprises a first protrusion (710) protruding from the consumable (300), the first protrusion (710) being in sliding engagement with the first slideway (610) such that the consumable (300) fits into the clamping assembly in a mounting direction parallel to the consumable (300); or, the first sliding part (600) comprises a second protrusion (620), the second sliding part (700) comprises a second slideway (720), and the second protrusion (620) is in sliding fit with the second slideway (720), so that the consumable (300) is installed into the clamping assembly along the installation direction parallel to the consumable (300).

3. The clamping assembly according to claim 2, characterized in that the clamping body (100) comprises a first clamping block (130) and a second clamping block (140), the first clamping block (130) and/or the second clamping block (140) being provided with at least one first slideway (610); or, the first clamping block (130) and/or the second clamping block (140) is provided with at least one second protrusion (620).

4. A clamping assembly according to claim 3, wherein the first clamping block (130) is provided with a first protrusion (133) and a second protrusion (134) in a protruding manner, the second clamping block (140) is provided with a third protrusion (143) and a fourth protrusion (144) in a protruding manner, the first slideway (610) is formed between the first protrusion (133) and the second protrusion (134), and/or the first slideway (610) is formed between the third protrusion (143) and the fourth protrusion (144).

5. The clamping assembly of claim 4, wherein the first (133) and second (134) protrusions are disposed adjacent to a sidewall of the first clamping block (130) of the positioning member (200), the third (143) and fourth (144) protrusions are disposed opposite the first (133) and second (134) protrusions on a sidewall of the second clamping block (140), the first (133) and third (143) protrusions being disposed in spaced relation to the second (134) and fourth (144) protrusions, respectively.

6. A clamping assembly according to claim 3, wherein the first clamping block (130) is further provided with a first stopper (132), the second clamping block (140) is provided with a second stopper (142), the first stopper (132) is located on the first slide (610) of the first clamping block (130), the second stopper (142) is located on the first slide (610) of the second clamping block (140), the first stopper (132) and the second stopper (142) are arranged opposite to each other, the consumable (300) comprises a first restricted portion (310) and a second restricted portion (320), the first stopper (132) is in abutting engagement with the first restricted portion (310) of the consumable (300) and the second stopper (142) is in abutting engagement with the second restricted portion (320) of the consumable (300) based on the mounted state of the consumable (300).

7. The clamping assembly of any of claims 1-6, wherein the clamping body (100) further comprises a positioning portion (160), the consumable having a positioning surface (340), the positioning surface (340) abutting the positioning portion (160) based on the installed state of the consumable (300), the consumable (300) being positioned between the positioning member (200) and the positioning portion (160).

8. The clamping assembly of claim 7, wherein the positioning portion (160) includes a first flange portion (131) and a second flange portion (141), the clamping body (100) includes a first clamping block (130) and a second clamping block (140), and the first flange portion (131) and the second flange portion (141) protrude from the first clamping block (130) and the second clamping block (140), respectively, and are disposed opposite each other.

9. The clamping assembly of claim 3, wherein the first clamping block (130) is further provided with a fifth protrusion (135), the second clamping block (140) is further provided with a sixth protrusion (145), the fifth protrusion (135) and the sixth protrusion (145) each extend along the sliding direction of the consumable (300), the fifth protrusion (135) and the sixth protrusion (145) each slidably cooperate with the consumable (300), the fifth protrusion (135) and the sixth protrusion (145) cooperate to position the consumable (300) in a first direction,

wherein the first direction is perpendicular to both the sliding direction and the vertical direction of the consumable (300).

10. The clamping assembly according to claim 1, wherein the positioning member (200) is disposed on the vertical plate (120), the positioning member (200) includes a pressing member (210) and an elastic member (220), the pressing member (210) has a protruding portion (211), the pressing member (210) is rotatably disposed with respect to the vertical plate (120), both ends of the elastic member (220) are respectively connected to the clamping body (100) and the pressing member (210),

the pressing member (210) is rotatable between a first position and a second position, and the clamping protrusion (211) can be matched with a matching part (330) arranged on the top surface of the consumable (300) in a positioning way under the condition that the pressing member (210) is positioned at the first position so as to enable the consumable (300) to be positioned in the direction that the consumable slides out of the accommodating space (110); the card protrusion (211) may be disengaged from the consumable (300) with the pressure member (210) in the second position.

11. The clamping assembly according to claim 1, wherein the riser (120) is further provided with a circuit board (150), consumable pins (151) and main control pins (152) for electrical connection with test equipment are arranged on the circuit board (150), one end of the consumable pins (151) away from the circuit board (150) is located in the accommodating space (110), and an axis of the consumable pins (151) extends along a sliding direction of the consumable (300).

12. Test equipment, characterized by comprising a base body (400) and a clamping assembly according to any of claims 1 to 11, wherein a circuit board (150) is arranged on the clamping body (100), consumable pins (151) and main control pins (152) for electrically connecting with the test equipment are arranged on the circuit board (150),

a main control board (800) is arranged in the base body (400), a slot (810) is formed in the main control board (800), and the main control pins (152) are inserted into the slot (810).